blob_id stringlengths 40 40 | directory_id stringlengths 40 40 | path stringlengths 3 264 | content_id stringlengths 40 40 | detected_licenses listlengths 0 85 | license_type stringclasses 2
values | repo_name stringlengths 5 140 | snapshot_id stringlengths 40 40 | revision_id stringlengths 40 40 | branch_name stringclasses 905
values | visit_date timestamp[us]date 2015-08-09 11:21:18 2023-09-06 10:45:07 | revision_date timestamp[us]date 1997-09-14 05:04:47 2023-09-17 19:19:19 | committer_date timestamp[us]date 1997-09-14 05:04:47 2023-09-06 06:22:19 | github_id int64 3.89k 681M ⌀ | star_events_count int64 0 209k | fork_events_count int64 0 110k | gha_license_id stringclasses 22
values | gha_event_created_at timestamp[us]date 2012-06-07 00:51:45 2023-09-14 21:58:39 ⌀ | gha_created_at timestamp[us]date 2008-03-27 23:40:48 2023-08-21 23:17:38 ⌀ | gha_language stringclasses 141
values | src_encoding stringclasses 34
values | language stringclasses 1
value | is_vendor bool 1
class | is_generated bool 2
classes | length_bytes int64 3 10.4M | extension stringclasses 115
values | content stringlengths 3 10.4M | authors listlengths 1 1 | author_id stringlengths 0 158 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
625135711a8fcb9ae83b168ee14e1049dac54b5d | df6ba88e2d98f7dce26081839683d578277eee1d | /src/Epochlib/RedisConnector.hpp | e60ef37350be085471cff612ab9f4290672b5695 | [] | no_license | EpochModTeam/EpochServer | a6a7699b94fbd68bd533fc6e849cfca07fda82eb | be86db6a7e12cfd173a3a7320924b8f7c7566109 | refs/heads/master | 2021-01-10T17:11:56.782679 | 2017-06-01T12:27:33 | 2017-06-01T12:27:33 | 49,726,086 | 3 | 4 | null | 2017-03-07T14:00:46 | 2016-01-15T15:12:54 | C++ | UTF-8 | C++ | false | false | 1,059 | hpp | /* Default Epochlib defines */
#include "defines.hpp"
#include <mutex>
#include <cstdarg>
#ifdef WIN32
#include "../../deps/redis/deps/hiredis/hiredis.h"
#include <time.h>
#define IS_WINDOWS_PLATFORM
#endif
#ifdef IS_WINDOWS_PLATFORM
#ifdef _WIN64
#pragma comment(lib, "../../deps/redis/msvs/x64/Release/hiredis.lib")
#pragma comment(lib, "../../deps/redis/msvs/x64/Release/Win32_Interop.lib")
#else
#pragma comment(lib, "../../deps/redis/msvs/Release/hiredis.lib")
#pragma comment(lib, "../../deps/redis/msvs/Release/Win32_Interop.lib")
#endif
#else
//#include "../../deps/redis/deps/hiredis/hiredis.h"
#include <hiredis.h>
#include <sys/time.h>
#endif
#ifndef __REDISCONNECTOR_H__
#define __REDISCONNECTOR_H__
#define REDISCONNECTOR_MAXCONNECTION_RETRIES 3
class RedisConnector {
private:
EpochlibConfigRedis config;
std::mutex contextMutex;
redisContext *context;
void _reconnect(bool force);
public:
RedisConnector(EpochlibConfigRedis Config);
~RedisConnector();
EpochlibRedisExecute execute(const char *RedisCommand, ...);
};
#endif
| [
"vbawol@veteranbastards.com"
] | vbawol@veteranbastards.com |
e9cda9d8629864e419a7e5dd37fab832b7bf1870 | 91e99d13259b301cc9d05c468b90f2d339f0da6a | /Reversi/DX_Core.cpp | 36c8f907eb96171724273ba34636a997c40bd770 | [] | no_license | Nao-Shirotsu/DxLib_Reversi | 130a83fc12b004f8cd8c4ace3a95bdf108d70153 | 970d4515614f2d677dcb6859737db7c66d7780e9 | refs/heads/master | 2021-08-16T15:56:06.849400 | 2018-12-06T07:12:02 | 2018-12-06T07:12:02 | 146,772,926 | 0 | 0 | null | 2018-11-25T14:00:27 | 2018-08-30T15:53:16 | C++ | UTF-8 | C++ | false | false | 955 | cpp | #include <iostream>
#include "DxLib.h"
#include "DX_ConstantValues.h"
#include "DX_Core.h"
#include "Util.h"
namespace DX{
Core::Core():
UtilManager(),
dxError( false ){
ChangeWindowMode( SET_WINDOW_MODE );
SetDrawScreen( SCREEN_BACK );
SetGraphMode( WINDOW_WIDTH_X, WINDOW_WIDTH_Y, COLOR_BIT_NUM );
SetMainWindowText( Util::ToCharPtr( "リバーシ オンライン対戦" ) );
dxError = DxLib_Init();
ChangeFont("M+ 2m light"); //Fontインストール済じゃないと意味ないよ
}
Core::~Core(){
DxLib_End();
}
void Core::Update(){
GetHitKeyStateAll( keyState );
cursol->SetClickFlag( !GetMouseInputLog2( cursol->GetPtrClickButtonType(), cursol->GetPtrPosX(), cursol->GetPtrPosY(), cursol->GetPtrClickLogType() ) );
GetMousePoint( cursol->GetPtrPosX(), cursol->GetPtrPosY() );
dxError = ProcessMessage();
}
void Core::Draw() const{
ScreenFlip();
ClearDrawScreen();
}
bool Core::HasError() const{
return dxError;
}
} | [
"albus0sh@gmail.com"
] | albus0sh@gmail.com |
2ee56bc5d32de1b47c37f2021845e1dfe9fce4a9 | bc30cc35bc3b82ac97ad28848899c1693d2c5534 | /Target/Unreal2/Generator.cpp | d35c1654a301bf72575d2c973f28641a4f6a39e1 | [
"MIT"
] | permissive | ALEHACKsp/UnrealSDKGenerator | f0d96c3070b0178726ed16c6c12fec734d3256d1 | 2d012bf4569f8f84d695e60d45b384bd7758e8e4 | refs/heads/master | 2022-12-19T06:46:42.408416 | 2020-09-29T21:15:23 | 2020-09-29T21:15:23 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 7,651 | cpp | #include "IGenerator.hpp"
#include "ObjectsStore.hpp"
#include "NamesStore.hpp"
class Generator : public IGenerator
{
public:
virtual bool Initialize(void* module) override
{
overrideTypes = {
{ "struct FVector", "class Vector3D" },
{ "struct FVector2D", "class Vector2D" }
};
virtualFunctionPattern["Class Core.Object"] = {
{ "\x33\xF6\x89\x65\xF0\x89\x4D\xEC\x89\x75\xFC\x0F\x31", "xxxxxxxxxxxxx", 0x200, R"( void ProcessEvent(class UFunction* function, void* parms)
{
return GetVFunction<void(__thiscall *)(UObject*, class UFunction*, void*, void*)>(this, %d)(this, function, parms, nullptr);
})" }
};
predefinedStaticMembers["Class Core.Object"] = {
{ "TArray<UObject*>*", "GObjects" }
};
predefinedMembers["Class Core.Field"] = {
{ "class UField*", "SuperField" },
{ "class UField*", "Next" },
{ "class UField*", "HashNext" }
};
predefinedMembers["Class Core.Struct"] = {
{ "unsigned char", "UnknownData00[0x08]" },
{ "class UField*", "Children" },
{ "unsigned long", "PropertySize" },
{ "unsigned char", "UnknownData01[0x2C]" }
};
predefinedMembers["Class Core.Function"] = {
{ "uint32_t", "FunctionFlags" },
{ "uint16_t", "iNative" },
{ "uint16_t", "RepOffset" },
{ "uint8_t", "OperPrecedence" },
{ "uint8_t", "NumParms" },
{ "uint16_t", "ParmsSize" },
{ "uint16_t", "ReturnValueOffset" },
{ "char", "UnknownData00[0x02]" },
{ "void*", "Func" }
};
predefinedMethods["Struct Core.Object.Color"] = {
PredefinedMethod::Inline(R"( FColor()
: R(0), G(0), B(0), A(0)
{ })"),
PredefinedMethod::Inline(R"( FColor(unsigned char r, unsigned char g, unsigned char b, unsigned char a)
: R(r),
G(g),
B(b),
A(a)
{ })")
};
predefinedMethods["Class Core.Object"] = {
PredefinedMethod::Default("static TArray<UObject*>& GetGlobalObjects()", R"(TArray<UObject*>& UObject::GetGlobalObjects()
{
return *GObjects;
})"),
PredefinedMethod::Default("std::string GetName() const", R"(std::string UObject::GetName() const
{
return Name.GetName();
})"),
PredefinedMethod::Default("std::string GetFullName() const", R"(std::string UObject::GetFullName() const
{
std::string name;
if (Class != nullptr)
{
std::string temp;
for (auto p = Outer; p; p = p->Outer)
{
temp = p->GetName() + "." + temp;
}
name = Class->GetName();
name += " ";
name += temp;
name += GetName();
}
return name;
})"),
PredefinedMethod::Inline(R"( template<typename T>
static T* FindObject(const std::string& name)
{
for (auto i = 0u; i < GetGlobalObjects().Num(); ++i)
{
auto object = GetGlobalObjects().GetByIndex(i);
if (object == nullptr)
{
continue;
}
if (object->GetFullName() == name)
{
return static_cast<T*>(object);
}
}
return nullptr;
})"),
PredefinedMethod::Inline(R"( static UClass* FindClass(const std::string& name)
{
return FindObject<UClass>(name);
})"),
PredefinedMethod::Inline(R"( template<typename T>
static T* GetObjectCasted(std::size_t index)
{
return static_cast<T*>(GetGlobalObjects().GetByIndex(index));
})"),
PredefinedMethod::Default("bool IsA(UClass* cmp) const", R"(bool UObject::IsA(UClass* cmp) const
{
for (auto super = Class; super; super = static_cast<UClass*>(super->SuperField))
{
if (super == cmp)
{
return true;
}
}
return false;
})")
};
predefinedMethods["Class Core.Class"] = {
PredefinedMethod::Inline(R"( template<typename T>
T* CreateDefaultObject()
{
return static_cast<T*>(CreateDefaultObject());
})"),
PredefinedMethod::Inline(R"( UObject* CreateDefaultObject()
{
using Fn = UObject*(__thiscall *)(UClass*);
//UClass::GetDefaultObject can be found with the sig
//56 8B F1 8B 06 57 8B BE ?? ?? ?? ?? FF
static Fn fn = nullptr;
return fn(this);
})")
};
return true;
}
virtual std::string GetGameName() const override
{
return "Unreal 2";
}
virtual std::string GetGameNameShort() const override
{
return "U2";
}
virtual std::string GetGameVersion() const override
{
return "2001";
}
virtual std::string GetNamespaceName() const override
{
return "Classes";
}
virtual std::vector<std::string> GetIncludes() const override
{
return {
R"("../../Math/Vector3D.hpp")",
R"("../../Math/Vector2D.hpp")"
};
}
virtual std::string GetBasicDeclarations() const override
{
return R"(template<typename Fn>
inline Fn GetVFunction(const void *instance, std::size_t index)
{
auto vtable = *reinterpret_cast<const void***>(const_cast<void*>(instance));
return reinterpret_cast<Fn>(vtable[index]);
}
template<class T>
struct TArray
{
friend struct FString;
public:
inline TArray()
{
Data = nullptr;
Count = Max = 0;
};
inline size_t Num() const
{
return Count;
};
inline T& operator[](size_t i)
{
return Data[i];
};
inline const T& operator[](size_t i) const
{
return Data[i];
};
inline bool IsValidIndex(size_t i) const
{
return i < Num();
}
inline T& GetByIndex(size_t i)
{
return Data[i];
}
inline const T& GetByIndex(size_t i) const
{
return Data[i];
}
private:
T* Data;
int32_t Count;
int32_t Max;
};
struct FString : private TArray<wchar_t>
{
inline FString()
{
}
FString(const wchar_t* other)
{
Max = Count = *other ? std::wcslen(other) + 1 : 0;
if (Count)
{
Data = const_cast<wchar_t*>(other);
}
};
inline bool IsValid() const
{
return Data != nullptr;
}
inline const wchar_t* c_str() const
{
return Data;
}
std::string ToString() const
{
auto length = std::wcslen(Data);
std::string str(length, '\0');
std::use_facet<std::ctype<wchar_t>>(std::locale()).narrow(Data, Data + length, '?', &str[0]);
return str;
}
};
template<class TEnum>
class TEnumAsByte
{
public:
inline TEnumAsByte()
{
}
inline TEnumAsByte(TEnum _value)
: value(static_cast<uint8_t>(_value))
{
}
explicit inline TEnumAsByte(int32_t _value)
: value(static_cast<uint8_t>(_value))
{
}
explicit inline TEnumAsByte(uint8_t _value)
: value(_value)
{
}
inline operator TEnum() const
{
return (TEnum)value;
}
inline TEnum GetValue() const
{
return (TEnum)value;
}
private:
uint8_t value;
};
struct FNameEntry
{
char UnknownData00[0xC];
wchar_t Data[0x10];
std::string GetName()
{
auto length = std::wcslen(Data);
std::string str(length, '\0');
std::use_facet<std::ctype<wchar_t>>(std::locale()).narrow(Data, Data + length, '?', &str[0]);
return str;
}
};
struct FName
{
int32_t Index;
FName()
: Index(0)
{
};
FName(int32_t i)
: Index(i)
{
};
FName(const char* nameToFind)
: Index(0)
{
static std::set<size_t> cache;
for (auto i : cache)
{
if (GetGlobalNames()[i]->GetName() == nameToFind)
{
Index = i;
return;
}
}
for (auto i = 0u; i < GetGlobalNames().Num(); ++i)
{
if (GetGlobalNames()[i] != nullptr)
{
if (GetGlobalNames()[i]->GetName() == nameToFind)
{
cache.insert(i);
Index = i;
return;
}
}
}
};
static TArray<FNameEntry*>* GNames;
static inline TArray<FNameEntry*>& GetGlobalNames()
{
return *GNames;
};
inline std::string GetName() const
{
return GetGlobalNames()[Index]->GetName();
};
inline bool operator==(const FName &other) const
{
return Index == other.Index;
};
};
struct FPointer
{
int Dummy;
};
struct FScriptDelegate
{
unsigned char UnknownData[0x0C];
};)";
}
virtual std::string GetBasicDefinitions() const override
{
return R"(TArray<FNameEntry*>* FName::GNames = nullptr;
TArray<UObject*>* UObject::GObjects = nullptr;)";
}
};
Generator _generator;
IGenerator* generator = &_generator;
| [
"zp2kshield@gmail.com"
] | zp2kshield@gmail.com |
a4f9a033097551c0851ad051c16d6d68e2d2823b | 5e135c34baf51eb8c17db4b7fa71fb4f21ab8b8c | /external/aloha/VVVV3_1.cc | eb9bbdb5ada6415cbaaee3b0d64edc0d5d52e8bd | [] | no_license | lmcoy/mypowheg | cd77ae40471272282e28da4a3b21ea12c2d9794c | f9f57e50ebed0d1756b1472e1ef29f4e5bf5dfb9 | refs/heads/master | 2021-01-12T08:07:54.918090 | 2018-09-30T16:53:51 | 2018-09-30T16:53:51 | 76,482,229 | 2 | 0 | null | 2017-04-27T09:28:32 | 2016-12-14T17:34:54 | Fortran | UTF-8 | C++ | false | false | 1,786 | cc | // This File is Automatically generated by ALOHA
// The process calculated in this file is:
// Metric(1,4)*Metric(2,3) - Metric(1,2)*Metric(3,4)
//
#include "VVVV3_1.h"
void VVVV3_1(std::complex<double> V2[], std::complex<double> V3[], std::complex<double> V4[],
std::complex<double> COUP, double M1, double W1, std::complex<double> V1[])
{
std::complex<double> cI = std::complex<double> (0., 1.);
double P1[4];
std::complex<double> TMP23;
std::complex<double> denom;
std::complex<double> TMP14;
std::complex<double> TMP27;
double OM1;
std::complex<double> TMP19;
OM1 = 0.;
if (M1 != 0.)
OM1 = 1./pow(M1, 2);
V1[0] = +V2[0] + V3[0] + V4[0];
V1[1] = +V2[1] + V3[1] + V4[1];
P1[0] = -V1[0].real();
P1[1] = -V1[1].real();
P1[2] = -V1[1].imag();
P1[3] = -V1[0].imag();
TMP14 = (P1[0] * V2[2] - P1[1] * V2[3] - P1[2] * V2[4] - P1[3] * V2[5]);
TMP27 = (V3[2] * V4[2] - V3[3] * V4[3] - V3[4] * V4[4] - V3[5] * V4[5]);
TMP19 = (V3[2] * V2[2] - V3[3] * V2[3] - V3[4] * V2[4] - V3[5] * V2[5]);
TMP23 = (P1[0] * V4[2] - P1[1] * V4[3] - P1[2] * V4[4] - P1[3] * V4[5]);
denom = COUP/(pow(P1[0], 2) - pow(P1[1], 2) - pow(P1[2], 2) - pow(P1[3], 2) -
M1 * (M1 - cI * W1));
V1[2] = denom * (OM1 * P1[0] * (-cI * (TMP14 * TMP27) + cI * (TMP19 * TMP23))
+ (-cI * (TMP19 * V4[2]) + cI * (V2[2] * TMP27)));
V1[3] = denom * (OM1 * P1[1] * (-cI * (TMP14 * TMP27) + cI * (TMP19 * TMP23))
+ (-cI * (TMP19 * V4[3]) + cI * (V2[3] * TMP27)));
V1[4] = denom * (OM1 * P1[2] * (-cI * (TMP14 * TMP27) + cI * (TMP19 * TMP23))
+ (-cI * (TMP19 * V4[4]) + cI * (V2[4] * TMP27)));
V1[5] = denom * (OM1 * P1[3] * (-cI * (TMP14 * TMP27) + cI * (TMP19 * TMP23))
+ (-cI * (TMP19 * V4[5]) + cI * (V2[5] * TMP27)));
}
| [
"oymanns@physik.rwth-aachen.de"
] | oymanns@physik.rwth-aachen.de |
e2feaa3befc98a8c2bcf18a302fc531b3f09f392 | 724ab4b95af7786587d442f206f0c3a895b2e2c1 | /chinko_bot/types/game/context/fight/FightTeamMemberInformations.cpp | 2b180e97143b524853b0747ef1808ed984c13d84 | [] | no_license | LaCulotte/chinko_bot | 82ade0e6071de4114cc56b1eb6085270d064ccb1 | 29aeba90638d0f2fe54d1394c1c9a2f63524e50e | refs/heads/master | 2023-02-04T21:15:20.344124 | 2020-12-26T08:55:00 | 2020-12-26T08:55:00 | 270,402,722 | 4 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 289 | cpp | #include "FightTeamMemberInformations.h"
bool FightTeamMemberInformations::serialize(sp<MessageDataBuffer> output) {
output->writeDouble(id);
return true;
}
bool FightTeamMemberInformations::deserialize(sp<MessageDataBuffer> input) {
id = input->readDouble();
return true;
}
| [
"negeko-inscriptions@hotmail.com"
] | negeko-inscriptions@hotmail.com |
315787ca7f71d6000935b187e8a3fbff2426aabf | ca4b4c9ae9497f0e20a33ba883c66e7f3d5bab53 | /SubtractionStudies/15726_RandomConeCheck/SubtractionPlots.cpp | 5504747d13d5fbe5a4c28b72c4210dc13b17d453 | [] | no_license | FHead/PhysicsHIJetMass | 79c0dd7a0019b0198803af64dfc7a4753b7a9174 | 7cb8c27aa1c89593986a90a2b68ddcc991806c00 | refs/heads/master | 2023-05-31T07:52:24.263711 | 2021-06-16T09:00:35 | 2021-06-16T09:00:35 | 377,433,346 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 3,685 | cpp | #include <iostream>
using namespace std;
#include "TTree.h"
#include "TH1D.h"
#include "TH2D.h"
#include "TFile.h"
#include "TProfile.h"
#include "Code/DrawRandom.h"
#include "BasicUtilities.h"
#include "Messenger.h"
int main(int argc, char *argv[]);
double GetDPhi(double phi1, double phi2);
int main(int argc, char *argv[])
{
if(argc < 4)
{
cerr << "Usage: " << argv[0] << " Input Output Tag" << endl;
return -1;
}
string Input = argv[1];
string Output = argv[2];
string Tag = argv[3];
bool IsData = IsDataFromTag(Tag);
TFile InputFile(Input.c_str());
HiEventTreeMessenger MHiEvent(InputFile);
RhoTreeMessenger MRho(InputFile);
PFTreeMessenger MPF(InputFile, "pfcandAnalyzer/pfTree");
SkimTreeMessenger MSkim(InputFile);
TriggerTreeMessenger MTrigger(InputFile, "hltanalysis/HltTree");
TFile OutputFile(Output.c_str(), "RECREATE");
TTree OutputTree("Tree", "Tree");
double TreeRho, TreeTotalPT, TreeCentrality;
OutputTree.Branch("Rho", &TreeRho, "Rho/D");
OutputTree.Branch("TotalPT", &TreeTotalPT, "TotalPT/D");
OutputTree.Branch("Centrality", &TreeCentrality, "Centrality/D");
TH2D HSubtractedPTHFEnergy("HSubtractedPTHFEnergy", ";HFEnergy;Subtracted Random Cone PT",
1000, 0, 100, 1000, -100, 100);
TH2D HSubtractedPTRatioHFEnergy("HSubtractedPTRatioHFEnergy", ";HFEnergy;Subtracted Random Cone PT / PT",
1000, 0, 100, 1000, -2, 2);
TH1D HSubtractedPT("HSubtractedPT", ";Subtracted Random Cone PT",
1000, -20, 20);
TH1D HTotalPT("HTotalPT", ";Random Cone PT", 1000, 0, 30);
int EntryCount = MHiEvent.Tree->GetEntries();
for(int iEntry = 0; iEntry < EntryCount; iEntry++)
{
MHiEvent.GetEntry(iEntry);
MRho.GetEntry(iEntry);
MSkim.GetEntry(iEntry);
MPF.GetEntry(iEntry);
MTrigger.GetEntry(iEntry);
// if(IsData == true)
// {
// if(MTrigger.CheckTrigger("HLT_PAL1MinimumBiasHF_AND_SinglePixelTrack_v1") == false)
// continue;
// if(MSkim.HBHENoise == false)
// continue;
// }
TreeCentrality = MHiEvent.hiBin;
double EventRho = GetRho(MRho.EtaMax, MRho.Rho, 0);
TreeRho = EventRho;
int Tries = 1;
for(int iT = 0; iT < Tries; iT++)
{
double Eta = DrawRandom(-1, 1);
double Phi = DrawRandom(0, 2 * PI);
double TotalPT = 0;
for(int iC = 0; iC < (int)MPF.PT->size(); iC++)
{
if(Eta - (*MPF.Eta)[iC] > 0.4 || Eta - (*MPF.Eta)[iC] < -0.4)
continue;
double DPhi = GetDPhi(Phi, (*MPF.Phi)[iC]);
double DEta = Eta - (*MPF.Eta)[iC];
if(DPhi * DPhi + DEta * DEta < 0.4 * 0.4)
TotalPT = TotalPT + (*MPF.PT)[iC];
}
TreeTotalPT = TotalPT;
if(TotalPT <= 0) // WTF
continue;
HTotalPT.Fill(TotalPT);
double SubtractedPT = TotalPT - 0.4 * 0.4 * PI * EventRho;
if(fabs(SubtractedPT) > 1e-5)
{
HSubtractedPTHFEnergy.Fill(MHiEvent.hiHFplusEta4, SubtractedPT);
HSubtractedPTRatioHFEnergy.Fill(MHiEvent.hiHFplusEta4, SubtractedPT / TotalPT);
HSubtractedPT.Fill(SubtractedPT);
}
OutputTree.Fill();
}
}
OutputTree.Write();
HSubtractedPTHFEnergy.Write();
HSubtractedPTRatioHFEnergy.Write();
HSubtractedPT.Write();
HTotalPT.Write();
OutputFile.Close();
InputFile.Close();
}
double GetDPhi(double phi1, double phi2)
{
double dphi = phi1 - phi2;
if(dphi < -PI) dphi = dphi + 2 * PI;
if(dphi > +PI) dphi = dphi - 2 * PI;
return dphi;
}
| [
"chen.yi.first@gmail.com"
] | chen.yi.first@gmail.com |
cd009ad7e084356d3c405b7611f1a5fde4906510 | 3cb635004677c95db974b79b7c2f736d74eeaf17 | /packages/teamplay2/tst/heightmaps/HeightMapStoreTest.cpp | 6657bd23983bcc91414ad19c15a45080875daea2 | [
"Apache-2.0"
] | permissive | Falcons-Robocup/code | 46ca709cf8680edc45494a40dc2db54e579dffe6 | dca3ffdfd7020a9913e6af6b555eac107b38a4ca | refs/heads/master | 2023-02-07T10:47:58.550403 | 2023-01-21T16:29:47 | 2023-01-21T16:29:47 | 102,643,355 | 6 | 7 | NOASSERTION | 2019-09-24T21:05:13 | 2017-09-06T18:22:44 | C++ | UTF-8 | C++ | false | false | 6,285 | cpp | // Copyright 2021 Erik Kouters (Falcons)
// SPDX-License-Identifier: Apache-2.0
/*
* HeightMapStoreTest.cpp
*
* Created on: Nov 9, 2017
* Author: Coen Tempelaars
*/
/* Include testframework */
#include "../TeamplayTest.hpp"
/* SUT */
#include "int/stores/HeightMapStore.hpp"
/* SUT dependencies */
#include "int/stores/BallStore.hpp"
#include "int/stores/ConfigurationStore.hpp"
#include "int/stores/ObstacleStore.hpp"
#include "int/stores/RobotStore.hpp"
/* Testing the heightmap store */
class HeightMapStoreTest : public TeamplayTest
{
public:
HeightMapStoreTest()
{
}
};
TEST_F(HeightMapStoreTest, getDescriptions)
{
auto descriptions = HeightMapStore::getInstance().getDescriptions();
EXPECT_THAT(descriptions, Contains(StrEq("Close to own position")));
EXPECT_THAT(descriptions, Contains(StrEq("In front of opponent goal")));
}
class dataset1 : public HeightMapStoreTest
{
public:
dataset1()
{
/* Set ball position */
BallStore::getBall().setPosition(Point3D(-3.538, -5.575, 0.000));
/* Set own Robot position and teammate positions */
RobotStore::getInstance().clear();
RobotStore::getInstance().addOwnRobot(Robot(4, RoleEnum::ATTACKER_MAIN, geometry::Pose2D(-2.676, 3.054, 4.618), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(2, RoleEnum::DEFENDER_MAIN, geometry::Pose2D(-2.493, -6.998, 1.559), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(5, RoleEnum::DEFENDER_ASSIST, geometry::Pose2D(0.711, -2.998, 3.785), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(1, RoleEnum::GOALKEEPER, geometry::Pose2D(-0.764, -8.583, 1.560), geometry::Velocity2D()));
/* Set Obstacle positions */
ObstacleStore::getInstance().clear();
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D(-3.6, 3.7, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D(-1.0, 0.5, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D( 1.2, -2.0, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D(-2.8, -3.0, 0.0)));
}
void SetUp()
{
}
};
class dataset2 : public HeightMapStoreTest
{
public:
dataset2()
{
/* Set ball position */
BallStore::getBall().setPosition(Point3D(-2.748, 0.107, 0.000));
/* Set own Robot position and teammate positions */
RobotStore::getInstance().clear();
RobotStore::getInstance().addOwnRobot(Robot(5, RoleEnum::ATTACKER_MAIN, geometry::Pose2D(-1.959, 2.361, 4.332), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(2, RoleEnum::ATTACKER_ASSIST, geometry::Pose2D(3.203, 4.574, 3.814), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(3, RoleEnum::DEFENDER_ASSIST, geometry::Pose2D(-3.116, -6.253, 1.498), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(4, RoleEnum::DEFENDER_MAIN, geometry::Pose2D(-2.992, -0.985, 1.302), geometry::Velocity2D()));
/* Set Obstacle positions */
ObstacleStore::getInstance().clear();
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D( 2.2, 5.5, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D( 0.7, 4.7, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D(-1.0, 3.2, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D(-2.0, 2.2, 0.0)));
}
void SetUp()
{
}
};
class dataset3 : public HeightMapStoreTest
{
public:
dataset3()
{
/* Set ball position */
BallStore::getBall().setPosition(Point3D(-3.487, 1.648, 0.000));
/* Set own Robot position and teammate positions */
RobotStore::getInstance().clear();
RobotStore::getInstance().addOwnRobot(Robot(4, RoleEnum::ATTACKER_MAIN, geometry::Pose2D(-1.896, 2.641, 3.646), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(5, RoleEnum::ATTACKER_ASSIST, geometry::Pose2D(3.204, 2.777, 3.286), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(2, RoleEnum::DEFENDER_ASSIST, geometry::Pose2D(-3.290, -6.346, 1.573), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(3, RoleEnum::DEFENDER_MAIN, geometry::Pose2D(-3.797, 0.791, 1.258), geometry::Velocity2D()));
/* Set Obstacle positions */
ObstacleStore::getInstance().clear();
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D(-2.0, 4.1, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D(-0.1, 4.1, 0.0)));
}
void SetUp()
{
}
};
class dataset4 : public HeightMapStoreTest
{
public:
dataset4()
{
/* Set ball position */
BallStore::getBall().setPosition(Point3D(1.656, 4.662, 0.000));
/* Set own Robot position and teammate positions */
RobotStore::getInstance().clear();
RobotStore::getInstance().addOwnRobot(Robot(2, RoleEnum::ATTACKER_MAIN, geometry::Pose2D(0.527, 1.654, 0.036), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(3, RoleEnum::ATTACKER_ASSIST, geometry::Pose2D(-3.080, 3.700, 0.187), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(5, RoleEnum::DEFENDER_ASSIST, geometry::Pose2D(1.059, -4.670, 1.715), geometry::Velocity2D()));
RobotStore::getInstance().addTeammate(Robot(4, RoleEnum::DEFENDER_MAIN, geometry::Pose2D(1.873, 3.139, 1.794), geometry::Velocity2D()));
/* Set Obstacle positions */
ObstacleStore::getInstance().clear();
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D( 1.6, 6.5, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D( 0.2, 5.9, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D( 0.0, 4.5, 0.0)));
ObstacleStore::getInstance().addObstacle(Obstacle(geometry::Pose2D(-2.0, 3.6, 0.0)));
}
void SetUp()
{
}
};
int main(int argc, char **argv)
{
InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
| [
"jeffrey.pernis@asml.com"
] | jeffrey.pernis@asml.com |
f0d4a62264a67ce005c3732b6e5946d9cdbf9de8 | 685c5b22c52591589b7baa01f6756614cf126859 | /yuLab/yuLab.h | 56f53691b39602935b3b8732f4f1121fe7040b6e | [] | no_license | MomoMiaoHia/yuLab | 0021370a0b7224363c96f6a4ca7f9ce9bc8530d3 | 1854358a58c0c7d0bacdee768a47026361202982 | refs/heads/master | 2021-09-08T03:18:39.666788 | 2018-02-26T09:05:30 | 2018-02-26T09:05:30 | 119,622,697 | 0 | 0 | null | null | null | null | GB18030 | C++ | false | false | 2,585 | h | #pragma once
#include <QtWidgets/QMainWindow>
#include "ui_yuLab.h"
#include "qtlibs.h"
#include "videoTool.h"
#include "myLabel.h"
#include "myDlg.h"
#include "smthDlg.h"
#include<opencv2\opencv.hpp>
using namespace cv;
class yuLab : public QMainWindow
{
Q_OBJECT
public:
yuLab(QWidget *parent = Q_NULLPTR);
QString fileName;
string videoName;
videoTool *vtool;
void createActions(); //创建动作
void createMenus(); //创建菜单
//void createToolbars(); //创建工具栏
void loadFile(QString filename);
void display(Mat mat);//在label中显示图像
private:
Ui::yuLabClass ui;
QEventLoop loop;
//menus
QMenu *fileMenu;
//菜单项
QAction *openFileAction;
QAction *closeFileAction;
QAction *bgRemoveAction;
QAction *smoothingAction;
QAction *demarcateAction;
QImage *image;
//leftlayout
QVBoxLayout *LeftLayout;
//QVideoWidget *vp;
//QWidget *tab;
myLabel *ImageLabel;
QSlider *positionSlider; //视频进度条
bool m_isPressed,m_cap;
QPoint m_startPoint, m_endPoint;
int m_cutWidth, m_cutHeight;
//bottomlayout
QHBoxLayout *BottomLayout;
QPushButton *StPa;
QPushButton *Stop;
QPushButton *Pic_cut;
//rightlayout
/*QGridLayout *RightLayout;
QLabel *TextLabel;*/
bool mstatus; //播放状态
//QTimer *timer;
int maxV = 1000; //进度条最大值
unsigned int selectLen; //标定选择像素值
unsigned int inputLen; //输入长度
//bgremove子窗口
myDlg *bgRemovingDlg;
//smooth子窗口
smthDlg *smoothingDlg;
bool startsmth;
//demarcate停靠窗口
myInputDlg *demarcateDlg;
QDockWidget *demarcateDock;
QVBoxLayout *input_layout;
QLabel *tip1, *tip2, *tip3, *tip4, *tip5;
QLineEdit *inputLenEdit;
QPushButton *selected;
QPushButton *lenSubmit;
QWidget *detable, *mvtable;
//函数
void fitcut();
void startsilder(); //启动视频进度条
signals:
void fileLoadSuccuss();
void startPro();
void updateSlider(); //更新进度条
protected slots:
void ShowOpenFile();
void togglePlayback(); //控制播放暂停
void onUpdating(); //刷新进度条的值
void sliderClicked();
void sliderMove(); //进度条移动
void sliderRelease(); //释放滑块
//鼠标操作
void onCutFinished();
//按钮控制
void toggleStop();
//视频处理
void toggleCut(); //截屏
void recoPro();
void createRemovingWin();
void createDemarcatingWin();
void toggleDemarcate(); //标定窗口
void toggleSelect();
//void onSelectFinished();
void toggleLenSubmit();
void toggleSmooth();
void receiveP(int p);
void receiveE(int e);
void onSmthDestroyed();
};
| [
"cmhalicia@foxmail.com"
] | cmhalicia@foxmail.com |
1c48a21c92ea11de0610eb2e2036e051e38b6bca | 948f4e13af6b3014582909cc6d762606f2a43365 | /testcases/juliet_test_suite/testcases/CWE789_Uncontrolled_Mem_Alloc/s02/CWE789_Uncontrolled_Mem_Alloc__new_wchar_t_fscanf_83a.cpp | 973b9d786e19def94df4b2d26a080ae0ac19c459 | [] | no_license | junxzm1990/ASAN-- | 0056a341b8537142e10373c8417f27d7825ad89b | ca96e46422407a55bed4aa551a6ad28ec1eeef4e | refs/heads/master | 2022-08-02T15:38:56.286555 | 2022-06-16T22:19:54 | 2022-06-16T22:19:54 | 408,238,453 | 74 | 13 | null | 2022-06-16T22:19:55 | 2021-09-19T21:14:59 | null | UTF-8 | C++ | false | false | 2,509 | cpp | /* TEMPLATE GENERATED TESTCASE FILE
Filename: CWE789_Uncontrolled_Mem_Alloc__new_wchar_t_fscanf_83a.cpp
Label Definition File: CWE789_Uncontrolled_Mem_Alloc__new.label.xml
Template File: sources-sinks-83a.tmpl.cpp
*/
/*
* @description
* CWE: 789 Uncontrolled Memory Allocation
* BadSource: fscanf Read data from the console using fscanf()
* GoodSource: Small number greater than zero
* Sinks:
* GoodSink: Allocate memory with new [] and check the size of the memory to be allocated
* BadSink : Allocate memory with new [], but incorrectly check the size of the memory to be allocated
* Flow Variant: 83 Data flow: data passed to class constructor and destructor by declaring the class object on the stack
*
* */
#include "std_testcase.h"
#include "CWE789_Uncontrolled_Mem_Alloc__new_wchar_t_fscanf_83.h"
namespace CWE789_Uncontrolled_Mem_Alloc__new_wchar_t_fscanf_83
{
#ifndef OMITBAD
void bad()
{
size_t data;
/* Initialize data */
data = 0;
CWE789_Uncontrolled_Mem_Alloc__new_wchar_t_fscanf_83_bad badObject(data);
}
#endif /* OMITBAD */
#ifndef OMITGOOD
/* goodG2B uses the GoodSource with the BadSink */
static void goodG2B()
{
size_t data;
/* Initialize data */
data = 0;
CWE789_Uncontrolled_Mem_Alloc__new_wchar_t_fscanf_83_goodG2B goodG2BObject(data);
}
/* goodG2B uses the BadSource with the GoodSink */
static void goodB2G()
{
size_t data;
/* Initialize data */
data = 0;
CWE789_Uncontrolled_Mem_Alloc__new_wchar_t_fscanf_83_goodB2G goodB2GObject(data);
}
void good()
{
goodG2B();
goodB2G();
}
#endif /* OMITGOOD */
} /* close namespace */
/* Below is the main(). It is only used when building this testcase on
its own for testing or for building a binary to use in testing binary
analysis tools. It is not used when compiling all the testcases as one
application, which is how source code analysis tools are tested. */
#ifdef INCLUDEMAIN
using namespace CWE789_Uncontrolled_Mem_Alloc__new_wchar_t_fscanf_83; /* so that we can use good and bad easily */
int main(int argc, char * argv[])
{
/* seed randomness */
srand( (unsigned)time(NULL) );
#ifndef OMITGOOD
printLine("Calling good()...");
good();
printLine("Finished good()");
#endif /* OMITGOOD */
#ifndef OMITBAD
printLine("Calling bad()...");
bad();
printLine("Finished bad()");
#endif /* OMITBAD */
return 0;
}
#endif
| [
"yzhang0701@gmail.com"
] | yzhang0701@gmail.com |
c4c324ffffda1e5f8678363bbde9cc12563deb46 | 5697b2f45972a471b29d1084cca3c5e7320e0c08 | /VectorField.h | 253e9dfb05603021a4448f913fdd464b4e70c7da | [] | no_license | sittzon/waterSim | 7cd519f33160ed78f243120466f4a6c423b7d64f | 8afa225ce6f9ef81a8f86a7e359e228a114fd804 | refs/heads/master | 2021-01-22T05:01:24.809959 | 2012-10-12T15:40:27 | 2012-10-12T15:40:27 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 826 | h | #ifndef VECTORFIELD_H
#define VECTORFIELD_H
#ifdef _WIN32
//#include <windows.h>
#ifndef GLEW_STATIC
#define GLEW_STATIC
#endif
#include <glew.h>
//#include <wglew.h>
#include <freeglut.h>
#elif __APPLE__
#include <OpenGL/gl3.h>
#include <freeglut.h>
#else
#include <freeglut.h>
//#include <GL/glut.h>
#include <GL/gl.h>
#include <GL/glext.h>
//#include <GL/glut.h>
//#include <GL/gl.h>
#endif
#include "model.h"
class VectorField
{
public:
VectorField();
~VectorField();
void init(GLuint* vectorFieldId, double xSpeed, double ySpeed, double zSpeed, double pressure);
protected:
private:
Model* model;
GLuint fboId;
GLuint program;
};
#endif // VECTORFIELD_H
| [
"stigson87@gmail.com"
] | stigson87@gmail.com |
286937bf8f006c6d7a33a7e3d479400ba1c11bd1 | bbd57f49f2729102ac0f9250f1d7fa3b44630eb3 | /Final Project/PYNQ-Classification-master/Source/Hardware/script_design_flow/CIFAR_10_wrapper/CIFAR_10/solution1/syn/systemc/SMM_1u_75u_32u_s.cpp | cd73cafd16bf7e052c9430e1a48e3c222b8d68d4 | [
"BSD-2-Clause"
] | permissive | minhnvl/DEEP-LEARNING-INTEGRATED-CIRCUIT-DESIGN-AND-ACCELERATION | 63f7f912b7dc7a6664802bfd656093703e3b4310 | c5bf93cbda8e6df77060cec32820b8c03a149837 | refs/heads/master | 2022-12-22T11:36:39.691041 | 2020-09-18T04:34:15 | 2020-09-18T04:34:15 | 241,307,975 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 495,207 | cpp | // ==============================================================
// RTL generated by Vivado(TM) HLS - High-Level Synthesis from C, C++ and SystemC
// Version: 2018.3
// Copyright (C) 1986-2018 Xilinx, Inc. All Rights Reserved.
//
// ===========================================================
#include "SMM_1u_75u_32u_s.h"
#include "AESL_pkg.h"
using namespace std;
namespace ap_rtl {
const sc_logic SMM_1u_75u_32u_s::ap_const_logic_1 = sc_dt::Log_1;
const sc_logic SMM_1u_75u_32u_s::ap_const_logic_0 = sc_dt::Log_0;
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state1 = "1";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state2 = "10";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state3 = "100";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state4 = "1000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state5 = "10000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state6 = "100000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state7 = "1000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state8 = "10000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state9 = "100000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state10 = "1000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_pp0_stage0 = "10000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state13 = "100000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state14 = "1000000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state15 = "10000000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_pp1_stage0 = "100000000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state18 = "1000000000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_pp2_stage0 = "10000000000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state27 = "100000000000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state28 = "1000000000000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_pp3_stage0 = "10000000000000000000";
const sc_lv<21> SMM_1u_75u_32u_s::ap_ST_fsm_state41 = "100000000000000000000";
const bool SMM_1u_75u_32u_s::ap_const_boolean_1 = true;
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_0 = "00000000000000000000000000000000";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_1 = "1";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_2 = "10";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_3 = "11";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_4 = "100";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_5 = "101";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_6 = "110";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_7 = "111";
const bool SMM_1u_75u_32u_s::ap_const_boolean_0 = false;
const sc_lv<1> SMM_1u_75u_32u_s::ap_const_lv1_1 = "1";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_E = "1110";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_A = "1010";
const sc_lv<1> SMM_1u_75u_32u_s::ap_const_lv1_0 = "0";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_8 = "1000";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_9 = "1001";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_C = "1100";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_D = "1101";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_10 = "10000";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_12 = "10010";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_13 = "10011";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_F = "1111";
const sc_lv<31> SMM_1u_75u_32u_s::ap_const_lv31_0 = "0000000000000000000000000000000";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_11 = "10001";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_0 = "0000000";
const sc_lv<14> SMM_1u_75u_32u_s::ap_const_lv14_0 = "00000000000000";
const sc_lv<34> SMM_1u_75u_32u_s::ap_const_lv34_0 = "0000000000000000000000000000000000";
const sc_lv<2> SMM_1u_75u_32u_s::ap_const_lv2_0 = "00";
const sc_lv<12> SMM_1u_75u_32u_s::ap_const_lv12_0 = "000000000000";
const sc_lv<6> SMM_1u_75u_32u_s::ap_const_lv6_0 = "000000";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_17 = "10111";
const sc_lv<16> SMM_1u_75u_32u_s::ap_const_lv16_0 = "0000000000000000";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_16 = "10110";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_15 = "10101";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_14 = "10100";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_13 = "10011";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_12 = "10010";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_11 = "10001";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_10 = "10000";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_F = "1111";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_E = "1110";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_D = "1101";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_C = "1100";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_B = "1011";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_A = "1010";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_9 = "1001";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_8 = "1000";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_7 = "111";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_6 = "110";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_5 = "101";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_4 = "100";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_3 = "11";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_2 = "10";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_1 = "1";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_0 = "00000";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_1F = "11111";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_1E = "11110";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_1D = "11101";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_1C = "11100";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_1B = "11011";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_1A = "11010";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_19 = "11001";
const sc_lv<5> SMM_1u_75u_32u_s::ap_const_lv5_18 = "11000";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_1 = "1";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_4 = "100";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_7 = "111";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_A = "1010";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_D = "1101";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_10 = "10000";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_13 = "10011";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_15 = "10101";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_17 = "10111";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_2 = "10";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_5 = "101";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_6 = "110";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_8 = "1000";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_9 = "1001";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_B = "1011";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_E = "1110";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_11 = "10001";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_12 = "10010";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_14 = "10100";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_16 = "10110";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_3 = "11";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_C = "1100";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_F = "1111";
const sc_lv<31> SMM_1u_75u_32u_s::ap_const_lv31_1 = "1";
const sc_lv<7> SMM_1u_75u_32u_s::ap_const_lv7_4B = "1001011";
const sc_lv<14> SMM_1u_75u_32u_s::ap_const_lv14_AB = "10101011";
const sc_lv<34> SMM_1u_75u_32u_s::ap_const_lv34_1 = "1";
const sc_lv<2> SMM_1u_75u_32u_s::ap_const_lv2_3 = "11";
const sc_lv<2> SMM_1u_75u_32u_s::ap_const_lv2_1 = "1";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_1F = "11111";
const sc_lv<18> SMM_1u_75u_32u_s::ap_const_lv18_0 = "000000000000000000";
const sc_lv<12> SMM_1u_75u_32u_s::ap_const_lv12_960 = "100101100000";
const sc_lv<12> SMM_1u_75u_32u_s::ap_const_lv12_1 = "1";
const sc_lv<6> SMM_1u_75u_32u_s::ap_const_lv6_1 = "1";
const sc_lv<16> SMM_1u_75u_32u_s::ap_const_lv16_AB = "10101011";
const sc_lv<32> SMM_1u_75u_32u_s::ap_const_lv32_B = "1011";
SMM_1u_75u_32u_s::SMM_1u_75u_32u_s(sc_module_name name) : sc_module(name), mVcdFile(0) {
A_V_2_0_U = new SMM_1u_75u_32u_s_dEe("A_V_2_0_U");
A_V_2_0_U->clk(ap_clk);
A_V_2_0_U->reset(ap_rst);
A_V_2_0_U->address0(A_V_2_0_address0);
A_V_2_0_U->ce0(A_V_2_0_ce0);
A_V_2_0_U->q0(A_V_2_0_q0);
A_V_2_0_U->address1(A_V_2_0_address1);
A_V_2_0_U->ce1(A_V_2_0_ce1);
A_V_2_0_U->we1(A_V_2_0_we1);
A_V_2_0_U->d1(A_V_2_0_d1);
B_V_2_0_U = new SMM_1u_75u_32u_s_eOg("B_V_2_0_U");
B_V_2_0_U->clk(ap_clk);
B_V_2_0_U->reset(ap_rst);
B_V_2_0_U->address0(B_V_2_0_address0);
B_V_2_0_U->ce0(B_V_2_0_ce0);
B_V_2_0_U->q0(B_V_2_0_q0);
B_V_2_0_U->address1(B_V_2_0_address1);
B_V_2_0_U->ce1(B_V_2_0_ce1);
B_V_2_0_U->we1(B_V_2_0_we1);
B_V_2_0_U->d1(B_V_2_0_d1);
A_V_2_1_U = new SMM_1u_75u_32u_s_dEe("A_V_2_1_U");
A_V_2_1_U->clk(ap_clk);
A_V_2_1_U->reset(ap_rst);
A_V_2_1_U->address0(A_V_2_1_address0);
A_V_2_1_U->ce0(A_V_2_1_ce0);
A_V_2_1_U->q0(A_V_2_1_q0);
A_V_2_1_U->address1(A_V_2_1_address1);
A_V_2_1_U->ce1(A_V_2_1_ce1);
A_V_2_1_U->we1(A_V_2_1_we1);
A_V_2_1_U->d1(A_V_2_1_d1);
B_V_2_1_U = new SMM_1u_75u_32u_s_eOg("B_V_2_1_U");
B_V_2_1_U->clk(ap_clk);
B_V_2_1_U->reset(ap_rst);
B_V_2_1_U->address0(B_V_2_1_address0);
B_V_2_1_U->ce0(B_V_2_1_ce0);
B_V_2_1_U->q0(B_V_2_1_q0);
B_V_2_1_U->address1(B_V_2_1_address1);
B_V_2_1_U->ce1(B_V_2_1_ce1);
B_V_2_1_U->we1(B_V_2_1_we1);
B_V_2_1_U->d1(B_V_2_1_d1);
A_V_2_2_U = new SMM_1u_75u_32u_s_dEe("A_V_2_2_U");
A_V_2_2_U->clk(ap_clk);
A_V_2_2_U->reset(ap_rst);
A_V_2_2_U->address0(A_V_2_2_address0);
A_V_2_2_U->ce0(A_V_2_2_ce0);
A_V_2_2_U->q0(A_V_2_2_q0);
A_V_2_2_U->address1(A_V_2_2_address1);
A_V_2_2_U->ce1(A_V_2_2_ce1);
A_V_2_2_U->we1(A_V_2_2_we1);
A_V_2_2_U->d1(A_V_2_2_d1);
B_V_2_2_U = new SMM_1u_75u_32u_s_eOg("B_V_2_2_U");
B_V_2_2_U->clk(ap_clk);
B_V_2_2_U->reset(ap_rst);
B_V_2_2_U->address0(B_V_2_2_address0);
B_V_2_2_U->ce0(B_V_2_2_ce0);
B_V_2_2_U->q0(B_V_2_2_q0);
B_V_2_2_U->address1(B_V_2_2_address1);
B_V_2_2_U->ce1(B_V_2_2_ce1);
B_V_2_2_U->we1(B_V_2_2_we1);
B_V_2_2_U->d1(B_V_2_2_d1);
A_V_2_3_U = new SMM_1u_75u_32u_s_dEe("A_V_2_3_U");
A_V_2_3_U->clk(ap_clk);
A_V_2_3_U->reset(ap_rst);
A_V_2_3_U->address0(A_V_2_3_address0);
A_V_2_3_U->ce0(A_V_2_3_ce0);
A_V_2_3_U->q0(A_V_2_3_q0);
A_V_2_3_U->address1(A_V_2_3_address1);
A_V_2_3_U->ce1(A_V_2_3_ce1);
A_V_2_3_U->we1(A_V_2_3_we1);
A_V_2_3_U->d1(A_V_2_3_d1);
B_V_2_3_U = new SMM_1u_75u_32u_s_eOg("B_V_2_3_U");
B_V_2_3_U->clk(ap_clk);
B_V_2_3_U->reset(ap_rst);
B_V_2_3_U->address0(B_V_2_3_address0);
B_V_2_3_U->ce0(B_V_2_3_ce0);
B_V_2_3_U->q0(B_V_2_3_q0);
B_V_2_3_U->address1(B_V_2_3_address1);
B_V_2_3_U->ce1(B_V_2_3_ce1);
B_V_2_3_U->we1(B_V_2_3_we1);
B_V_2_3_U->d1(B_V_2_3_d1);
A_V_2_4_U = new SMM_1u_75u_32u_s_dEe("A_V_2_4_U");
A_V_2_4_U->clk(ap_clk);
A_V_2_4_U->reset(ap_rst);
A_V_2_4_U->address0(A_V_2_4_address0);
A_V_2_4_U->ce0(A_V_2_4_ce0);
A_V_2_4_U->q0(A_V_2_4_q0);
A_V_2_4_U->address1(A_V_2_4_address1);
A_V_2_4_U->ce1(A_V_2_4_ce1);
A_V_2_4_U->we1(A_V_2_4_we1);
A_V_2_4_U->d1(A_V_2_4_d1);
B_V_2_4_U = new SMM_1u_75u_32u_s_eOg("B_V_2_4_U");
B_V_2_4_U->clk(ap_clk);
B_V_2_4_U->reset(ap_rst);
B_V_2_4_U->address0(B_V_2_4_address0);
B_V_2_4_U->ce0(B_V_2_4_ce0);
B_V_2_4_U->q0(B_V_2_4_q0);
B_V_2_4_U->address1(B_V_2_4_address1);
B_V_2_4_U->ce1(B_V_2_4_ce1);
B_V_2_4_U->we1(B_V_2_4_we1);
B_V_2_4_U->d1(B_V_2_4_d1);
A_V_2_5_U = new SMM_1u_75u_32u_s_dEe("A_V_2_5_U");
A_V_2_5_U->clk(ap_clk);
A_V_2_5_U->reset(ap_rst);
A_V_2_5_U->address0(A_V_2_5_address0);
A_V_2_5_U->ce0(A_V_2_5_ce0);
A_V_2_5_U->q0(A_V_2_5_q0);
A_V_2_5_U->address1(A_V_2_5_address1);
A_V_2_5_U->ce1(A_V_2_5_ce1);
A_V_2_5_U->we1(A_V_2_5_we1);
A_V_2_5_U->d1(A_V_2_5_d1);
B_V_2_5_U = new SMM_1u_75u_32u_s_eOg("B_V_2_5_U");
B_V_2_5_U->clk(ap_clk);
B_V_2_5_U->reset(ap_rst);
B_V_2_5_U->address0(B_V_2_5_address0);
B_V_2_5_U->ce0(B_V_2_5_ce0);
B_V_2_5_U->q0(B_V_2_5_q0);
B_V_2_5_U->address1(B_V_2_5_address1);
B_V_2_5_U->ce1(B_V_2_5_ce1);
B_V_2_5_U->we1(B_V_2_5_we1);
B_V_2_5_U->d1(B_V_2_5_d1);
A_V_2_6_U = new SMM_1u_75u_32u_s_dEe("A_V_2_6_U");
A_V_2_6_U->clk(ap_clk);
A_V_2_6_U->reset(ap_rst);
A_V_2_6_U->address0(A_V_2_6_address0);
A_V_2_6_U->ce0(A_V_2_6_ce0);
A_V_2_6_U->q0(A_V_2_6_q0);
A_V_2_6_U->address1(A_V_2_6_address1);
A_V_2_6_U->ce1(A_V_2_6_ce1);
A_V_2_6_U->we1(A_V_2_6_we1);
A_V_2_6_U->d1(A_V_2_6_d1);
B_V_2_6_U = new SMM_1u_75u_32u_s_eOg("B_V_2_6_U");
B_V_2_6_U->clk(ap_clk);
B_V_2_6_U->reset(ap_rst);
B_V_2_6_U->address0(B_V_2_6_address0);
B_V_2_6_U->ce0(B_V_2_6_ce0);
B_V_2_6_U->q0(B_V_2_6_q0);
B_V_2_6_U->address1(B_V_2_6_address1);
B_V_2_6_U->ce1(B_V_2_6_ce1);
B_V_2_6_U->we1(B_V_2_6_we1);
B_V_2_6_U->d1(B_V_2_6_d1);
A_V_2_7_U = new SMM_1u_75u_32u_s_dEe("A_V_2_7_U");
A_V_2_7_U->clk(ap_clk);
A_V_2_7_U->reset(ap_rst);
A_V_2_7_U->address0(A_V_2_7_address0);
A_V_2_7_U->ce0(A_V_2_7_ce0);
A_V_2_7_U->q0(A_V_2_7_q0);
A_V_2_7_U->address1(A_V_2_7_address1);
A_V_2_7_U->ce1(A_V_2_7_ce1);
A_V_2_7_U->we1(A_V_2_7_we1);
A_V_2_7_U->d1(A_V_2_7_d1);
B_V_2_7_U = new SMM_1u_75u_32u_s_eOg("B_V_2_7_U");
B_V_2_7_U->clk(ap_clk);
B_V_2_7_U->reset(ap_rst);
B_V_2_7_U->address0(B_V_2_7_address0);
B_V_2_7_U->ce0(B_V_2_7_ce0);
B_V_2_7_U->q0(B_V_2_7_q0);
B_V_2_7_U->address1(B_V_2_7_address1);
B_V_2_7_U->ce1(B_V_2_7_ce1);
B_V_2_7_U->we1(B_V_2_7_we1);
B_V_2_7_U->d1(B_V_2_7_d1);
A_V_2_8_U = new SMM_1u_75u_32u_s_dEe("A_V_2_8_U");
A_V_2_8_U->clk(ap_clk);
A_V_2_8_U->reset(ap_rst);
A_V_2_8_U->address0(A_V_2_8_address0);
A_V_2_8_U->ce0(A_V_2_8_ce0);
A_V_2_8_U->q0(A_V_2_8_q0);
A_V_2_8_U->address1(A_V_2_8_address1);
A_V_2_8_U->ce1(A_V_2_8_ce1);
A_V_2_8_U->we1(A_V_2_8_we1);
A_V_2_8_U->d1(A_V_2_8_d1);
B_V_2_8_U = new SMM_1u_75u_32u_s_eOg("B_V_2_8_U");
B_V_2_8_U->clk(ap_clk);
B_V_2_8_U->reset(ap_rst);
B_V_2_8_U->address0(B_V_2_8_address0);
B_V_2_8_U->ce0(B_V_2_8_ce0);
B_V_2_8_U->q0(B_V_2_8_q0);
B_V_2_8_U->address1(B_V_2_8_address1);
B_V_2_8_U->ce1(B_V_2_8_ce1);
B_V_2_8_U->we1(B_V_2_8_we1);
B_V_2_8_U->d1(B_V_2_8_d1);
A_V_2_9_U = new SMM_1u_75u_32u_s_dEe("A_V_2_9_U");
A_V_2_9_U->clk(ap_clk);
A_V_2_9_U->reset(ap_rst);
A_V_2_9_U->address0(A_V_2_9_address0);
A_V_2_9_U->ce0(A_V_2_9_ce0);
A_V_2_9_U->q0(A_V_2_9_q0);
A_V_2_9_U->address1(A_V_2_9_address1);
A_V_2_9_U->ce1(A_V_2_9_ce1);
A_V_2_9_U->we1(A_V_2_9_we1);
A_V_2_9_U->d1(A_V_2_9_d1);
B_V_2_9_U = new SMM_1u_75u_32u_s_eOg("B_V_2_9_U");
B_V_2_9_U->clk(ap_clk);
B_V_2_9_U->reset(ap_rst);
B_V_2_9_U->address0(B_V_2_9_address0);
B_V_2_9_U->ce0(B_V_2_9_ce0);
B_V_2_9_U->q0(B_V_2_9_q0);
B_V_2_9_U->address1(B_V_2_9_address1);
B_V_2_9_U->ce1(B_V_2_9_ce1);
B_V_2_9_U->we1(B_V_2_9_we1);
B_V_2_9_U->d1(B_V_2_9_d1);
A_V_2_10_U = new SMM_1u_75u_32u_s_dEe("A_V_2_10_U");
A_V_2_10_U->clk(ap_clk);
A_V_2_10_U->reset(ap_rst);
A_V_2_10_U->address0(A_V_2_10_address0);
A_V_2_10_U->ce0(A_V_2_10_ce0);
A_V_2_10_U->q0(A_V_2_10_q0);
A_V_2_10_U->address1(A_V_2_10_address1);
A_V_2_10_U->ce1(A_V_2_10_ce1);
A_V_2_10_U->we1(A_V_2_10_we1);
A_V_2_10_U->d1(A_V_2_10_d1);
B_V_2_10_U = new SMM_1u_75u_32u_s_eOg("B_V_2_10_U");
B_V_2_10_U->clk(ap_clk);
B_V_2_10_U->reset(ap_rst);
B_V_2_10_U->address0(B_V_2_10_address0);
B_V_2_10_U->ce0(B_V_2_10_ce0);
B_V_2_10_U->q0(B_V_2_10_q0);
B_V_2_10_U->address1(B_V_2_10_address1);
B_V_2_10_U->ce1(B_V_2_10_ce1);
B_V_2_10_U->we1(B_V_2_10_we1);
B_V_2_10_U->d1(B_V_2_10_d1);
A_V_2_11_U = new SMM_1u_75u_32u_s_dEe("A_V_2_11_U");
A_V_2_11_U->clk(ap_clk);
A_V_2_11_U->reset(ap_rst);
A_V_2_11_U->address0(A_V_2_11_address0);
A_V_2_11_U->ce0(A_V_2_11_ce0);
A_V_2_11_U->q0(A_V_2_11_q0);
A_V_2_11_U->address1(A_V_2_11_address1);
A_V_2_11_U->ce1(A_V_2_11_ce1);
A_V_2_11_U->we1(A_V_2_11_we1);
A_V_2_11_U->d1(A_V_2_11_d1);
B_V_2_11_U = new SMM_1u_75u_32u_s_eOg("B_V_2_11_U");
B_V_2_11_U->clk(ap_clk);
B_V_2_11_U->reset(ap_rst);
B_V_2_11_U->address0(B_V_2_11_address0);
B_V_2_11_U->ce0(B_V_2_11_ce0);
B_V_2_11_U->q0(B_V_2_11_q0);
B_V_2_11_U->address1(B_V_2_11_address1);
B_V_2_11_U->ce1(B_V_2_11_ce1);
B_V_2_11_U->we1(B_V_2_11_we1);
B_V_2_11_U->d1(B_V_2_11_d1);
A_V_2_12_U = new SMM_1u_75u_32u_s_dEe("A_V_2_12_U");
A_V_2_12_U->clk(ap_clk);
A_V_2_12_U->reset(ap_rst);
A_V_2_12_U->address0(A_V_2_12_address0);
A_V_2_12_U->ce0(A_V_2_12_ce0);
A_V_2_12_U->q0(A_V_2_12_q0);
A_V_2_12_U->address1(A_V_2_12_address1);
A_V_2_12_U->ce1(A_V_2_12_ce1);
A_V_2_12_U->we1(A_V_2_12_we1);
A_V_2_12_U->d1(A_V_2_12_d1);
B_V_2_12_U = new SMM_1u_75u_32u_s_eOg("B_V_2_12_U");
B_V_2_12_U->clk(ap_clk);
B_V_2_12_U->reset(ap_rst);
B_V_2_12_U->address0(B_V_2_12_address0);
B_V_2_12_U->ce0(B_V_2_12_ce0);
B_V_2_12_U->q0(B_V_2_12_q0);
B_V_2_12_U->address1(B_V_2_12_address1);
B_V_2_12_U->ce1(B_V_2_12_ce1);
B_V_2_12_U->we1(B_V_2_12_we1);
B_V_2_12_U->d1(B_V_2_12_d1);
A_V_2_13_U = new SMM_1u_75u_32u_s_dEe("A_V_2_13_U");
A_V_2_13_U->clk(ap_clk);
A_V_2_13_U->reset(ap_rst);
A_V_2_13_U->address0(A_V_2_13_address0);
A_V_2_13_U->ce0(A_V_2_13_ce0);
A_V_2_13_U->q0(A_V_2_13_q0);
A_V_2_13_U->address1(A_V_2_13_address1);
A_V_2_13_U->ce1(A_V_2_13_ce1);
A_V_2_13_U->we1(A_V_2_13_we1);
A_V_2_13_U->d1(A_V_2_13_d1);
B_V_2_13_U = new SMM_1u_75u_32u_s_eOg("B_V_2_13_U");
B_V_2_13_U->clk(ap_clk);
B_V_2_13_U->reset(ap_rst);
B_V_2_13_U->address0(B_V_2_13_address0);
B_V_2_13_U->ce0(B_V_2_13_ce0);
B_V_2_13_U->q0(B_V_2_13_q0);
B_V_2_13_U->address1(B_V_2_13_address1);
B_V_2_13_U->ce1(B_V_2_13_ce1);
B_V_2_13_U->we1(B_V_2_13_we1);
B_V_2_13_U->d1(B_V_2_13_d1);
A_V_2_14_U = new SMM_1u_75u_32u_s_dEe("A_V_2_14_U");
A_V_2_14_U->clk(ap_clk);
A_V_2_14_U->reset(ap_rst);
A_V_2_14_U->address0(A_V_2_14_address0);
A_V_2_14_U->ce0(A_V_2_14_ce0);
A_V_2_14_U->q0(A_V_2_14_q0);
A_V_2_14_U->address1(A_V_2_14_address1);
A_V_2_14_U->ce1(A_V_2_14_ce1);
A_V_2_14_U->we1(A_V_2_14_we1);
A_V_2_14_U->d1(A_V_2_14_d1);
B_V_2_14_U = new SMM_1u_75u_32u_s_eOg("B_V_2_14_U");
B_V_2_14_U->clk(ap_clk);
B_V_2_14_U->reset(ap_rst);
B_V_2_14_U->address0(B_V_2_14_address0);
B_V_2_14_U->ce0(B_V_2_14_ce0);
B_V_2_14_U->q0(B_V_2_14_q0);
B_V_2_14_U->address1(B_V_2_14_address1);
B_V_2_14_U->ce1(B_V_2_14_ce1);
B_V_2_14_U->we1(B_V_2_14_we1);
B_V_2_14_U->d1(B_V_2_14_d1);
A_V_2_15_U = new SMM_1u_75u_32u_s_dEe("A_V_2_15_U");
A_V_2_15_U->clk(ap_clk);
A_V_2_15_U->reset(ap_rst);
A_V_2_15_U->address0(A_V_2_15_address0);
A_V_2_15_U->ce0(A_V_2_15_ce0);
A_V_2_15_U->q0(A_V_2_15_q0);
A_V_2_15_U->address1(A_V_2_15_address1);
A_V_2_15_U->ce1(A_V_2_15_ce1);
A_V_2_15_U->we1(A_V_2_15_we1);
A_V_2_15_U->d1(A_V_2_15_d1);
B_V_2_15_U = new SMM_1u_75u_32u_s_eOg("B_V_2_15_U");
B_V_2_15_U->clk(ap_clk);
B_V_2_15_U->reset(ap_rst);
B_V_2_15_U->address0(B_V_2_15_address0);
B_V_2_15_U->ce0(B_V_2_15_ce0);
B_V_2_15_U->q0(B_V_2_15_q0);
B_V_2_15_U->address1(B_V_2_15_address1);
B_V_2_15_U->ce1(B_V_2_15_ce1);
B_V_2_15_U->we1(B_V_2_15_we1);
B_V_2_15_U->d1(B_V_2_15_d1);
A_V_2_16_U = new SMM_1u_75u_32u_s_dEe("A_V_2_16_U");
A_V_2_16_U->clk(ap_clk);
A_V_2_16_U->reset(ap_rst);
A_V_2_16_U->address0(A_V_2_16_address0);
A_V_2_16_U->ce0(A_V_2_16_ce0);
A_V_2_16_U->q0(A_V_2_16_q0);
A_V_2_16_U->address1(A_V_2_16_address1);
A_V_2_16_U->ce1(A_V_2_16_ce1);
A_V_2_16_U->we1(A_V_2_16_we1);
A_V_2_16_U->d1(A_V_2_16_d1);
B_V_2_16_U = new SMM_1u_75u_32u_s_eOg("B_V_2_16_U");
B_V_2_16_U->clk(ap_clk);
B_V_2_16_U->reset(ap_rst);
B_V_2_16_U->address0(B_V_2_16_address0);
B_V_2_16_U->ce0(B_V_2_16_ce0);
B_V_2_16_U->q0(B_V_2_16_q0);
B_V_2_16_U->address1(B_V_2_16_address1);
B_V_2_16_U->ce1(B_V_2_16_ce1);
B_V_2_16_U->we1(B_V_2_16_we1);
B_V_2_16_U->d1(B_V_2_16_d1);
A_V_2_17_U = new SMM_1u_75u_32u_s_dEe("A_V_2_17_U");
A_V_2_17_U->clk(ap_clk);
A_V_2_17_U->reset(ap_rst);
A_V_2_17_U->address0(A_V_2_17_address0);
A_V_2_17_U->ce0(A_V_2_17_ce0);
A_V_2_17_U->q0(A_V_2_17_q0);
A_V_2_17_U->address1(A_V_2_17_address1);
A_V_2_17_U->ce1(A_V_2_17_ce1);
A_V_2_17_U->we1(A_V_2_17_we1);
A_V_2_17_U->d1(A_V_2_17_d1);
B_V_2_17_U = new SMM_1u_75u_32u_s_eOg("B_V_2_17_U");
B_V_2_17_U->clk(ap_clk);
B_V_2_17_U->reset(ap_rst);
B_V_2_17_U->address0(B_V_2_17_address0);
B_V_2_17_U->ce0(B_V_2_17_ce0);
B_V_2_17_U->q0(B_V_2_17_q0);
B_V_2_17_U->address1(B_V_2_17_address1);
B_V_2_17_U->ce1(B_V_2_17_ce1);
B_V_2_17_U->we1(B_V_2_17_we1);
B_V_2_17_U->d1(B_V_2_17_d1);
A_V_2_18_U = new SMM_1u_75u_32u_s_dEe("A_V_2_18_U");
A_V_2_18_U->clk(ap_clk);
A_V_2_18_U->reset(ap_rst);
A_V_2_18_U->address0(A_V_2_18_address0);
A_V_2_18_U->ce0(A_V_2_18_ce0);
A_V_2_18_U->q0(A_V_2_18_q0);
A_V_2_18_U->address1(A_V_2_18_address1);
A_V_2_18_U->ce1(A_V_2_18_ce1);
A_V_2_18_U->we1(A_V_2_18_we1);
A_V_2_18_U->d1(A_V_2_18_d1);
B_V_2_18_U = new SMM_1u_75u_32u_s_eOg("B_V_2_18_U");
B_V_2_18_U->clk(ap_clk);
B_V_2_18_U->reset(ap_rst);
B_V_2_18_U->address0(B_V_2_18_address0);
B_V_2_18_U->ce0(B_V_2_18_ce0);
B_V_2_18_U->q0(B_V_2_18_q0);
B_V_2_18_U->address1(B_V_2_18_address1);
B_V_2_18_U->ce1(B_V_2_18_ce1);
B_V_2_18_U->we1(B_V_2_18_we1);
B_V_2_18_U->d1(B_V_2_18_d1);
A_V_2_19_U = new SMM_1u_75u_32u_s_dEe("A_V_2_19_U");
A_V_2_19_U->clk(ap_clk);
A_V_2_19_U->reset(ap_rst);
A_V_2_19_U->address0(A_V_2_19_address0);
A_V_2_19_U->ce0(A_V_2_19_ce0);
A_V_2_19_U->q0(A_V_2_19_q0);
A_V_2_19_U->address1(A_V_2_19_address1);
A_V_2_19_U->ce1(A_V_2_19_ce1);
A_V_2_19_U->we1(A_V_2_19_we1);
A_V_2_19_U->d1(A_V_2_19_d1);
B_V_2_19_U = new SMM_1u_75u_32u_s_eOg("B_V_2_19_U");
B_V_2_19_U->clk(ap_clk);
B_V_2_19_U->reset(ap_rst);
B_V_2_19_U->address0(B_V_2_19_address0);
B_V_2_19_U->ce0(B_V_2_19_ce0);
B_V_2_19_U->q0(B_V_2_19_q0);
B_V_2_19_U->address1(B_V_2_19_address1);
B_V_2_19_U->ce1(B_V_2_19_ce1);
B_V_2_19_U->we1(B_V_2_19_we1);
B_V_2_19_U->d1(B_V_2_19_d1);
A_V_2_20_U = new SMM_1u_75u_32u_s_dEe("A_V_2_20_U");
A_V_2_20_U->clk(ap_clk);
A_V_2_20_U->reset(ap_rst);
A_V_2_20_U->address0(A_V_2_20_address0);
A_V_2_20_U->ce0(A_V_2_20_ce0);
A_V_2_20_U->q0(A_V_2_20_q0);
A_V_2_20_U->address1(A_V_2_20_address1);
A_V_2_20_U->ce1(A_V_2_20_ce1);
A_V_2_20_U->we1(A_V_2_20_we1);
A_V_2_20_U->d1(A_V_2_20_d1);
B_V_2_20_U = new SMM_1u_75u_32u_s_eOg("B_V_2_20_U");
B_V_2_20_U->clk(ap_clk);
B_V_2_20_U->reset(ap_rst);
B_V_2_20_U->address0(B_V_2_20_address0);
B_V_2_20_U->ce0(B_V_2_20_ce0);
B_V_2_20_U->q0(B_V_2_20_q0);
B_V_2_20_U->address1(B_V_2_20_address1);
B_V_2_20_U->ce1(B_V_2_20_ce1);
B_V_2_20_U->we1(B_V_2_20_we1);
B_V_2_20_U->d1(B_V_2_20_d1);
A_V_2_21_U = new SMM_1u_75u_32u_s_dEe("A_V_2_21_U");
A_V_2_21_U->clk(ap_clk);
A_V_2_21_U->reset(ap_rst);
A_V_2_21_U->address0(A_V_2_21_address0);
A_V_2_21_U->ce0(A_V_2_21_ce0);
A_V_2_21_U->q0(A_V_2_21_q0);
A_V_2_21_U->address1(A_V_2_21_address1);
A_V_2_21_U->ce1(A_V_2_21_ce1);
A_V_2_21_U->we1(A_V_2_21_we1);
A_V_2_21_U->d1(A_V_2_21_d1);
B_V_2_21_U = new SMM_1u_75u_32u_s_eOg("B_V_2_21_U");
B_V_2_21_U->clk(ap_clk);
B_V_2_21_U->reset(ap_rst);
B_V_2_21_U->address0(B_V_2_21_address0);
B_V_2_21_U->ce0(B_V_2_21_ce0);
B_V_2_21_U->q0(B_V_2_21_q0);
B_V_2_21_U->address1(B_V_2_21_address1);
B_V_2_21_U->ce1(B_V_2_21_ce1);
B_V_2_21_U->we1(B_V_2_21_we1);
B_V_2_21_U->d1(B_V_2_21_d1);
A_V_2_22_U = new SMM_1u_75u_32u_s_dEe("A_V_2_22_U");
A_V_2_22_U->clk(ap_clk);
A_V_2_22_U->reset(ap_rst);
A_V_2_22_U->address0(A_V_2_22_address0);
A_V_2_22_U->ce0(A_V_2_22_ce0);
A_V_2_22_U->q0(A_V_2_22_q0);
A_V_2_22_U->address1(A_V_2_22_address1);
A_V_2_22_U->ce1(A_V_2_22_ce1);
A_V_2_22_U->we1(A_V_2_22_we1);
A_V_2_22_U->d1(A_V_2_22_d1);
B_V_2_22_U = new SMM_1u_75u_32u_s_eOg("B_V_2_22_U");
B_V_2_22_U->clk(ap_clk);
B_V_2_22_U->reset(ap_rst);
B_V_2_22_U->address0(B_V_2_22_address0);
B_V_2_22_U->ce0(B_V_2_22_ce0);
B_V_2_22_U->q0(B_V_2_22_q0);
B_V_2_22_U->address1(B_V_2_22_address1);
B_V_2_22_U->ce1(B_V_2_22_ce1);
B_V_2_22_U->we1(B_V_2_22_we1);
B_V_2_22_U->d1(B_V_2_22_d1);
A_V_2_23_U = new SMM_1u_75u_32u_s_dEe("A_V_2_23_U");
A_V_2_23_U->clk(ap_clk);
A_V_2_23_U->reset(ap_rst);
A_V_2_23_U->address0(A_V_2_23_address0);
A_V_2_23_U->ce0(A_V_2_23_ce0);
A_V_2_23_U->q0(A_V_2_23_q0);
A_V_2_23_U->address1(A_V_2_23_address1);
A_V_2_23_U->ce1(A_V_2_23_ce1);
A_V_2_23_U->we1(A_V_2_23_we1);
A_V_2_23_U->d1(A_V_2_23_d1);
B_V_2_23_U = new SMM_1u_75u_32u_s_eOg("B_V_2_23_U");
B_V_2_23_U->clk(ap_clk);
B_V_2_23_U->reset(ap_rst);
B_V_2_23_U->address0(B_V_2_23_address0);
B_V_2_23_U->ce0(B_V_2_23_ce0);
B_V_2_23_U->q0(B_V_2_23_q0);
B_V_2_23_U->address1(B_V_2_23_address1);
B_V_2_23_U->ce1(B_V_2_23_ce1);
B_V_2_23_U->we1(B_V_2_23_we1);
B_V_2_23_U->d1(B_V_2_23_d1);
A_V_2_24_U = new SMM_1u_75u_32u_s_dEe("A_V_2_24_U");
A_V_2_24_U->clk(ap_clk);
A_V_2_24_U->reset(ap_rst);
A_V_2_24_U->address0(A_V_2_24_address0);
A_V_2_24_U->ce0(A_V_2_24_ce0);
A_V_2_24_U->q0(A_V_2_24_q0);
A_V_2_24_U->address1(A_V_2_24_address1);
A_V_2_24_U->ce1(A_V_2_24_ce1);
A_V_2_24_U->we1(A_V_2_24_we1);
A_V_2_24_U->d1(A_V_2_24_d1);
B_V_2_24_U = new SMM_1u_75u_32u_s_eOg("B_V_2_24_U");
B_V_2_24_U->clk(ap_clk);
B_V_2_24_U->reset(ap_rst);
B_V_2_24_U->address0(B_V_2_24_address0);
B_V_2_24_U->ce0(B_V_2_24_ce0);
B_V_2_24_U->q0(B_V_2_24_q0);
B_V_2_24_U->address1(B_V_2_24_address1);
B_V_2_24_U->ce1(B_V_2_24_ce1);
B_V_2_24_U->we1(B_V_2_24_we1);
B_V_2_24_U->d1(B_V_2_24_d1);
cifar_10_urem_7ns1iI_U20 = new cifar_10_urem_7ns1iI<1,11,7,3,7>("cifar_10_urem_7ns1iI_U20");
cifar_10_urem_7ns1iI_U20->clk(ap_clk);
cifar_10_urem_7ns1iI_U20->reset(ap_rst);
cifar_10_urem_7ns1iI_U20->din0(j_mid2_fu_2960_p3);
cifar_10_urem_7ns1iI_U20->din1(grp_fu_2228_p1);
cifar_10_urem_7ns1iI_U20->ce(grp_fu_2228_ce);
cifar_10_urem_7ns1iI_U20->dout(grp_fu_2228_p2);
cifar_10_mul_32s_bkb_U21 = new cifar_10_mul_32s_bkb<1,1,32,32,32>("cifar_10_mul_32s_bkb_U21");
cifar_10_mul_32s_bkb_U21->din0(tmp_V_109_reg_3372);
cifar_10_mul_32s_bkb_U21->din1(tmp_V_103_reg_3358);
cifar_10_mul_32s_bkb_U21->dout(KER_size_0_fu_2251_p2);
cifar_10_mul_32s_bkb_U22 = new cifar_10_mul_32s_bkb<1,1,32,32,32>("cifar_10_mul_32s_bkb_U22");
cifar_10_mul_32s_bkb_U22->din0(tmp_V_103_reg_3358);
cifar_10_mul_32s_bkb_U22->din1(KER_size_0_reg_3398);
cifar_10_mul_32s_bkb_U22->dout(KER_size_1_fu_2287_p2);
cifar_10_mul_32s_bkb_U23 = new cifar_10_mul_32s_bkb<1,1,32,32,32>("cifar_10_mul_32s_bkb_U23");
cifar_10_mul_32s_bkb_U23->din0(tmp_V_105_reg_3366);
cifar_10_mul_32s_bkb_U23->din1(KER_size_1_reg_3413);
cifar_10_mul_32s_bkb_U23->dout(KER_bound_fu_2291_p2);
cifar_10_mul_mul_2iS_U24 = new cifar_10_mul_mul_2iS<1,1,16,16,32>("cifar_10_mul_mul_2iS_U24");
cifar_10_mul_mul_2iS_U24->din0(B_V_2_1_load_reg_3736);
cifar_10_mul_mul_2iS_U24->din1(A_V_2_1_q0);
cifar_10_mul_mul_2iS_U24->dout(ret_V_1_fu_3174_p2);
cifar_10_mul_mul_2iS_U25 = new cifar_10_mul_mul_2iS<1,1,16,16,32>("cifar_10_mul_mul_2iS_U25");
cifar_10_mul_mul_2iS_U25->din0(B_V_2_4_load_reg_3741);
cifar_10_mul_mul_2iS_U25->din1(A_V_2_4_q0);
cifar_10_mul_mul_2iS_U25->dout(ret_V_4_fu_3180_p2);
cifar_10_mul_mul_2iS_U26 = new cifar_10_mul_mul_2iS<1,1,16,16,32>("cifar_10_mul_mul_2iS_U26");
cifar_10_mul_mul_2iS_U26->din0(B_V_2_7_load_reg_3746);
cifar_10_mul_mul_2iS_U26->din1(A_V_2_7_q0);
cifar_10_mul_mul_2iS_U26->dout(ret_V_7_fu_3186_p2);
cifar_10_mul_mul_2iS_U27 = new cifar_10_mul_mul_2iS<1,1,16,16,32>("cifar_10_mul_mul_2iS_U27");
cifar_10_mul_mul_2iS_U27->din0(B_V_2_10_load_reg_3751);
cifar_10_mul_mul_2iS_U27->din1(A_V_2_10_q0);
cifar_10_mul_mul_2iS_U27->dout(ret_V_10_fu_3192_p2);
cifar_10_mul_mul_2iS_U28 = new cifar_10_mul_mul_2iS<1,1,16,16,32>("cifar_10_mul_mul_2iS_U28");
cifar_10_mul_mul_2iS_U28->din0(B_V_2_13_load_reg_3756);
cifar_10_mul_mul_2iS_U28->din1(A_V_2_13_q0);
cifar_10_mul_mul_2iS_U28->dout(ret_V_13_fu_3198_p2);
cifar_10_mul_mul_2iS_U29 = new cifar_10_mul_mul_2iS<1,1,16,16,32>("cifar_10_mul_mul_2iS_U29");
cifar_10_mul_mul_2iS_U29->din0(B_V_2_16_load_reg_3761);
cifar_10_mul_mul_2iS_U29->din1(A_V_2_16_q0);
cifar_10_mul_mul_2iS_U29->dout(ret_V_16_fu_3204_p2);
cifar_10_mul_mul_2iS_U30 = new cifar_10_mul_mul_2iS<1,1,16,16,32>("cifar_10_mul_mul_2iS_U30");
cifar_10_mul_mul_2iS_U30->din0(B_V_2_19_load_reg_3766);
cifar_10_mul_mul_2iS_U30->din1(A_V_2_19_q0);
cifar_10_mul_mul_2iS_U30->dout(ret_V_19_fu_3210_p2);
cifar_10_mul_mul_2iS_U31 = new cifar_10_mul_mul_2iS<1,1,16,16,32>("cifar_10_mul_mul_2iS_U31");
cifar_10_mul_mul_2iS_U31->din0(B_V_2_21_load_reg_3771);
cifar_10_mul_mul_2iS_U31->din1(A_V_2_21_q0);
cifar_10_mul_mul_2iS_U31->dout(ret_V_21_fu_3216_p2);
cifar_10_mul_mul_2iS_U32 = new cifar_10_mul_mul_2iS<1,1,16,16,32>("cifar_10_mul_mul_2iS_U32");
cifar_10_mul_mul_2iS_U32->din0(B_V_2_23_load_reg_3776);
cifar_10_mul_mul_2iS_U32->din1(A_V_2_23_q0);
cifar_10_mul_mul_2iS_U32->dout(ret_V_23_fu_3222_p2);
cifar_10_mac_mula3i2_U33 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U33");
cifar_10_mac_mula3i2_U33->din0(B_V_2_2_load_reg_3871);
cifar_10_mac_mula3i2_U33->din1(A_V_2_2_q0);
cifar_10_mac_mula3i2_U33->din2(ret_V_1_reg_3866);
cifar_10_mac_mula3i2_U33->dout(grp_fu_3228_p3);
cifar_10_mac_mula3i2_U34 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U34");
cifar_10_mac_mula3i2_U34->din0(B_V_2_5_load_reg_3881);
cifar_10_mac_mula3i2_U34->din1(A_V_2_5_q0);
cifar_10_mac_mula3i2_U34->din2(ret_V_4_reg_3876);
cifar_10_mac_mula3i2_U34->dout(grp_fu_3235_p3);
cifar_10_mac_mula3i2_U35 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U35");
cifar_10_mac_mula3i2_U35->din0(B_V_2_6_load_reg_3886);
cifar_10_mac_mula3i2_U35->din1(A_V_2_6_q0);
cifar_10_mac_mula3i2_U35->din2(grp_fu_3249_p3);
cifar_10_mac_mula3i2_U35->dout(grp_fu_3242_p3);
cifar_10_mac_mula3i2_U36 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U36");
cifar_10_mac_mula3i2_U36->din0(B_V_2_8_load_reg_3901);
cifar_10_mac_mula3i2_U36->din1(A_V_2_8_load_reg_3896);
cifar_10_mac_mula3i2_U36->din2(ret_V_7_reg_3891);
cifar_10_mac_mula3i2_U36->dout(grp_fu_3249_p3);
cifar_10_mac_mula3i2_U37 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U37");
cifar_10_mac_mula3i2_U37->din0(B_V_2_9_load_reg_3906);
cifar_10_mac_mula3i2_U37->din1(A_V_2_9_q0);
cifar_10_mac_mula3i2_U37->din2(grp_fu_3264_p3);
cifar_10_mac_mula3i2_U37->dout(grp_fu_3257_p3);
cifar_10_mac_mula3i2_U38 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U38");
cifar_10_mac_mula3i2_U38->din0(B_V_2_11_load_reg_3921);
cifar_10_mac_mula3i2_U38->din1(A_V_2_11_load_reg_3916);
cifar_10_mac_mula3i2_U38->din2(ret_V_10_reg_3911);
cifar_10_mac_mula3i2_U38->dout(grp_fu_3264_p3);
cifar_10_mac_mula3i2_U39 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U39");
cifar_10_mac_mula3i2_U39->din0(B_V_2_14_load_reg_3931);
cifar_10_mac_mula3i2_U39->din1(A_V_2_14_q0);
cifar_10_mac_mula3i2_U39->din2(ret_V_13_reg_3926);
cifar_10_mac_mula3i2_U39->dout(grp_fu_3272_p3);
cifar_10_mac_mula3i2_U40 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U40");
cifar_10_mac_mula3i2_U40->din0(B_V_2_17_load_reg_3941);
cifar_10_mac_mula3i2_U40->din1(A_V_2_17_q0);
cifar_10_mac_mula3i2_U40->din2(ret_V_16_reg_3936);
cifar_10_mac_mula3i2_U40->dout(grp_fu_3279_p3);
cifar_10_mac_mula3i2_U41 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U41");
cifar_10_mac_mula3i2_U41->din0(B_V_2_18_load_reg_3946);
cifar_10_mac_mula3i2_U41->din1(A_V_2_18_q0);
cifar_10_mac_mula3i2_U41->din2(grp_fu_3293_p3);
cifar_10_mac_mula3i2_U41->dout(grp_fu_3286_p3);
cifar_10_mac_mula3i2_U42 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U42");
cifar_10_mac_mula3i2_U42->din0(B_V_2_20_load_reg_3961);
cifar_10_mac_mula3i2_U42->din1(A_V_2_20_load_reg_3956);
cifar_10_mac_mula3i2_U42->din2(ret_V_19_reg_3951);
cifar_10_mac_mula3i2_U42->dout(grp_fu_3293_p3);
cifar_10_mac_mula3i2_U43 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U43");
cifar_10_mac_mula3i2_U43->din0(B_V_2_22_load_reg_3971);
cifar_10_mac_mula3i2_U43->din1(A_V_2_22_q0);
cifar_10_mac_mula3i2_U43->din2(ret_V_21_reg_3966);
cifar_10_mac_mula3i2_U43->dout(grp_fu_3301_p3);
cifar_10_mac_mula3i2_U44 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U44");
cifar_10_mac_mula3i2_U44->din0(B_V_2_24_load_reg_3981);
cifar_10_mac_mula3i2_U44->din1(A_V_2_24_q0);
cifar_10_mac_mula3i2_U44->din2(ret_V_23_reg_3976);
cifar_10_mac_mula3i2_U44->dout(grp_fu_3308_p3);
cifar_10_mac_mula3i2_U45 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U45");
cifar_10_mac_mula3i2_U45->din0(B_V_2_0_load_reg_3991);
cifar_10_mac_mula3i2_U45->din1(A_V_2_0_load_reg_3986);
cifar_10_mac_mula3i2_U45->din2(tmp5_reg_4026);
cifar_10_mac_mula3i2_U45->dout(grp_fu_3315_p3);
cifar_10_mac_mula3i2_U46 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U46");
cifar_10_mac_mula3i2_U46->din0(B_V_2_3_load_reg_4001);
cifar_10_mac_mula3i2_U46->din1(A_V_2_3_load_reg_3996);
cifar_10_mac_mula3i2_U46->din2(tmp7_reg_4031);
cifar_10_mac_mula3i2_U46->dout(grp_fu_3323_p3);
cifar_10_mac_mula3i2_U47 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U47");
cifar_10_mac_mula3i2_U47->din0(B_V_2_12_load_reg_4011);
cifar_10_mac_mula3i2_U47->din1(A_V_2_12_load_reg_4006);
cifar_10_mac_mula3i2_U47->din2(tmp16_reg_4046);
cifar_10_mac_mula3i2_U47->dout(grp_fu_3331_p3);
cifar_10_mac_mula3i2_U48 = new cifar_10_mac_mula3i2<1,1,16,16,32,32>("cifar_10_mac_mula3i2_U48");
cifar_10_mac_mula3i2_U48->din0(B_V_2_15_load_reg_4021);
cifar_10_mac_mula3i2_U48->din1(A_V_2_15_load_reg_4016);
cifar_10_mac_mula3i2_U48->din2(tmp18_reg_4051);
cifar_10_mac_mula3i2_U48->dout(grp_fu_3339_p3);
SC_METHOD(thread_ap_clk_no_reset_);
dont_initialize();
sensitive << ( ap_clk.pos() );
SC_METHOD(thread_A_COL_ITER_fu_2321_p0);
sensitive << ( OFMDim_current_2 );
sensitive << ( ap_CS_fsm_state14 );
SC_METHOD(thread_A_COL_ITER_fu_2321_p1);
sensitive << ( OFMDim_current_2 );
sensitive << ( ap_CS_fsm_state14 );
SC_METHOD(thread_A_COL_ITER_fu_2321_p2);
sensitive << ( A_COL_ITER_fu_2321_p0 );
sensitive << ( A_COL_ITER_fu_2321_p1 );
SC_METHOD(thread_A_V_2_0_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_0_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_0_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_0_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_0_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_0_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_10_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_10_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_10_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_10_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_10_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_10_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_11_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_11_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_11_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_11_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_11_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_11_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_12_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_12_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_12_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_12_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_12_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_12_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_13_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_13_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_13_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_13_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_13_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_13_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_14_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_14_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_14_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_14_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_14_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_14_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_15_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_15_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_15_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_15_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_15_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_15_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_16_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_16_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_16_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_16_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_16_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_16_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_17_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_17_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_17_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_17_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_17_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_17_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_18_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_18_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_18_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_18_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_18_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_18_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_19_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_19_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_19_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_19_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_19_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_19_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_1_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_1_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_1_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_1_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_1_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_1_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_20_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_20_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_20_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_20_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_20_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_20_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_21_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_21_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_21_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_21_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_21_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_21_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_22_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_22_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_22_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_22_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_22_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_22_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_23_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_23_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_23_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_23_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_23_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_23_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_24_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_24_address1);
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
sensitive << ( ap_condition_1808 );
sensitive << ( ap_condition_1833 );
SC_METHOD(thread_A_V_2_24_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_24_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_24_d1);
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
sensitive << ( ap_condition_1808 );
sensitive << ( ap_condition_1833 );
SC_METHOD(thread_A_V_2_24_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_2_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_2_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_2_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_2_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_2_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_2_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_3_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_3_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_3_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_3_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_3_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_3_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_4_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_4_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_4_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_4_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_4_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_4_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_5_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_5_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_5_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_5_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_5_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_5_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_6_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_6_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_6_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_6_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_6_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_6_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_7_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_7_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_7_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_7_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_7_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_7_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_8_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_fu_2626_p1 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_8_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_8_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_A_V_2_8_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_8_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_8_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_9_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic3_reg_3599 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_9_address1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( newIndex4_fu_2405_p1 );
sensitive << ( newIndex2_fu_2463_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_9_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_A_V_2_9_ce1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_A_V_2_9_d1);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
sensitive << ( tmp_139_fu_2434_p1 );
sensitive << ( ap_condition_694 );
SC_METHOD(thread_A_V_2_9_we1);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( tmp_141_reg_3477 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_B_V_2_0_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530_pp2_iter2_reg );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_B_V_2_0_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_0_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_B_V_2_0_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_0_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_0_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_10_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_135_cast_fu_2609_p1 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_10_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_10_ce0);
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_10_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_10_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_10_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_11_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_11_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_11_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_11_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_11_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_11_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_12_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530_pp2_iter2_reg );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_B_V_2_12_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_12_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_B_V_2_12_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_12_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_12_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_13_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_135_cast_fu_2609_p1 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_13_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_13_ce0);
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_13_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_13_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_13_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_14_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_14_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_14_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_14_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_14_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_14_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_15_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530_pp2_iter2_reg );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_B_V_2_15_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_15_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_B_V_2_15_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_15_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_15_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_16_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_135_cast_fu_2609_p1 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_16_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_16_ce0);
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_16_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_16_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_16_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_17_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_17_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_17_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_17_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_17_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_17_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_18_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_18_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_18_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_18_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_18_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_18_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_19_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_135_cast_fu_2609_p1 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_19_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_19_ce0);
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_19_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_19_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_19_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_1_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_135_cast_fu_2609_p1 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_1_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_1_ce0);
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_1_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_1_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_1_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_20_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_20_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_20_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_20_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_20_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_20_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_21_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_135_cast_fu_2609_p1 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_21_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_21_ce0);
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_21_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_21_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_21_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_22_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_22_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_22_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_22_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_22_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_22_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_23_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_135_cast_fu_2609_p1 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_23_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_23_ce0);
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_23_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_23_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_23_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_24_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_24_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( ap_condition_2094 );
sensitive << ( ap_condition_2148 );
SC_METHOD(thread_B_V_2_24_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_24_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_24_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( tmp_138_fu_3098_p1 );
sensitive << ( ap_condition_2094 );
sensitive << ( ap_condition_2148 );
SC_METHOD(thread_B_V_2_24_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_2_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_2_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_2_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_2_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_2_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_2_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_3_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530_pp2_iter2_reg );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_B_V_2_3_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_3_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter3 );
SC_METHOD(thread_B_V_2_3_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_3_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_3_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_4_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_135_cast_fu_2609_p1 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_4_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_4_ce0);
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_4_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_4_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_4_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_5_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_5_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_5_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_5_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_5_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_5_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_6_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_6_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_6_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_6_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_6_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_6_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_7_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_135_cast_fu_2609_p1 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_7_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_7_ce0);
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_B_V_2_7_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_7_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_7_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_8_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_8_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_8_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_8_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_8_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_8_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_9_address0);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( tmp_135_cast_reg_3530 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_9_address1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( tmp_132_cast_fu_3070_p1 );
sensitive << ( tmp_131_cast_fu_3146_p1 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_9_ce0);
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter2 );
SC_METHOD(thread_B_V_2_9_ce1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_B_V_2_9_d1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
sensitive << ( tmp_138_fu_3098_p1 );
SC_METHOD(thread_B_V_2_9_we1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( arrayNo8_fu_3060_p4 );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_ap_CS_fsm_pp0_stage0);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_pp1_stage0);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_pp2_stage0);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_pp3_stage0);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state1);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state10);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state13);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state14);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state15);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state18);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state2);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state27);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state28);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state3);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state4);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state5);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state6);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state7);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state8);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_CS_fsm_state9);
sensitive << ( ap_CS_fsm );
SC_METHOD(thread_ap_block_pp0_stage0);
SC_METHOD(thread_ap_block_pp0_stage0_01001);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_enable_reg_pp0_iter1 );
sensitive << ( exitcond3_reg_3423 );
SC_METHOD(thread_ap_block_pp0_stage0_11001);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_enable_reg_pp0_iter1 );
sensitive << ( exitcond3_reg_3423 );
SC_METHOD(thread_ap_block_pp0_stage0_subdone);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_enable_reg_pp0_iter1 );
sensitive << ( exitcond3_reg_3423 );
SC_METHOD(thread_ap_block_pp1_stage0);
SC_METHOD(thread_ap_block_pp1_stage0_11001);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
SC_METHOD(thread_ap_block_pp1_stage0_subdone);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
SC_METHOD(thread_ap_block_pp2_stage0);
SC_METHOD(thread_ap_block_pp2_stage0_01001);
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_enable_reg_pp2_iter7 );
sensitive << ( ifzero_reg_3595_pp2_iter6_reg );
SC_METHOD(thread_ap_block_pp2_stage0_11001);
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_enable_reg_pp2_iter7 );
sensitive << ( ifzero_reg_3595_pp2_iter6_reg );
SC_METHOD(thread_ap_block_pp2_stage0_subdone);
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_enable_reg_pp2_iter7 );
sensitive << ( ifzero_reg_3595_pp2_iter6_reg );
SC_METHOD(thread_ap_block_pp3_stage0);
SC_METHOD(thread_ap_block_pp3_stage0_01001);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
SC_METHOD(thread_ap_block_pp3_stage0_11001);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
SC_METHOD(thread_ap_block_pp3_stage0_subdone);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
SC_METHOD(thread_ap_block_state1);
sensitive << ( real_start );
sensitive << ( ap_done_reg );
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
SC_METHOD(thread_ap_block_state11_pp0_stage0_iter0);
SC_METHOD(thread_ap_block_state12_pp0_stage0_iter1);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( exitcond3_reg_3423 );
SC_METHOD(thread_ap_block_state16_pp1_stage0_iter0);
SC_METHOD(thread_ap_block_state17_pp1_stage0_iter1);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( tmp_72_reg_3463 );
SC_METHOD(thread_ap_block_state19_pp2_stage0_iter0);
SC_METHOD(thread_ap_block_state2);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
SC_METHOD(thread_ap_block_state20_pp2_stage0_iter1);
SC_METHOD(thread_ap_block_state21_pp2_stage0_iter2);
SC_METHOD(thread_ap_block_state22_pp2_stage0_iter3);
SC_METHOD(thread_ap_block_state23_pp2_stage0_iter4);
SC_METHOD(thread_ap_block_state24_pp2_stage0_iter5);
SC_METHOD(thread_ap_block_state25_pp2_stage0_iter6);
SC_METHOD(thread_ap_block_state26_pp2_stage0_iter7);
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ifzero_reg_3595_pp2_iter6_reg );
SC_METHOD(thread_ap_block_state29_pp3_stage0_iter0);
SC_METHOD(thread_ap_block_state3);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
SC_METHOD(thread_ap_block_state30_pp3_stage0_iter1);
SC_METHOD(thread_ap_block_state31_pp3_stage0_iter2);
SC_METHOD(thread_ap_block_state32_pp3_stage0_iter3);
SC_METHOD(thread_ap_block_state33_pp3_stage0_iter4);
SC_METHOD(thread_ap_block_state34_pp3_stage0_iter5);
SC_METHOD(thread_ap_block_state35_pp3_stage0_iter6);
SC_METHOD(thread_ap_block_state36_pp3_stage0_iter7);
SC_METHOD(thread_ap_block_state37_pp3_stage0_iter8);
SC_METHOD(thread_ap_block_state38_pp3_stage0_iter9);
SC_METHOD(thread_ap_block_state39_pp3_stage0_iter10);
SC_METHOD(thread_ap_block_state4);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
SC_METHOD(thread_ap_block_state40_pp3_stage0_iter11);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
SC_METHOD(thread_ap_block_state5);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
SC_METHOD(thread_ap_block_state6);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
SC_METHOD(thread_ap_block_state7);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
SC_METHOD(thread_ap_block_state8);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
SC_METHOD(thread_ap_condition_1808);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_141_reg_3477 );
SC_METHOD(thread_ap_condition_1833);
sensitive << ( tmp_72_reg_3463 );
sensitive << ( tmp_140_reg_3481 );
SC_METHOD(thread_ap_condition_2094);
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo8_fu_3060_p4 );
SC_METHOD(thread_ap_condition_2148);
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( arrayNo7_fu_3136_p4 );
SC_METHOD(thread_ap_condition_694);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( ap_block_pp1_stage0 );
SC_METHOD(thread_ap_condition_pp0_exit_iter0_state11);
sensitive << ( exitcond3_fu_2295_p2 );
SC_METHOD(thread_ap_condition_pp1_exit_iter0_state16);
sensitive << ( tmp_71_fu_2347_p2 );
SC_METHOD(thread_ap_condition_pp2_exit_iter0_state19);
sensitive << ( exitcond_flatten8_fu_2532_p2 );
SC_METHOD(thread_ap_condition_pp3_exit_iter0_state29);
sensitive << ( exitcond_flatten_fu_2936_p2 );
SC_METHOD(thread_ap_done);
sensitive << ( ap_done_reg );
sensitive << ( ap_CS_fsm_state13 );
SC_METHOD(thread_ap_enable_pp0);
sensitive << ( ap_idle_pp0 );
SC_METHOD(thread_ap_enable_pp1);
sensitive << ( ap_idle_pp1 );
SC_METHOD(thread_ap_enable_pp2);
sensitive << ( ap_idle_pp2 );
SC_METHOD(thread_ap_enable_pp3);
sensitive << ( ap_idle_pp3 );
SC_METHOD(thread_ap_idle);
sensitive << ( real_start );
sensitive << ( ap_CS_fsm_state1 );
SC_METHOD(thread_ap_idle_pp0);
sensitive << ( ap_enable_reg_pp0_iter1 );
sensitive << ( ap_enable_reg_pp0_iter0 );
SC_METHOD(thread_ap_idle_pp1);
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( ap_enable_reg_pp1_iter0 );
SC_METHOD(thread_ap_idle_pp2);
sensitive << ( ap_enable_reg_pp2_iter7 );
sensitive << ( ap_enable_reg_pp2_iter0 );
sensitive << ( ap_enable_reg_pp2_iter2 );
sensitive << ( ap_enable_reg_pp2_iter3 );
sensitive << ( ap_enable_reg_pp2_iter4 );
sensitive << ( ap_enable_reg_pp2_iter6 );
sensitive << ( ap_enable_reg_pp2_iter1 );
sensitive << ( ap_enable_reg_pp2_iter5 );
SC_METHOD(thread_ap_idle_pp3);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_enable_reg_pp3_iter0 );
sensitive << ( ap_enable_reg_pp3_iter1 );
sensitive << ( ap_enable_reg_pp3_iter2 );
sensitive << ( ap_enable_reg_pp3_iter3 );
sensitive << ( ap_enable_reg_pp3_iter4 );
sensitive << ( ap_enable_reg_pp3_iter5 );
sensitive << ( ap_enable_reg_pp3_iter6 );
sensitive << ( ap_enable_reg_pp3_iter7 );
sensitive << ( ap_enable_reg_pp3_iter8 );
sensitive << ( ap_enable_reg_pp3_iter9 );
sensitive << ( ap_enable_reg_pp3_iter10 );
SC_METHOD(thread_ap_phi_mux_i_phi_fu_2210_p4);
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( i_reg_2206 );
sensitive << ( exitcond_flatten_reg_4098 );
sensitive << ( ap_CS_fsm_pp3_stage0 );
sensitive << ( tmp_76_mid2_v_reg_4114 );
sensitive << ( ap_enable_reg_pp3_iter1 );
SC_METHOD(thread_ap_phi_mux_ib_phi_fu_2165_p4);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ib_reg_2161 );
sensitive << ( exitcond_flatten8_reg_3495 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( tmp_83_mid2_v_reg_3514 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_ap_phi_mux_ic_phi_fu_2188_p4);
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ic_reg_2184 );
sensitive << ( exitcond_flatten8_reg_3495 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ic_3_reg_3524 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_ap_phi_mux_p_6_phi_fu_2176_p4);
sensitive << ( ap_enable_reg_pp2_iter7 );
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( p_6_reg_2172 );
sensitive << ( exitcond_flatten8_reg_3495_pp2_iter6_reg );
sensitive << ( sum_V_s_reg_4081 );
SC_METHOD(thread_ap_ready);
sensitive << ( internal_ap_ready );
SC_METHOD(thread_arrayNo7_fu_3136_p4);
sensitive << ( mul_fu_3130_p2 );
SC_METHOD(thread_arrayNo8_fu_3060_p4);
sensitive << ( mul1_fu_3054_p2 );
SC_METHOD(thread_bound4_fu_2267_p2);
sensitive << ( p_shl1_fu_2259_p3 );
sensitive << ( cast2_fu_2255_p1 );
SC_METHOD(thread_cast2_fu_2255_p1);
sensitive << ( B_COL_2 );
SC_METHOD(thread_exitcond3_fu_2295_p2);
sensitive << ( ap_CS_fsm_pp0_stage0 );
sensitive << ( i3_reg_2060 );
sensitive << ( KER_bound_reg_3418 );
sensitive << ( ap_block_pp0_stage0_11001 );
sensitive << ( ap_enable_reg_pp0_iter0 );
SC_METHOD(thread_exitcond9_fu_2549_p2);
sensitive << ( exitcond_flatten8_fu_2532_p2 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter0 );
sensitive << ( ap_phi_mux_ic_phi_fu_2188_p4 );
SC_METHOD(thread_exitcond_flatten8_fu_2532_p2);
sensitive << ( indvar_flatten6_reg_2150 );
sensitive << ( bound4_reg_3403 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_enable_reg_pp2_iter0 );
SC_METHOD(thread_exitcond_flatten_fu_2936_p2);
sensitive << ( indvar_flatten_reg_2195 );
sensitive << ( ap_CS_fsm_pp3_stage0 );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( ap_enable_reg_pp3_iter0 );
SC_METHOD(thread_exitcond_fu_2306_p2);
sensitive << ( tmp_V_101_reg_3353 );
sensitive << ( ap_CS_fsm_state14 );
sensitive << ( num_imag_reg_2071 );
SC_METHOD(thread_grp_fu_2228_ce);
sensitive << ( ap_CS_fsm_pp3_stage0 );
sensitive << ( ap_block_pp3_stage0_11001 );
SC_METHOD(thread_grp_fu_2228_p1);
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( exitcond_flatten_fu_2936_p2 );
sensitive << ( ap_CS_fsm_pp3_stage0 );
sensitive << ( ap_enable_reg_pp3_iter0 );
sensitive << ( or_cond_fu_3003_p2 );
SC_METHOD(thread_i_5_fu_2300_p2);
sensitive << ( i3_reg_2060 );
SC_METHOD(thread_i_6_fu_2948_p2);
sensitive << ( ap_phi_mux_i_phi_fu_2210_p4 );
SC_METHOD(thread_i_cast_fu_2927_p1);
sensitive << ( ap_phi_mux_i_phi_fu_2210_p4 );
SC_METHOD(thread_i_cast_mid1_fu_2969_p1);
sensitive << ( i_6_fu_2948_p2 );
SC_METHOD(thread_ib_3_fu_2543_p2);
sensitive << ( ap_phi_mux_ib_phi_fu_2165_p4 );
SC_METHOD(thread_ic3_cast_fu_2593_p1);
sensitive << ( ic_mid2_fu_2555_p3 );
SC_METHOD(thread_ic3_fu_2626_p1);
sensitive << ( ic_mid2_reg_3509_pp2_iter1_reg );
SC_METHOD(thread_ic_3_fu_2603_p2);
sensitive << ( ic_mid2_fu_2555_p3 );
SC_METHOD(thread_ic_mid2_fu_2555_p3);
sensitive << ( exitcond9_fu_2549_p2 );
sensitive << ( ap_phi_mux_ic_phi_fu_2188_p4 );
SC_METHOD(thread_idx_urem1_fu_2504_p3);
sensitive << ( next_urem1_fu_2492_p2 );
sensitive << ( tmp_145_fu_2498_p2 );
SC_METHOD(thread_idx_urem_fu_2524_p3);
sensitive << ( next_urem_fu_2512_p2 );
sensitive << ( tmp_146_fu_2518_p2 );
SC_METHOD(thread_ifzero_fu_2621_p2);
sensitive << ( exitcond_flatten8_reg_3495 );
sensitive << ( ap_CS_fsm_pp2_stage0 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ic_3_reg_3524 );
sensitive << ( ap_enable_reg_pp2_iter1 );
SC_METHOD(thread_in_stream_a_V_V_blk_n);
sensitive << ( real_start );
sensitive << ( ap_done_reg );
sensitive << ( ap_CS_fsm_state1 );
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( ap_CS_fsm_state2 );
sensitive << ( ap_CS_fsm_state3 );
sensitive << ( ap_CS_fsm_state4 );
sensitive << ( ap_CS_fsm_state5 );
sensitive << ( ap_CS_fsm_state6 );
sensitive << ( ap_CS_fsm_state7 );
sensitive << ( ap_CS_fsm_state8 );
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( ap_block_pp1_stage0 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_CS_fsm_pp0_stage0 );
sensitive << ( ap_enable_reg_pp0_iter1 );
sensitive << ( ap_block_pp0_stage0 );
sensitive << ( exitcond3_reg_3423 );
SC_METHOD(thread_in_stream_a_V_V_read);
sensitive << ( real_start );
sensitive << ( ap_done_reg );
sensitive << ( ap_CS_fsm_state1 );
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_CS_fsm_state2 );
sensitive << ( ap_CS_fsm_state3 );
sensitive << ( ap_CS_fsm_state4 );
sensitive << ( ap_CS_fsm_state5 );
sensitive << ( ap_CS_fsm_state6 );
sensitive << ( ap_CS_fsm_state7 );
sensitive << ( ap_CS_fsm_state8 );
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_72_reg_3463 );
sensitive << ( ap_CS_fsm_pp0_stage0 );
sensitive << ( ap_enable_reg_pp0_iter1 );
sensitive << ( exitcond3_reg_3423 );
sensitive << ( ap_block_pp0_stage0_11001 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( ap_block_pp3_stage0_11001 );
SC_METHOD(thread_indvar_flatten_next7_fu_2537_p2);
sensitive << ( indvar_flatten6_reg_2150 );
SC_METHOD(thread_indvar_flatten_next_fu_2942_p2);
sensitive << ( indvar_flatten_reg_2195 );
SC_METHOD(thread_internal_ap_ready);
sensitive << ( ap_CS_fsm_state13 );
SC_METHOD(thread_iter_3_fu_2341_p2);
sensitive << ( iter_reg_2082 );
SC_METHOD(thread_iter_cast_fu_2332_p1);
sensitive << ( iter_reg_2082 );
SC_METHOD(thread_j2_cast_fu_2359_p1);
sensitive << ( j2_reg_2093 );
SC_METHOD(thread_j_8_fu_3009_p2);
sensitive << ( j_mid2_fu_2960_p3 );
SC_METHOD(thread_j_9_fu_2353_p2);
sensitive << ( j2_reg_2093 );
SC_METHOD(thread_j_cast_fu_2994_p1);
sensitive << ( j_mid2_fu_2960_p3 );
SC_METHOD(thread_j_mid2_fu_2960_p3);
sensitive << ( j_reg_2217 );
sensitive << ( tmp_133_fu_2954_p2 );
SC_METHOD(thread_mul1_fu_3054_p0);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( mul1_fu_3054_p00 );
SC_METHOD(thread_mul1_fu_3054_p00);
sensitive << ( j_mid2_reg_4107_pp3_iter10_reg );
SC_METHOD(thread_mul1_fu_3054_p2);
sensitive << ( mul1_fu_3054_p0 );
SC_METHOD(thread_mul_fu_3130_p1);
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( mul_fu_3130_p10 );
SC_METHOD(thread_mul_fu_3130_p10);
sensitive << ( j_mid2_reg_4107_pp3_iter10_reg );
SC_METHOD(thread_mul_fu_3130_p2);
sensitive << ( mul_fu_3130_p1 );
SC_METHOD(thread_newIndex1_cast_fu_3031_p1);
sensitive << ( grp_fu_2228_p2 );
SC_METHOD(thread_newIndex2_fu_2463_p1);
sensitive << ( phi_urem_reg_2126 );
SC_METHOD(thread_newIndex4_fu_2405_p1);
sensitive << ( phi_urem1_reg_2138 );
SC_METHOD(thread_newIndex8_cast_fu_3041_p1);
sensitive << ( grp_fu_2228_p2 );
SC_METHOD(thread_next_mul1_fu_2379_p2);
sensitive << ( phi_mul1_reg_2115 );
SC_METHOD(thread_next_mul_fu_2373_p2);
sensitive << ( phi_mul_reg_2104 );
SC_METHOD(thread_next_urem1_fu_2492_p2);
sensitive << ( phi_urem1_reg_2138 );
SC_METHOD(thread_next_urem_fu_2512_p2);
sensitive << ( phi_urem_reg_2126 );
SC_METHOD(thread_num_imag_3_fu_2311_p2);
sensitive << ( num_imag_reg_2071 );
SC_METHOD(thread_or_cond_fu_3003_p2);
sensitive << ( tmp_69_fu_2998_p2 );
sensitive << ( tmp_77_mid2_fu_2986_p3 );
SC_METHOD(thread_out_stream_V_V_blk_n);
sensitive << ( real_start );
sensitive << ( ap_done_reg );
sensitive << ( ap_CS_fsm_state1 );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_CS_fsm_state2 );
sensitive << ( ap_CS_fsm_state3 );
sensitive << ( ap_CS_fsm_state4 );
sensitive << ( ap_CS_fsm_state5 );
sensitive << ( ap_CS_fsm_state6 );
sensitive << ( ap_CS_fsm_state7 );
sensitive << ( ap_CS_fsm_state8 );
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_block_pp3_stage0 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_CS_fsm_pp0_stage0 );
sensitive << ( ap_enable_reg_pp0_iter1 );
sensitive << ( ap_block_pp0_stage0 );
sensitive << ( exitcond3_reg_3423 );
sensitive << ( ap_enable_reg_pp2_iter7 );
sensitive << ( ap_block_pp2_stage0 );
sensitive << ( ifzero_reg_3595_pp2_iter6_reg );
SC_METHOD(thread_out_stream_V_V_din);
sensitive << ( real_start );
sensitive << ( ap_done_reg );
sensitive << ( ap_CS_fsm_state1 );
sensitive << ( in_stream_a_V_V_dout );
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_CS_fsm_state2 );
sensitive << ( ap_CS_fsm_state3 );
sensitive << ( ap_CS_fsm_state4 );
sensitive << ( ap_CS_fsm_state5 );
sensitive << ( ap_CS_fsm_state6 );
sensitive << ( ap_CS_fsm_state7 );
sensitive << ( ap_CS_fsm_state8 );
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_CS_fsm_pp0_stage0 );
sensitive << ( ap_enable_reg_pp0_iter1 );
sensitive << ( exitcond3_reg_3423 );
sensitive << ( ap_enable_reg_pp2_iter7 );
sensitive << ( ifzero_reg_3595_pp2_iter6_reg );
sensitive << ( ap_block_pp0_stage0_01001 );
sensitive << ( tmp_V_120_fu_2912_p1 );
sensitive << ( ap_block_pp2_stage0_01001 );
sensitive << ( ap_block_pp3_stage0_01001 );
SC_METHOD(thread_out_stream_V_V_write);
sensitive << ( real_start );
sensitive << ( ap_done_reg );
sensitive << ( ap_CS_fsm_state1 );
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_CS_fsm_state2 );
sensitive << ( ap_CS_fsm_state3 );
sensitive << ( ap_CS_fsm_state4 );
sensitive << ( ap_CS_fsm_state5 );
sensitive << ( ap_CS_fsm_state6 );
sensitive << ( ap_CS_fsm_state7 );
sensitive << ( ap_CS_fsm_state8 );
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( or_cond_reg_4121_pp3_iter10_reg );
sensitive << ( ap_CS_fsm_pp0_stage0 );
sensitive << ( ap_enable_reg_pp0_iter1 );
sensitive << ( exitcond3_reg_3423 );
sensitive << ( ap_enable_reg_pp2_iter7 );
sensitive << ( ifzero_reg_3595_pp2_iter6_reg );
sensitive << ( ap_block_pp0_stage0_11001 );
sensitive << ( ap_block_pp2_stage0_11001 );
sensitive << ( ap_block_pp3_stage0_11001 );
SC_METHOD(thread_output_data_fu_2904_p3);
sensitive << ( tmp_144_fu_2875_p3 );
sensitive << ( p_neg_t_fu_2885_p2 );
sensitive << ( p_lshr_f_cast_fu_2900_p1 );
SC_METHOD(thread_p_6_mid2_fu_2842_p3);
sensitive << ( exitcond9_reg_3504_pp2_iter5_reg );
sensitive << ( ap_phi_mux_p_6_phi_fu_2176_p4 );
SC_METHOD(thread_p_lshr_cast_fu_2882_p1);
sensitive << ( tmp_136_reg_4088 );
SC_METHOD(thread_p_lshr_f_cast_fu_2900_p1);
sensitive << ( tmp_137_fu_2891_p4 );
SC_METHOD(thread_p_neg_fu_2859_p2);
sensitive << ( sum_V_s_fu_2853_p2 );
SC_METHOD(thread_p_neg_t_fu_2885_p2);
sensitive << ( p_lshr_cast_fu_2882_p1 );
SC_METHOD(thread_p_shl1_fu_2259_p3);
sensitive << ( B_COL_2 );
SC_METHOD(thread_p_shl2_cast_fu_2579_p3);
sensitive << ( tmp_143_fu_2575_p1 );
SC_METHOD(thread_real_start);
sensitive << ( ap_start );
sensitive << ( start_full_n );
sensitive << ( start_once_reg );
SC_METHOD(thread_start_out);
sensitive << ( real_start );
SC_METHOD(thread_start_write);
sensitive << ( real_start );
sensitive << ( start_once_reg );
SC_METHOD(thread_sum_V_s_fu_2853_p2);
sensitive << ( p_6_mid2_fu_2842_p3 );
sensitive << ( tmp_27_fu_2849_p2 );
SC_METHOD(thread_tmp13_fu_2836_p2);
sensitive << ( tmp19_fu_2831_p2 );
sensitive << ( tmp14_fu_2823_p2 );
SC_METHOD(thread_tmp14_fu_2823_p2);
sensitive << ( grp_fu_3339_p3 );
sensitive << ( grp_fu_3331_p3 );
SC_METHOD(thread_tmp19_fu_2831_p2);
sensitive << ( tmp20_reg_4056 );
sensitive << ( tmp22_fu_2827_p2 );
SC_METHOD(thread_tmp1_fu_2278_p2);
sensitive << ( tmp_V_103_reg_3358 );
sensitive << ( tmp_V_105_reg_3366 );
SC_METHOD(thread_tmp22_fu_2827_p2);
sensitive << ( tmp23_reg_4061 );
sensitive << ( tmp24_reg_4066 );
SC_METHOD(thread_tmp2_fu_2817_p2);
sensitive << ( tmp8_fu_2813_p2 );
sensitive << ( tmp3_fu_2809_p2 );
SC_METHOD(thread_tmp3_fu_2809_p2);
sensitive << ( grp_fu_3323_p3 );
sensitive << ( grp_fu_3315_p3 );
SC_METHOD(thread_tmp8_fu_2813_p2);
sensitive << ( tmp9_reg_4036 );
sensitive << ( tmp11_reg_4041 );
SC_METHOD(thread_tmp_129_fu_3018_p3);
sensitive << ( tmp_76_mid2_v_reg_4114_pp3_iter9_reg );
SC_METHOD(thread_tmp_130_fu_3025_p2);
sensitive << ( tmp_129_fu_3018_p3 );
sensitive << ( tmp_76_mid2_cast_fu_3015_p1 );
SC_METHOD(thread_tmp_131_cast_fu_3146_p1);
sensitive << ( tmp_131_reg_4135 );
SC_METHOD(thread_tmp_131_fu_3045_p2);
sensitive << ( tmp_130_fu_3025_p2 );
sensitive << ( newIndex8_cast_fu_3041_p1 );
SC_METHOD(thread_tmp_132_cast_fu_3070_p1);
sensitive << ( tmp_132_reg_4130 );
SC_METHOD(thread_tmp_132_fu_3035_p2);
sensitive << ( newIndex1_cast_fu_3031_p1 );
sensitive << ( tmp_130_fu_3025_p2 );
SC_METHOD(thread_tmp_133_fu_2954_p2);
sensitive << ( j_reg_2217 );
sensitive << ( exitcond_flatten_fu_2936_p2 );
sensitive << ( ap_CS_fsm_pp3_stage0 );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( ap_enable_reg_pp3_iter0 );
SC_METHOD(thread_tmp_134_fu_2587_p2);
sensitive << ( p_shl2_cast_fu_2579_p3 );
sensitive << ( tmp_142_fu_2571_p1 );
SC_METHOD(thread_tmp_135_cast_fu_2609_p1);
sensitive << ( tmp_135_reg_3519 );
SC_METHOD(thread_tmp_135_fu_2597_p2);
sensitive << ( ic3_cast_fu_2593_p1 );
sensitive << ( tmp_134_fu_2587_p2 );
SC_METHOD(thread_tmp_137_fu_2891_p4);
sensitive << ( sum_V_s_reg_4081 );
SC_METHOD(thread_tmp_138_fu_3098_p1);
sensitive << ( in_stream_a_V_V_dout );
SC_METHOD(thread_tmp_139_fu_2434_p1);
sensitive << ( in_stream_a_V_V_dout );
SC_METHOD(thread_tmp_142_fu_2571_p1);
sensitive << ( tmp_83_mid2_v_fu_2563_p3 );
SC_METHOD(thread_tmp_143_fu_2575_p1);
sensitive << ( tmp_83_mid2_v_fu_2563_p3 );
SC_METHOD(thread_tmp_144_fu_2875_p3);
sensitive << ( sum_V_s_reg_4081 );
SC_METHOD(thread_tmp_145_fu_2498_p2);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_71_reg_3454 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( next_urem1_fu_2492_p2 );
SC_METHOD(thread_tmp_146_fu_2518_p2);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( ap_enable_reg_pp1_iter1 );
sensitive << ( tmp_71_reg_3454 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( next_urem_fu_2512_p2 );
SC_METHOD(thread_tmp_27_fu_2849_p2);
sensitive << ( tmp2_reg_4071 );
sensitive << ( tmp13_reg_4076 );
SC_METHOD(thread_tmp_65_fu_2917_p2);
sensitive << ( tmp_V_103_reg_3358 );
sensitive << ( tmp1_reg_3408 );
SC_METHOD(thread_tmp_66_fu_2246_p2);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_CS_fsm_state8 );
sensitive << ( tmp_V_reg_3347 );
sensitive << ( tmp_s_fu_2233_p2 );
SC_METHOD(thread_tmp_67_fu_2931_p2);
sensitive << ( tmp_V_109_reg_3372 );
sensitive << ( ap_CS_fsm_pp3_stage0 );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( ap_enable_reg_pp3_iter0 );
sensitive << ( i_cast_fu_2927_p1 );
SC_METHOD(thread_tmp_69_fu_2998_p2);
sensitive << ( tmp_65_reg_4093 );
sensitive << ( exitcond_flatten_fu_2936_p2 );
sensitive << ( ap_CS_fsm_pp3_stage0 );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( ap_enable_reg_pp3_iter0 );
sensitive << ( j_cast_fu_2994_p1 );
SC_METHOD(thread_tmp_70_fu_2336_p2);
sensitive << ( A_COL_ITER_reg_3440 );
sensitive << ( ap_CS_fsm_state15 );
sensitive << ( iter_cast_fu_2332_p1 );
SC_METHOD(thread_tmp_71_fu_2347_p2);
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( j2_reg_2093 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( ap_enable_reg_pp1_iter0 );
SC_METHOD(thread_tmp_72_fu_2367_p2);
sensitive << ( A_ROW_2 );
sensitive << ( ap_CS_fsm_pp1_stage0 );
sensitive << ( tmp_71_fu_2347_p2 );
sensitive << ( ap_block_pp1_stage0_11001 );
sensitive << ( ap_enable_reg_pp1_iter0 );
sensitive << ( j2_cast_fu_2359_p1 );
SC_METHOD(thread_tmp_76_mid2_cast_fu_3015_p1);
sensitive << ( tmp_76_mid2_v_reg_4114_pp3_iter9_reg );
SC_METHOD(thread_tmp_76_mid2_v_fu_2973_p3);
sensitive << ( ap_phi_mux_i_phi_fu_2210_p4 );
sensitive << ( tmp_133_fu_2954_p2 );
sensitive << ( i_6_fu_2948_p2 );
SC_METHOD(thread_tmp_77_mid1_fu_2981_p2);
sensitive << ( tmp_V_109_reg_3372 );
sensitive << ( exitcond_flatten_fu_2936_p2 );
sensitive << ( ap_CS_fsm_pp3_stage0 );
sensitive << ( ap_block_pp3_stage0_11001 );
sensitive << ( ap_enable_reg_pp3_iter0 );
sensitive << ( i_cast_mid1_fu_2969_p1 );
SC_METHOD(thread_tmp_77_mid2_fu_2986_p3);
sensitive << ( tmp_133_fu_2954_p2 );
sensitive << ( tmp_77_mid1_fu_2981_p2 );
sensitive << ( tmp_67_fu_2931_p2 );
SC_METHOD(thread_tmp_83_mid2_v_fu_2563_p3);
sensitive << ( exitcond9_fu_2549_p2 );
sensitive << ( ap_phi_mux_ib_phi_fu_2165_p4 );
sensitive << ( ib_3_fu_2543_p2 );
SC_METHOD(thread_tmp_V_120_fu_2912_p1);
sensitive << ( output_data_fu_2904_p3 );
SC_METHOD(thread_tmp_s_fu_2233_p2);
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_CS_fsm_state8 );
sensitive << ( tmp_V_reg_3347 );
SC_METHOD(thread_ap_NS_fsm);
sensitive << ( real_start );
sensitive << ( ap_done_reg );
sensitive << ( ap_CS_fsm );
sensitive << ( ap_CS_fsm_state1 );
sensitive << ( in_stream_a_V_V_empty_n );
sensitive << ( out_stream_V_V_full_n );
sensitive << ( ap_CS_fsm_state2 );
sensitive << ( ap_CS_fsm_state3 );
sensitive << ( ap_CS_fsm_state4 );
sensitive << ( ap_CS_fsm_state5 );
sensitive << ( ap_CS_fsm_state6 );
sensitive << ( ap_CS_fsm_state7 );
sensitive << ( ap_CS_fsm_state8 );
sensitive << ( ap_enable_reg_pp3_iter11 );
sensitive << ( ap_enable_reg_pp2_iter7 );
sensitive << ( tmp_s_fu_2233_p2 );
sensitive << ( tmp_66_fu_2246_p2 );
sensitive << ( exitcond3_fu_2295_p2 );
sensitive << ( ap_enable_reg_pp0_iter0 );
sensitive << ( ap_CS_fsm_state14 );
sensitive << ( exitcond_fu_2306_p2 );
sensitive << ( tmp_70_fu_2336_p2 );
sensitive << ( ap_CS_fsm_state15 );
sensitive << ( tmp_71_fu_2347_p2 );
sensitive << ( ap_enable_reg_pp1_iter0 );
sensitive << ( exitcond_flatten8_fu_2532_p2 );
sensitive << ( ap_enable_reg_pp2_iter0 );
sensitive << ( ap_enable_reg_pp2_iter6 );
sensitive << ( exitcond_flatten_fu_2936_p2 );
sensitive << ( ap_enable_reg_pp3_iter0 );
sensitive << ( ap_block_pp0_stage0_subdone );
sensitive << ( ap_block_pp1_stage0_subdone );
sensitive << ( ap_block_pp2_stage0_subdone );
sensitive << ( ap_enable_reg_pp2_iter1 );
sensitive << ( ap_block_pp3_stage0_subdone );
sensitive << ( ap_enable_reg_pp3_iter1 );
sensitive << ( ap_enable_reg_pp3_iter10 );
start_once_reg = SC_LOGIC_0;
ap_done_reg = SC_LOGIC_0;
ap_CS_fsm = "000000000000000000001";
B_COL_2 = "00000000000000000000000000100000";
B_ROW_2 = "00000000000000000000000001001011";
OFMDim_current_2 = "00000000000000000000000000000000";
A_ROW_2 = "00000000000000000000000001001011";
ap_enable_reg_pp3_iter11 = SC_LOGIC_0;
ap_enable_reg_pp1_iter1 = SC_LOGIC_0;
ap_enable_reg_pp0_iter1 = SC_LOGIC_0;
ap_enable_reg_pp2_iter7 = SC_LOGIC_0;
ap_enable_reg_pp0_iter0 = SC_LOGIC_0;
ap_enable_reg_pp1_iter0 = SC_LOGIC_0;
ap_enable_reg_pp2_iter0 = SC_LOGIC_0;
ap_enable_reg_pp2_iter2 = SC_LOGIC_0;
ap_enable_reg_pp2_iter3 = SC_LOGIC_0;
ap_enable_reg_pp2_iter4 = SC_LOGIC_0;
ap_enable_reg_pp2_iter6 = SC_LOGIC_0;
ap_enable_reg_pp3_iter0 = SC_LOGIC_0;
ap_enable_reg_pp2_iter1 = SC_LOGIC_0;
ap_enable_reg_pp2_iter5 = SC_LOGIC_0;
ap_enable_reg_pp3_iter1 = SC_LOGIC_0;
ap_enable_reg_pp3_iter2 = SC_LOGIC_0;
ap_enable_reg_pp3_iter3 = SC_LOGIC_0;
ap_enable_reg_pp3_iter4 = SC_LOGIC_0;
ap_enable_reg_pp3_iter5 = SC_LOGIC_0;
ap_enable_reg_pp3_iter6 = SC_LOGIC_0;
ap_enable_reg_pp3_iter7 = SC_LOGIC_0;
ap_enable_reg_pp3_iter8 = SC_LOGIC_0;
ap_enable_reg_pp3_iter9 = SC_LOGIC_0;
ap_enable_reg_pp3_iter10 = SC_LOGIC_0;
static int apTFileNum = 0;
stringstream apTFilenSS;
apTFilenSS << "SMM_1u_75u_32u_s_sc_trace_" << apTFileNum ++;
string apTFn = apTFilenSS.str();
mVcdFile = sc_create_vcd_trace_file(apTFn.c_str());
mVcdFile->set_time_unit(1, SC_PS);
if (1) {
#ifdef __HLS_TRACE_LEVEL_PORT_HIER__
sc_trace(mVcdFile, ap_clk, "(port)ap_clk");
sc_trace(mVcdFile, ap_rst, "(port)ap_rst");
sc_trace(mVcdFile, ap_start, "(port)ap_start");
sc_trace(mVcdFile, start_full_n, "(port)start_full_n");
sc_trace(mVcdFile, ap_done, "(port)ap_done");
sc_trace(mVcdFile, ap_continue, "(port)ap_continue");
sc_trace(mVcdFile, ap_idle, "(port)ap_idle");
sc_trace(mVcdFile, ap_ready, "(port)ap_ready");
sc_trace(mVcdFile, start_out, "(port)start_out");
sc_trace(mVcdFile, start_write, "(port)start_write");
sc_trace(mVcdFile, in_stream_a_V_V_dout, "(port)in_stream_a_V_V_dout");
sc_trace(mVcdFile, in_stream_a_V_V_empty_n, "(port)in_stream_a_V_V_empty_n");
sc_trace(mVcdFile, in_stream_a_V_V_read, "(port)in_stream_a_V_V_read");
sc_trace(mVcdFile, out_stream_V_V_din, "(port)out_stream_V_V_din");
sc_trace(mVcdFile, out_stream_V_V_full_n, "(port)out_stream_V_V_full_n");
sc_trace(mVcdFile, out_stream_V_V_write, "(port)out_stream_V_V_write");
#endif
#ifdef __HLS_TRACE_LEVEL_INT__
sc_trace(mVcdFile, real_start, "real_start");
sc_trace(mVcdFile, start_once_reg, "start_once_reg");
sc_trace(mVcdFile, ap_done_reg, "ap_done_reg");
sc_trace(mVcdFile, ap_CS_fsm, "ap_CS_fsm");
sc_trace(mVcdFile, ap_CS_fsm_state1, "ap_CS_fsm_state1");
sc_trace(mVcdFile, internal_ap_ready, "internal_ap_ready");
sc_trace(mVcdFile, B_COL_2, "B_COL_2");
sc_trace(mVcdFile, B_ROW_2, "B_ROW_2");
sc_trace(mVcdFile, OFMDim_current_2, "OFMDim_current_2");
sc_trace(mVcdFile, A_ROW_2, "A_ROW_2");
sc_trace(mVcdFile, A_V_2_0_address0, "A_V_2_0_address0");
sc_trace(mVcdFile, A_V_2_0_ce0, "A_V_2_0_ce0");
sc_trace(mVcdFile, A_V_2_0_q0, "A_V_2_0_q0");
sc_trace(mVcdFile, A_V_2_0_address1, "A_V_2_0_address1");
sc_trace(mVcdFile, A_V_2_0_ce1, "A_V_2_0_ce1");
sc_trace(mVcdFile, A_V_2_0_we1, "A_V_2_0_we1");
sc_trace(mVcdFile, A_V_2_0_d1, "A_V_2_0_d1");
sc_trace(mVcdFile, B_V_2_0_address0, "B_V_2_0_address0");
sc_trace(mVcdFile, B_V_2_0_ce0, "B_V_2_0_ce0");
sc_trace(mVcdFile, B_V_2_0_q0, "B_V_2_0_q0");
sc_trace(mVcdFile, B_V_2_0_address1, "B_V_2_0_address1");
sc_trace(mVcdFile, B_V_2_0_ce1, "B_V_2_0_ce1");
sc_trace(mVcdFile, B_V_2_0_we1, "B_V_2_0_we1");
sc_trace(mVcdFile, B_V_2_0_d1, "B_V_2_0_d1");
sc_trace(mVcdFile, A_V_2_1_address0, "A_V_2_1_address0");
sc_trace(mVcdFile, A_V_2_1_ce0, "A_V_2_1_ce0");
sc_trace(mVcdFile, A_V_2_1_q0, "A_V_2_1_q0");
sc_trace(mVcdFile, A_V_2_1_address1, "A_V_2_1_address1");
sc_trace(mVcdFile, A_V_2_1_ce1, "A_V_2_1_ce1");
sc_trace(mVcdFile, A_V_2_1_we1, "A_V_2_1_we1");
sc_trace(mVcdFile, A_V_2_1_d1, "A_V_2_1_d1");
sc_trace(mVcdFile, B_V_2_1_address0, "B_V_2_1_address0");
sc_trace(mVcdFile, B_V_2_1_ce0, "B_V_2_1_ce0");
sc_trace(mVcdFile, B_V_2_1_q0, "B_V_2_1_q0");
sc_trace(mVcdFile, B_V_2_1_address1, "B_V_2_1_address1");
sc_trace(mVcdFile, B_V_2_1_ce1, "B_V_2_1_ce1");
sc_trace(mVcdFile, B_V_2_1_we1, "B_V_2_1_we1");
sc_trace(mVcdFile, B_V_2_1_d1, "B_V_2_1_d1");
sc_trace(mVcdFile, A_V_2_2_address0, "A_V_2_2_address0");
sc_trace(mVcdFile, A_V_2_2_ce0, "A_V_2_2_ce0");
sc_trace(mVcdFile, A_V_2_2_q0, "A_V_2_2_q0");
sc_trace(mVcdFile, A_V_2_2_address1, "A_V_2_2_address1");
sc_trace(mVcdFile, A_V_2_2_ce1, "A_V_2_2_ce1");
sc_trace(mVcdFile, A_V_2_2_we1, "A_V_2_2_we1");
sc_trace(mVcdFile, A_V_2_2_d1, "A_V_2_2_d1");
sc_trace(mVcdFile, B_V_2_2_address0, "B_V_2_2_address0");
sc_trace(mVcdFile, B_V_2_2_ce0, "B_V_2_2_ce0");
sc_trace(mVcdFile, B_V_2_2_q0, "B_V_2_2_q0");
sc_trace(mVcdFile, B_V_2_2_address1, "B_V_2_2_address1");
sc_trace(mVcdFile, B_V_2_2_ce1, "B_V_2_2_ce1");
sc_trace(mVcdFile, B_V_2_2_we1, "B_V_2_2_we1");
sc_trace(mVcdFile, B_V_2_2_d1, "B_V_2_2_d1");
sc_trace(mVcdFile, A_V_2_3_address0, "A_V_2_3_address0");
sc_trace(mVcdFile, A_V_2_3_ce0, "A_V_2_3_ce0");
sc_trace(mVcdFile, A_V_2_3_q0, "A_V_2_3_q0");
sc_trace(mVcdFile, A_V_2_3_address1, "A_V_2_3_address1");
sc_trace(mVcdFile, A_V_2_3_ce1, "A_V_2_3_ce1");
sc_trace(mVcdFile, A_V_2_3_we1, "A_V_2_3_we1");
sc_trace(mVcdFile, A_V_2_3_d1, "A_V_2_3_d1");
sc_trace(mVcdFile, B_V_2_3_address0, "B_V_2_3_address0");
sc_trace(mVcdFile, B_V_2_3_ce0, "B_V_2_3_ce0");
sc_trace(mVcdFile, B_V_2_3_q0, "B_V_2_3_q0");
sc_trace(mVcdFile, B_V_2_3_address1, "B_V_2_3_address1");
sc_trace(mVcdFile, B_V_2_3_ce1, "B_V_2_3_ce1");
sc_trace(mVcdFile, B_V_2_3_we1, "B_V_2_3_we1");
sc_trace(mVcdFile, B_V_2_3_d1, "B_V_2_3_d1");
sc_trace(mVcdFile, A_V_2_4_address0, "A_V_2_4_address0");
sc_trace(mVcdFile, A_V_2_4_ce0, "A_V_2_4_ce0");
sc_trace(mVcdFile, A_V_2_4_q0, "A_V_2_4_q0");
sc_trace(mVcdFile, A_V_2_4_address1, "A_V_2_4_address1");
sc_trace(mVcdFile, A_V_2_4_ce1, "A_V_2_4_ce1");
sc_trace(mVcdFile, A_V_2_4_we1, "A_V_2_4_we1");
sc_trace(mVcdFile, A_V_2_4_d1, "A_V_2_4_d1");
sc_trace(mVcdFile, B_V_2_4_address0, "B_V_2_4_address0");
sc_trace(mVcdFile, B_V_2_4_ce0, "B_V_2_4_ce0");
sc_trace(mVcdFile, B_V_2_4_q0, "B_V_2_4_q0");
sc_trace(mVcdFile, B_V_2_4_address1, "B_V_2_4_address1");
sc_trace(mVcdFile, B_V_2_4_ce1, "B_V_2_4_ce1");
sc_trace(mVcdFile, B_V_2_4_we1, "B_V_2_4_we1");
sc_trace(mVcdFile, B_V_2_4_d1, "B_V_2_4_d1");
sc_trace(mVcdFile, A_V_2_5_address0, "A_V_2_5_address0");
sc_trace(mVcdFile, A_V_2_5_ce0, "A_V_2_5_ce0");
sc_trace(mVcdFile, A_V_2_5_q0, "A_V_2_5_q0");
sc_trace(mVcdFile, A_V_2_5_address1, "A_V_2_5_address1");
sc_trace(mVcdFile, A_V_2_5_ce1, "A_V_2_5_ce1");
sc_trace(mVcdFile, A_V_2_5_we1, "A_V_2_5_we1");
sc_trace(mVcdFile, A_V_2_5_d1, "A_V_2_5_d1");
sc_trace(mVcdFile, B_V_2_5_address0, "B_V_2_5_address0");
sc_trace(mVcdFile, B_V_2_5_ce0, "B_V_2_5_ce0");
sc_trace(mVcdFile, B_V_2_5_q0, "B_V_2_5_q0");
sc_trace(mVcdFile, B_V_2_5_address1, "B_V_2_5_address1");
sc_trace(mVcdFile, B_V_2_5_ce1, "B_V_2_5_ce1");
sc_trace(mVcdFile, B_V_2_5_we1, "B_V_2_5_we1");
sc_trace(mVcdFile, B_V_2_5_d1, "B_V_2_5_d1");
sc_trace(mVcdFile, A_V_2_6_address0, "A_V_2_6_address0");
sc_trace(mVcdFile, A_V_2_6_ce0, "A_V_2_6_ce0");
sc_trace(mVcdFile, A_V_2_6_q0, "A_V_2_6_q0");
sc_trace(mVcdFile, A_V_2_6_address1, "A_V_2_6_address1");
sc_trace(mVcdFile, A_V_2_6_ce1, "A_V_2_6_ce1");
sc_trace(mVcdFile, A_V_2_6_we1, "A_V_2_6_we1");
sc_trace(mVcdFile, A_V_2_6_d1, "A_V_2_6_d1");
sc_trace(mVcdFile, B_V_2_6_address0, "B_V_2_6_address0");
sc_trace(mVcdFile, B_V_2_6_ce0, "B_V_2_6_ce0");
sc_trace(mVcdFile, B_V_2_6_q0, "B_V_2_6_q0");
sc_trace(mVcdFile, B_V_2_6_address1, "B_V_2_6_address1");
sc_trace(mVcdFile, B_V_2_6_ce1, "B_V_2_6_ce1");
sc_trace(mVcdFile, B_V_2_6_we1, "B_V_2_6_we1");
sc_trace(mVcdFile, B_V_2_6_d1, "B_V_2_6_d1");
sc_trace(mVcdFile, A_V_2_7_address0, "A_V_2_7_address0");
sc_trace(mVcdFile, A_V_2_7_ce0, "A_V_2_7_ce0");
sc_trace(mVcdFile, A_V_2_7_q0, "A_V_2_7_q0");
sc_trace(mVcdFile, A_V_2_7_address1, "A_V_2_7_address1");
sc_trace(mVcdFile, A_V_2_7_ce1, "A_V_2_7_ce1");
sc_trace(mVcdFile, A_V_2_7_we1, "A_V_2_7_we1");
sc_trace(mVcdFile, A_V_2_7_d1, "A_V_2_7_d1");
sc_trace(mVcdFile, B_V_2_7_address0, "B_V_2_7_address0");
sc_trace(mVcdFile, B_V_2_7_ce0, "B_V_2_7_ce0");
sc_trace(mVcdFile, B_V_2_7_q0, "B_V_2_7_q0");
sc_trace(mVcdFile, B_V_2_7_address1, "B_V_2_7_address1");
sc_trace(mVcdFile, B_V_2_7_ce1, "B_V_2_7_ce1");
sc_trace(mVcdFile, B_V_2_7_we1, "B_V_2_7_we1");
sc_trace(mVcdFile, B_V_2_7_d1, "B_V_2_7_d1");
sc_trace(mVcdFile, A_V_2_8_address0, "A_V_2_8_address0");
sc_trace(mVcdFile, A_V_2_8_ce0, "A_V_2_8_ce0");
sc_trace(mVcdFile, A_V_2_8_q0, "A_V_2_8_q0");
sc_trace(mVcdFile, A_V_2_8_address1, "A_V_2_8_address1");
sc_trace(mVcdFile, A_V_2_8_ce1, "A_V_2_8_ce1");
sc_trace(mVcdFile, A_V_2_8_we1, "A_V_2_8_we1");
sc_trace(mVcdFile, A_V_2_8_d1, "A_V_2_8_d1");
sc_trace(mVcdFile, B_V_2_8_address0, "B_V_2_8_address0");
sc_trace(mVcdFile, B_V_2_8_ce0, "B_V_2_8_ce0");
sc_trace(mVcdFile, B_V_2_8_q0, "B_V_2_8_q0");
sc_trace(mVcdFile, B_V_2_8_address1, "B_V_2_8_address1");
sc_trace(mVcdFile, B_V_2_8_ce1, "B_V_2_8_ce1");
sc_trace(mVcdFile, B_V_2_8_we1, "B_V_2_8_we1");
sc_trace(mVcdFile, B_V_2_8_d1, "B_V_2_8_d1");
sc_trace(mVcdFile, A_V_2_9_address0, "A_V_2_9_address0");
sc_trace(mVcdFile, A_V_2_9_ce0, "A_V_2_9_ce0");
sc_trace(mVcdFile, A_V_2_9_q0, "A_V_2_9_q0");
sc_trace(mVcdFile, A_V_2_9_address1, "A_V_2_9_address1");
sc_trace(mVcdFile, A_V_2_9_ce1, "A_V_2_9_ce1");
sc_trace(mVcdFile, A_V_2_9_we1, "A_V_2_9_we1");
sc_trace(mVcdFile, A_V_2_9_d1, "A_V_2_9_d1");
sc_trace(mVcdFile, B_V_2_9_address0, "B_V_2_9_address0");
sc_trace(mVcdFile, B_V_2_9_ce0, "B_V_2_9_ce0");
sc_trace(mVcdFile, B_V_2_9_q0, "B_V_2_9_q0");
sc_trace(mVcdFile, B_V_2_9_address1, "B_V_2_9_address1");
sc_trace(mVcdFile, B_V_2_9_ce1, "B_V_2_9_ce1");
sc_trace(mVcdFile, B_V_2_9_we1, "B_V_2_9_we1");
sc_trace(mVcdFile, B_V_2_9_d1, "B_V_2_9_d1");
sc_trace(mVcdFile, A_V_2_10_address0, "A_V_2_10_address0");
sc_trace(mVcdFile, A_V_2_10_ce0, "A_V_2_10_ce0");
sc_trace(mVcdFile, A_V_2_10_q0, "A_V_2_10_q0");
sc_trace(mVcdFile, A_V_2_10_address1, "A_V_2_10_address1");
sc_trace(mVcdFile, A_V_2_10_ce1, "A_V_2_10_ce1");
sc_trace(mVcdFile, A_V_2_10_we1, "A_V_2_10_we1");
sc_trace(mVcdFile, A_V_2_10_d1, "A_V_2_10_d1");
sc_trace(mVcdFile, B_V_2_10_address0, "B_V_2_10_address0");
sc_trace(mVcdFile, B_V_2_10_ce0, "B_V_2_10_ce0");
sc_trace(mVcdFile, B_V_2_10_q0, "B_V_2_10_q0");
sc_trace(mVcdFile, B_V_2_10_address1, "B_V_2_10_address1");
sc_trace(mVcdFile, B_V_2_10_ce1, "B_V_2_10_ce1");
sc_trace(mVcdFile, B_V_2_10_we1, "B_V_2_10_we1");
sc_trace(mVcdFile, B_V_2_10_d1, "B_V_2_10_d1");
sc_trace(mVcdFile, A_V_2_11_address0, "A_V_2_11_address0");
sc_trace(mVcdFile, A_V_2_11_ce0, "A_V_2_11_ce0");
sc_trace(mVcdFile, A_V_2_11_q0, "A_V_2_11_q0");
sc_trace(mVcdFile, A_V_2_11_address1, "A_V_2_11_address1");
sc_trace(mVcdFile, A_V_2_11_ce1, "A_V_2_11_ce1");
sc_trace(mVcdFile, A_V_2_11_we1, "A_V_2_11_we1");
sc_trace(mVcdFile, A_V_2_11_d1, "A_V_2_11_d1");
sc_trace(mVcdFile, B_V_2_11_address0, "B_V_2_11_address0");
sc_trace(mVcdFile, B_V_2_11_ce0, "B_V_2_11_ce0");
sc_trace(mVcdFile, B_V_2_11_q0, "B_V_2_11_q0");
sc_trace(mVcdFile, B_V_2_11_address1, "B_V_2_11_address1");
sc_trace(mVcdFile, B_V_2_11_ce1, "B_V_2_11_ce1");
sc_trace(mVcdFile, B_V_2_11_we1, "B_V_2_11_we1");
sc_trace(mVcdFile, B_V_2_11_d1, "B_V_2_11_d1");
sc_trace(mVcdFile, A_V_2_12_address0, "A_V_2_12_address0");
sc_trace(mVcdFile, A_V_2_12_ce0, "A_V_2_12_ce0");
sc_trace(mVcdFile, A_V_2_12_q0, "A_V_2_12_q0");
sc_trace(mVcdFile, A_V_2_12_address1, "A_V_2_12_address1");
sc_trace(mVcdFile, A_V_2_12_ce1, "A_V_2_12_ce1");
sc_trace(mVcdFile, A_V_2_12_we1, "A_V_2_12_we1");
sc_trace(mVcdFile, A_V_2_12_d1, "A_V_2_12_d1");
sc_trace(mVcdFile, B_V_2_12_address0, "B_V_2_12_address0");
sc_trace(mVcdFile, B_V_2_12_ce0, "B_V_2_12_ce0");
sc_trace(mVcdFile, B_V_2_12_q0, "B_V_2_12_q0");
sc_trace(mVcdFile, B_V_2_12_address1, "B_V_2_12_address1");
sc_trace(mVcdFile, B_V_2_12_ce1, "B_V_2_12_ce1");
sc_trace(mVcdFile, B_V_2_12_we1, "B_V_2_12_we1");
sc_trace(mVcdFile, B_V_2_12_d1, "B_V_2_12_d1");
sc_trace(mVcdFile, A_V_2_13_address0, "A_V_2_13_address0");
sc_trace(mVcdFile, A_V_2_13_ce0, "A_V_2_13_ce0");
sc_trace(mVcdFile, A_V_2_13_q0, "A_V_2_13_q0");
sc_trace(mVcdFile, A_V_2_13_address1, "A_V_2_13_address1");
sc_trace(mVcdFile, A_V_2_13_ce1, "A_V_2_13_ce1");
sc_trace(mVcdFile, A_V_2_13_we1, "A_V_2_13_we1");
sc_trace(mVcdFile, A_V_2_13_d1, "A_V_2_13_d1");
sc_trace(mVcdFile, B_V_2_13_address0, "B_V_2_13_address0");
sc_trace(mVcdFile, B_V_2_13_ce0, "B_V_2_13_ce0");
sc_trace(mVcdFile, B_V_2_13_q0, "B_V_2_13_q0");
sc_trace(mVcdFile, B_V_2_13_address1, "B_V_2_13_address1");
sc_trace(mVcdFile, B_V_2_13_ce1, "B_V_2_13_ce1");
sc_trace(mVcdFile, B_V_2_13_we1, "B_V_2_13_we1");
sc_trace(mVcdFile, B_V_2_13_d1, "B_V_2_13_d1");
sc_trace(mVcdFile, A_V_2_14_address0, "A_V_2_14_address0");
sc_trace(mVcdFile, A_V_2_14_ce0, "A_V_2_14_ce0");
sc_trace(mVcdFile, A_V_2_14_q0, "A_V_2_14_q0");
sc_trace(mVcdFile, A_V_2_14_address1, "A_V_2_14_address1");
sc_trace(mVcdFile, A_V_2_14_ce1, "A_V_2_14_ce1");
sc_trace(mVcdFile, A_V_2_14_we1, "A_V_2_14_we1");
sc_trace(mVcdFile, A_V_2_14_d1, "A_V_2_14_d1");
sc_trace(mVcdFile, B_V_2_14_address0, "B_V_2_14_address0");
sc_trace(mVcdFile, B_V_2_14_ce0, "B_V_2_14_ce0");
sc_trace(mVcdFile, B_V_2_14_q0, "B_V_2_14_q0");
sc_trace(mVcdFile, B_V_2_14_address1, "B_V_2_14_address1");
sc_trace(mVcdFile, B_V_2_14_ce1, "B_V_2_14_ce1");
sc_trace(mVcdFile, B_V_2_14_we1, "B_V_2_14_we1");
sc_trace(mVcdFile, B_V_2_14_d1, "B_V_2_14_d1");
sc_trace(mVcdFile, A_V_2_15_address0, "A_V_2_15_address0");
sc_trace(mVcdFile, A_V_2_15_ce0, "A_V_2_15_ce0");
sc_trace(mVcdFile, A_V_2_15_q0, "A_V_2_15_q0");
sc_trace(mVcdFile, A_V_2_15_address1, "A_V_2_15_address1");
sc_trace(mVcdFile, A_V_2_15_ce1, "A_V_2_15_ce1");
sc_trace(mVcdFile, A_V_2_15_we1, "A_V_2_15_we1");
sc_trace(mVcdFile, A_V_2_15_d1, "A_V_2_15_d1");
sc_trace(mVcdFile, B_V_2_15_address0, "B_V_2_15_address0");
sc_trace(mVcdFile, B_V_2_15_ce0, "B_V_2_15_ce0");
sc_trace(mVcdFile, B_V_2_15_q0, "B_V_2_15_q0");
sc_trace(mVcdFile, B_V_2_15_address1, "B_V_2_15_address1");
sc_trace(mVcdFile, B_V_2_15_ce1, "B_V_2_15_ce1");
sc_trace(mVcdFile, B_V_2_15_we1, "B_V_2_15_we1");
sc_trace(mVcdFile, B_V_2_15_d1, "B_V_2_15_d1");
sc_trace(mVcdFile, A_V_2_16_address0, "A_V_2_16_address0");
sc_trace(mVcdFile, A_V_2_16_ce0, "A_V_2_16_ce0");
sc_trace(mVcdFile, A_V_2_16_q0, "A_V_2_16_q0");
sc_trace(mVcdFile, A_V_2_16_address1, "A_V_2_16_address1");
sc_trace(mVcdFile, A_V_2_16_ce1, "A_V_2_16_ce1");
sc_trace(mVcdFile, A_V_2_16_we1, "A_V_2_16_we1");
sc_trace(mVcdFile, A_V_2_16_d1, "A_V_2_16_d1");
sc_trace(mVcdFile, B_V_2_16_address0, "B_V_2_16_address0");
sc_trace(mVcdFile, B_V_2_16_ce0, "B_V_2_16_ce0");
sc_trace(mVcdFile, B_V_2_16_q0, "B_V_2_16_q0");
sc_trace(mVcdFile, B_V_2_16_address1, "B_V_2_16_address1");
sc_trace(mVcdFile, B_V_2_16_ce1, "B_V_2_16_ce1");
sc_trace(mVcdFile, B_V_2_16_we1, "B_V_2_16_we1");
sc_trace(mVcdFile, B_V_2_16_d1, "B_V_2_16_d1");
sc_trace(mVcdFile, A_V_2_17_address0, "A_V_2_17_address0");
sc_trace(mVcdFile, A_V_2_17_ce0, "A_V_2_17_ce0");
sc_trace(mVcdFile, A_V_2_17_q0, "A_V_2_17_q0");
sc_trace(mVcdFile, A_V_2_17_address1, "A_V_2_17_address1");
sc_trace(mVcdFile, A_V_2_17_ce1, "A_V_2_17_ce1");
sc_trace(mVcdFile, A_V_2_17_we1, "A_V_2_17_we1");
sc_trace(mVcdFile, A_V_2_17_d1, "A_V_2_17_d1");
sc_trace(mVcdFile, B_V_2_17_address0, "B_V_2_17_address0");
sc_trace(mVcdFile, B_V_2_17_ce0, "B_V_2_17_ce0");
sc_trace(mVcdFile, B_V_2_17_q0, "B_V_2_17_q0");
sc_trace(mVcdFile, B_V_2_17_address1, "B_V_2_17_address1");
sc_trace(mVcdFile, B_V_2_17_ce1, "B_V_2_17_ce1");
sc_trace(mVcdFile, B_V_2_17_we1, "B_V_2_17_we1");
sc_trace(mVcdFile, B_V_2_17_d1, "B_V_2_17_d1");
sc_trace(mVcdFile, A_V_2_18_address0, "A_V_2_18_address0");
sc_trace(mVcdFile, A_V_2_18_ce0, "A_V_2_18_ce0");
sc_trace(mVcdFile, A_V_2_18_q0, "A_V_2_18_q0");
sc_trace(mVcdFile, A_V_2_18_address1, "A_V_2_18_address1");
sc_trace(mVcdFile, A_V_2_18_ce1, "A_V_2_18_ce1");
sc_trace(mVcdFile, A_V_2_18_we1, "A_V_2_18_we1");
sc_trace(mVcdFile, A_V_2_18_d1, "A_V_2_18_d1");
sc_trace(mVcdFile, B_V_2_18_address0, "B_V_2_18_address0");
sc_trace(mVcdFile, B_V_2_18_ce0, "B_V_2_18_ce0");
sc_trace(mVcdFile, B_V_2_18_q0, "B_V_2_18_q0");
sc_trace(mVcdFile, B_V_2_18_address1, "B_V_2_18_address1");
sc_trace(mVcdFile, B_V_2_18_ce1, "B_V_2_18_ce1");
sc_trace(mVcdFile, B_V_2_18_we1, "B_V_2_18_we1");
sc_trace(mVcdFile, B_V_2_18_d1, "B_V_2_18_d1");
sc_trace(mVcdFile, A_V_2_19_address0, "A_V_2_19_address0");
sc_trace(mVcdFile, A_V_2_19_ce0, "A_V_2_19_ce0");
sc_trace(mVcdFile, A_V_2_19_q0, "A_V_2_19_q0");
sc_trace(mVcdFile, A_V_2_19_address1, "A_V_2_19_address1");
sc_trace(mVcdFile, A_V_2_19_ce1, "A_V_2_19_ce1");
sc_trace(mVcdFile, A_V_2_19_we1, "A_V_2_19_we1");
sc_trace(mVcdFile, A_V_2_19_d1, "A_V_2_19_d1");
sc_trace(mVcdFile, B_V_2_19_address0, "B_V_2_19_address0");
sc_trace(mVcdFile, B_V_2_19_ce0, "B_V_2_19_ce0");
sc_trace(mVcdFile, B_V_2_19_q0, "B_V_2_19_q0");
sc_trace(mVcdFile, B_V_2_19_address1, "B_V_2_19_address1");
sc_trace(mVcdFile, B_V_2_19_ce1, "B_V_2_19_ce1");
sc_trace(mVcdFile, B_V_2_19_we1, "B_V_2_19_we1");
sc_trace(mVcdFile, B_V_2_19_d1, "B_V_2_19_d1");
sc_trace(mVcdFile, A_V_2_20_address0, "A_V_2_20_address0");
sc_trace(mVcdFile, A_V_2_20_ce0, "A_V_2_20_ce0");
sc_trace(mVcdFile, A_V_2_20_q0, "A_V_2_20_q0");
sc_trace(mVcdFile, A_V_2_20_address1, "A_V_2_20_address1");
sc_trace(mVcdFile, A_V_2_20_ce1, "A_V_2_20_ce1");
sc_trace(mVcdFile, A_V_2_20_we1, "A_V_2_20_we1");
sc_trace(mVcdFile, A_V_2_20_d1, "A_V_2_20_d1");
sc_trace(mVcdFile, B_V_2_20_address0, "B_V_2_20_address0");
sc_trace(mVcdFile, B_V_2_20_ce0, "B_V_2_20_ce0");
sc_trace(mVcdFile, B_V_2_20_q0, "B_V_2_20_q0");
sc_trace(mVcdFile, B_V_2_20_address1, "B_V_2_20_address1");
sc_trace(mVcdFile, B_V_2_20_ce1, "B_V_2_20_ce1");
sc_trace(mVcdFile, B_V_2_20_we1, "B_V_2_20_we1");
sc_trace(mVcdFile, B_V_2_20_d1, "B_V_2_20_d1");
sc_trace(mVcdFile, A_V_2_21_address0, "A_V_2_21_address0");
sc_trace(mVcdFile, A_V_2_21_ce0, "A_V_2_21_ce0");
sc_trace(mVcdFile, A_V_2_21_q0, "A_V_2_21_q0");
sc_trace(mVcdFile, A_V_2_21_address1, "A_V_2_21_address1");
sc_trace(mVcdFile, A_V_2_21_ce1, "A_V_2_21_ce1");
sc_trace(mVcdFile, A_V_2_21_we1, "A_V_2_21_we1");
sc_trace(mVcdFile, A_V_2_21_d1, "A_V_2_21_d1");
sc_trace(mVcdFile, B_V_2_21_address0, "B_V_2_21_address0");
sc_trace(mVcdFile, B_V_2_21_ce0, "B_V_2_21_ce0");
sc_trace(mVcdFile, B_V_2_21_q0, "B_V_2_21_q0");
sc_trace(mVcdFile, B_V_2_21_address1, "B_V_2_21_address1");
sc_trace(mVcdFile, B_V_2_21_ce1, "B_V_2_21_ce1");
sc_trace(mVcdFile, B_V_2_21_we1, "B_V_2_21_we1");
sc_trace(mVcdFile, B_V_2_21_d1, "B_V_2_21_d1");
sc_trace(mVcdFile, A_V_2_22_address0, "A_V_2_22_address0");
sc_trace(mVcdFile, A_V_2_22_ce0, "A_V_2_22_ce0");
sc_trace(mVcdFile, A_V_2_22_q0, "A_V_2_22_q0");
sc_trace(mVcdFile, A_V_2_22_address1, "A_V_2_22_address1");
sc_trace(mVcdFile, A_V_2_22_ce1, "A_V_2_22_ce1");
sc_trace(mVcdFile, A_V_2_22_we1, "A_V_2_22_we1");
sc_trace(mVcdFile, A_V_2_22_d1, "A_V_2_22_d1");
sc_trace(mVcdFile, B_V_2_22_address0, "B_V_2_22_address0");
sc_trace(mVcdFile, B_V_2_22_ce0, "B_V_2_22_ce0");
sc_trace(mVcdFile, B_V_2_22_q0, "B_V_2_22_q0");
sc_trace(mVcdFile, B_V_2_22_address1, "B_V_2_22_address1");
sc_trace(mVcdFile, B_V_2_22_ce1, "B_V_2_22_ce1");
sc_trace(mVcdFile, B_V_2_22_we1, "B_V_2_22_we1");
sc_trace(mVcdFile, B_V_2_22_d1, "B_V_2_22_d1");
sc_trace(mVcdFile, A_V_2_23_address0, "A_V_2_23_address0");
sc_trace(mVcdFile, A_V_2_23_ce0, "A_V_2_23_ce0");
sc_trace(mVcdFile, A_V_2_23_q0, "A_V_2_23_q0");
sc_trace(mVcdFile, A_V_2_23_address1, "A_V_2_23_address1");
sc_trace(mVcdFile, A_V_2_23_ce1, "A_V_2_23_ce1");
sc_trace(mVcdFile, A_V_2_23_we1, "A_V_2_23_we1");
sc_trace(mVcdFile, A_V_2_23_d1, "A_V_2_23_d1");
sc_trace(mVcdFile, B_V_2_23_address0, "B_V_2_23_address0");
sc_trace(mVcdFile, B_V_2_23_ce0, "B_V_2_23_ce0");
sc_trace(mVcdFile, B_V_2_23_q0, "B_V_2_23_q0");
sc_trace(mVcdFile, B_V_2_23_address1, "B_V_2_23_address1");
sc_trace(mVcdFile, B_V_2_23_ce1, "B_V_2_23_ce1");
sc_trace(mVcdFile, B_V_2_23_we1, "B_V_2_23_we1");
sc_trace(mVcdFile, B_V_2_23_d1, "B_V_2_23_d1");
sc_trace(mVcdFile, A_V_2_24_address0, "A_V_2_24_address0");
sc_trace(mVcdFile, A_V_2_24_ce0, "A_V_2_24_ce0");
sc_trace(mVcdFile, A_V_2_24_q0, "A_V_2_24_q0");
sc_trace(mVcdFile, A_V_2_24_address1, "A_V_2_24_address1");
sc_trace(mVcdFile, A_V_2_24_ce1, "A_V_2_24_ce1");
sc_trace(mVcdFile, A_V_2_24_we1, "A_V_2_24_we1");
sc_trace(mVcdFile, A_V_2_24_d1, "A_V_2_24_d1");
sc_trace(mVcdFile, B_V_2_24_address0, "B_V_2_24_address0");
sc_trace(mVcdFile, B_V_2_24_ce0, "B_V_2_24_ce0");
sc_trace(mVcdFile, B_V_2_24_q0, "B_V_2_24_q0");
sc_trace(mVcdFile, B_V_2_24_address1, "B_V_2_24_address1");
sc_trace(mVcdFile, B_V_2_24_ce1, "B_V_2_24_ce1");
sc_trace(mVcdFile, B_V_2_24_we1, "B_V_2_24_we1");
sc_trace(mVcdFile, B_V_2_24_d1, "B_V_2_24_d1");
sc_trace(mVcdFile, in_stream_a_V_V_blk_n, "in_stream_a_V_V_blk_n");
sc_trace(mVcdFile, ap_CS_fsm_state2, "ap_CS_fsm_state2");
sc_trace(mVcdFile, ap_CS_fsm_state3, "ap_CS_fsm_state3");
sc_trace(mVcdFile, ap_CS_fsm_state4, "ap_CS_fsm_state4");
sc_trace(mVcdFile, ap_CS_fsm_state5, "ap_CS_fsm_state5");
sc_trace(mVcdFile, ap_CS_fsm_state6, "ap_CS_fsm_state6");
sc_trace(mVcdFile, ap_CS_fsm_state7, "ap_CS_fsm_state7");
sc_trace(mVcdFile, ap_CS_fsm_state8, "ap_CS_fsm_state8");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter11, "ap_enable_reg_pp3_iter11");
sc_trace(mVcdFile, ap_block_pp3_stage0, "ap_block_pp3_stage0");
sc_trace(mVcdFile, or_cond_reg_4121, "or_cond_reg_4121");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter10_reg, "or_cond_reg_4121_pp3_iter10_reg");
sc_trace(mVcdFile, ap_CS_fsm_pp1_stage0, "ap_CS_fsm_pp1_stage0");
sc_trace(mVcdFile, ap_enable_reg_pp1_iter1, "ap_enable_reg_pp1_iter1");
sc_trace(mVcdFile, ap_block_pp1_stage0, "ap_block_pp1_stage0");
sc_trace(mVcdFile, tmp_72_reg_3463, "tmp_72_reg_3463");
sc_trace(mVcdFile, ap_CS_fsm_pp0_stage0, "ap_CS_fsm_pp0_stage0");
sc_trace(mVcdFile, ap_enable_reg_pp0_iter1, "ap_enable_reg_pp0_iter1");
sc_trace(mVcdFile, ap_block_pp0_stage0, "ap_block_pp0_stage0");
sc_trace(mVcdFile, exitcond3_reg_3423, "exitcond3_reg_3423");
sc_trace(mVcdFile, out_stream_V_V_blk_n, "out_stream_V_V_blk_n");
sc_trace(mVcdFile, ap_enable_reg_pp2_iter7, "ap_enable_reg_pp2_iter7");
sc_trace(mVcdFile, ap_block_pp2_stage0, "ap_block_pp2_stage0");
sc_trace(mVcdFile, ifzero_reg_3595, "ifzero_reg_3595");
sc_trace(mVcdFile, ifzero_reg_3595_pp2_iter6_reg, "ifzero_reg_3595_pp2_iter6_reg");
sc_trace(mVcdFile, i3_reg_2060, "i3_reg_2060");
sc_trace(mVcdFile, j2_reg_2093, "j2_reg_2093");
sc_trace(mVcdFile, phi_mul_reg_2104, "phi_mul_reg_2104");
sc_trace(mVcdFile, phi_mul1_reg_2115, "phi_mul1_reg_2115");
sc_trace(mVcdFile, phi_urem_reg_2126, "phi_urem_reg_2126");
sc_trace(mVcdFile, phi_urem1_reg_2138, "phi_urem1_reg_2138");
sc_trace(mVcdFile, indvar_flatten6_reg_2150, "indvar_flatten6_reg_2150");
sc_trace(mVcdFile, ib_reg_2161, "ib_reg_2161");
sc_trace(mVcdFile, p_6_reg_2172, "p_6_reg_2172");
sc_trace(mVcdFile, ic_reg_2184, "ic_reg_2184");
sc_trace(mVcdFile, indvar_flatten_reg_2195, "indvar_flatten_reg_2195");
sc_trace(mVcdFile, i_reg_2206, "i_reg_2206");
sc_trace(mVcdFile, j_reg_2217, "j_reg_2217");
sc_trace(mVcdFile, tmp_V_reg_3347, "tmp_V_reg_3347");
sc_trace(mVcdFile, ap_block_state1, "ap_block_state1");
sc_trace(mVcdFile, tmp_V_101_reg_3353, "tmp_V_101_reg_3353");
sc_trace(mVcdFile, ap_block_state2, "ap_block_state2");
sc_trace(mVcdFile, tmp_V_103_reg_3358, "tmp_V_103_reg_3358");
sc_trace(mVcdFile, ap_block_state3, "ap_block_state3");
sc_trace(mVcdFile, tmp_V_105_reg_3366, "tmp_V_105_reg_3366");
sc_trace(mVcdFile, ap_block_state4, "ap_block_state4");
sc_trace(mVcdFile, tmp_V_109_reg_3372, "tmp_V_109_reg_3372");
sc_trace(mVcdFile, ap_block_state6, "ap_block_state6");
sc_trace(mVcdFile, tmp_V_111_reg_3380, "tmp_V_111_reg_3380");
sc_trace(mVcdFile, ap_block_state7, "ap_block_state7");
sc_trace(mVcdFile, tmp_s_fu_2233_p2, "tmp_s_fu_2233_p2");
sc_trace(mVcdFile, ap_block_state8, "ap_block_state8");
sc_trace(mVcdFile, B_ROW_2_load_reg_3389, "B_ROW_2_load_reg_3389");
sc_trace(mVcdFile, tmp_66_fu_2246_p2, "tmp_66_fu_2246_p2");
sc_trace(mVcdFile, KER_size_0_fu_2251_p2, "KER_size_0_fu_2251_p2");
sc_trace(mVcdFile, KER_size_0_reg_3398, "KER_size_0_reg_3398");
sc_trace(mVcdFile, bound4_fu_2267_p2, "bound4_fu_2267_p2");
sc_trace(mVcdFile, bound4_reg_3403, "bound4_reg_3403");
sc_trace(mVcdFile, tmp1_fu_2278_p2, "tmp1_fu_2278_p2");
sc_trace(mVcdFile, tmp1_reg_3408, "tmp1_reg_3408");
sc_trace(mVcdFile, KER_size_1_fu_2287_p2, "KER_size_1_fu_2287_p2");
sc_trace(mVcdFile, KER_size_1_reg_3413, "KER_size_1_reg_3413");
sc_trace(mVcdFile, ap_CS_fsm_state9, "ap_CS_fsm_state9");
sc_trace(mVcdFile, KER_bound_fu_2291_p2, "KER_bound_fu_2291_p2");
sc_trace(mVcdFile, KER_bound_reg_3418, "KER_bound_reg_3418");
sc_trace(mVcdFile, ap_CS_fsm_state10, "ap_CS_fsm_state10");
sc_trace(mVcdFile, exitcond3_fu_2295_p2, "exitcond3_fu_2295_p2");
sc_trace(mVcdFile, ap_block_state11_pp0_stage0_iter0, "ap_block_state11_pp0_stage0_iter0");
sc_trace(mVcdFile, ap_block_state12_pp0_stage0_iter1, "ap_block_state12_pp0_stage0_iter1");
sc_trace(mVcdFile, ap_block_pp0_stage0_11001, "ap_block_pp0_stage0_11001");
sc_trace(mVcdFile, i_5_fu_2300_p2, "i_5_fu_2300_p2");
sc_trace(mVcdFile, ap_enable_reg_pp0_iter0, "ap_enable_reg_pp0_iter0");
sc_trace(mVcdFile, num_imag_3_fu_2311_p2, "num_imag_3_fu_2311_p2");
sc_trace(mVcdFile, num_imag_3_reg_3435, "num_imag_3_reg_3435");
sc_trace(mVcdFile, ap_CS_fsm_state14, "ap_CS_fsm_state14");
sc_trace(mVcdFile, A_COL_ITER_fu_2321_p2, "A_COL_ITER_fu_2321_p2");
sc_trace(mVcdFile, A_COL_ITER_reg_3440, "A_COL_ITER_reg_3440");
sc_trace(mVcdFile, exitcond_fu_2306_p2, "exitcond_fu_2306_p2");
sc_trace(mVcdFile, tmp_70_fu_2336_p2, "tmp_70_fu_2336_p2");
sc_trace(mVcdFile, ap_CS_fsm_state15, "ap_CS_fsm_state15");
sc_trace(mVcdFile, iter_3_fu_2341_p2, "iter_3_fu_2341_p2");
sc_trace(mVcdFile, iter_3_reg_3449, "iter_3_reg_3449");
sc_trace(mVcdFile, tmp_71_fu_2347_p2, "tmp_71_fu_2347_p2");
sc_trace(mVcdFile, tmp_71_reg_3454, "tmp_71_reg_3454");
sc_trace(mVcdFile, ap_block_state16_pp1_stage0_iter0, "ap_block_state16_pp1_stage0_iter0");
sc_trace(mVcdFile, ap_block_state17_pp1_stage0_iter1, "ap_block_state17_pp1_stage0_iter1");
sc_trace(mVcdFile, ap_block_pp1_stage0_11001, "ap_block_pp1_stage0_11001");
sc_trace(mVcdFile, j_9_fu_2353_p2, "j_9_fu_2353_p2");
sc_trace(mVcdFile, ap_enable_reg_pp1_iter0, "ap_enable_reg_pp1_iter0");
sc_trace(mVcdFile, tmp_72_fu_2367_p2, "tmp_72_fu_2367_p2");
sc_trace(mVcdFile, next_mul_fu_2373_p2, "next_mul_fu_2373_p2");
sc_trace(mVcdFile, next_mul1_fu_2379_p2, "next_mul1_fu_2379_p2");
sc_trace(mVcdFile, tmp_141_reg_3477, "tmp_141_reg_3477");
sc_trace(mVcdFile, tmp_140_reg_3481, "tmp_140_reg_3481");
sc_trace(mVcdFile, idx_urem1_fu_2504_p3, "idx_urem1_fu_2504_p3");
sc_trace(mVcdFile, idx_urem_fu_2524_p3, "idx_urem_fu_2524_p3");
sc_trace(mVcdFile, exitcond_flatten8_fu_2532_p2, "exitcond_flatten8_fu_2532_p2");
sc_trace(mVcdFile, exitcond_flatten8_reg_3495, "exitcond_flatten8_reg_3495");
sc_trace(mVcdFile, ap_CS_fsm_pp2_stage0, "ap_CS_fsm_pp2_stage0");
sc_trace(mVcdFile, ap_block_state19_pp2_stage0_iter0, "ap_block_state19_pp2_stage0_iter0");
sc_trace(mVcdFile, ap_block_state20_pp2_stage0_iter1, "ap_block_state20_pp2_stage0_iter1");
sc_trace(mVcdFile, ap_block_state21_pp2_stage0_iter2, "ap_block_state21_pp2_stage0_iter2");
sc_trace(mVcdFile, ap_block_state22_pp2_stage0_iter3, "ap_block_state22_pp2_stage0_iter3");
sc_trace(mVcdFile, ap_block_state23_pp2_stage0_iter4, "ap_block_state23_pp2_stage0_iter4");
sc_trace(mVcdFile, ap_block_state24_pp2_stage0_iter5, "ap_block_state24_pp2_stage0_iter5");
sc_trace(mVcdFile, ap_block_state25_pp2_stage0_iter6, "ap_block_state25_pp2_stage0_iter6");
sc_trace(mVcdFile, ap_block_state26_pp2_stage0_iter7, "ap_block_state26_pp2_stage0_iter7");
sc_trace(mVcdFile, ap_block_pp2_stage0_11001, "ap_block_pp2_stage0_11001");
sc_trace(mVcdFile, exitcond_flatten8_reg_3495_pp2_iter1_reg, "exitcond_flatten8_reg_3495_pp2_iter1_reg");
sc_trace(mVcdFile, exitcond_flatten8_reg_3495_pp2_iter2_reg, "exitcond_flatten8_reg_3495_pp2_iter2_reg");
sc_trace(mVcdFile, exitcond_flatten8_reg_3495_pp2_iter3_reg, "exitcond_flatten8_reg_3495_pp2_iter3_reg");
sc_trace(mVcdFile, exitcond_flatten8_reg_3495_pp2_iter4_reg, "exitcond_flatten8_reg_3495_pp2_iter4_reg");
sc_trace(mVcdFile, exitcond_flatten8_reg_3495_pp2_iter5_reg, "exitcond_flatten8_reg_3495_pp2_iter5_reg");
sc_trace(mVcdFile, exitcond_flatten8_reg_3495_pp2_iter6_reg, "exitcond_flatten8_reg_3495_pp2_iter6_reg");
sc_trace(mVcdFile, indvar_flatten_next7_fu_2537_p2, "indvar_flatten_next7_fu_2537_p2");
sc_trace(mVcdFile, ap_enable_reg_pp2_iter0, "ap_enable_reg_pp2_iter0");
sc_trace(mVcdFile, exitcond9_fu_2549_p2, "exitcond9_fu_2549_p2");
sc_trace(mVcdFile, exitcond9_reg_3504, "exitcond9_reg_3504");
sc_trace(mVcdFile, exitcond9_reg_3504_pp2_iter1_reg, "exitcond9_reg_3504_pp2_iter1_reg");
sc_trace(mVcdFile, exitcond9_reg_3504_pp2_iter2_reg, "exitcond9_reg_3504_pp2_iter2_reg");
sc_trace(mVcdFile, exitcond9_reg_3504_pp2_iter3_reg, "exitcond9_reg_3504_pp2_iter3_reg");
sc_trace(mVcdFile, exitcond9_reg_3504_pp2_iter4_reg, "exitcond9_reg_3504_pp2_iter4_reg");
sc_trace(mVcdFile, exitcond9_reg_3504_pp2_iter5_reg, "exitcond9_reg_3504_pp2_iter5_reg");
sc_trace(mVcdFile, ic_mid2_fu_2555_p3, "ic_mid2_fu_2555_p3");
sc_trace(mVcdFile, ic_mid2_reg_3509, "ic_mid2_reg_3509");
sc_trace(mVcdFile, ic_mid2_reg_3509_pp2_iter1_reg, "ic_mid2_reg_3509_pp2_iter1_reg");
sc_trace(mVcdFile, tmp_83_mid2_v_fu_2563_p3, "tmp_83_mid2_v_fu_2563_p3");
sc_trace(mVcdFile, tmp_83_mid2_v_reg_3514, "tmp_83_mid2_v_reg_3514");
sc_trace(mVcdFile, tmp_135_fu_2597_p2, "tmp_135_fu_2597_p2");
sc_trace(mVcdFile, tmp_135_reg_3519, "tmp_135_reg_3519");
sc_trace(mVcdFile, ic_3_fu_2603_p2, "ic_3_fu_2603_p2");
sc_trace(mVcdFile, ic_3_reg_3524, "ic_3_reg_3524");
sc_trace(mVcdFile, tmp_135_cast_fu_2609_p1, "tmp_135_cast_fu_2609_p1");
sc_trace(mVcdFile, tmp_135_cast_reg_3530, "tmp_135_cast_reg_3530");
sc_trace(mVcdFile, tmp_135_cast_reg_3530_pp2_iter2_reg, "tmp_135_cast_reg_3530_pp2_iter2_reg");
sc_trace(mVcdFile, ifzero_fu_2621_p2, "ifzero_fu_2621_p2");
sc_trace(mVcdFile, ifzero_reg_3595_pp2_iter2_reg, "ifzero_reg_3595_pp2_iter2_reg");
sc_trace(mVcdFile, ifzero_reg_3595_pp2_iter3_reg, "ifzero_reg_3595_pp2_iter3_reg");
sc_trace(mVcdFile, ifzero_reg_3595_pp2_iter4_reg, "ifzero_reg_3595_pp2_iter4_reg");
sc_trace(mVcdFile, ifzero_reg_3595_pp2_iter5_reg, "ifzero_reg_3595_pp2_iter5_reg");
sc_trace(mVcdFile, ic3_fu_2626_p1, "ic3_fu_2626_p1");
sc_trace(mVcdFile, ic3_reg_3599, "ic3_reg_3599");
sc_trace(mVcdFile, B_V_2_1_load_reg_3736, "B_V_2_1_load_reg_3736");
sc_trace(mVcdFile, ap_enable_reg_pp2_iter2, "ap_enable_reg_pp2_iter2");
sc_trace(mVcdFile, B_V_2_4_load_reg_3741, "B_V_2_4_load_reg_3741");
sc_trace(mVcdFile, B_V_2_7_load_reg_3746, "B_V_2_7_load_reg_3746");
sc_trace(mVcdFile, B_V_2_10_load_reg_3751, "B_V_2_10_load_reg_3751");
sc_trace(mVcdFile, B_V_2_13_load_reg_3756, "B_V_2_13_load_reg_3756");
sc_trace(mVcdFile, B_V_2_16_load_reg_3761, "B_V_2_16_load_reg_3761");
sc_trace(mVcdFile, B_V_2_19_load_reg_3766, "B_V_2_19_load_reg_3766");
sc_trace(mVcdFile, B_V_2_21_load_reg_3771, "B_V_2_21_load_reg_3771");
sc_trace(mVcdFile, B_V_2_23_load_reg_3776, "B_V_2_23_load_reg_3776");
sc_trace(mVcdFile, ret_V_1_fu_3174_p2, "ret_V_1_fu_3174_p2");
sc_trace(mVcdFile, ret_V_1_reg_3866, "ret_V_1_reg_3866");
sc_trace(mVcdFile, B_V_2_2_load_reg_3871, "B_V_2_2_load_reg_3871");
sc_trace(mVcdFile, ap_enable_reg_pp2_iter3, "ap_enable_reg_pp2_iter3");
sc_trace(mVcdFile, ret_V_4_fu_3180_p2, "ret_V_4_fu_3180_p2");
sc_trace(mVcdFile, ret_V_4_reg_3876, "ret_V_4_reg_3876");
sc_trace(mVcdFile, B_V_2_5_load_reg_3881, "B_V_2_5_load_reg_3881");
sc_trace(mVcdFile, B_V_2_6_load_reg_3886, "B_V_2_6_load_reg_3886");
sc_trace(mVcdFile, ret_V_7_fu_3186_p2, "ret_V_7_fu_3186_p2");
sc_trace(mVcdFile, ret_V_7_reg_3891, "ret_V_7_reg_3891");
sc_trace(mVcdFile, A_V_2_8_load_reg_3896, "A_V_2_8_load_reg_3896");
sc_trace(mVcdFile, B_V_2_8_load_reg_3901, "B_V_2_8_load_reg_3901");
sc_trace(mVcdFile, B_V_2_9_load_reg_3906, "B_V_2_9_load_reg_3906");
sc_trace(mVcdFile, ret_V_10_fu_3192_p2, "ret_V_10_fu_3192_p2");
sc_trace(mVcdFile, ret_V_10_reg_3911, "ret_V_10_reg_3911");
sc_trace(mVcdFile, A_V_2_11_load_reg_3916, "A_V_2_11_load_reg_3916");
sc_trace(mVcdFile, B_V_2_11_load_reg_3921, "B_V_2_11_load_reg_3921");
sc_trace(mVcdFile, ret_V_13_fu_3198_p2, "ret_V_13_fu_3198_p2");
sc_trace(mVcdFile, ret_V_13_reg_3926, "ret_V_13_reg_3926");
sc_trace(mVcdFile, B_V_2_14_load_reg_3931, "B_V_2_14_load_reg_3931");
sc_trace(mVcdFile, ret_V_16_fu_3204_p2, "ret_V_16_fu_3204_p2");
sc_trace(mVcdFile, ret_V_16_reg_3936, "ret_V_16_reg_3936");
sc_trace(mVcdFile, B_V_2_17_load_reg_3941, "B_V_2_17_load_reg_3941");
sc_trace(mVcdFile, B_V_2_18_load_reg_3946, "B_V_2_18_load_reg_3946");
sc_trace(mVcdFile, ret_V_19_fu_3210_p2, "ret_V_19_fu_3210_p2");
sc_trace(mVcdFile, ret_V_19_reg_3951, "ret_V_19_reg_3951");
sc_trace(mVcdFile, A_V_2_20_load_reg_3956, "A_V_2_20_load_reg_3956");
sc_trace(mVcdFile, B_V_2_20_load_reg_3961, "B_V_2_20_load_reg_3961");
sc_trace(mVcdFile, ret_V_21_fu_3216_p2, "ret_V_21_fu_3216_p2");
sc_trace(mVcdFile, ret_V_21_reg_3966, "ret_V_21_reg_3966");
sc_trace(mVcdFile, B_V_2_22_load_reg_3971, "B_V_2_22_load_reg_3971");
sc_trace(mVcdFile, ret_V_23_fu_3222_p2, "ret_V_23_fu_3222_p2");
sc_trace(mVcdFile, ret_V_23_reg_3976, "ret_V_23_reg_3976");
sc_trace(mVcdFile, B_V_2_24_load_reg_3981, "B_V_2_24_load_reg_3981");
sc_trace(mVcdFile, A_V_2_0_load_reg_3986, "A_V_2_0_load_reg_3986");
sc_trace(mVcdFile, ap_enable_reg_pp2_iter4, "ap_enable_reg_pp2_iter4");
sc_trace(mVcdFile, B_V_2_0_load_reg_3991, "B_V_2_0_load_reg_3991");
sc_trace(mVcdFile, A_V_2_3_load_reg_3996, "A_V_2_3_load_reg_3996");
sc_trace(mVcdFile, B_V_2_3_load_reg_4001, "B_V_2_3_load_reg_4001");
sc_trace(mVcdFile, A_V_2_12_load_reg_4006, "A_V_2_12_load_reg_4006");
sc_trace(mVcdFile, B_V_2_12_load_reg_4011, "B_V_2_12_load_reg_4011");
sc_trace(mVcdFile, A_V_2_15_load_reg_4016, "A_V_2_15_load_reg_4016");
sc_trace(mVcdFile, B_V_2_15_load_reg_4021, "B_V_2_15_load_reg_4021");
sc_trace(mVcdFile, grp_fu_3228_p3, "grp_fu_3228_p3");
sc_trace(mVcdFile, tmp5_reg_4026, "tmp5_reg_4026");
sc_trace(mVcdFile, grp_fu_3235_p3, "grp_fu_3235_p3");
sc_trace(mVcdFile, tmp7_reg_4031, "tmp7_reg_4031");
sc_trace(mVcdFile, grp_fu_3242_p3, "grp_fu_3242_p3");
sc_trace(mVcdFile, tmp9_reg_4036, "tmp9_reg_4036");
sc_trace(mVcdFile, grp_fu_3257_p3, "grp_fu_3257_p3");
sc_trace(mVcdFile, tmp11_reg_4041, "tmp11_reg_4041");
sc_trace(mVcdFile, grp_fu_3272_p3, "grp_fu_3272_p3");
sc_trace(mVcdFile, tmp16_reg_4046, "tmp16_reg_4046");
sc_trace(mVcdFile, grp_fu_3279_p3, "grp_fu_3279_p3");
sc_trace(mVcdFile, tmp18_reg_4051, "tmp18_reg_4051");
sc_trace(mVcdFile, grp_fu_3286_p3, "grp_fu_3286_p3");
sc_trace(mVcdFile, tmp20_reg_4056, "tmp20_reg_4056");
sc_trace(mVcdFile, grp_fu_3301_p3, "grp_fu_3301_p3");
sc_trace(mVcdFile, tmp23_reg_4061, "tmp23_reg_4061");
sc_trace(mVcdFile, grp_fu_3308_p3, "grp_fu_3308_p3");
sc_trace(mVcdFile, tmp24_reg_4066, "tmp24_reg_4066");
sc_trace(mVcdFile, tmp2_fu_2817_p2, "tmp2_fu_2817_p2");
sc_trace(mVcdFile, tmp2_reg_4071, "tmp2_reg_4071");
sc_trace(mVcdFile, tmp13_fu_2836_p2, "tmp13_fu_2836_p2");
sc_trace(mVcdFile, tmp13_reg_4076, "tmp13_reg_4076");
sc_trace(mVcdFile, sum_V_s_fu_2853_p2, "sum_V_s_fu_2853_p2");
sc_trace(mVcdFile, sum_V_s_reg_4081, "sum_V_s_reg_4081");
sc_trace(mVcdFile, ap_enable_reg_pp2_iter6, "ap_enable_reg_pp2_iter6");
sc_trace(mVcdFile, tmp_136_reg_4088, "tmp_136_reg_4088");
sc_trace(mVcdFile, tmp_65_fu_2917_p2, "tmp_65_fu_2917_p2");
sc_trace(mVcdFile, tmp_65_reg_4093, "tmp_65_reg_4093");
sc_trace(mVcdFile, ap_CS_fsm_state28, "ap_CS_fsm_state28");
sc_trace(mVcdFile, exitcond_flatten_fu_2936_p2, "exitcond_flatten_fu_2936_p2");
sc_trace(mVcdFile, exitcond_flatten_reg_4098, "exitcond_flatten_reg_4098");
sc_trace(mVcdFile, ap_CS_fsm_pp3_stage0, "ap_CS_fsm_pp3_stage0");
sc_trace(mVcdFile, ap_block_state29_pp3_stage0_iter0, "ap_block_state29_pp3_stage0_iter0");
sc_trace(mVcdFile, ap_block_state30_pp3_stage0_iter1, "ap_block_state30_pp3_stage0_iter1");
sc_trace(mVcdFile, ap_block_state31_pp3_stage0_iter2, "ap_block_state31_pp3_stage0_iter2");
sc_trace(mVcdFile, ap_block_state32_pp3_stage0_iter3, "ap_block_state32_pp3_stage0_iter3");
sc_trace(mVcdFile, ap_block_state33_pp3_stage0_iter4, "ap_block_state33_pp3_stage0_iter4");
sc_trace(mVcdFile, ap_block_state34_pp3_stage0_iter5, "ap_block_state34_pp3_stage0_iter5");
sc_trace(mVcdFile, ap_block_state35_pp3_stage0_iter6, "ap_block_state35_pp3_stage0_iter6");
sc_trace(mVcdFile, ap_block_state36_pp3_stage0_iter7, "ap_block_state36_pp3_stage0_iter7");
sc_trace(mVcdFile, ap_block_state37_pp3_stage0_iter8, "ap_block_state37_pp3_stage0_iter8");
sc_trace(mVcdFile, ap_block_state38_pp3_stage0_iter9, "ap_block_state38_pp3_stage0_iter9");
sc_trace(mVcdFile, ap_block_state39_pp3_stage0_iter10, "ap_block_state39_pp3_stage0_iter10");
sc_trace(mVcdFile, ap_block_state40_pp3_stage0_iter11, "ap_block_state40_pp3_stage0_iter11");
sc_trace(mVcdFile, ap_block_pp3_stage0_11001, "ap_block_pp3_stage0_11001");
sc_trace(mVcdFile, indvar_flatten_next_fu_2942_p2, "indvar_flatten_next_fu_2942_p2");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter0, "ap_enable_reg_pp3_iter0");
sc_trace(mVcdFile, j_mid2_fu_2960_p3, "j_mid2_fu_2960_p3");
sc_trace(mVcdFile, j_mid2_reg_4107, "j_mid2_reg_4107");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter1_reg, "j_mid2_reg_4107_pp3_iter1_reg");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter2_reg, "j_mid2_reg_4107_pp3_iter2_reg");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter3_reg, "j_mid2_reg_4107_pp3_iter3_reg");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter4_reg, "j_mid2_reg_4107_pp3_iter4_reg");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter5_reg, "j_mid2_reg_4107_pp3_iter5_reg");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter6_reg, "j_mid2_reg_4107_pp3_iter6_reg");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter7_reg, "j_mid2_reg_4107_pp3_iter7_reg");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter8_reg, "j_mid2_reg_4107_pp3_iter8_reg");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter9_reg, "j_mid2_reg_4107_pp3_iter9_reg");
sc_trace(mVcdFile, j_mid2_reg_4107_pp3_iter10_reg, "j_mid2_reg_4107_pp3_iter10_reg");
sc_trace(mVcdFile, tmp_76_mid2_v_fu_2973_p3, "tmp_76_mid2_v_fu_2973_p3");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114, "tmp_76_mid2_v_reg_4114");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114_pp3_iter1_reg, "tmp_76_mid2_v_reg_4114_pp3_iter1_reg");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114_pp3_iter2_reg, "tmp_76_mid2_v_reg_4114_pp3_iter2_reg");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114_pp3_iter3_reg, "tmp_76_mid2_v_reg_4114_pp3_iter3_reg");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114_pp3_iter4_reg, "tmp_76_mid2_v_reg_4114_pp3_iter4_reg");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114_pp3_iter5_reg, "tmp_76_mid2_v_reg_4114_pp3_iter5_reg");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114_pp3_iter6_reg, "tmp_76_mid2_v_reg_4114_pp3_iter6_reg");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114_pp3_iter7_reg, "tmp_76_mid2_v_reg_4114_pp3_iter7_reg");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114_pp3_iter8_reg, "tmp_76_mid2_v_reg_4114_pp3_iter8_reg");
sc_trace(mVcdFile, tmp_76_mid2_v_reg_4114_pp3_iter9_reg, "tmp_76_mid2_v_reg_4114_pp3_iter9_reg");
sc_trace(mVcdFile, or_cond_fu_3003_p2, "or_cond_fu_3003_p2");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter1_reg, "or_cond_reg_4121_pp3_iter1_reg");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter2_reg, "or_cond_reg_4121_pp3_iter2_reg");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter3_reg, "or_cond_reg_4121_pp3_iter3_reg");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter4_reg, "or_cond_reg_4121_pp3_iter4_reg");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter5_reg, "or_cond_reg_4121_pp3_iter5_reg");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter6_reg, "or_cond_reg_4121_pp3_iter6_reg");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter7_reg, "or_cond_reg_4121_pp3_iter7_reg");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter8_reg, "or_cond_reg_4121_pp3_iter8_reg");
sc_trace(mVcdFile, or_cond_reg_4121_pp3_iter9_reg, "or_cond_reg_4121_pp3_iter9_reg");
sc_trace(mVcdFile, j_8_fu_3009_p2, "j_8_fu_3009_p2");
sc_trace(mVcdFile, tmp_132_fu_3035_p2, "tmp_132_fu_3035_p2");
sc_trace(mVcdFile, tmp_132_reg_4130, "tmp_132_reg_4130");
sc_trace(mVcdFile, tmp_131_fu_3045_p2, "tmp_131_fu_3045_p2");
sc_trace(mVcdFile, tmp_131_reg_4135, "tmp_131_reg_4135");
sc_trace(mVcdFile, ap_block_pp0_stage0_subdone, "ap_block_pp0_stage0_subdone");
sc_trace(mVcdFile, ap_condition_pp0_exit_iter0_state11, "ap_condition_pp0_exit_iter0_state11");
sc_trace(mVcdFile, ap_block_pp1_stage0_subdone, "ap_block_pp1_stage0_subdone");
sc_trace(mVcdFile, ap_condition_pp1_exit_iter0_state16, "ap_condition_pp1_exit_iter0_state16");
sc_trace(mVcdFile, ap_CS_fsm_state18, "ap_CS_fsm_state18");
sc_trace(mVcdFile, ap_block_pp2_stage0_subdone, "ap_block_pp2_stage0_subdone");
sc_trace(mVcdFile, ap_condition_pp2_exit_iter0_state19, "ap_condition_pp2_exit_iter0_state19");
sc_trace(mVcdFile, ap_enable_reg_pp2_iter1, "ap_enable_reg_pp2_iter1");
sc_trace(mVcdFile, ap_enable_reg_pp2_iter5, "ap_enable_reg_pp2_iter5");
sc_trace(mVcdFile, ap_block_pp3_stage0_subdone, "ap_block_pp3_stage0_subdone");
sc_trace(mVcdFile, ap_condition_pp3_exit_iter0_state29, "ap_condition_pp3_exit_iter0_state29");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter1, "ap_enable_reg_pp3_iter1");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter2, "ap_enable_reg_pp3_iter2");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter3, "ap_enable_reg_pp3_iter3");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter4, "ap_enable_reg_pp3_iter4");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter5, "ap_enable_reg_pp3_iter5");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter6, "ap_enable_reg_pp3_iter6");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter7, "ap_enable_reg_pp3_iter7");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter8, "ap_enable_reg_pp3_iter8");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter9, "ap_enable_reg_pp3_iter9");
sc_trace(mVcdFile, ap_enable_reg_pp3_iter10, "ap_enable_reg_pp3_iter10");
sc_trace(mVcdFile, num_imag_reg_2071, "num_imag_reg_2071");
sc_trace(mVcdFile, iter_reg_2082, "iter_reg_2082");
sc_trace(mVcdFile, ap_CS_fsm_state27, "ap_CS_fsm_state27");
sc_trace(mVcdFile, ap_phi_mux_ib_phi_fu_2165_p4, "ap_phi_mux_ib_phi_fu_2165_p4");
sc_trace(mVcdFile, ap_phi_mux_p_6_phi_fu_2176_p4, "ap_phi_mux_p_6_phi_fu_2176_p4");
sc_trace(mVcdFile, ap_phi_mux_ic_phi_fu_2188_p4, "ap_phi_mux_ic_phi_fu_2188_p4");
sc_trace(mVcdFile, ap_phi_mux_i_phi_fu_2210_p4, "ap_phi_mux_i_phi_fu_2210_p4");
sc_trace(mVcdFile, newIndex4_fu_2405_p1, "newIndex4_fu_2405_p1");
sc_trace(mVcdFile, newIndex2_fu_2463_p1, "newIndex2_fu_2463_p1");
sc_trace(mVcdFile, tmp_132_cast_fu_3070_p1, "tmp_132_cast_fu_3070_p1");
sc_trace(mVcdFile, tmp_131_cast_fu_3146_p1, "tmp_131_cast_fu_3146_p1");
sc_trace(mVcdFile, ap_block_state5, "ap_block_state5");
sc_trace(mVcdFile, ap_block_pp0_stage0_01001, "ap_block_pp0_stage0_01001");
sc_trace(mVcdFile, tmp_V_120_fu_2912_p1, "tmp_V_120_fu_2912_p1");
sc_trace(mVcdFile, ap_block_pp2_stage0_01001, "ap_block_pp2_stage0_01001");
sc_trace(mVcdFile, ap_block_pp3_stage0_01001, "ap_block_pp3_stage0_01001");
sc_trace(mVcdFile, tmp_139_fu_2434_p1, "tmp_139_fu_2434_p1");
sc_trace(mVcdFile, arrayNo8_fu_3060_p4, "arrayNo8_fu_3060_p4");
sc_trace(mVcdFile, arrayNo7_fu_3136_p4, "arrayNo7_fu_3136_p4");
sc_trace(mVcdFile, tmp_138_fu_3098_p1, "tmp_138_fu_3098_p1");
sc_trace(mVcdFile, grp_fu_2228_p1, "grp_fu_2228_p1");
sc_trace(mVcdFile, p_shl1_fu_2259_p3, "p_shl1_fu_2259_p3");
sc_trace(mVcdFile, cast2_fu_2255_p1, "cast2_fu_2255_p1");
sc_trace(mVcdFile, A_COL_ITER_fu_2321_p0, "A_COL_ITER_fu_2321_p0");
sc_trace(mVcdFile, A_COL_ITER_fu_2321_p1, "A_COL_ITER_fu_2321_p1");
sc_trace(mVcdFile, iter_cast_fu_2332_p1, "iter_cast_fu_2332_p1");
sc_trace(mVcdFile, j2_cast_fu_2359_p1, "j2_cast_fu_2359_p1");
sc_trace(mVcdFile, next_urem1_fu_2492_p2, "next_urem1_fu_2492_p2");
sc_trace(mVcdFile, tmp_145_fu_2498_p2, "tmp_145_fu_2498_p2");
sc_trace(mVcdFile, next_urem_fu_2512_p2, "next_urem_fu_2512_p2");
sc_trace(mVcdFile, tmp_146_fu_2518_p2, "tmp_146_fu_2518_p2");
sc_trace(mVcdFile, ib_3_fu_2543_p2, "ib_3_fu_2543_p2");
sc_trace(mVcdFile, tmp_143_fu_2575_p1, "tmp_143_fu_2575_p1");
sc_trace(mVcdFile, p_shl2_cast_fu_2579_p3, "p_shl2_cast_fu_2579_p3");
sc_trace(mVcdFile, tmp_142_fu_2571_p1, "tmp_142_fu_2571_p1");
sc_trace(mVcdFile, ic3_cast_fu_2593_p1, "ic3_cast_fu_2593_p1");
sc_trace(mVcdFile, tmp_134_fu_2587_p2, "tmp_134_fu_2587_p2");
sc_trace(mVcdFile, grp_fu_3323_p3, "grp_fu_3323_p3");
sc_trace(mVcdFile, grp_fu_3315_p3, "grp_fu_3315_p3");
sc_trace(mVcdFile, tmp8_fu_2813_p2, "tmp8_fu_2813_p2");
sc_trace(mVcdFile, tmp3_fu_2809_p2, "tmp3_fu_2809_p2");
sc_trace(mVcdFile, grp_fu_3339_p3, "grp_fu_3339_p3");
sc_trace(mVcdFile, grp_fu_3331_p3, "grp_fu_3331_p3");
sc_trace(mVcdFile, tmp22_fu_2827_p2, "tmp22_fu_2827_p2");
sc_trace(mVcdFile, tmp19_fu_2831_p2, "tmp19_fu_2831_p2");
sc_trace(mVcdFile, tmp14_fu_2823_p2, "tmp14_fu_2823_p2");
sc_trace(mVcdFile, p_6_mid2_fu_2842_p3, "p_6_mid2_fu_2842_p3");
sc_trace(mVcdFile, tmp_27_fu_2849_p2, "tmp_27_fu_2849_p2");
sc_trace(mVcdFile, p_neg_fu_2859_p2, "p_neg_fu_2859_p2");
sc_trace(mVcdFile, p_lshr_cast_fu_2882_p1, "p_lshr_cast_fu_2882_p1");
sc_trace(mVcdFile, tmp_137_fu_2891_p4, "tmp_137_fu_2891_p4");
sc_trace(mVcdFile, tmp_144_fu_2875_p3, "tmp_144_fu_2875_p3");
sc_trace(mVcdFile, p_neg_t_fu_2885_p2, "p_neg_t_fu_2885_p2");
sc_trace(mVcdFile, p_lshr_f_cast_fu_2900_p1, "p_lshr_f_cast_fu_2900_p1");
sc_trace(mVcdFile, output_data_fu_2904_p3, "output_data_fu_2904_p3");
sc_trace(mVcdFile, i_cast_fu_2927_p1, "i_cast_fu_2927_p1");
sc_trace(mVcdFile, tmp_133_fu_2954_p2, "tmp_133_fu_2954_p2");
sc_trace(mVcdFile, i_6_fu_2948_p2, "i_6_fu_2948_p2");
sc_trace(mVcdFile, i_cast_mid1_fu_2969_p1, "i_cast_mid1_fu_2969_p1");
sc_trace(mVcdFile, tmp_77_mid1_fu_2981_p2, "tmp_77_mid1_fu_2981_p2");
sc_trace(mVcdFile, tmp_67_fu_2931_p2, "tmp_67_fu_2931_p2");
sc_trace(mVcdFile, j_cast_fu_2994_p1, "j_cast_fu_2994_p1");
sc_trace(mVcdFile, tmp_69_fu_2998_p2, "tmp_69_fu_2998_p2");
sc_trace(mVcdFile, tmp_77_mid2_fu_2986_p3, "tmp_77_mid2_fu_2986_p3");
sc_trace(mVcdFile, tmp_129_fu_3018_p3, "tmp_129_fu_3018_p3");
sc_trace(mVcdFile, tmp_76_mid2_cast_fu_3015_p1, "tmp_76_mid2_cast_fu_3015_p1");
sc_trace(mVcdFile, grp_fu_2228_p2, "grp_fu_2228_p2");
sc_trace(mVcdFile, newIndex1_cast_fu_3031_p1, "newIndex1_cast_fu_3031_p1");
sc_trace(mVcdFile, tmp_130_fu_3025_p2, "tmp_130_fu_3025_p2");
sc_trace(mVcdFile, newIndex8_cast_fu_3041_p1, "newIndex8_cast_fu_3041_p1");
sc_trace(mVcdFile, mul1_fu_3054_p0, "mul1_fu_3054_p0");
sc_trace(mVcdFile, mul1_fu_3054_p2, "mul1_fu_3054_p2");
sc_trace(mVcdFile, mul_fu_3130_p1, "mul_fu_3130_p1");
sc_trace(mVcdFile, mul_fu_3130_p2, "mul_fu_3130_p2");
sc_trace(mVcdFile, grp_fu_3249_p3, "grp_fu_3249_p3");
sc_trace(mVcdFile, grp_fu_3264_p3, "grp_fu_3264_p3");
sc_trace(mVcdFile, grp_fu_3293_p3, "grp_fu_3293_p3");
sc_trace(mVcdFile, grp_fu_2228_ce, "grp_fu_2228_ce");
sc_trace(mVcdFile, ap_CS_fsm_state13, "ap_CS_fsm_state13");
sc_trace(mVcdFile, ap_NS_fsm, "ap_NS_fsm");
sc_trace(mVcdFile, ap_idle_pp0, "ap_idle_pp0");
sc_trace(mVcdFile, ap_enable_pp0, "ap_enable_pp0");
sc_trace(mVcdFile, ap_idle_pp1, "ap_idle_pp1");
sc_trace(mVcdFile, ap_enable_pp1, "ap_enable_pp1");
sc_trace(mVcdFile, ap_idle_pp2, "ap_idle_pp2");
sc_trace(mVcdFile, ap_enable_pp2, "ap_enable_pp2");
sc_trace(mVcdFile, ap_idle_pp3, "ap_idle_pp3");
sc_trace(mVcdFile, ap_enable_pp3, "ap_enable_pp3");
sc_trace(mVcdFile, mul1_fu_3054_p00, "mul1_fu_3054_p00");
sc_trace(mVcdFile, mul_fu_3130_p10, "mul_fu_3130_p10");
sc_trace(mVcdFile, ap_condition_694, "ap_condition_694");
sc_trace(mVcdFile, ap_condition_1808, "ap_condition_1808");
sc_trace(mVcdFile, ap_condition_1833, "ap_condition_1833");
sc_trace(mVcdFile, ap_condition_2094, "ap_condition_2094");
sc_trace(mVcdFile, ap_condition_2148, "ap_condition_2148");
#endif
}
}
SMM_1u_75u_32u_s::~SMM_1u_75u_32u_s() {
if (mVcdFile)
sc_close_vcd_trace_file(mVcdFile);
delete A_V_2_0_U;
delete B_V_2_0_U;
delete A_V_2_1_U;
delete B_V_2_1_U;
delete A_V_2_2_U;
delete B_V_2_2_U;
delete A_V_2_3_U;
delete B_V_2_3_U;
delete A_V_2_4_U;
delete B_V_2_4_U;
delete A_V_2_5_U;
delete B_V_2_5_U;
delete A_V_2_6_U;
delete B_V_2_6_U;
delete A_V_2_7_U;
delete B_V_2_7_U;
delete A_V_2_8_U;
delete B_V_2_8_U;
delete A_V_2_9_U;
delete B_V_2_9_U;
delete A_V_2_10_U;
delete B_V_2_10_U;
delete A_V_2_11_U;
delete B_V_2_11_U;
delete A_V_2_12_U;
delete B_V_2_12_U;
delete A_V_2_13_U;
delete B_V_2_13_U;
delete A_V_2_14_U;
delete B_V_2_14_U;
delete A_V_2_15_U;
delete B_V_2_15_U;
delete A_V_2_16_U;
delete B_V_2_16_U;
delete A_V_2_17_U;
delete B_V_2_17_U;
delete A_V_2_18_U;
delete B_V_2_18_U;
delete A_V_2_19_U;
delete B_V_2_19_U;
delete A_V_2_20_U;
delete B_V_2_20_U;
delete A_V_2_21_U;
delete B_V_2_21_U;
delete A_V_2_22_U;
delete B_V_2_22_U;
delete A_V_2_23_U;
delete B_V_2_23_U;
delete A_V_2_24_U;
delete B_V_2_24_U;
delete cifar_10_urem_7ns1iI_U20;
delete cifar_10_mul_32s_bkb_U21;
delete cifar_10_mul_32s_bkb_U22;
delete cifar_10_mul_32s_bkb_U23;
delete cifar_10_mul_mul_2iS_U24;
delete cifar_10_mul_mul_2iS_U25;
delete cifar_10_mul_mul_2iS_U26;
delete cifar_10_mul_mul_2iS_U27;
delete cifar_10_mul_mul_2iS_U28;
delete cifar_10_mul_mul_2iS_U29;
delete cifar_10_mul_mul_2iS_U30;
delete cifar_10_mul_mul_2iS_U31;
delete cifar_10_mul_mul_2iS_U32;
delete cifar_10_mac_mula3i2_U33;
delete cifar_10_mac_mula3i2_U34;
delete cifar_10_mac_mula3i2_U35;
delete cifar_10_mac_mula3i2_U36;
delete cifar_10_mac_mula3i2_U37;
delete cifar_10_mac_mula3i2_U38;
delete cifar_10_mac_mula3i2_U39;
delete cifar_10_mac_mula3i2_U40;
delete cifar_10_mac_mula3i2_U41;
delete cifar_10_mac_mula3i2_U42;
delete cifar_10_mac_mula3i2_U43;
delete cifar_10_mac_mula3i2_U44;
delete cifar_10_mac_mula3i2_U45;
delete cifar_10_mac_mula3i2_U46;
delete cifar_10_mac_mula3i2_U47;
delete cifar_10_mac_mula3i2_U48;
}
void SMM_1u_75u_32u_s::thread_ap_clk_no_reset_() {
if ( ap_rst.read() == ap_const_logic_1) {
ap_CS_fsm = ap_ST_fsm_state1;
} else {
ap_CS_fsm = ap_NS_fsm.read();
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_done_reg = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_continue.read())) {
ap_done_reg = ap_const_logic_0;
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state13.read())) {
ap_done_reg = ap_const_logic_1;
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp0_iter0 = ap_const_logic_0;
} else {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp0_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp0_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_condition_pp0_exit_iter0_state11.read()))) {
ap_enable_reg_pp0_iter0 = ap_const_logic_0;
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state10.read())) {
ap_enable_reg_pp0_iter0 = ap_const_logic_1;
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp0_iter1 = ap_const_logic_0;
} else {
if ((esl_seteq<1,1,1>(ap_block_pp0_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_condition_pp0_exit_iter0_state11.read()))) {
ap_enable_reg_pp0_iter1 = (ap_condition_pp0_exit_iter0_state11.read() ^ ap_const_logic_1);
} else if (esl_seteq<1,1,1>(ap_block_pp0_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp0_iter1 = ap_enable_reg_pp0_iter0.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state10.read())) {
ap_enable_reg_pp0_iter1 = ap_const_logic_0;
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp1_iter0 = ap_const_logic_0;
} else {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_condition_pp1_exit_iter0_state16.read()))) {
ap_enable_reg_pp1_iter0 = ap_const_logic_0;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_70_fu_2336_p2.read()))) {
ap_enable_reg_pp1_iter0 = ap_const_logic_1;
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp1_iter1 = ap_const_logic_0;
} else {
if ((esl_seteq<1,1,1>(ap_block_pp1_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_condition_pp1_exit_iter0_state16.read()))) {
ap_enable_reg_pp1_iter1 = (ap_condition_pp1_exit_iter0_state16.read() ^ ap_const_logic_1);
} else if (esl_seteq<1,1,1>(ap_block_pp1_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp1_iter1 = ap_enable_reg_pp1_iter0.read();
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_70_fu_2336_p2.read()))) {
ap_enable_reg_pp1_iter1 = ap_const_logic_0;
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp2_iter0 = ap_const_logic_0;
} else {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_condition_pp2_exit_iter0_state19.read()))) {
ap_enable_reg_pp2_iter0 = ap_const_logic_0;
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state18.read())) {
ap_enable_reg_pp2_iter0 = ap_const_logic_1;
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp2_iter1 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0)) {
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_condition_pp2_exit_iter0_state19.read())) {
ap_enable_reg_pp2_iter1 = (ap_condition_pp2_exit_iter0_state19.read() ^ ap_const_logic_1);
} else if (esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1)) {
ap_enable_reg_pp2_iter1 = ap_enable_reg_pp2_iter0.read();
}
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp2_iter2 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp2_iter2 = ap_enable_reg_pp2_iter1.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp2_iter3 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp2_iter3 = ap_enable_reg_pp2_iter2.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp2_iter4 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp2_iter4 = ap_enable_reg_pp2_iter3.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp2_iter5 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp2_iter5 = ap_enable_reg_pp2_iter4.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp2_iter6 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp2_iter6 = ap_enable_reg_pp2_iter5.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp2_iter7 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp2_iter7 = ap_enable_reg_pp2_iter6.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state18.read())) {
ap_enable_reg_pp2_iter7 = ap_const_logic_0;
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter0 = ap_const_logic_0;
} else {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp3_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_condition_pp3_exit_iter0_state29.read()))) {
ap_enable_reg_pp3_iter0 = ap_const_logic_0;
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state28.read())) {
ap_enable_reg_pp3_iter0 = ap_const_logic_1;
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter1 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_condition_pp3_exit_iter0_state29.read())) {
ap_enable_reg_pp3_iter1 = (ap_condition_pp3_exit_iter0_state29.read() ^ ap_const_logic_1);
} else if (esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1)) {
ap_enable_reg_pp3_iter1 = ap_enable_reg_pp3_iter0.read();
}
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter10 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter10 = ap_enable_reg_pp3_iter9.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter11 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter11 = ap_enable_reg_pp3_iter10.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state28.read())) {
ap_enable_reg_pp3_iter11 = ap_const_logic_0;
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter2 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter2 = ap_enable_reg_pp3_iter1.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter3 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter3 = ap_enable_reg_pp3_iter2.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter4 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter4 = ap_enable_reg_pp3_iter3.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter5 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter5 = ap_enable_reg_pp3_iter4.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter6 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter6 = ap_enable_reg_pp3_iter5.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter7 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter7 = ap_enable_reg_pp3_iter6.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter8 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter8 = ap_enable_reg_pp3_iter7.read();
}
}
if ( ap_rst.read() == ap_const_logic_1) {
ap_enable_reg_pp3_iter9 = ap_const_logic_0;
} else {
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0)) {
ap_enable_reg_pp3_iter9 = ap_enable_reg_pp3_iter8.read();
}
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp0_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp0_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond3_fu_2295_p2.read()))) {
i3_reg_2060 = i_5_fu_2300_p2.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state10.read())) {
i3_reg_2060 = ap_const_lv32_0;
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp3_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten_reg_4098.read()))) {
i_reg_2206 = tmp_76_mid2_v_reg_4114.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state28.read())) {
i_reg_2206 = ap_const_lv6_0;
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
ib_reg_2161 = tmp_83_mid2_v_reg_3514.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state18.read())) {
ib_reg_2161 = ap_const_lv32_0;
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
ic_reg_2184 = ic_3_reg_3524.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state18.read())) {
ic_reg_2184 = ap_const_lv2_0;
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_fu_2532_p2.read()))) {
indvar_flatten6_reg_2150 = indvar_flatten_next7_fu_2537_p2.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state18.read())) {
indvar_flatten6_reg_2150 = ap_const_lv34_0;
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp3_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten_fu_2936_p2.read()))) {
indvar_flatten_reg_2195 = indvar_flatten_next_fu_2942_p2.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state28.read())) {
indvar_flatten_reg_2195 = ap_const_lv12_0;
}
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state27.read())) {
iter_reg_2082 = iter_3_reg_3449.read();
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state14.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_fu_2306_p2.read()))) {
iter_reg_2082 = ap_const_lv31_0;
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_70_fu_2336_p2.read()))) {
j2_reg_2093 = ap_const_lv7_0;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, tmp_71_fu_2347_p2.read()))) {
j2_reg_2093 = j_9_fu_2353_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp3_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten_fu_2936_p2.read()))) {
j_reg_2217 = j_8_fu_3009_p2.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state28.read())) {
j_reg_2217 = ap_const_lv7_0;
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, tmp_70_fu_2336_p2.read()))) {
num_imag_reg_2071 = num_imag_3_reg_3435.read();
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())) &&
esl_seteq<1,1,1>(ap_const_lv1_0, tmp_s_fu_2233_p2.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_66_fu_2246_p2.read()))) {
num_imag_reg_2071 = ap_const_lv32_0;
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495_pp2_iter6_reg.read()))) {
p_6_reg_2172 = sum_V_s_reg_4081.read();
} else if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state18.read())) {
p_6_reg_2172 = ap_const_lv32_0;
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_70_fu_2336_p2.read()))) {
phi_mul1_reg_2115 = ap_const_lv14_0;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, tmp_71_fu_2347_p2.read()))) {
phi_mul1_reg_2115 = next_mul1_fu_2379_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_70_fu_2336_p2.read()))) {
phi_mul_reg_2104 = ap_const_lv14_0;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, tmp_71_fu_2347_p2.read()))) {
phi_mul_reg_2104 = next_mul_fu_2373_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_70_fu_2336_p2.read()))) {
phi_urem1_reg_2138 = ap_const_lv7_0;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_0, tmp_71_reg_3454.read()))) {
phi_urem1_reg_2138 = idx_urem1_fu_2504_p3.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_70_fu_2336_p2.read()))) {
phi_urem_reg_2126 = ap_const_lv7_0;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_0, tmp_71_reg_3454.read()))) {
phi_urem_reg_2126 = idx_urem_fu_2524_p3.read();
}
if ( ap_rst.read() == ap_const_logic_1) {
start_once_reg = ap_const_logic_0;
} else {
if ((esl_seteq<1,1,1>(ap_const_logic_1, real_start.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, internal_ap_ready.read()))) {
start_once_reg = ap_const_logic_1;
} else if (esl_seteq<1,1,1>(ap_const_logic_1, internal_ap_ready.read())) {
start_once_reg = ap_const_logic_0;
}
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state14.read()) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_fu_2306_p2.read()))) {
A_COL_ITER_reg_3440 = A_COL_ITER_fu_2321_p2.read();
A_ROW_2 = B_ROW_2_load_reg_3389.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter4.read()) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495_pp2_iter3_reg.read()))) {
A_V_2_0_load_reg_3986 = A_V_2_0_q0.read();
A_V_2_12_load_reg_4006 = A_V_2_12_q0.read();
A_V_2_15_load_reg_4016 = A_V_2_15_q0.read();
A_V_2_3_load_reg_3996 = A_V_2_3_q0.read();
B_V_2_0_load_reg_3991 = B_V_2_0_q0.read();
B_V_2_12_load_reg_4011 = B_V_2_12_q0.read();
B_V_2_15_load_reg_4021 = B_V_2_15_q0.read();
B_V_2_3_load_reg_4001 = B_V_2_3_q0.read();
tmp11_reg_4041 = grp_fu_3257_p3.read();
tmp16_reg_4046 = grp_fu_3272_p3.read();
tmp18_reg_4051 = grp_fu_3279_p3.read();
tmp20_reg_4056 = grp_fu_3286_p3.read();
tmp23_reg_4061 = grp_fu_3301_p3.read();
tmp24_reg_4066 = grp_fu_3308_p3.read();
tmp5_reg_4026 = grp_fu_3228_p3.read();
tmp7_reg_4031 = grp_fu_3235_p3.read();
tmp9_reg_4036 = grp_fu_3242_p3.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495_pp2_iter2_reg.read()) && esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_11_load_reg_3916 = A_V_2_11_q0.read();
A_V_2_20_load_reg_3956 = A_V_2_20_q0.read();
A_V_2_8_load_reg_3896 = A_V_2_8_q0.read();
B_V_2_11_load_reg_3921 = B_V_2_11_q0.read();
B_V_2_14_load_reg_3931 = B_V_2_14_q0.read();
B_V_2_17_load_reg_3941 = B_V_2_17_q0.read();
B_V_2_18_load_reg_3946 = B_V_2_18_q0.read();
B_V_2_20_load_reg_3961 = B_V_2_20_q0.read();
B_V_2_22_load_reg_3971 = B_V_2_22_q0.read();
B_V_2_24_load_reg_3981 = B_V_2_24_q0.read();
B_V_2_2_load_reg_3871 = B_V_2_2_q0.read();
B_V_2_5_load_reg_3881 = B_V_2_5_q0.read();
B_V_2_6_load_reg_3886 = B_V_2_6_q0.read();
B_V_2_8_load_reg_3901 = B_V_2_8_q0.read();
B_V_2_9_load_reg_3906 = B_V_2_9_q0.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())) && esl_seteq<1,1,1>(ap_const_lv1_1, tmp_s_fu_2233_p2.read()))) {
B_COL_2 = tmp_V_109_reg_3372.read();
OFMDim_current_2 = tmp_V_111_reg_3380.read();
tmp1_reg_3408 = tmp1_fu_2278_p2.read();
}
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state28.read())) {
B_ROW_2 = tmp_65_fu_2917_p2.read();
tmp_65_reg_4093 = tmp_65_fu_2917_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
B_ROW_2_load_reg_3389 = B_ROW_2.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495_pp2_iter1_reg.read()) && esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_10_load_reg_3751 = B_V_2_10_q0.read();
B_V_2_13_load_reg_3756 = B_V_2_13_q0.read();
B_V_2_16_load_reg_3761 = B_V_2_16_q0.read();
B_V_2_19_load_reg_3766 = B_V_2_19_q0.read();
B_V_2_1_load_reg_3736 = B_V_2_1_q0.read();
B_V_2_21_load_reg_3771 = B_V_2_21_q0.read();
B_V_2_23_load_reg_3776 = B_V_2_23_q0.read();
B_V_2_4_load_reg_3741 = B_V_2_4_q0.read();
B_V_2_7_load_reg_3746 = B_V_2_7_q0.read();
}
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state10.read())) {
KER_bound_reg_3418 = KER_bound_fu_2291_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_s_fu_2233_p2.read()) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_66_fu_2246_p2.read()))) {
KER_size_0_reg_3398 = KER_size_0_fu_2251_p2.read();
}
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state9.read())) {
KER_size_1_reg_3413 = KER_size_1_fu_2287_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_s_fu_2233_p2.read()) && esl_seteq<1,1,1>(ap_const_lv1_1, tmp_66_fu_2246_p2.read()))) {
bound4_reg_3403 = bound4_fu_2267_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp0_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp0_stage0_11001.read(), ap_const_boolean_0))) {
exitcond3_reg_3423 = exitcond3_fu_2295_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_fu_2532_p2.read()))) {
exitcond9_reg_3504 = exitcond9_fu_2549_p2.read();
ic_mid2_reg_3509 = ic_mid2_fu_2555_p3.read();
tmp_135_reg_3519 = tmp_135_fu_2597_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0))) {
exitcond9_reg_3504_pp2_iter1_reg = exitcond9_reg_3504.read();
exitcond_flatten8_reg_3495 = exitcond_flatten8_fu_2532_p2.read();
exitcond_flatten8_reg_3495_pp2_iter1_reg = exitcond_flatten8_reg_3495.read();
ic_mid2_reg_3509_pp2_iter1_reg = ic_mid2_reg_3509.read();
}
if (esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0)) {
exitcond9_reg_3504_pp2_iter2_reg = exitcond9_reg_3504_pp2_iter1_reg.read();
exitcond9_reg_3504_pp2_iter3_reg = exitcond9_reg_3504_pp2_iter2_reg.read();
exitcond9_reg_3504_pp2_iter4_reg = exitcond9_reg_3504_pp2_iter3_reg.read();
exitcond9_reg_3504_pp2_iter5_reg = exitcond9_reg_3504_pp2_iter4_reg.read();
exitcond_flatten8_reg_3495_pp2_iter2_reg = exitcond_flatten8_reg_3495_pp2_iter1_reg.read();
exitcond_flatten8_reg_3495_pp2_iter3_reg = exitcond_flatten8_reg_3495_pp2_iter2_reg.read();
exitcond_flatten8_reg_3495_pp2_iter4_reg = exitcond_flatten8_reg_3495_pp2_iter3_reg.read();
exitcond_flatten8_reg_3495_pp2_iter5_reg = exitcond_flatten8_reg_3495_pp2_iter4_reg.read();
exitcond_flatten8_reg_3495_pp2_iter6_reg = exitcond_flatten8_reg_3495_pp2_iter5_reg.read();
ifzero_reg_3595_pp2_iter2_reg = ifzero_reg_3595.read();
ifzero_reg_3595_pp2_iter3_reg = ifzero_reg_3595_pp2_iter2_reg.read();
ifzero_reg_3595_pp2_iter4_reg = ifzero_reg_3595_pp2_iter3_reg.read();
ifzero_reg_3595_pp2_iter5_reg = ifzero_reg_3595_pp2_iter4_reg.read();
ifzero_reg_3595_pp2_iter6_reg = ifzero_reg_3595_pp2_iter5_reg.read();
tmp_135_cast_reg_3530_pp2_iter2_reg = tmp_135_cast_reg_3530.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp3_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0))) {
exitcond_flatten_reg_4098 = exitcond_flatten_fu_2936_p2.read();
j_mid2_reg_4107_pp3_iter1_reg = j_mid2_reg_4107.read();
or_cond_reg_4121_pp3_iter1_reg = or_cond_reg_4121.read();
tmp_76_mid2_v_reg_4114_pp3_iter1_reg = tmp_76_mid2_v_reg_4114.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495_pp2_iter1_reg.read()))) {
ic3_reg_3599 = ic3_fu_2626_p1.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter0.read()) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_fu_2532_p2.read()))) {
ic_3_reg_3524 = ic_3_fu_2603_p2.read();
tmp_83_mid2_v_reg_3514 = tmp_83_mid2_v_fu_2563_p3.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495.read()))) {
ifzero_reg_3595 = ifzero_fu_2621_p2.read();
tmp_135_cast_reg_3530 = tmp_135_cast_fu_2609_p1.read();
}
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read())) {
iter_3_reg_3449 = iter_3_fu_2341_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp3_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten_fu_2936_p2.read()))) {
j_mid2_reg_4107 = j_mid2_fu_2960_p3.read();
or_cond_reg_4121 = or_cond_fu_3003_p2.read();
}
if (esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0)) {
j_mid2_reg_4107_pp3_iter10_reg = j_mid2_reg_4107_pp3_iter9_reg.read();
j_mid2_reg_4107_pp3_iter2_reg = j_mid2_reg_4107_pp3_iter1_reg.read();
j_mid2_reg_4107_pp3_iter3_reg = j_mid2_reg_4107_pp3_iter2_reg.read();
j_mid2_reg_4107_pp3_iter4_reg = j_mid2_reg_4107_pp3_iter3_reg.read();
j_mid2_reg_4107_pp3_iter5_reg = j_mid2_reg_4107_pp3_iter4_reg.read();
j_mid2_reg_4107_pp3_iter6_reg = j_mid2_reg_4107_pp3_iter5_reg.read();
j_mid2_reg_4107_pp3_iter7_reg = j_mid2_reg_4107_pp3_iter6_reg.read();
j_mid2_reg_4107_pp3_iter8_reg = j_mid2_reg_4107_pp3_iter7_reg.read();
j_mid2_reg_4107_pp3_iter9_reg = j_mid2_reg_4107_pp3_iter8_reg.read();
or_cond_reg_4121_pp3_iter10_reg = or_cond_reg_4121_pp3_iter9_reg.read();
or_cond_reg_4121_pp3_iter2_reg = or_cond_reg_4121_pp3_iter1_reg.read();
or_cond_reg_4121_pp3_iter3_reg = or_cond_reg_4121_pp3_iter2_reg.read();
or_cond_reg_4121_pp3_iter4_reg = or_cond_reg_4121_pp3_iter3_reg.read();
or_cond_reg_4121_pp3_iter5_reg = or_cond_reg_4121_pp3_iter4_reg.read();
or_cond_reg_4121_pp3_iter6_reg = or_cond_reg_4121_pp3_iter5_reg.read();
or_cond_reg_4121_pp3_iter7_reg = or_cond_reg_4121_pp3_iter6_reg.read();
or_cond_reg_4121_pp3_iter8_reg = or_cond_reg_4121_pp3_iter7_reg.read();
or_cond_reg_4121_pp3_iter9_reg = or_cond_reg_4121_pp3_iter8_reg.read();
tmp_76_mid2_v_reg_4114_pp3_iter2_reg = tmp_76_mid2_v_reg_4114_pp3_iter1_reg.read();
tmp_76_mid2_v_reg_4114_pp3_iter3_reg = tmp_76_mid2_v_reg_4114_pp3_iter2_reg.read();
tmp_76_mid2_v_reg_4114_pp3_iter4_reg = tmp_76_mid2_v_reg_4114_pp3_iter3_reg.read();
tmp_76_mid2_v_reg_4114_pp3_iter5_reg = tmp_76_mid2_v_reg_4114_pp3_iter4_reg.read();
tmp_76_mid2_v_reg_4114_pp3_iter6_reg = tmp_76_mid2_v_reg_4114_pp3_iter5_reg.read();
tmp_76_mid2_v_reg_4114_pp3_iter7_reg = tmp_76_mid2_v_reg_4114_pp3_iter6_reg.read();
tmp_76_mid2_v_reg_4114_pp3_iter8_reg = tmp_76_mid2_v_reg_4114_pp3_iter7_reg.read();
tmp_76_mid2_v_reg_4114_pp3_iter9_reg = tmp_76_mid2_v_reg_4114_pp3_iter8_reg.read();
}
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state14.read())) {
num_imag_3_reg_3435 = num_imag_3_fu_2311_p2.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495_pp2_iter2_reg.read()))) {
ret_V_10_reg_3911 = ret_V_10_fu_3192_p2.read();
ret_V_13_reg_3926 = ret_V_13_fu_3198_p2.read();
ret_V_16_reg_3936 = ret_V_16_fu_3204_p2.read();
ret_V_19_reg_3951 = ret_V_19_fu_3210_p2.read();
ret_V_1_reg_3866 = ret_V_1_fu_3174_p2.read();
ret_V_21_reg_3966 = ret_V_21_fu_3216_p2.read();
ret_V_23_reg_3976 = ret_V_23_fu_3222_p2.read();
ret_V_4_reg_3876 = ret_V_4_fu_3180_p2.read();
ret_V_7_reg_3891 = ret_V_7_fu_3186_p2.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter6.read()) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495_pp2_iter5_reg.read()))) {
sum_V_s_reg_4081 = sum_V_s_fu_2853_p2.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495_pp2_iter4_reg.read()))) {
tmp13_reg_4076 = tmp13_fu_2836_p2.read();
tmp2_reg_4071 = tmp2_fu_2817_p2.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_1, or_cond_reg_4121_pp3_iter9_reg.read()))) {
tmp_131_reg_4135 = tmp_131_fu_3045_p2.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, or_cond_reg_4121_pp3_iter9_reg.read()))) {
tmp_132_reg_4130 = tmp_132_fu_3035_p2.read();
}
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_1, ifzero_reg_3595_pp2_iter5_reg.read()))) {
tmp_136_reg_4088 = p_neg_fu_2859_p2.read().range(31, 15);
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_71_fu_2347_p2.read()) && esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_fu_2367_p2.read()))) {
tmp_140_reg_3481 = phi_mul_reg_2104.read().range(13, 9);
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_71_fu_2347_p2.read()) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_72_fu_2367_p2.read()))) {
tmp_141_reg_3477 = phi_mul1_reg_2115.read().range(13, 9);
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0))) {
tmp_71_reg_3454 = tmp_71_fu_2347_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_71_fu_2347_p2.read()))) {
tmp_72_reg_3463 = tmp_72_fu_2367_p2.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp3_stage0.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter0.read()) && esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten_fu_2936_p2.read()))) {
tmp_76_mid2_v_reg_4114 = tmp_76_mid2_v_fu_2973_p3.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state2.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
tmp_V_101_reg_3353 = in_stream_a_V_V_dout.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state3.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
tmp_V_103_reg_3358 = in_stream_a_V_V_dout.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state4.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
tmp_V_105_reg_3366 = in_stream_a_V_V_dout.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state6.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
tmp_V_109_reg_3372 = in_stream_a_V_V_dout.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state7.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
tmp_V_111_reg_3380 = in_stream_a_V_V_dout.read();
}
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state1.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, real_start.read()) || esl_seteq<1,1,1>(ap_done_reg.read(), ap_const_logic_1) || esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
tmp_V_reg_3347 = in_stream_a_V_V_dout.read();
}
}
void SMM_1u_75u_32u_s::thread_A_COL_ITER_fu_2321_p0() {
A_COL_ITER_fu_2321_p0 = OFMDim_current_2.read();
}
void SMM_1u_75u_32u_s::thread_A_COL_ITER_fu_2321_p1() {
A_COL_ITER_fu_2321_p1 = OFMDim_current_2.read();
}
void SMM_1u_75u_32u_s::thread_A_COL_ITER_fu_2321_p2() {
A_COL_ITER_fu_2321_p2 = (!A_COL_ITER_fu_2321_p0.read().is_01() || !A_COL_ITER_fu_2321_p1.read().is_01())? sc_lv<32>(): sc_bigint<32>(A_COL_ITER_fu_2321_p0.read()) * sc_bigint<32>(A_COL_ITER_fu_2321_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_0_address0() {
A_V_2_0_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_0_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_0))) {
A_V_2_0_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_0))) {
A_V_2_0_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_0_address1 = "XX";
}
} else {
A_V_2_0_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_0_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_0_ce0 = ap_const_logic_1;
} else {
A_V_2_0_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_0_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_0)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_0)))) {
A_V_2_0_ce1 = ap_const_logic_1;
} else {
A_V_2_0_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_0_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_0))) {
A_V_2_0_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_0))) {
A_V_2_0_d1 = ap_const_lv16_0;
} else {
A_V_2_0_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_0_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_0_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_0)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_0)))) {
A_V_2_0_we1 = ap_const_logic_1;
} else {
A_V_2_0_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_10_address0() {
A_V_2_10_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_10_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_A))) {
A_V_2_10_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_A))) {
A_V_2_10_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_10_address1 = "XX";
}
} else {
A_V_2_10_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_10_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_10_ce0 = ap_const_logic_1;
} else {
A_V_2_10_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_10_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_A)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_A)))) {
A_V_2_10_ce1 = ap_const_logic_1;
} else {
A_V_2_10_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_10_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_A))) {
A_V_2_10_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_A))) {
A_V_2_10_d1 = ap_const_lv16_0;
} else {
A_V_2_10_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_10_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_10_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_A)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_A)))) {
A_V_2_10_we1 = ap_const_logic_1;
} else {
A_V_2_10_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_11_address0() {
A_V_2_11_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_11_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_B))) {
A_V_2_11_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_B))) {
A_V_2_11_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_11_address1 = "XX";
}
} else {
A_V_2_11_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_11_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_11_ce0 = ap_const_logic_1;
} else {
A_V_2_11_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_11_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_B)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_B)))) {
A_V_2_11_ce1 = ap_const_logic_1;
} else {
A_V_2_11_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_11_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_B))) {
A_V_2_11_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_B))) {
A_V_2_11_d1 = ap_const_lv16_0;
} else {
A_V_2_11_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_11_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_11_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_B)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_B)))) {
A_V_2_11_we1 = ap_const_logic_1;
} else {
A_V_2_11_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_12_address0() {
A_V_2_12_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_12_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_C))) {
A_V_2_12_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_C))) {
A_V_2_12_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_12_address1 = "XX";
}
} else {
A_V_2_12_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_12_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_12_ce0 = ap_const_logic_1;
} else {
A_V_2_12_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_12_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_C)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_C)))) {
A_V_2_12_ce1 = ap_const_logic_1;
} else {
A_V_2_12_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_12_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_C))) {
A_V_2_12_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_C))) {
A_V_2_12_d1 = ap_const_lv16_0;
} else {
A_V_2_12_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_12_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_12_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_C)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_C)))) {
A_V_2_12_we1 = ap_const_logic_1;
} else {
A_V_2_12_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_13_address0() {
A_V_2_13_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_13_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_D))) {
A_V_2_13_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_D))) {
A_V_2_13_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_13_address1 = "XX";
}
} else {
A_V_2_13_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_13_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_13_ce0 = ap_const_logic_1;
} else {
A_V_2_13_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_13_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_D)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_D)))) {
A_V_2_13_ce1 = ap_const_logic_1;
} else {
A_V_2_13_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_13_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_D))) {
A_V_2_13_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_D))) {
A_V_2_13_d1 = ap_const_lv16_0;
} else {
A_V_2_13_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_13_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_13_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_D)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_D)))) {
A_V_2_13_we1 = ap_const_logic_1;
} else {
A_V_2_13_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_14_address0() {
A_V_2_14_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_14_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_E))) {
A_V_2_14_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_E))) {
A_V_2_14_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_14_address1 = "XX";
}
} else {
A_V_2_14_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_14_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_14_ce0 = ap_const_logic_1;
} else {
A_V_2_14_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_14_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_E)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_E)))) {
A_V_2_14_ce1 = ap_const_logic_1;
} else {
A_V_2_14_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_14_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_E))) {
A_V_2_14_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_E))) {
A_V_2_14_d1 = ap_const_lv16_0;
} else {
A_V_2_14_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_14_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_14_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_E)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_E)))) {
A_V_2_14_we1 = ap_const_logic_1;
} else {
A_V_2_14_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_15_address0() {
A_V_2_15_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_15_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_F))) {
A_V_2_15_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_F))) {
A_V_2_15_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_15_address1 = "XX";
}
} else {
A_V_2_15_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_15_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_15_ce0 = ap_const_logic_1;
} else {
A_V_2_15_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_15_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_F)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_F)))) {
A_V_2_15_ce1 = ap_const_logic_1;
} else {
A_V_2_15_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_15_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_F))) {
A_V_2_15_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_F))) {
A_V_2_15_d1 = ap_const_lv16_0;
} else {
A_V_2_15_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_15_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_15_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_F)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_F)))) {
A_V_2_15_we1 = ap_const_logic_1;
} else {
A_V_2_15_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_16_address0() {
A_V_2_16_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_16_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_10))) {
A_V_2_16_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_10))) {
A_V_2_16_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_16_address1 = "XX";
}
} else {
A_V_2_16_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_16_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_16_ce0 = ap_const_logic_1;
} else {
A_V_2_16_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_16_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_10)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_10)))) {
A_V_2_16_ce1 = ap_const_logic_1;
} else {
A_V_2_16_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_16_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_10))) {
A_V_2_16_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_10))) {
A_V_2_16_d1 = ap_const_lv16_0;
} else {
A_V_2_16_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_16_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_16_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_10)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_10)))) {
A_V_2_16_we1 = ap_const_logic_1;
} else {
A_V_2_16_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_17_address0() {
A_V_2_17_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_17_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_11))) {
A_V_2_17_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_11))) {
A_V_2_17_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_17_address1 = "XX";
}
} else {
A_V_2_17_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_17_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_17_ce0 = ap_const_logic_1;
} else {
A_V_2_17_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_17_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_11)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_11)))) {
A_V_2_17_ce1 = ap_const_logic_1;
} else {
A_V_2_17_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_17_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_11))) {
A_V_2_17_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_11))) {
A_V_2_17_d1 = ap_const_lv16_0;
} else {
A_V_2_17_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_17_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_17_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_11)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_11)))) {
A_V_2_17_we1 = ap_const_logic_1;
} else {
A_V_2_17_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_18_address0() {
A_V_2_18_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_18_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_12))) {
A_V_2_18_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_12))) {
A_V_2_18_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_18_address1 = "XX";
}
} else {
A_V_2_18_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_18_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_18_ce0 = ap_const_logic_1;
} else {
A_V_2_18_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_18_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_12)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_12)))) {
A_V_2_18_ce1 = ap_const_logic_1;
} else {
A_V_2_18_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_18_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_12))) {
A_V_2_18_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_12))) {
A_V_2_18_d1 = ap_const_lv16_0;
} else {
A_V_2_18_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_18_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_18_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_12)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_12)))) {
A_V_2_18_we1 = ap_const_logic_1;
} else {
A_V_2_18_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_19_address0() {
A_V_2_19_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_19_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_13))) {
A_V_2_19_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_13))) {
A_V_2_19_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_19_address1 = "XX";
}
} else {
A_V_2_19_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_19_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_19_ce0 = ap_const_logic_1;
} else {
A_V_2_19_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_19_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_13)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_13)))) {
A_V_2_19_ce1 = ap_const_logic_1;
} else {
A_V_2_19_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_19_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_13))) {
A_V_2_19_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_13))) {
A_V_2_19_d1 = ap_const_lv16_0;
} else {
A_V_2_19_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_19_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_19_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_13)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_13)))) {
A_V_2_19_we1 = ap_const_logic_1;
} else {
A_V_2_19_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_1_address0() {
A_V_2_1_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_1_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1))) {
A_V_2_1_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1))) {
A_V_2_1_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_1_address1 = "XX";
}
} else {
A_V_2_1_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_1_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_1_ce0 = ap_const_logic_1;
} else {
A_V_2_1_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_1_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1)))) {
A_V_2_1_ce1 = ap_const_logic_1;
} else {
A_V_2_1_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_1_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1))) {
A_V_2_1_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1))) {
A_V_2_1_d1 = ap_const_lv16_0;
} else {
A_V_2_1_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_1_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_1_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1)))) {
A_V_2_1_we1 = ap_const_logic_1;
} else {
A_V_2_1_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_20_address0() {
A_V_2_20_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_20_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_14))) {
A_V_2_20_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_14))) {
A_V_2_20_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_20_address1 = "XX";
}
} else {
A_V_2_20_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_20_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_20_ce0 = ap_const_logic_1;
} else {
A_V_2_20_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_20_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_14)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_14)))) {
A_V_2_20_ce1 = ap_const_logic_1;
} else {
A_V_2_20_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_20_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_14))) {
A_V_2_20_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_14))) {
A_V_2_20_d1 = ap_const_lv16_0;
} else {
A_V_2_20_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_20_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_20_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_14)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_14)))) {
A_V_2_20_we1 = ap_const_logic_1;
} else {
A_V_2_20_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_21_address0() {
A_V_2_21_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_21_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_15))) {
A_V_2_21_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_15))) {
A_V_2_21_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_21_address1 = "XX";
}
} else {
A_V_2_21_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_21_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_21_ce0 = ap_const_logic_1;
} else {
A_V_2_21_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_21_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_15)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_15)))) {
A_V_2_21_ce1 = ap_const_logic_1;
} else {
A_V_2_21_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_21_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_15))) {
A_V_2_21_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_15))) {
A_V_2_21_d1 = ap_const_lv16_0;
} else {
A_V_2_21_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_21_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_21_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_15)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_15)))) {
A_V_2_21_we1 = ap_const_logic_1;
} else {
A_V_2_21_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_22_address0() {
A_V_2_22_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_22_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_16))) {
A_V_2_22_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_16))) {
A_V_2_22_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_22_address1 = "XX";
}
} else {
A_V_2_22_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_22_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_22_ce0 = ap_const_logic_1;
} else {
A_V_2_22_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_22_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_16)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_16)))) {
A_V_2_22_ce1 = ap_const_logic_1;
} else {
A_V_2_22_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_22_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_16))) {
A_V_2_22_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_16))) {
A_V_2_22_d1 = ap_const_lv16_0;
} else {
A_V_2_22_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_22_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_22_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_16)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_16)))) {
A_V_2_22_we1 = ap_const_logic_1;
} else {
A_V_2_22_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_23_address0() {
A_V_2_23_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_23_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_17))) {
A_V_2_23_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_17))) {
A_V_2_23_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_23_address1 = "XX";
}
} else {
A_V_2_23_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_23_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_23_ce0 = ap_const_logic_1;
} else {
A_V_2_23_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_23_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_17)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_17)))) {
A_V_2_23_ce1 = ap_const_logic_1;
} else {
A_V_2_23_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_23_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_17))) {
A_V_2_23_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_17))) {
A_V_2_23_d1 = ap_const_lv16_0;
} else {
A_V_2_23_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_23_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_23_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_17)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_17)))) {
A_V_2_23_we1 = ap_const_logic_1;
} else {
A_V_2_23_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_24_address0() {
A_V_2_24_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_24_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if (esl_seteq<1,1,1>(ap_condition_1833.read(), ap_const_boolean_1)) {
A_V_2_24_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if (esl_seteq<1,1,1>(ap_condition_1808.read(), ap_const_boolean_1)) {
A_V_2_24_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_24_address1 = "XX";
}
} else {
A_V_2_24_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_24_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_24_ce0 = ap_const_logic_1;
} else {
A_V_2_24_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_24_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
((((((((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1F)) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1E))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1D))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1C))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1B))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1A))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_19))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_18)))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
((((((((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1F)) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1E))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1D))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1C))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1B))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1A))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_19))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_18)))))) {
A_V_2_24_ce1 = ap_const_logic_1;
} else {
A_V_2_24_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_24_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if (esl_seteq<1,1,1>(ap_condition_1833.read(), ap_const_boolean_1)) {
A_V_2_24_d1 = tmp_139_fu_2434_p1.read();
} else if (esl_seteq<1,1,1>(ap_condition_1808.read(), ap_const_boolean_1)) {
A_V_2_24_d1 = ap_const_lv16_0;
} else {
A_V_2_24_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_24_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_24_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
((((((((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1F)) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1E))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1D))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1C))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1B))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1A))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_19))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_18)))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
((((((((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1F)) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1E))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1D))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1C))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1B))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1A))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_19))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_18)))))) {
A_V_2_24_we1 = ap_const_logic_1;
} else {
A_V_2_24_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_2_address0() {
A_V_2_2_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_2_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_2))) {
A_V_2_2_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_2))) {
A_V_2_2_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_2_address1 = "XX";
}
} else {
A_V_2_2_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_2_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_2_ce0 = ap_const_logic_1;
} else {
A_V_2_2_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_2_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_2)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_2)))) {
A_V_2_2_ce1 = ap_const_logic_1;
} else {
A_V_2_2_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_2_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_2))) {
A_V_2_2_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_2))) {
A_V_2_2_d1 = ap_const_lv16_0;
} else {
A_V_2_2_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_2_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_2_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_2)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_2)))) {
A_V_2_2_we1 = ap_const_logic_1;
} else {
A_V_2_2_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_3_address0() {
A_V_2_3_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_3_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_3))) {
A_V_2_3_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_3))) {
A_V_2_3_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_3_address1 = "XX";
}
} else {
A_V_2_3_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_3_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_3_ce0 = ap_const_logic_1;
} else {
A_V_2_3_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_3_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_3)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_3)))) {
A_V_2_3_ce1 = ap_const_logic_1;
} else {
A_V_2_3_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_3_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_3))) {
A_V_2_3_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_3))) {
A_V_2_3_d1 = ap_const_lv16_0;
} else {
A_V_2_3_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_3_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_3_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_3)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_3)))) {
A_V_2_3_we1 = ap_const_logic_1;
} else {
A_V_2_3_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_4_address0() {
A_V_2_4_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_4_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_4))) {
A_V_2_4_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_4))) {
A_V_2_4_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_4_address1 = "XX";
}
} else {
A_V_2_4_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_4_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_4_ce0 = ap_const_logic_1;
} else {
A_V_2_4_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_4_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_4)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_4)))) {
A_V_2_4_ce1 = ap_const_logic_1;
} else {
A_V_2_4_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_4_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_4))) {
A_V_2_4_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_4))) {
A_V_2_4_d1 = ap_const_lv16_0;
} else {
A_V_2_4_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_4_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_4_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_4)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_4)))) {
A_V_2_4_we1 = ap_const_logic_1;
} else {
A_V_2_4_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_5_address0() {
A_V_2_5_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_5_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_5))) {
A_V_2_5_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_5))) {
A_V_2_5_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_5_address1 = "XX";
}
} else {
A_V_2_5_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_5_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_5_ce0 = ap_const_logic_1;
} else {
A_V_2_5_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_5_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_5)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_5)))) {
A_V_2_5_ce1 = ap_const_logic_1;
} else {
A_V_2_5_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_5_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_5))) {
A_V_2_5_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_5))) {
A_V_2_5_d1 = ap_const_lv16_0;
} else {
A_V_2_5_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_5_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_5_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_5)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_5)))) {
A_V_2_5_we1 = ap_const_logic_1;
} else {
A_V_2_5_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_6_address0() {
A_V_2_6_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_6_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_6))) {
A_V_2_6_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_6))) {
A_V_2_6_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_6_address1 = "XX";
}
} else {
A_V_2_6_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_6_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_6_ce0 = ap_const_logic_1;
} else {
A_V_2_6_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_6_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_6)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_6)))) {
A_V_2_6_ce1 = ap_const_logic_1;
} else {
A_V_2_6_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_6_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_6))) {
A_V_2_6_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_6))) {
A_V_2_6_d1 = ap_const_lv16_0;
} else {
A_V_2_6_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_6_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_6_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_6)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_6)))) {
A_V_2_6_we1 = ap_const_logic_1;
} else {
A_V_2_6_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_7_address0() {
A_V_2_7_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_7_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_7))) {
A_V_2_7_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_7))) {
A_V_2_7_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_7_address1 = "XX";
}
} else {
A_V_2_7_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_7_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_7_ce0 = ap_const_logic_1;
} else {
A_V_2_7_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_7_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_7)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_7)))) {
A_V_2_7_ce1 = ap_const_logic_1;
} else {
A_V_2_7_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_7_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_7))) {
A_V_2_7_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_7))) {
A_V_2_7_d1 = ap_const_lv16_0;
} else {
A_V_2_7_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_7_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_7_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_7)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_7)))) {
A_V_2_7_we1 = ap_const_logic_1;
} else {
A_V_2_7_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_8_address0() {
A_V_2_8_address0 = (sc_lv<2>) (ic3_fu_2626_p1.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_8_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_8))) {
A_V_2_8_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_8))) {
A_V_2_8_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_8_address1 = "XX";
}
} else {
A_V_2_8_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_8_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
A_V_2_8_ce0 = ap_const_logic_1;
} else {
A_V_2_8_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_8_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_8)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_8)))) {
A_V_2_8_ce1 = ap_const_logic_1;
} else {
A_V_2_8_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_8_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_8))) {
A_V_2_8_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_8))) {
A_V_2_8_d1 = ap_const_lv16_0;
} else {
A_V_2_8_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_8_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_8_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_8)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_8)))) {
A_V_2_8_we1 = ap_const_logic_1;
} else {
A_V_2_8_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_9_address0() {
A_V_2_9_address0 = (sc_lv<2>) (ic3_reg_3599.read());
}
void SMM_1u_75u_32u_s::thread_A_V_2_9_address1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_9))) {
A_V_2_9_address1 = (sc_lv<2>) (newIndex2_fu_2463_p1.read());
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_9))) {
A_V_2_9_address1 = (sc_lv<2>) (newIndex4_fu_2405_p1.read());
} else {
A_V_2_9_address1 = "XX";
}
} else {
A_V_2_9_address1 = "XX";
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_9_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
A_V_2_9_ce0 = ap_const_logic_1;
} else {
A_V_2_9_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_9_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_9)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_9)))) {
A_V_2_9_ce1 = ap_const_logic_1;
} else {
A_V_2_9_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_9_d1() {
if (esl_seteq<1,1,1>(ap_condition_694.read(), ap_const_boolean_1)) {
if ((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_9))) {
A_V_2_9_d1 = tmp_139_fu_2434_p1.read();
} else if ((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_9))) {
A_V_2_9_d1 = ap_const_lv16_0;
} else {
A_V_2_9_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
A_V_2_9_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_A_V_2_9_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_9)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_9)))) {
A_V_2_9_we1 = ap_const_logic_1;
} else {
A_V_2_9_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_0_address0() {
B_V_2_0_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530_pp2_iter2_reg.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_0_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo7_fu_3136_p4.read()))) {
B_V_2_0_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo8_fu_3060_p4.read()))) {
B_V_2_0_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_0_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_0_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_0_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
B_V_2_0_ce0 = ap_const_logic_1;
} else {
B_V_2_0_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_0_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo8_fu_3060_p4.read())) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo7_fu_3136_p4.read())))) {
B_V_2_0_ce1 = ap_const_logic_1;
} else {
B_V_2_0_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_0_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo7_fu_3136_p4.read()))) {
B_V_2_0_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo8_fu_3060_p4.read()))) {
B_V_2_0_d1 = ap_const_lv16_0;
} else {
B_V_2_0_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_0_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_0_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo8_fu_3060_p4.read())) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo7_fu_3136_p4.read())))) {
B_V_2_0_we1 = ap_const_logic_1;
} else {
B_V_2_0_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_10_address0() {
B_V_2_10_address0 = (sc_lv<7>) (tmp_135_cast_fu_2609_p1.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_10_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_A))) {
B_V_2_10_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_A))) {
B_V_2_10_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_10_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_10_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_10_ce0() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
B_V_2_10_ce0 = ap_const_logic_1;
} else {
B_V_2_10_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_10_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_A)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_A)))) {
B_V_2_10_ce1 = ap_const_logic_1;
} else {
B_V_2_10_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_10_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_A))) {
B_V_2_10_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_A))) {
B_V_2_10_d1 = ap_const_lv16_0;
} else {
B_V_2_10_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_10_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_10_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_A)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_A)))) {
B_V_2_10_we1 = ap_const_logic_1;
} else {
B_V_2_10_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_11_address0() {
B_V_2_11_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_11_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_B))) {
B_V_2_11_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_B))) {
B_V_2_11_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_11_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_11_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_11_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_11_ce0 = ap_const_logic_1;
} else {
B_V_2_11_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_11_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_B)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_B)))) {
B_V_2_11_ce1 = ap_const_logic_1;
} else {
B_V_2_11_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_11_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_B))) {
B_V_2_11_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_B))) {
B_V_2_11_d1 = ap_const_lv16_0;
} else {
B_V_2_11_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_11_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_11_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_B)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_B)))) {
B_V_2_11_we1 = ap_const_logic_1;
} else {
B_V_2_11_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_12_address0() {
B_V_2_12_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530_pp2_iter2_reg.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_12_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_C))) {
B_V_2_12_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_C))) {
B_V_2_12_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_12_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_12_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_12_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
B_V_2_12_ce0 = ap_const_logic_1;
} else {
B_V_2_12_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_12_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_C)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_C)))) {
B_V_2_12_ce1 = ap_const_logic_1;
} else {
B_V_2_12_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_12_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_C))) {
B_V_2_12_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_C))) {
B_V_2_12_d1 = ap_const_lv16_0;
} else {
B_V_2_12_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_12_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_12_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_C)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_C)))) {
B_V_2_12_we1 = ap_const_logic_1;
} else {
B_V_2_12_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_13_address0() {
B_V_2_13_address0 = (sc_lv<7>) (tmp_135_cast_fu_2609_p1.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_13_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_D))) {
B_V_2_13_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_D))) {
B_V_2_13_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_13_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_13_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_13_ce0() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
B_V_2_13_ce0 = ap_const_logic_1;
} else {
B_V_2_13_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_13_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_D)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_D)))) {
B_V_2_13_ce1 = ap_const_logic_1;
} else {
B_V_2_13_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_13_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_D))) {
B_V_2_13_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_D))) {
B_V_2_13_d1 = ap_const_lv16_0;
} else {
B_V_2_13_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_13_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_13_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_D)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_D)))) {
B_V_2_13_we1 = ap_const_logic_1;
} else {
B_V_2_13_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_14_address0() {
B_V_2_14_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_14_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_E))) {
B_V_2_14_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_E))) {
B_V_2_14_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_14_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_14_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_14_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_14_ce0 = ap_const_logic_1;
} else {
B_V_2_14_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_14_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_E)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_E)))) {
B_V_2_14_ce1 = ap_const_logic_1;
} else {
B_V_2_14_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_14_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_E))) {
B_V_2_14_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_E))) {
B_V_2_14_d1 = ap_const_lv16_0;
} else {
B_V_2_14_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_14_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_14_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_E)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_E)))) {
B_V_2_14_we1 = ap_const_logic_1;
} else {
B_V_2_14_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_15_address0() {
B_V_2_15_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530_pp2_iter2_reg.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_15_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_F))) {
B_V_2_15_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_F))) {
B_V_2_15_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_15_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_15_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_15_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
B_V_2_15_ce0 = ap_const_logic_1;
} else {
B_V_2_15_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_15_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_F)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_F)))) {
B_V_2_15_ce1 = ap_const_logic_1;
} else {
B_V_2_15_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_15_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_F))) {
B_V_2_15_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_F))) {
B_V_2_15_d1 = ap_const_lv16_0;
} else {
B_V_2_15_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_15_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_15_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_F)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_F)))) {
B_V_2_15_we1 = ap_const_logic_1;
} else {
B_V_2_15_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_16_address0() {
B_V_2_16_address0 = (sc_lv<7>) (tmp_135_cast_fu_2609_p1.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_16_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_10))) {
B_V_2_16_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_10))) {
B_V_2_16_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_16_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_16_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_16_ce0() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
B_V_2_16_ce0 = ap_const_logic_1;
} else {
B_V_2_16_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_16_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_10)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_10)))) {
B_V_2_16_ce1 = ap_const_logic_1;
} else {
B_V_2_16_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_16_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_10))) {
B_V_2_16_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_10))) {
B_V_2_16_d1 = ap_const_lv16_0;
} else {
B_V_2_16_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_16_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_16_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_10)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_10)))) {
B_V_2_16_we1 = ap_const_logic_1;
} else {
B_V_2_16_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_17_address0() {
B_V_2_17_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_17_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_11))) {
B_V_2_17_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_11))) {
B_V_2_17_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_17_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_17_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_17_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_17_ce0 = ap_const_logic_1;
} else {
B_V_2_17_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_17_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_11)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_11)))) {
B_V_2_17_ce1 = ap_const_logic_1;
} else {
B_V_2_17_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_17_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_11))) {
B_V_2_17_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_11))) {
B_V_2_17_d1 = ap_const_lv16_0;
} else {
B_V_2_17_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_17_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_17_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_11)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_11)))) {
B_V_2_17_we1 = ap_const_logic_1;
} else {
B_V_2_17_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_18_address0() {
B_V_2_18_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_18_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_12))) {
B_V_2_18_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_12))) {
B_V_2_18_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_18_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_18_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_18_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_18_ce0 = ap_const_logic_1;
} else {
B_V_2_18_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_18_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_12)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_12)))) {
B_V_2_18_ce1 = ap_const_logic_1;
} else {
B_V_2_18_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_18_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_12))) {
B_V_2_18_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_12))) {
B_V_2_18_d1 = ap_const_lv16_0;
} else {
B_V_2_18_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_18_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_18_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_12)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_12)))) {
B_V_2_18_we1 = ap_const_logic_1;
} else {
B_V_2_18_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_19_address0() {
B_V_2_19_address0 = (sc_lv<7>) (tmp_135_cast_fu_2609_p1.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_19_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_13))) {
B_V_2_19_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_13))) {
B_V_2_19_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_19_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_19_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_19_ce0() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
B_V_2_19_ce0 = ap_const_logic_1;
} else {
B_V_2_19_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_19_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_13)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_13)))) {
B_V_2_19_ce1 = ap_const_logic_1;
} else {
B_V_2_19_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_19_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_13))) {
B_V_2_19_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_13))) {
B_V_2_19_d1 = ap_const_lv16_0;
} else {
B_V_2_19_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_19_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_19_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_13)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_13)))) {
B_V_2_19_we1 = ap_const_logic_1;
} else {
B_V_2_19_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_1_address0() {
B_V_2_1_address0 = (sc_lv<7>) (tmp_135_cast_fu_2609_p1.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_1_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(ap_const_lv7_1, arrayNo7_fu_3136_p4.read()))) {
B_V_2_1_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_1))) {
B_V_2_1_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_1_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_1_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_1_ce0() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
B_V_2_1_ce0 = ap_const_logic_1;
} else {
B_V_2_1_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_1_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_1)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(ap_const_lv7_1, arrayNo7_fu_3136_p4.read())))) {
B_V_2_1_ce1 = ap_const_logic_1;
} else {
B_V_2_1_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_1_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(ap_const_lv7_1, arrayNo7_fu_3136_p4.read()))) {
B_V_2_1_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_1))) {
B_V_2_1_d1 = ap_const_lv16_0;
} else {
B_V_2_1_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_1_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_1_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_1)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(ap_const_lv7_1, arrayNo7_fu_3136_p4.read())))) {
B_V_2_1_we1 = ap_const_logic_1;
} else {
B_V_2_1_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_20_address0() {
B_V_2_20_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_20_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_14))) {
B_V_2_20_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_14))) {
B_V_2_20_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_20_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_20_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_20_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_20_ce0 = ap_const_logic_1;
} else {
B_V_2_20_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_20_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_14)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_14)))) {
B_V_2_20_ce1 = ap_const_logic_1;
} else {
B_V_2_20_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_20_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_14))) {
B_V_2_20_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_14))) {
B_V_2_20_d1 = ap_const_lv16_0;
} else {
B_V_2_20_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_20_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_20_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_14)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_14)))) {
B_V_2_20_we1 = ap_const_logic_1;
} else {
B_V_2_20_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_21_address0() {
B_V_2_21_address0 = (sc_lv<7>) (tmp_135_cast_fu_2609_p1.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_21_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_15))) {
B_V_2_21_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_15))) {
B_V_2_21_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_21_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_21_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_21_ce0() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
B_V_2_21_ce0 = ap_const_logic_1;
} else {
B_V_2_21_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_21_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_15)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_15)))) {
B_V_2_21_ce1 = ap_const_logic_1;
} else {
B_V_2_21_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_21_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_15))) {
B_V_2_21_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_15))) {
B_V_2_21_d1 = ap_const_lv16_0;
} else {
B_V_2_21_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_21_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_21_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_15)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_15)))) {
B_V_2_21_we1 = ap_const_logic_1;
} else {
B_V_2_21_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_22_address0() {
B_V_2_22_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_22_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_16))) {
B_V_2_22_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_16))) {
B_V_2_22_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_22_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_22_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_22_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_22_ce0 = ap_const_logic_1;
} else {
B_V_2_22_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_22_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_16)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_16)))) {
B_V_2_22_ce1 = ap_const_logic_1;
} else {
B_V_2_22_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_22_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_16))) {
B_V_2_22_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_16))) {
B_V_2_22_d1 = ap_const_lv16_0;
} else {
B_V_2_22_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_22_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_22_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_16)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_16)))) {
B_V_2_22_we1 = ap_const_logic_1;
} else {
B_V_2_22_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_23_address0() {
B_V_2_23_address0 = (sc_lv<7>) (tmp_135_cast_fu_2609_p1.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_23_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_17))) {
B_V_2_23_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_17))) {
B_V_2_23_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_23_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_23_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_23_ce0() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
B_V_2_23_ce0 = ap_const_logic_1;
} else {
B_V_2_23_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_23_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_17)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_17)))) {
B_V_2_23_ce1 = ap_const_logic_1;
} else {
B_V_2_23_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_23_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_17))) {
B_V_2_23_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_17))) {
B_V_2_23_d1 = ap_const_lv16_0;
} else {
B_V_2_23_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_23_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_23_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_17)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_17)))) {
B_V_2_23_we1 = ap_const_logic_1;
} else {
B_V_2_23_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_24_address0() {
B_V_2_24_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_24_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if (esl_seteq<1,1,1>(ap_condition_2148.read(), ap_const_boolean_1)) {
B_V_2_24_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if (esl_seteq<1,1,1>(ap_condition_2094.read(), ap_const_boolean_1)) {
B_V_2_24_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_24_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_24_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_24_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_24_ce0 = ap_const_logic_1;
} else {
B_V_2_24_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_24_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
!esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo8_fu_3060_p4.read()) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_1) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_2) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_3) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_4) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_5) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_6) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_7) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_8) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_9) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_A) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_B) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_C) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_D) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_E) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_F) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_10) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_11) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_12) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_13) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_14) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_15) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_16) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_17)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
!esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo7_fu_3136_p4.read()) &&
!esl_seteq<1,7,7>(ap_const_lv7_1, arrayNo7_fu_3136_p4.read()) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_2) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_3) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_4) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_5) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_6) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_7) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_8) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_9) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_A) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_B) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_C) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_D) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_E) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_F) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_10) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_11) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_12) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_13) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_14) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_15) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_16) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_17)))) {
B_V_2_24_ce1 = ap_const_logic_1;
} else {
B_V_2_24_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_24_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if (esl_seteq<1,1,1>(ap_condition_2148.read(), ap_const_boolean_1)) {
B_V_2_24_d1 = tmp_138_fu_3098_p1.read();
} else if (esl_seteq<1,1,1>(ap_condition_2094.read(), ap_const_boolean_1)) {
B_V_2_24_d1 = ap_const_lv16_0;
} else {
B_V_2_24_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_24_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_24_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
!esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo8_fu_3060_p4.read()) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_1) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_2) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_3) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_4) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_5) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_6) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_7) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_8) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_9) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_A) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_B) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_C) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_D) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_E) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_F) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_10) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_11) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_12) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_13) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_14) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_15) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_16) &&
!esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_17)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
!esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo7_fu_3136_p4.read()) &&
!esl_seteq<1,7,7>(ap_const_lv7_1, arrayNo7_fu_3136_p4.read()) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_2) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_3) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_4) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_5) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_6) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_7) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_8) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_9) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_A) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_B) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_C) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_D) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_E) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_F) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_10) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_11) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_12) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_13) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_14) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_15) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_16) &&
!esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_17)))) {
B_V_2_24_we1 = ap_const_logic_1;
} else {
B_V_2_24_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_2_address0() {
B_V_2_2_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_2_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_2))) {
B_V_2_2_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_2))) {
B_V_2_2_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_2_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_2_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_2_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_2_ce0 = ap_const_logic_1;
} else {
B_V_2_2_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_2_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_2)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_2)))) {
B_V_2_2_ce1 = ap_const_logic_1;
} else {
B_V_2_2_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_2_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_2))) {
B_V_2_2_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_2))) {
B_V_2_2_d1 = ap_const_lv16_0;
} else {
B_V_2_2_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_2_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_2_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_2)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_2)))) {
B_V_2_2_we1 = ap_const_logic_1;
} else {
B_V_2_2_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_3_address0() {
B_V_2_3_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530_pp2_iter2_reg.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_3_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_3))) {
B_V_2_3_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_3))) {
B_V_2_3_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_3_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_3_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_3_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter3.read()))) {
B_V_2_3_ce0 = ap_const_logic_1;
} else {
B_V_2_3_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_3_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_3)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_3)))) {
B_V_2_3_ce1 = ap_const_logic_1;
} else {
B_V_2_3_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_3_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_3))) {
B_V_2_3_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_3))) {
B_V_2_3_d1 = ap_const_lv16_0;
} else {
B_V_2_3_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_3_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_3_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_3)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_3)))) {
B_V_2_3_we1 = ap_const_logic_1;
} else {
B_V_2_3_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_4_address0() {
B_V_2_4_address0 = (sc_lv<7>) (tmp_135_cast_fu_2609_p1.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_4_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_4))) {
B_V_2_4_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_4))) {
B_V_2_4_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_4_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_4_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_4_ce0() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
B_V_2_4_ce0 = ap_const_logic_1;
} else {
B_V_2_4_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_4_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_4)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_4)))) {
B_V_2_4_ce1 = ap_const_logic_1;
} else {
B_V_2_4_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_4_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_4))) {
B_V_2_4_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_4))) {
B_V_2_4_d1 = ap_const_lv16_0;
} else {
B_V_2_4_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_4_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_4_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_4)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_4)))) {
B_V_2_4_we1 = ap_const_logic_1;
} else {
B_V_2_4_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_5_address0() {
B_V_2_5_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_5_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_5))) {
B_V_2_5_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_5))) {
B_V_2_5_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_5_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_5_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_5_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_5_ce0 = ap_const_logic_1;
} else {
B_V_2_5_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_5_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_5)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_5)))) {
B_V_2_5_ce1 = ap_const_logic_1;
} else {
B_V_2_5_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_5_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_5))) {
B_V_2_5_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_5))) {
B_V_2_5_d1 = ap_const_lv16_0;
} else {
B_V_2_5_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_5_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_5_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_5)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_5)))) {
B_V_2_5_we1 = ap_const_logic_1;
} else {
B_V_2_5_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_6_address0() {
B_V_2_6_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_6_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_6))) {
B_V_2_6_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_6))) {
B_V_2_6_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_6_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_6_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_6_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_6_ce0 = ap_const_logic_1;
} else {
B_V_2_6_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_6_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_6)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_6)))) {
B_V_2_6_ce1 = ap_const_logic_1;
} else {
B_V_2_6_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_6_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_6))) {
B_V_2_6_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_6))) {
B_V_2_6_d1 = ap_const_lv16_0;
} else {
B_V_2_6_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_6_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_6_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_6)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_6)))) {
B_V_2_6_we1 = ap_const_logic_1;
} else {
B_V_2_6_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_7_address0() {
B_V_2_7_address0 = (sc_lv<7>) (tmp_135_cast_fu_2609_p1.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_7_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_7))) {
B_V_2_7_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_7))) {
B_V_2_7_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_7_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_7_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_7_ce0() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
B_V_2_7_ce0 = ap_const_logic_1;
} else {
B_V_2_7_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_7_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_7)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_7)))) {
B_V_2_7_ce1 = ap_const_logic_1;
} else {
B_V_2_7_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_7_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_7))) {
B_V_2_7_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_7))) {
B_V_2_7_d1 = ap_const_lv16_0;
} else {
B_V_2_7_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_7_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_7_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_7)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_7)))) {
B_V_2_7_we1 = ap_const_logic_1;
} else {
B_V_2_7_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_8_address0() {
B_V_2_8_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_8_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_8))) {
B_V_2_8_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_8))) {
B_V_2_8_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_8_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_8_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_8_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_8_ce0 = ap_const_logic_1;
} else {
B_V_2_8_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_8_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_8)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_8)))) {
B_V_2_8_ce1 = ap_const_logic_1;
} else {
B_V_2_8_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_8_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_8))) {
B_V_2_8_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_8))) {
B_V_2_8_d1 = ap_const_lv16_0;
} else {
B_V_2_8_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_8_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_8_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_8)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_8)))) {
B_V_2_8_we1 = ap_const_logic_1;
} else {
B_V_2_8_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_9_address0() {
B_V_2_9_address0 = (sc_lv<7>) (tmp_135_cast_reg_3530.read());
}
void SMM_1u_75u_32u_s::thread_B_V_2_9_address1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_9))) {
B_V_2_9_address1 = (sc_lv<7>) (tmp_131_cast_fu_3146_p1.read());
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_9))) {
B_V_2_9_address1 = (sc_lv<7>) (tmp_132_cast_fu_3070_p1.read());
} else {
B_V_2_9_address1 = (sc_lv<7>) ("XXXXXXX");
}
} else {
B_V_2_9_address1 = (sc_lv<7>) ("XXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_9_ce0() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter2.read()))) {
B_V_2_9_ce0 = ap_const_logic_1;
} else {
B_V_2_9_ce0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_9_ce1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_9)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_9)))) {
B_V_2_9_ce1 = ap_const_logic_1;
} else {
B_V_2_9_ce1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_9_d1() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0))) {
if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_9))) {
B_V_2_9_d1 = tmp_138_fu_3098_p1.read();
} else if ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_9))) {
B_V_2_9_d1 = ap_const_lv16_0;
} else {
B_V_2_9_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
} else {
B_V_2_9_d1 = (sc_lv<16>) ("XXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_B_V_2_9_we1() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) &&
esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_9)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0) &&
esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_9)))) {
B_V_2_9_we1 = ap_const_logic_1;
} else {
B_V_2_9_we1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_pp0_stage0() {
ap_CS_fsm_pp0_stage0 = ap_CS_fsm.read()[10];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_pp1_stage0() {
ap_CS_fsm_pp1_stage0 = ap_CS_fsm.read()[14];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_pp2_stage0() {
ap_CS_fsm_pp2_stage0 = ap_CS_fsm.read()[16];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_pp3_stage0() {
ap_CS_fsm_pp3_stage0 = ap_CS_fsm.read()[19];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state1() {
ap_CS_fsm_state1 = ap_CS_fsm.read()[0];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state10() {
ap_CS_fsm_state10 = ap_CS_fsm.read()[9];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state13() {
ap_CS_fsm_state13 = ap_CS_fsm.read()[11];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state14() {
ap_CS_fsm_state14 = ap_CS_fsm.read()[12];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state15() {
ap_CS_fsm_state15 = ap_CS_fsm.read()[13];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state18() {
ap_CS_fsm_state18 = ap_CS_fsm.read()[15];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state2() {
ap_CS_fsm_state2 = ap_CS_fsm.read()[1];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state27() {
ap_CS_fsm_state27 = ap_CS_fsm.read()[17];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state28() {
ap_CS_fsm_state28 = ap_CS_fsm.read()[18];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state3() {
ap_CS_fsm_state3 = ap_CS_fsm.read()[2];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state4() {
ap_CS_fsm_state4 = ap_CS_fsm.read()[3];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state5() {
ap_CS_fsm_state5 = ap_CS_fsm.read()[4];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state6() {
ap_CS_fsm_state6 = ap_CS_fsm.read()[5];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state7() {
ap_CS_fsm_state7 = ap_CS_fsm.read()[6];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state8() {
ap_CS_fsm_state8 = ap_CS_fsm.read()[7];
}
void SMM_1u_75u_32u_s::thread_ap_CS_fsm_state9() {
ap_CS_fsm_state9 = ap_CS_fsm.read()[8];
}
void SMM_1u_75u_32u_s::thread_ap_block_pp0_stage0() {
ap_block_pp0_stage0 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_pp0_stage0_01001() {
ap_block_pp0_stage0_01001 = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter1.read()) && ((esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read())) ||
(esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp0_stage0_11001() {
ap_block_pp0_stage0_11001 = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter1.read()) && ((esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read())) ||
(esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp0_stage0_subdone() {
ap_block_pp0_stage0_subdone = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter1.read()) && ((esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read())) ||
(esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp1_stage0() {
ap_block_pp1_stage0 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_pp1_stage0_11001() {
ap_block_pp1_stage0_11001 = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) && esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) && esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp1_stage0_subdone() {
ap_block_pp1_stage0_subdone = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) && esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) && esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp2_stage0() {
ap_block_pp2_stage0 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_pp2_stage0_01001() {
ap_block_pp2_stage0_01001 = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) && esl_seteq<1,1,1>(ap_const_lv1_1, ifzero_reg_3595_pp2_iter6_reg.read()) && esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp2_stage0_11001() {
ap_block_pp2_stage0_11001 = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) && esl_seteq<1,1,1>(ap_const_lv1_1, ifzero_reg_3595_pp2_iter6_reg.read()) && esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp2_stage0_subdone() {
ap_block_pp2_stage0_subdone = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) && esl_seteq<1,1,1>(ap_const_lv1_1, ifzero_reg_3595_pp2_iter6_reg.read()) && esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp3_stage0() {
ap_block_pp3_stage0 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_pp3_stage0_01001() {
ap_block_pp3_stage0_01001 = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read())) ||
(esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp3_stage0_11001() {
ap_block_pp3_stage0_11001 = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read())) ||
(esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))));
}
void SMM_1u_75u_32u_s::thread_ap_block_pp3_stage0_subdone() {
ap_block_pp3_stage0_subdone = (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read())) ||
(esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))));
}
void SMM_1u_75u_32u_s::thread_ap_block_state1() {
ap_block_state1 = (esl_seteq<1,1,1>(ap_const_logic_0, real_start.read()) || esl_seteq<1,1,1>(ap_done_reg.read(), ap_const_logic_1) || esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_state11_pp0_stage0_iter0() {
ap_block_state11_pp0_stage0_iter0 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state12_pp0_stage0_iter1() {
ap_block_state12_pp0_stage0_iter1 = ((esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read())) || (esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())));
}
void SMM_1u_75u_32u_s::thread_ap_block_state16_pp1_stage0_iter0() {
ap_block_state16_pp1_stage0_iter0 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state17_pp1_stage0_iter1() {
ap_block_state17_pp1_stage0_iter1 = (esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) && esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_state19_pp2_stage0_iter0() {
ap_block_state19_pp2_stage0_iter0 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state2() {
ap_block_state2 = (esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_state20_pp2_stage0_iter1() {
ap_block_state20_pp2_stage0_iter1 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state21_pp2_stage0_iter2() {
ap_block_state21_pp2_stage0_iter2 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state22_pp2_stage0_iter3() {
ap_block_state22_pp2_stage0_iter3 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state23_pp2_stage0_iter4() {
ap_block_state23_pp2_stage0_iter4 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state24_pp2_stage0_iter5() {
ap_block_state24_pp2_stage0_iter5 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state25_pp2_stage0_iter6() {
ap_block_state25_pp2_stage0_iter6 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state26_pp2_stage0_iter7() {
ap_block_state26_pp2_stage0_iter7 = (esl_seteq<1,1,1>(ap_const_lv1_1, ifzero_reg_3595_pp2_iter6_reg.read()) && esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_state29_pp3_stage0_iter0() {
ap_block_state29_pp3_stage0_iter0 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state3() {
ap_block_state3 = (esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_state30_pp3_stage0_iter1() {
ap_block_state30_pp3_stage0_iter1 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state31_pp3_stage0_iter2() {
ap_block_state31_pp3_stage0_iter2 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state32_pp3_stage0_iter3() {
ap_block_state32_pp3_stage0_iter3 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state33_pp3_stage0_iter4() {
ap_block_state33_pp3_stage0_iter4 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state34_pp3_stage0_iter5() {
ap_block_state34_pp3_stage0_iter5 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state35_pp3_stage0_iter6() {
ap_block_state35_pp3_stage0_iter6 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state36_pp3_stage0_iter7() {
ap_block_state36_pp3_stage0_iter7 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state37_pp3_stage0_iter8() {
ap_block_state37_pp3_stage0_iter8 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state38_pp3_stage0_iter9() {
ap_block_state38_pp3_stage0_iter9 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state39_pp3_stage0_iter10() {
ap_block_state39_pp3_stage0_iter10 = !esl_seteq<1,1,1>(ap_const_boolean_1, ap_const_boolean_1);
}
void SMM_1u_75u_32u_s::thread_ap_block_state4() {
ap_block_state4 = (esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_state40_pp3_stage0_iter11() {
ap_block_state40_pp3_stage0_iter11 = ((esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read())) || (esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())));
}
void SMM_1u_75u_32u_s::thread_ap_block_state5() {
ap_block_state5 = (esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_state6() {
ap_block_state6 = (esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_state7() {
ap_block_state7 = (esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_block_state8() {
ap_block_state8 = (esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()));
}
void SMM_1u_75u_32u_s::thread_ap_condition_1808() {
ap_condition_1808 = ((((((((esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1F)) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1E))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1D))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1C))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1B))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_1A))) ||
(esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_19))) || (esl_seteq<1,1,1>(tmp_72_reg_3463.read(), ap_const_lv1_0) &&
esl_seteq<1,5,5>(tmp_141_reg_3477.read(), ap_const_lv5_18)));
}
void SMM_1u_75u_32u_s::thread_ap_condition_1833() {
ap_condition_1833 = ((((((((esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1F)) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1E))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1D))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1C))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1B))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_1A))) ||
(esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_19))) || (esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,5,5>(tmp_140_reg_3481.read(), ap_const_lv5_18)));
}
void SMM_1u_75u_32u_s::thread_ap_condition_2094() {
ap_condition_2094 = (esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_0) && !esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo8_fu_3060_p4.read()) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_1) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_2) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_3) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_4) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_5) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_6) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_7) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_8) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_9) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_A) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_B) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_C) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_D) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_E) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_F) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_10) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_11) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_12) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_13) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_14) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_15) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_16) && !esl_seteq<1,7,7>(arrayNo8_fu_3060_p4.read(), ap_const_lv7_17));
}
void SMM_1u_75u_32u_s::thread_ap_condition_2148() {
ap_condition_2148 = (esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) && !esl_seteq<1,7,7>(ap_const_lv7_0, arrayNo7_fu_3136_p4.read()) && !esl_seteq<1,7,7>(ap_const_lv7_1, arrayNo7_fu_3136_p4.read()) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_2) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_3) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_4) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_5) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_6) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_7) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_8) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_9) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_A) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_B) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_C) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_D) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_E) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_F) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_10) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_11) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_12) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_13) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_14) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_15) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_16) && !esl_seteq<1,7,7>(arrayNo7_fu_3136_p4.read(), ap_const_lv7_17));
}
void SMM_1u_75u_32u_s::thread_ap_condition_694() {
ap_condition_694 = (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) && esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) && esl_seteq<1,1,1>(ap_block_pp1_stage0.read(), ap_const_boolean_0));
}
void SMM_1u_75u_32u_s::thread_ap_condition_pp0_exit_iter0_state11() {
if (esl_seteq<1,1,1>(ap_const_lv1_1, exitcond3_fu_2295_p2.read())) {
ap_condition_pp0_exit_iter0_state11 = ap_const_logic_1;
} else {
ap_condition_pp0_exit_iter0_state11 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_condition_pp1_exit_iter0_state16() {
if (esl_seteq<1,1,1>(ap_const_lv1_1, tmp_71_fu_2347_p2.read())) {
ap_condition_pp1_exit_iter0_state16 = ap_const_logic_1;
} else {
ap_condition_pp1_exit_iter0_state16 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_condition_pp2_exit_iter0_state19() {
if (esl_seteq<1,1,1>(ap_const_lv1_1, exitcond_flatten8_fu_2532_p2.read())) {
ap_condition_pp2_exit_iter0_state19 = ap_const_logic_1;
} else {
ap_condition_pp2_exit_iter0_state19 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_condition_pp3_exit_iter0_state29() {
if (esl_seteq<1,1,1>(ap_const_lv1_1, exitcond_flatten_fu_2936_p2.read())) {
ap_condition_pp3_exit_iter0_state29 = ap_const_logic_1;
} else {
ap_condition_pp3_exit_iter0_state29 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_done() {
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state13.read())) {
ap_done = ap_const_logic_1;
} else {
ap_done = ap_done_reg.read();
}
}
void SMM_1u_75u_32u_s::thread_ap_enable_pp0() {
ap_enable_pp0 = (ap_idle_pp0.read() ^ ap_const_logic_1);
}
void SMM_1u_75u_32u_s::thread_ap_enable_pp1() {
ap_enable_pp1 = (ap_idle_pp1.read() ^ ap_const_logic_1);
}
void SMM_1u_75u_32u_s::thread_ap_enable_pp2() {
ap_enable_pp2 = (ap_idle_pp2.read() ^ ap_const_logic_1);
}
void SMM_1u_75u_32u_s::thread_ap_enable_pp3() {
ap_enable_pp3 = (ap_idle_pp3.read() ^ ap_const_logic_1);
}
void SMM_1u_75u_32u_s::thread_ap_idle() {
if ((esl_seteq<1,1,1>(ap_const_logic_0, real_start.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state1.read()))) {
ap_idle = ap_const_logic_1;
} else {
ap_idle = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_idle_pp0() {
if ((esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp0_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp0_iter1.read()))) {
ap_idle_pp0 = ap_const_logic_1;
} else {
ap_idle_pp0 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_idle_pp1() {
if ((esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp1_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp1_iter1.read()))) {
ap_idle_pp1 = ap_const_logic_1;
} else {
ap_idle_pp1 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_idle_pp2() {
if ((esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp2_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp2_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp2_iter2.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp2_iter3.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp2_iter4.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp2_iter5.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp2_iter6.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp2_iter7.read()))) {
ap_idle_pp2 = ap_const_logic_1;
} else {
ap_idle_pp2 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_idle_pp3() {
if ((esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter2.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter3.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter4.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter5.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter6.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter7.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter8.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter9.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter10.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, ap_enable_reg_pp3_iter11.read()))) {
ap_idle_pp3 = ap_const_logic_1;
} else {
ap_idle_pp3 = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_ap_phi_mux_i_phi_fu_2210_p4() {
if ((esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp3_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten_reg_4098.read()))) {
ap_phi_mux_i_phi_fu_2210_p4 = tmp_76_mid2_v_reg_4114.read();
} else {
ap_phi_mux_i_phi_fu_2210_p4 = i_reg_2206.read();
}
}
void SMM_1u_75u_32u_s::thread_ap_phi_mux_ib_phi_fu_2165_p4() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
ap_phi_mux_ib_phi_fu_2165_p4 = tmp_83_mid2_v_reg_3514.read();
} else {
ap_phi_mux_ib_phi_fu_2165_p4 = ib_reg_2161.read();
}
}
void SMM_1u_75u_32u_s::thread_ap_phi_mux_ic_phi_fu_2188_p4() {
if ((esl_seteq<1,1,1>(ap_block_pp2_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp2_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter1.read()))) {
ap_phi_mux_ic_phi_fu_2188_p4 = ic_3_reg_3524.read();
} else {
ap_phi_mux_ic_phi_fu_2188_p4 = ic_reg_2184.read();
}
}
void SMM_1u_75u_32u_s::thread_ap_phi_mux_p_6_phi_fu_2176_p4() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_0, exitcond_flatten8_reg_3495_pp2_iter6_reg.read()))) {
ap_phi_mux_p_6_phi_fu_2176_p4 = sum_V_s_reg_4081.read();
} else {
ap_phi_mux_p_6_phi_fu_2176_p4 = p_6_reg_2172.read();
}
}
void SMM_1u_75u_32u_s::thread_ap_ready() {
ap_ready = internal_ap_ready.read();
}
void SMM_1u_75u_32u_s::thread_arrayNo7_fu_3136_p4() {
arrayNo7_fu_3136_p4 = mul_fu_3130_p2.read().range(15, 9);
}
void SMM_1u_75u_32u_s::thread_arrayNo8_fu_3060_p4() {
arrayNo8_fu_3060_p4 = mul1_fu_3054_p2.read().range(15, 9);
}
void SMM_1u_75u_32u_s::thread_bound4_fu_2267_p2() {
bound4_fu_2267_p2 = (!p_shl1_fu_2259_p3.read().is_01() || !cast2_fu_2255_p1.read().is_01())? sc_lv<34>(): (sc_biguint<34>(p_shl1_fu_2259_p3.read()) - sc_biguint<34>(cast2_fu_2255_p1.read()));
}
void SMM_1u_75u_32u_s::thread_cast2_fu_2255_p1() {
cast2_fu_2255_p1 = esl_zext<34,32>(B_COL_2.read());
}
void SMM_1u_75u_32u_s::thread_exitcond3_fu_2295_p2() {
exitcond3_fu_2295_p2 = (!i3_reg_2060.read().is_01() || !KER_bound_reg_3418.read().is_01())? sc_lv<1>(): sc_lv<1>(i3_reg_2060.read() == KER_bound_reg_3418.read());
}
void SMM_1u_75u_32u_s::thread_exitcond9_fu_2549_p2() {
exitcond9_fu_2549_p2 = (!ap_phi_mux_ic_phi_fu_2188_p4.read().is_01() || !ap_const_lv2_3.is_01())? sc_lv<1>(): sc_lv<1>(ap_phi_mux_ic_phi_fu_2188_p4.read() == ap_const_lv2_3);
}
void SMM_1u_75u_32u_s::thread_exitcond_flatten8_fu_2532_p2() {
exitcond_flatten8_fu_2532_p2 = (!indvar_flatten6_reg_2150.read().is_01() || !bound4_reg_3403.read().is_01())? sc_lv<1>(): sc_lv<1>(indvar_flatten6_reg_2150.read() == bound4_reg_3403.read());
}
void SMM_1u_75u_32u_s::thread_exitcond_flatten_fu_2936_p2() {
exitcond_flatten_fu_2936_p2 = (!indvar_flatten_reg_2195.read().is_01() || !ap_const_lv12_960.is_01())? sc_lv<1>(): sc_lv<1>(indvar_flatten_reg_2195.read() == ap_const_lv12_960);
}
void SMM_1u_75u_32u_s::thread_exitcond_fu_2306_p2() {
exitcond_fu_2306_p2 = (!num_imag_reg_2071.read().is_01() || !tmp_V_101_reg_3353.read().is_01())? sc_lv<1>(): sc_lv<1>(num_imag_reg_2071.read() == tmp_V_101_reg_3353.read());
}
void SMM_1u_75u_32u_s::thread_grp_fu_2228_ce() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp3_stage0.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0))) {
grp_fu_2228_ce = ap_const_logic_1;
} else {
grp_fu_2228_ce = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_grp_fu_2228_p1() {
grp_fu_2228_p1 = (sc_lv<3>) (ap_const_lv7_3);
}
void SMM_1u_75u_32u_s::thread_i_5_fu_2300_p2() {
i_5_fu_2300_p2 = (!i3_reg_2060.read().is_01() || !ap_const_lv32_1.is_01())? sc_lv<32>(): (sc_biguint<32>(i3_reg_2060.read()) + sc_biguint<32>(ap_const_lv32_1));
}
void SMM_1u_75u_32u_s::thread_i_6_fu_2948_p2() {
i_6_fu_2948_p2 = (!ap_phi_mux_i_phi_fu_2210_p4.read().is_01() || !ap_const_lv6_1.is_01())? sc_lv<6>(): (sc_biguint<6>(ap_phi_mux_i_phi_fu_2210_p4.read()) + sc_biguint<6>(ap_const_lv6_1));
}
void SMM_1u_75u_32u_s::thread_i_cast_fu_2927_p1() {
i_cast_fu_2927_p1 = esl_zext<32,6>(ap_phi_mux_i_phi_fu_2210_p4.read());
}
void SMM_1u_75u_32u_s::thread_i_cast_mid1_fu_2969_p1() {
i_cast_mid1_fu_2969_p1 = esl_zext<32,6>(i_6_fu_2948_p2.read());
}
void SMM_1u_75u_32u_s::thread_ib_3_fu_2543_p2() {
ib_3_fu_2543_p2 = (!ap_const_lv32_1.is_01() || !ap_phi_mux_ib_phi_fu_2165_p4.read().is_01())? sc_lv<32>(): (sc_biguint<32>(ap_const_lv32_1) + sc_biguint<32>(ap_phi_mux_ib_phi_fu_2165_p4.read()));
}
void SMM_1u_75u_32u_s::thread_ic3_cast_fu_2593_p1() {
ic3_cast_fu_2593_p1 = esl_zext<8,2>(ic_mid2_fu_2555_p3.read());
}
void SMM_1u_75u_32u_s::thread_ic3_fu_2626_p1() {
ic3_fu_2626_p1 = esl_zext<64,2>(ic_mid2_reg_3509_pp2_iter1_reg.read());
}
void SMM_1u_75u_32u_s::thread_ic_3_fu_2603_p2() {
ic_3_fu_2603_p2 = (!ap_const_lv2_1.is_01() || !ic_mid2_fu_2555_p3.read().is_01())? sc_lv<2>(): (sc_biguint<2>(ap_const_lv2_1) + sc_biguint<2>(ic_mid2_fu_2555_p3.read()));
}
void SMM_1u_75u_32u_s::thread_ic_mid2_fu_2555_p3() {
ic_mid2_fu_2555_p3 = (!exitcond9_fu_2549_p2.read()[0].is_01())? sc_lv<2>(): ((exitcond9_fu_2549_p2.read()[0].to_bool())? ap_const_lv2_0: ap_phi_mux_ic_phi_fu_2188_p4.read());
}
void SMM_1u_75u_32u_s::thread_idx_urem1_fu_2504_p3() {
idx_urem1_fu_2504_p3 = (!tmp_145_fu_2498_p2.read()[0].is_01())? sc_lv<7>(): ((tmp_145_fu_2498_p2.read()[0].to_bool())? next_urem1_fu_2492_p2.read(): ap_const_lv7_0);
}
void SMM_1u_75u_32u_s::thread_idx_urem_fu_2524_p3() {
idx_urem_fu_2524_p3 = (!tmp_146_fu_2518_p2.read()[0].is_01())? sc_lv<7>(): ((tmp_146_fu_2518_p2.read()[0].to_bool())? next_urem_fu_2512_p2.read(): ap_const_lv7_0);
}
void SMM_1u_75u_32u_s::thread_ifzero_fu_2621_p2() {
ifzero_fu_2621_p2 = (!ic_3_reg_3524.read().is_01() || !ap_const_lv2_3.is_01())? sc_lv<1>(): sc_lv<1>(ic_3_reg_3524.read() == ap_const_lv2_3);
}
void SMM_1u_75u_32u_s::thread_in_stream_a_V_V_blk_n() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state1.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, real_start.read()) || esl_seteq<1,1,1>(ap_done_reg.read(), ap_const_logic_1))) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state2.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state3.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state4.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state5.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state6.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state7.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read())) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp0_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp0_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0)))) {
in_stream_a_V_V_blk_n = in_stream_a_V_V_empty_n.read();
} else {
in_stream_a_V_V_blk_n = ap_const_logic_1;
}
}
void SMM_1u_75u_32u_s::thread_in_stream_a_V_V_read() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state1.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, real_start.read()) || esl_seteq<1,1,1>(ap_done_reg.read(), ap_const_logic_1) || esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state2.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state3.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state4.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state6.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state7.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state5.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp0_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter1.read()) &&
esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_block_pp0_stage0_11001.read(), ap_const_boolean_0)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp1_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter1.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, tmp_72_reg_3463.read()) &&
esl_seteq<1,1,1>(ap_block_pp1_stage0_11001.read(), ap_const_boolean_0)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0)))) {
in_stream_a_V_V_read = ap_const_logic_1;
} else {
in_stream_a_V_V_read = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_indvar_flatten_next7_fu_2537_p2() {
indvar_flatten_next7_fu_2537_p2 = (!indvar_flatten6_reg_2150.read().is_01() || !ap_const_lv34_1.is_01())? sc_lv<34>(): (sc_biguint<34>(indvar_flatten6_reg_2150.read()) + sc_biguint<34>(ap_const_lv34_1));
}
void SMM_1u_75u_32u_s::thread_indvar_flatten_next_fu_2942_p2() {
indvar_flatten_next_fu_2942_p2 = (!indvar_flatten_reg_2195.read().is_01() || !ap_const_lv12_1.is_01())? sc_lv<12>(): (sc_biguint<12>(indvar_flatten_reg_2195.read()) + sc_biguint<12>(ap_const_lv12_1));
}
void SMM_1u_75u_32u_s::thread_internal_ap_ready() {
if (esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state13.read())) {
internal_ap_ready = ap_const_logic_1;
} else {
internal_ap_ready = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_iter_3_fu_2341_p2() {
iter_3_fu_2341_p2 = (!iter_reg_2082.read().is_01() || !ap_const_lv31_1.is_01())? sc_lv<31>(): (sc_biguint<31>(iter_reg_2082.read()) + sc_biguint<31>(ap_const_lv31_1));
}
void SMM_1u_75u_32u_s::thread_iter_cast_fu_2332_p1() {
iter_cast_fu_2332_p1 = esl_zext<32,31>(iter_reg_2082.read());
}
void SMM_1u_75u_32u_s::thread_j2_cast_fu_2359_p1() {
j2_cast_fu_2359_p1 = esl_zext<32,7>(j2_reg_2093.read());
}
void SMM_1u_75u_32u_s::thread_j_8_fu_3009_p2() {
j_8_fu_3009_p2 = (!j_mid2_fu_2960_p3.read().is_01() || !ap_const_lv7_1.is_01())? sc_lv<7>(): (sc_biguint<7>(j_mid2_fu_2960_p3.read()) + sc_biguint<7>(ap_const_lv7_1));
}
void SMM_1u_75u_32u_s::thread_j_9_fu_2353_p2() {
j_9_fu_2353_p2 = (!j2_reg_2093.read().is_01() || !ap_const_lv7_1.is_01())? sc_lv<7>(): (sc_biguint<7>(j2_reg_2093.read()) + sc_biguint<7>(ap_const_lv7_1));
}
void SMM_1u_75u_32u_s::thread_j_cast_fu_2994_p1() {
j_cast_fu_2994_p1 = esl_zext<32,7>(j_mid2_fu_2960_p3.read());
}
void SMM_1u_75u_32u_s::thread_j_mid2_fu_2960_p3() {
j_mid2_fu_2960_p3 = (!tmp_133_fu_2954_p2.read()[0].is_01())? sc_lv<7>(): ((tmp_133_fu_2954_p2.read()[0].to_bool())? ap_const_lv7_0: j_reg_2217.read());
}
void SMM_1u_75u_32u_s::thread_mul1_fu_3054_p0() {
mul1_fu_3054_p0 = (sc_lv<7>) (mul1_fu_3054_p00.read());
}
void SMM_1u_75u_32u_s::thread_mul1_fu_3054_p00() {
mul1_fu_3054_p00 = esl_zext<16,7>(j_mid2_reg_4107_pp3_iter10_reg.read());
}
void SMM_1u_75u_32u_s::thread_mul1_fu_3054_p2() {
mul1_fu_3054_p2 = (!mul1_fu_3054_p0.read().is_01() || !ap_const_lv16_AB.is_01())? sc_lv<16>(): sc_biguint<7>(mul1_fu_3054_p0.read()) * sc_biguint<16>(ap_const_lv16_AB);
}
void SMM_1u_75u_32u_s::thread_mul_fu_3130_p1() {
mul_fu_3130_p1 = (sc_lv<7>) (mul_fu_3130_p10.read());
}
void SMM_1u_75u_32u_s::thread_mul_fu_3130_p10() {
mul_fu_3130_p10 = esl_zext<16,7>(j_mid2_reg_4107_pp3_iter10_reg.read());
}
void SMM_1u_75u_32u_s::thread_mul_fu_3130_p2() {
mul_fu_3130_p2 = (!ap_const_lv16_AB.is_01() || !mul_fu_3130_p1.read().is_01())? sc_lv<16>(): sc_biguint<16>(ap_const_lv16_AB) * sc_biguint<7>(mul_fu_3130_p1.read());
}
void SMM_1u_75u_32u_s::thread_newIndex1_cast_fu_3031_p1() {
newIndex1_cast_fu_3031_p1 = esl_zext<8,7>(grp_fu_2228_p2.read());
}
void SMM_1u_75u_32u_s::thread_newIndex2_fu_2463_p1() {
newIndex2_fu_2463_p1 = esl_zext<64,7>(phi_urem_reg_2126.read());
}
void SMM_1u_75u_32u_s::thread_newIndex4_fu_2405_p1() {
newIndex4_fu_2405_p1 = esl_zext<64,7>(phi_urem1_reg_2138.read());
}
void SMM_1u_75u_32u_s::thread_newIndex8_cast_fu_3041_p1() {
newIndex8_cast_fu_3041_p1 = esl_zext<8,7>(grp_fu_2228_p2.read());
}
void SMM_1u_75u_32u_s::thread_next_mul1_fu_2379_p2() {
next_mul1_fu_2379_p2 = (!phi_mul1_reg_2115.read().is_01() || !ap_const_lv14_AB.is_01())? sc_lv<14>(): (sc_biguint<14>(phi_mul1_reg_2115.read()) + sc_biguint<14>(ap_const_lv14_AB));
}
void SMM_1u_75u_32u_s::thread_next_mul_fu_2373_p2() {
next_mul_fu_2373_p2 = (!phi_mul_reg_2104.read().is_01() || !ap_const_lv14_AB.is_01())? sc_lv<14>(): (sc_biguint<14>(phi_mul_reg_2104.read()) + sc_biguint<14>(ap_const_lv14_AB));
}
void SMM_1u_75u_32u_s::thread_next_urem1_fu_2492_p2() {
next_urem1_fu_2492_p2 = (!phi_urem1_reg_2138.read().is_01() || !ap_const_lv7_1.is_01())? sc_lv<7>(): (sc_biguint<7>(phi_urem1_reg_2138.read()) + sc_biguint<7>(ap_const_lv7_1));
}
void SMM_1u_75u_32u_s::thread_next_urem_fu_2512_p2() {
next_urem_fu_2512_p2 = (!phi_urem_reg_2126.read().is_01() || !ap_const_lv7_1.is_01())? sc_lv<7>(): (sc_biguint<7>(phi_urem_reg_2126.read()) + sc_biguint<7>(ap_const_lv7_1));
}
void SMM_1u_75u_32u_s::thread_num_imag_3_fu_2311_p2() {
num_imag_3_fu_2311_p2 = (!num_imag_reg_2071.read().is_01() || !ap_const_lv32_1.is_01())? sc_lv<32>(): (sc_biguint<32>(num_imag_reg_2071.read()) + sc_biguint<32>(ap_const_lv32_1));
}
void SMM_1u_75u_32u_s::thread_or_cond_fu_3003_p2() {
or_cond_fu_3003_p2 = (tmp_69_fu_2998_p2.read() & tmp_77_mid2_fu_2986_p3.read());
}
void SMM_1u_75u_32u_s::thread_out_stream_V_V_blk_n() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state1.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, real_start.read()) || esl_seteq<1,1,1>(ap_done_reg.read(), ap_const_logic_1))) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state2.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state3.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state4.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state5.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state6.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state7.read()) ||
esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp0_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter1.read()) &&
esl_seteq<1,1,1>(ap_block_pp0_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_1, ifzero_reg_3595_pp2_iter6_reg.read())))) {
out_stream_V_V_blk_n = out_stream_V_V_full_n.read();
} else {
out_stream_V_V_blk_n = ap_const_logic_1;
}
}
void SMM_1u_75u_32u_s::thread_out_stream_V_V_din() {
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, ifzero_reg_3595_pp2_iter6_reg.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_01001.read(), ap_const_boolean_0))) {
out_stream_V_V_din = tmp_V_120_fu_2912_p1.read();
} else if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state1.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, real_start.read()) || esl_seteq<1,1,1>(ap_done_reg.read(), ap_const_logic_1) || esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state2.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state3.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state4.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state6.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state7.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state5.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp0_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter1.read()) &&
esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_block_pp0_stage0_01001.read(), ap_const_boolean_0)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_01001.read(), ap_const_boolean_0)))) {
out_stream_V_V_din = in_stream_a_V_V_dout.read();
} else {
out_stream_V_V_din = (sc_lv<32>) ("XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX");
}
}
void SMM_1u_75u_32u_s::thread_out_stream_V_V_write() {
if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state1.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, real_start.read()) || esl_seteq<1,1,1>(ap_done_reg.read(), ap_const_logic_1) || esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state2.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state3.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state4.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state6.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state7.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state5.read()) &&
!(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read()))) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_pp0_stage0.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter1.read()) &&
esl_seteq<1,1,1>(exitcond3_reg_3423.read(), ap_const_lv1_0) &&
esl_seteq<1,1,1>(ap_block_pp0_stage0_11001.read(), ap_const_boolean_0)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(or_cond_reg_4121_pp3_iter10_reg.read(), ap_const_lv1_1) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_11001.read(), ap_const_boolean_0)) ||
(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) &&
esl_seteq<1,1,1>(ap_const_lv1_1, ifzero_reg_3595_pp2_iter6_reg.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_11001.read(), ap_const_boolean_0)))) {
out_stream_V_V_write = ap_const_logic_1;
} else {
out_stream_V_V_write = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_output_data_fu_2904_p3() {
output_data_fu_2904_p3 = (!tmp_144_fu_2875_p3.read()[0].is_01())? sc_lv<18>(): ((tmp_144_fu_2875_p3.read()[0].to_bool())? p_neg_t_fu_2885_p2.read(): p_lshr_f_cast_fu_2900_p1.read());
}
void SMM_1u_75u_32u_s::thread_p_6_mid2_fu_2842_p3() {
p_6_mid2_fu_2842_p3 = (!exitcond9_reg_3504_pp2_iter5_reg.read()[0].is_01())? sc_lv<32>(): ((exitcond9_reg_3504_pp2_iter5_reg.read()[0].to_bool())? ap_const_lv32_0: ap_phi_mux_p_6_phi_fu_2176_p4.read());
}
void SMM_1u_75u_32u_s::thread_p_lshr_cast_fu_2882_p1() {
p_lshr_cast_fu_2882_p1 = esl_zext<18,17>(tmp_136_reg_4088.read());
}
void SMM_1u_75u_32u_s::thread_p_lshr_f_cast_fu_2900_p1() {
p_lshr_f_cast_fu_2900_p1 = esl_zext<18,17>(tmp_137_fu_2891_p4.read());
}
void SMM_1u_75u_32u_s::thread_p_neg_fu_2859_p2() {
p_neg_fu_2859_p2 = (!ap_const_lv32_0.is_01() || !sum_V_s_fu_2853_p2.read().is_01())? sc_lv<32>(): (sc_biguint<32>(ap_const_lv32_0) - sc_biguint<32>(sum_V_s_fu_2853_p2.read()));
}
void SMM_1u_75u_32u_s::thread_p_neg_t_fu_2885_p2() {
p_neg_t_fu_2885_p2 = (!ap_const_lv18_0.is_01() || !p_lshr_cast_fu_2882_p1.read().is_01())? sc_lv<18>(): (sc_biguint<18>(ap_const_lv18_0) - sc_biguint<18>(p_lshr_cast_fu_2882_p1.read()));
}
void SMM_1u_75u_32u_s::thread_p_shl1_fu_2259_p3() {
p_shl1_fu_2259_p3 = esl_concat<32,2>(B_COL_2.read(), ap_const_lv2_0);
}
void SMM_1u_75u_32u_s::thread_p_shl2_cast_fu_2579_p3() {
p_shl2_cast_fu_2579_p3 = esl_concat<6,2>(tmp_143_fu_2575_p1.read(), ap_const_lv2_0);
}
void SMM_1u_75u_32u_s::thread_real_start() {
if ((esl_seteq<1,1,1>(ap_const_logic_0, start_full_n.read()) &&
esl_seteq<1,1,1>(ap_const_logic_0, start_once_reg.read()))) {
real_start = ap_const_logic_0;
} else {
real_start = ap_start.read();
}
}
void SMM_1u_75u_32u_s::thread_start_out() {
start_out = real_start.read();
}
void SMM_1u_75u_32u_s::thread_start_write() {
if ((esl_seteq<1,1,1>(ap_const_logic_0, start_once_reg.read()) &&
esl_seteq<1,1,1>(ap_const_logic_1, real_start.read()))) {
start_write = ap_const_logic_1;
} else {
start_write = ap_const_logic_0;
}
}
void SMM_1u_75u_32u_s::thread_sum_V_s_fu_2853_p2() {
sum_V_s_fu_2853_p2 = (!p_6_mid2_fu_2842_p3.read().is_01() || !tmp_27_fu_2849_p2.read().is_01())? sc_lv<32>(): (sc_biguint<32>(p_6_mid2_fu_2842_p3.read()) + sc_biguint<32>(tmp_27_fu_2849_p2.read()));
}
void SMM_1u_75u_32u_s::thread_tmp13_fu_2836_p2() {
tmp13_fu_2836_p2 = (!tmp19_fu_2831_p2.read().is_01() || !tmp14_fu_2823_p2.read().is_01())? sc_lv<32>(): (sc_biguint<32>(tmp19_fu_2831_p2.read()) + sc_biguint<32>(tmp14_fu_2823_p2.read()));
}
void SMM_1u_75u_32u_s::thread_tmp14_fu_2823_p2() {
tmp14_fu_2823_p2 = (!grp_fu_3339_p3.read().is_01() || !grp_fu_3331_p3.read().is_01())? sc_lv<32>(): (sc_bigint<32>(grp_fu_3339_p3.read()) + sc_bigint<32>(grp_fu_3331_p3.read()));
}
void SMM_1u_75u_32u_s::thread_tmp19_fu_2831_p2() {
tmp19_fu_2831_p2 = (!tmp22_fu_2827_p2.read().is_01() || !tmp20_reg_4056.read().is_01())? sc_lv<32>(): (sc_biguint<32>(tmp22_fu_2827_p2.read()) + sc_bigint<32>(tmp20_reg_4056.read()));
}
void SMM_1u_75u_32u_s::thread_tmp1_fu_2278_p2() {
tmp1_fu_2278_p2 = (!tmp_V_103_reg_3358.read().is_01() || !tmp_V_105_reg_3366.read().is_01())? sc_lv<32>(): sc_bigint<32>(tmp_V_103_reg_3358.read()) * sc_bigint<32>(tmp_V_105_reg_3366.read());
}
void SMM_1u_75u_32u_s::thread_tmp22_fu_2827_p2() {
tmp22_fu_2827_p2 = (!tmp24_reg_4066.read().is_01() || !tmp23_reg_4061.read().is_01())? sc_lv<32>(): (sc_bigint<32>(tmp24_reg_4066.read()) + sc_bigint<32>(tmp23_reg_4061.read()));
}
void SMM_1u_75u_32u_s::thread_tmp2_fu_2817_p2() {
tmp2_fu_2817_p2 = (!tmp8_fu_2813_p2.read().is_01() || !tmp3_fu_2809_p2.read().is_01())? sc_lv<32>(): (sc_biguint<32>(tmp8_fu_2813_p2.read()) + sc_biguint<32>(tmp3_fu_2809_p2.read()));
}
void SMM_1u_75u_32u_s::thread_tmp3_fu_2809_p2() {
tmp3_fu_2809_p2 = (!grp_fu_3323_p3.read().is_01() || !grp_fu_3315_p3.read().is_01())? sc_lv<32>(): (sc_bigint<32>(grp_fu_3323_p3.read()) + sc_bigint<32>(grp_fu_3315_p3.read()));
}
void SMM_1u_75u_32u_s::thread_tmp8_fu_2813_p2() {
tmp8_fu_2813_p2 = (!tmp11_reg_4041.read().is_01() || !tmp9_reg_4036.read().is_01())? sc_lv<32>(): (sc_bigint<32>(tmp11_reg_4041.read()) + sc_bigint<32>(tmp9_reg_4036.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_129_fu_3018_p3() {
tmp_129_fu_3018_p3 = esl_concat<6,2>(tmp_76_mid2_v_reg_4114_pp3_iter9_reg.read(), ap_const_lv2_0);
}
void SMM_1u_75u_32u_s::thread_tmp_130_fu_3025_p2() {
tmp_130_fu_3025_p2 = (!tmp_129_fu_3018_p3.read().is_01() || !tmp_76_mid2_cast_fu_3015_p1.read().is_01())? sc_lv<8>(): (sc_biguint<8>(tmp_129_fu_3018_p3.read()) - sc_biguint<8>(tmp_76_mid2_cast_fu_3015_p1.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_131_cast_fu_3146_p1() {
tmp_131_cast_fu_3146_p1 = esl_sext<64,8>(tmp_131_reg_4135.read());
}
void SMM_1u_75u_32u_s::thread_tmp_131_fu_3045_p2() {
tmp_131_fu_3045_p2 = (!tmp_130_fu_3025_p2.read().is_01() || !newIndex8_cast_fu_3041_p1.read().is_01())? sc_lv<8>(): (sc_biguint<8>(tmp_130_fu_3025_p2.read()) + sc_biguint<8>(newIndex8_cast_fu_3041_p1.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_132_cast_fu_3070_p1() {
tmp_132_cast_fu_3070_p1 = esl_sext<64,8>(tmp_132_reg_4130.read());
}
void SMM_1u_75u_32u_s::thread_tmp_132_fu_3035_p2() {
tmp_132_fu_3035_p2 = (!newIndex1_cast_fu_3031_p1.read().is_01() || !tmp_130_fu_3025_p2.read().is_01())? sc_lv<8>(): (sc_biguint<8>(newIndex1_cast_fu_3031_p1.read()) + sc_biguint<8>(tmp_130_fu_3025_p2.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_133_fu_2954_p2() {
tmp_133_fu_2954_p2 = (!j_reg_2217.read().is_01() || !ap_const_lv7_4B.is_01())? sc_lv<1>(): sc_lv<1>(j_reg_2217.read() == ap_const_lv7_4B);
}
void SMM_1u_75u_32u_s::thread_tmp_134_fu_2587_p2() {
tmp_134_fu_2587_p2 = (!p_shl2_cast_fu_2579_p3.read().is_01() || !tmp_142_fu_2571_p1.read().is_01())? sc_lv<8>(): (sc_biguint<8>(p_shl2_cast_fu_2579_p3.read()) - sc_biguint<8>(tmp_142_fu_2571_p1.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_135_cast_fu_2609_p1() {
tmp_135_cast_fu_2609_p1 = esl_sext<64,8>(tmp_135_reg_3519.read());
}
void SMM_1u_75u_32u_s::thread_tmp_135_fu_2597_p2() {
tmp_135_fu_2597_p2 = (!ic3_cast_fu_2593_p1.read().is_01() || !tmp_134_fu_2587_p2.read().is_01())? sc_lv<8>(): (sc_biguint<8>(ic3_cast_fu_2593_p1.read()) + sc_biguint<8>(tmp_134_fu_2587_p2.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_137_fu_2891_p4() {
tmp_137_fu_2891_p4 = sum_V_s_reg_4081.read().range(31, 15);
}
void SMM_1u_75u_32u_s::thread_tmp_138_fu_3098_p1() {
tmp_138_fu_3098_p1 = in_stream_a_V_V_dout.read().range(16-1, 0);
}
void SMM_1u_75u_32u_s::thread_tmp_139_fu_2434_p1() {
tmp_139_fu_2434_p1 = in_stream_a_V_V_dout.read().range(16-1, 0);
}
void SMM_1u_75u_32u_s::thread_tmp_142_fu_2571_p1() {
tmp_142_fu_2571_p1 = tmp_83_mid2_v_fu_2563_p3.read().range(8-1, 0);
}
void SMM_1u_75u_32u_s::thread_tmp_143_fu_2575_p1() {
tmp_143_fu_2575_p1 = tmp_83_mid2_v_fu_2563_p3.read().range(6-1, 0);
}
void SMM_1u_75u_32u_s::thread_tmp_144_fu_2875_p3() {
tmp_144_fu_2875_p3 = sum_V_s_reg_4081.read().range(31, 31);
}
void SMM_1u_75u_32u_s::thread_tmp_145_fu_2498_p2() {
tmp_145_fu_2498_p2 = (!next_urem1_fu_2492_p2.read().is_01() || !ap_const_lv7_3.is_01())? sc_lv<1>(): (sc_biguint<7>(next_urem1_fu_2492_p2.read()) < sc_biguint<7>(ap_const_lv7_3));
}
void SMM_1u_75u_32u_s::thread_tmp_146_fu_2518_p2() {
tmp_146_fu_2518_p2 = (!next_urem_fu_2512_p2.read().is_01() || !ap_const_lv7_3.is_01())? sc_lv<1>(): (sc_biguint<7>(next_urem_fu_2512_p2.read()) < sc_biguint<7>(ap_const_lv7_3));
}
void SMM_1u_75u_32u_s::thread_tmp_27_fu_2849_p2() {
tmp_27_fu_2849_p2 = (!tmp13_reg_4076.read().is_01() || !tmp2_reg_4071.read().is_01())? sc_lv<32>(): (sc_biguint<32>(tmp13_reg_4076.read()) + sc_biguint<32>(tmp2_reg_4071.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_65_fu_2917_p2() {
tmp_65_fu_2917_p2 = (!tmp1_reg_3408.read().is_01() || !tmp_V_103_reg_3358.read().is_01())? sc_lv<32>(): sc_bigint<32>(tmp1_reg_3408.read()) * sc_bigint<32>(tmp_V_103_reg_3358.read());
}
void SMM_1u_75u_32u_s::thread_tmp_66_fu_2246_p2() {
tmp_66_fu_2246_p2 = (!tmp_V_reg_3347.read().is_01() || !ap_const_lv32_0.is_01())? sc_lv<1>(): sc_lv<1>(tmp_V_reg_3347.read() == ap_const_lv32_0);
}
void SMM_1u_75u_32u_s::thread_tmp_67_fu_2931_p2() {
tmp_67_fu_2931_p2 = (!i_cast_fu_2927_p1.read().is_01() || !tmp_V_109_reg_3372.read().is_01())? sc_lv<1>(): (sc_biguint<32>(i_cast_fu_2927_p1.read()) < sc_biguint<32>(tmp_V_109_reg_3372.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_69_fu_2998_p2() {
tmp_69_fu_2998_p2 = (!j_cast_fu_2994_p1.read().is_01() || !tmp_65_reg_4093.read().is_01())? sc_lv<1>(): (sc_biguint<32>(j_cast_fu_2994_p1.read()) < sc_biguint<32>(tmp_65_reg_4093.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_70_fu_2336_p2() {
tmp_70_fu_2336_p2 = (!iter_cast_fu_2332_p1.read().is_01() || !A_COL_ITER_reg_3440.read().is_01())? sc_lv<1>(): (sc_bigint<32>(iter_cast_fu_2332_p1.read()) < sc_bigint<32>(A_COL_ITER_reg_3440.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_71_fu_2347_p2() {
tmp_71_fu_2347_p2 = (!j2_reg_2093.read().is_01() || !ap_const_lv7_4B.is_01())? sc_lv<1>(): sc_lv<1>(j2_reg_2093.read() == ap_const_lv7_4B);
}
void SMM_1u_75u_32u_s::thread_tmp_72_fu_2367_p2() {
tmp_72_fu_2367_p2 = (!j2_cast_fu_2359_p1.read().is_01() || !A_ROW_2.read().is_01())? sc_lv<1>(): (sc_biguint<32>(j2_cast_fu_2359_p1.read()) < sc_biguint<32>(A_ROW_2.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_76_mid2_cast_fu_3015_p1() {
tmp_76_mid2_cast_fu_3015_p1 = esl_zext<8,6>(tmp_76_mid2_v_reg_4114_pp3_iter9_reg.read());
}
void SMM_1u_75u_32u_s::thread_tmp_76_mid2_v_fu_2973_p3() {
tmp_76_mid2_v_fu_2973_p3 = (!tmp_133_fu_2954_p2.read()[0].is_01())? sc_lv<6>(): ((tmp_133_fu_2954_p2.read()[0].to_bool())? i_6_fu_2948_p2.read(): ap_phi_mux_i_phi_fu_2210_p4.read());
}
void SMM_1u_75u_32u_s::thread_tmp_77_mid1_fu_2981_p2() {
tmp_77_mid1_fu_2981_p2 = (!i_cast_mid1_fu_2969_p1.read().is_01() || !tmp_V_109_reg_3372.read().is_01())? sc_lv<1>(): (sc_biguint<32>(i_cast_mid1_fu_2969_p1.read()) < sc_biguint<32>(tmp_V_109_reg_3372.read()));
}
void SMM_1u_75u_32u_s::thread_tmp_77_mid2_fu_2986_p3() {
tmp_77_mid2_fu_2986_p3 = (!tmp_133_fu_2954_p2.read()[0].is_01())? sc_lv<1>(): ((tmp_133_fu_2954_p2.read()[0].to_bool())? tmp_77_mid1_fu_2981_p2.read(): tmp_67_fu_2931_p2.read());
}
void SMM_1u_75u_32u_s::thread_tmp_83_mid2_v_fu_2563_p3() {
tmp_83_mid2_v_fu_2563_p3 = (!exitcond9_fu_2549_p2.read()[0].is_01())? sc_lv<32>(): ((exitcond9_fu_2549_p2.read()[0].to_bool())? ib_3_fu_2543_p2.read(): ap_phi_mux_ib_phi_fu_2165_p4.read());
}
void SMM_1u_75u_32u_s::thread_tmp_V_120_fu_2912_p1() {
tmp_V_120_fu_2912_p1 = esl_sext<32,18>(output_data_fu_2904_p3.read());
}
void SMM_1u_75u_32u_s::thread_tmp_s_fu_2233_p2() {
tmp_s_fu_2233_p2 = (!tmp_V_reg_3347.read().is_01() || !ap_const_lv32_1.is_01())? sc_lv<1>(): sc_lv<1>(tmp_V_reg_3347.read() == ap_const_lv32_1);
}
void SMM_1u_75u_32u_s::thread_ap_NS_fsm() {
switch (ap_CS_fsm.read().to_uint64()) {
case 1 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state1.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, real_start.read()) || esl_seteq<1,1,1>(ap_done_reg.read(), ap_const_logic_1) || esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
ap_NS_fsm = ap_ST_fsm_state2;
} else {
ap_NS_fsm = ap_ST_fsm_state1;
}
break;
case 2 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state2.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
ap_NS_fsm = ap_ST_fsm_state3;
} else {
ap_NS_fsm = ap_ST_fsm_state2;
}
break;
case 4 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state3.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
ap_NS_fsm = ap_ST_fsm_state4;
} else {
ap_NS_fsm = ap_ST_fsm_state3;
}
break;
case 8 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state4.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
ap_NS_fsm = ap_ST_fsm_state5;
} else {
ap_NS_fsm = ap_ST_fsm_state4;
}
break;
case 16 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state5.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
ap_NS_fsm = ap_ST_fsm_state6;
} else {
ap_NS_fsm = ap_ST_fsm_state5;
}
break;
case 32 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state6.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
ap_NS_fsm = ap_ST_fsm_state7;
} else {
ap_NS_fsm = ap_ST_fsm_state6;
}
break;
case 64 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state7.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())))) {
ap_NS_fsm = ap_ST_fsm_state8;
} else {
ap_NS_fsm = ap_ST_fsm_state7;
}
break;
case 128 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_s_fu_2233_p2.read()) && esl_seteq<1,1,1>(ap_const_lv1_1, tmp_66_fu_2246_p2.read()))) {
ap_NS_fsm = ap_ST_fsm_state14;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_s_fu_2233_p2.read()) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_66_fu_2246_p2.read()))) {
ap_NS_fsm = ap_ST_fsm_state9;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state8.read()) && !(esl_seteq<1,1,1>(ap_const_logic_0, in_stream_a_V_V_empty_n.read()) || esl_seteq<1,1,1>(ap_const_logic_0, out_stream_V_V_full_n.read())) && esl_seteq<1,1,1>(ap_const_lv1_1, tmp_s_fu_2233_p2.read()))) {
ap_NS_fsm = ap_ST_fsm_state28;
} else {
ap_NS_fsm = ap_ST_fsm_state8;
}
break;
case 256 :
ap_NS_fsm = ap_ST_fsm_state10;
break;
case 512 :
ap_NS_fsm = ap_ST_fsm_pp0_stage0;
break;
case 1024 :
if (!(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter0.read()) && esl_seteq<1,1,1>(ap_block_pp0_stage0_subdone.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_1, exitcond3_fu_2295_p2.read()))) {
ap_NS_fsm = ap_ST_fsm_pp0_stage0;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp0_iter0.read()) && esl_seteq<1,1,1>(ap_block_pp0_stage0_subdone.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_1, exitcond3_fu_2295_p2.read()))) {
ap_NS_fsm = ap_ST_fsm_state13;
} else {
ap_NS_fsm = ap_ST_fsm_pp0_stage0;
}
break;
case 2048 :
ap_NS_fsm = ap_ST_fsm_state1;
break;
case 4096 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state14.read()) && esl_seteq<1,1,1>(ap_const_lv1_1, exitcond_fu_2306_p2.read()))) {
ap_NS_fsm = ap_ST_fsm_state13;
} else {
ap_NS_fsm = ap_ST_fsm_state15;
}
break;
case 8192 :
if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_CS_fsm_state15.read()) && esl_seteq<1,1,1>(ap_const_lv1_0, tmp_70_fu_2336_p2.read()))) {
ap_NS_fsm = ap_ST_fsm_state14;
} else {
ap_NS_fsm = ap_ST_fsm_pp1_stage0;
}
break;
case 16384 :
if (!(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter0.read()) && esl_seteq<1,1,1>(ap_block_pp1_stage0_subdone.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_1, tmp_71_fu_2347_p2.read()))) {
ap_NS_fsm = ap_ST_fsm_pp1_stage0;
} else if ((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp1_iter0.read()) && esl_seteq<1,1,1>(ap_block_pp1_stage0_subdone.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_1, tmp_71_fu_2347_p2.read()))) {
ap_NS_fsm = ap_ST_fsm_state18;
} else {
ap_NS_fsm = ap_ST_fsm_pp1_stage0;
}
break;
case 32768 :
ap_NS_fsm = ap_ST_fsm_pp2_stage0;
break;
case 65536 :
if ((!(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) && esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_enable_reg_pp2_iter6.read(), ap_const_logic_0)) && !(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter0.read()) && esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_1, exitcond_flatten8_fu_2532_p2.read()) && esl_seteq<1,1,1>(ap_enable_reg_pp2_iter1.read(), ap_const_logic_0)))) {
ap_NS_fsm = ap_ST_fsm_pp2_stage0;
} else if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter7.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_enable_reg_pp2_iter6.read(), ap_const_logic_0)) || (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp2_iter0.read()) &&
esl_seteq<1,1,1>(ap_block_pp2_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_1, exitcond_flatten8_fu_2532_p2.read()) &&
esl_seteq<1,1,1>(ap_enable_reg_pp2_iter1.read(), ap_const_logic_0)))) {
ap_NS_fsm = ap_ST_fsm_state27;
} else {
ap_NS_fsm = ap_ST_fsm_pp2_stage0;
}
break;
case 131072 :
ap_NS_fsm = ap_ST_fsm_state15;
break;
case 262144 :
ap_NS_fsm = ap_ST_fsm_pp3_stage0;
break;
case 524288 :
if ((!(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_enable_reg_pp3_iter10.read(), ap_const_logic_0)) && !(esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter0.read()) && esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0) && esl_seteq<1,1,1>(ap_const_lv1_1, exitcond_flatten_fu_2936_p2.read()) && esl_seteq<1,1,1>(ap_enable_reg_pp3_iter1.read(), ap_const_logic_0)))) {
ap_NS_fsm = ap_ST_fsm_pp3_stage0;
} else if (((esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter11.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_enable_reg_pp3_iter10.read(), ap_const_logic_0)) || (esl_seteq<1,1,1>(ap_const_logic_1, ap_enable_reg_pp3_iter0.read()) &&
esl_seteq<1,1,1>(ap_block_pp3_stage0_subdone.read(), ap_const_boolean_0) &&
esl_seteq<1,1,1>(ap_const_lv1_1, exitcond_flatten_fu_2936_p2.read()) &&
esl_seteq<1,1,1>(ap_enable_reg_pp3_iter1.read(), ap_const_logic_0)))) {
ap_NS_fsm = ap_ST_fsm_state41;
} else {
ap_NS_fsm = ap_ST_fsm_pp3_stage0;
}
break;
case 1048576 :
ap_NS_fsm = ap_ST_fsm_state13;
break;
default :
ap_NS_fsm = (sc_lv<21>) ("XXXXXXXXXXXXXXXXXXXXX");
break;
}
}
}
| [
"nguyenvuleminh2205@gmail.com"
] | nguyenvuleminh2205@gmail.com |
7aac9d94152e01235edc27a7c33c3fa6eada0222 | 7d73cf652a375a363884bdff5a4b206a16bec0a9 | /src/cn_utils/contrib/epee/include/storages/portable_storage_val_converters.h | 9eb356cd3bce685562bbbf2c79eb9f9af23ddfde | [
"MIT"
] | permissive | kevacoin-project/kevacoin | 44e08bd6220c28ce3ef88ee08aac3980ea662415 | 603a38a9742e5a1d06912be012e070794246b377 | refs/heads/master | 2022-04-29T06:30:45.305827 | 2022-03-20T01:25:28 | 2022-03-20T01:25:28 | 161,680,230 | 35 | 13 | MIT | 2020-04-13T05:30:12 | 2018-12-13T18:37:54 | C++ | UTF-8 | C++ | false | false | 8,253 | h | // Copyright (c) 2006-2013, Andrey N. Sabelnikov, www.sabelnikov.net
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// * Neither the name of the Andrey N. Sabelnikov nor the
// names of its contributors may be used to endorse or promote products
// derived from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER BE LIABLE FOR ANY
// DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
// ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
#pragma once
#include <time.h>
#include <boost/regex.hpp>
#include "misc_language.h"
#include "portable_storage_base.h"
#include "epee/include/warnings.h"
namespace epee
{
namespace serialization
{
#define ASSERT_AND_THROW_WRONG_CONVERSION() ASSERT_MES_AND_THROW("WRONG DATA CONVERSION: from type=" << typeid(from).name() << " to type " << typeid(to).name())
template<typename from_type, typename to_type>
void convert_int_to_uint(const from_type& from, to_type& to)
{
PUSH_WARNINGS
DISABLE_VS_WARNINGS(4018)
CHECK_AND_ASSERT_THROW_MES(from >=0, "unexpected int value with signed storage value less than 0, and unsigned receiver value");
DISABLE_GCC_AND_CLANG_WARNING(sign-compare)
CHECK_AND_ASSERT_THROW_MES(from <= std::numeric_limits<to_type>::max(), "int value overhead: try to set value " << from << " to type " << typeid(to_type).name() << " with max possible value = " << std::numeric_limits<to_type>::max());
to = static_cast<to_type>(from);
POP_WARNINGS
}
template<typename from_type, typename to_type>
void convert_int_to_int(const from_type& from, to_type& to)
{
CHECK_AND_ASSERT_THROW_MES(from >= boost::numeric::bounds<to_type>::lowest(), "int value overhead: try to set value " << from << " to type " << typeid(to_type).name() << " with lowest possible value = " << boost::numeric::bounds<to_type>::lowest());
PUSH_WARNINGS
DISABLE_CLANG_WARNING(tautological-constant-out-of-range-compare)
CHECK_AND_ASSERT_THROW_MES(from <= std::numeric_limits<to_type>::max(), "int value overhead: try to set value " << from << " to type " << typeid(to_type).name() << " with max possible value = " << std::numeric_limits<to_type>::max());
POP_WARNINGS
to = static_cast<to_type>(from);
}
template<typename from_type, typename to_type>
void convert_uint_to_any_int(const from_type& from, to_type& to)
{
PUSH_WARNINGS
DISABLE_VS_WARNINGS(4018)
DISABLE_CLANG_WARNING(tautological-constant-out-of-range-compare)
CHECK_AND_ASSERT_THROW_MES(from <= std::numeric_limits<to_type>::max(), "uint value overhead: try to set value " << from << " to type " << typeid(to_type).name() << " with max possible value = " << std::numeric_limits<to_type>::max());
to = static_cast<to_type>(from);
POP_WARNINGS
}
template<typename from_type, typename to_type, bool, bool> //is from signed, is from to signed
struct convert_to_signed_unsigned;
template<typename from_type, typename to_type>
struct convert_to_signed_unsigned<from_type, to_type, true, true>
{
static void convert(const from_type& from, to_type& to)
{//from signed to signed
convert_int_to_int(from, to);
}
};
template<typename from_type, typename to_type>
struct convert_to_signed_unsigned<from_type, to_type, true, false>
{
static void convert(const from_type& from, to_type& to)
{//from signed to unsigned
convert_int_to_uint(from, to);
}
};
template<typename from_type, typename to_type>
struct convert_to_signed_unsigned<from_type, to_type, false, true>
{
static void convert(const from_type& from, to_type& to)
{//from unsigned to signed
convert_uint_to_any_int(from, to);
}
};
template<typename from_type, typename to_type>
struct convert_to_signed_unsigned<from_type, to_type, false, false>
{
static void convert(const from_type& from, to_type& to)
{
//from unsigned to unsigned
convert_uint_to_any_int(from, to);
}
};
template<typename from_type, typename to_type, bool>
struct convert_to_integral;
template<typename from_type, typename to_type>
struct convert_to_integral<from_type, to_type, true>
{
static void convert(const from_type& from, to_type& to)
{
convert_to_signed_unsigned<from_type, to_type, std::is_signed<from_type>::value, std::is_signed<to_type>::value>::convert(from, to);
}
};
template<typename from_type, typename to_type>
struct convert_to_integral<from_type, to_type, false>
{
static void convert(const from_type& from, to_type& to)
{
ASSERT_AND_THROW_WRONG_CONVERSION();
}
};
// For MyMonero/OpenMonero backend compatibility
// MyMonero backend sends amount, fees and timestamp values as strings.
// Until MM backend is updated, this is needed for compatibility between OpenMonero and MyMonero.
template<>
struct convert_to_integral<std::string, uint64_t, false>
{
static void convert(const std::string& from, uint64_t& to)
{
MTRACE("Converting std::string to uint64_t. Source: " << from);
// String only contains digits
if(std::all_of(from.begin(), from.end(), ::isdigit))
to = boost::lexical_cast<uint64_t>(from);
// MyMonero ISO 8061 timestamp (2017-05-06T16:27:06Z)
else if (boost::regex_match (from, boost::regex("\\d{4}-[01]\\d-[0-3]\\dT[0-2]\\d:[0-5]\\d:[0-5]\\dZ")))
{
// Convert to unix timestamp
#ifdef HAVE_STRPTIME
struct tm tm;
if (strptime(from.c_str(), "%Y-%m-%dT%H:%M:%S", &tm))
#else
std::tm tm = {};
std::istringstream ss(from);
if (ss >> std::get_time(&tm, "%Y-%m-%dT%H:%M:%S"))
#endif
to = std::mktime(&tm);
} else
ASSERT_AND_THROW_WRONG_CONVERSION();
}
};
template<class from_type, class to_type>
struct is_convertable: std::integral_constant<bool,
std::is_integral<to_type>::value &&
std::is_integral<from_type>::value &&
!std::is_same<from_type, bool>::value &&
!std::is_same<to_type, bool>::value > {};
template<typename from_type, typename to_type, bool>
struct convert_to_same;
template<typename from_type, typename to_type>
struct convert_to_same<from_type, to_type, true>
{
static void convert(const from_type& from, to_type& to)
{
to = from;
}
};
template<typename from_type, typename to_type>
struct convert_to_same<from_type, to_type, false>
{
static void convert(const from_type& from, to_type& to)
{
convert_to_integral<from_type, to_type, is_convertable<from_type, to_type>::value>::convert(from, to);// ASSERT_AND_THROW_WRONG_CONVERSION();
}
};
template<class from_type, class to_type>
void convert_t(const from_type& from, to_type& to)
{
convert_to_same<from_type, to_type, std::is_same<to_type, from_type>::value>::convert(from, to);
}
}
}
| [
"jianpingw@gmail.com"
] | jianpingw@gmail.com |
01ca81216d39feb030438860e3a81c2b10356b79 | 9dbabed9c4d25ebcca9fe20e18835d74c15fe86b | /vendor/mach7/typeswitch/2013-02-18/hierarchy2a.cpp | 56fb9a56e9a2102644a8097a8f1bb960be764f2c | [
"MIT"
] | permissive | arrow-lang/arrow-legacy | 011e74238ee423cf9081914c53c0578b5739f3e1 | 5857697b88201c9a6abdd63c1b132741f3451b01 | refs/heads/master | 2021-01-15T12:10:19.166782 | 2015-11-16T23:51:15 | 2015-11-16T23:51:15 | 26,388,518 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 6,147 | cpp | ///
/// \file
///
/// This file is a part of pattern matching testing suite.
///
/// \author Yuriy Solodkyy <yuriy.solodkyy@gmail.com>
///
/// This file is a part of Mach7 library (http://parasol.tamu.edu/mach7/).
/// Copyright (C) 2011-2013 Texas A&M University.
/// All rights reserved.
///
#include "testshape.hpp"
#include "match.hpp"
//------------------------------------------------------------------------------
#if !defined(NUMBER_OF_BASES)
#define NUMBER_OF_BASES 5
#endif
#if NUMBER_OF_BASES > NUMBER_OF_DERIVED
#error Visitor Forwarding only makes sense when number of base classes is smaller than the number of all derived classes.
#endif
//------------------------------------------------------------------------------
template <size_t N>
struct shape_kind;
#define FOR_EACH_MAX NUMBER_OF_BASES-1
#define FOR_EACH_N(N) template <> struct shape_kind<N> : OtherBase, Shape { typedef Shape base_type; shape_kind(size_t kind = N) : Shape(kind) { this->m_all_kinds = (const size_t*)get_kinds<Shape>(original2remapped<Shape>(tag_type(kind))); } void accept(ShapeVisitor&) const; };
#include "loop_over_numbers.hpp"
#undef FOR_EACH_N
#undef FOR_EACH_MAX
//------------------------------------------------------------------------------
template <size_t N>
struct shape_kind : shape_kind<N % NUMBER_OF_BASES>
{
typedef shape_kind<N % NUMBER_OF_BASES> base_type;
shape_kind() : base_type(N) { this->m_all_kinds = (const size_t*)get_kinds<Shape>(original2remapped<Shape>(tag_type(N))); }
void accept(ShapeVisitor&) const;
};
//------------------------------------------------------------------------------
struct ShapeVisitor
{
virtual void visit(const Shape&) {}
#define FOR_EACH_MAX NUMBER_OF_DERIVED-1
#define FOR_EACH_N(N) virtual void visit(const shape_kind<N>& s) { visit(static_cast<const shape_kind<N>::base_type&>(s)); }
#include "loop_over_numbers.hpp"
#undef FOR_EACH_N
#undef FOR_EACH_MAX
};
//------------------------------------------------------------------------------
#define FOR_EACH_MAX NUMBER_OF_BASES-1
#define FOR_EACH_N(N) void shape_kind<N>::accept(ShapeVisitor& v) const { v.visit(*this); }
#include "loop_over_numbers.hpp"
#undef FOR_EACH_N
#undef FOR_EACH_MAX
//------------------------------------------------------------------------------
template <size_t N> void shape_kind<N>::accept(ShapeVisitor& v) const { v.visit(*this); }
SKV(Shape,0); // Declare the smallest kind value for Shape hierarchy
template <> struct bindings<Shape> { KS(Shape::m_kind); KV(Shape,NUMBER_OF_DERIVED+1); };
// NOTE: We need to explicitly instantiate all bindings as otherwise our kinds
// associations don't get instantiated and recorded. This happens because
// now that bindings with specific N > base cases is never instantiated
// FIX: Wonder though why it didn't instantiate them for base cases at least since
// we instantiate them explicitly in Case statements
#define FOR_EACH_MAX NUMBER_OF_BASES-1
#define FOR_EACH_N(N) template <> struct bindings<shape_kind<N>> { KV(Shape,N); BCS(shape_kind<N>,Shape); CM(0,shape_kind<N>::m_member0); CM(1,shape_kind<N>::m_member1); };
#include "loop_over_numbers.hpp"
#undef FOR_EACH_N
#undef FOR_EACH_MAX
// NOTE: We need to explicitly instantiate all bindings as otherwise our kinds
// associations don't get instantiated and recorded. This happens because
// now that bindings with specific N > base cases is never instantiated
#define FOR_EACH_MAX NUMBER_OF_DERIVED-NUMBER_OF_BASES-1
#define FOR_EACH_N(N) template <> struct bindings<shape_kind<NUMBER_OF_BASES+N>> { KV(Shape,NUMBER_OF_BASES+N); BCS(shape_kind<NUMBER_OF_BASES+N>,shape_kind<NUMBER_OF_BASES+N>::base_type,Shape); CM(0,shape_kind<NUMBER_OF_BASES+N>::m_member0); CM(1,shape_kind<NUMBER_OF_BASES+N>::m_member1); };
#include "loop_over_numbers.hpp"
#undef FOR_EACH_N
#undef FOR_EACH_MAX
//------------------------------------------------------------------------------
#if 1
XTL_TIMED_FUNC_BEGIN
size_t do_match(const Shape& s, size_t)
{
MatchF(s)
{
#define FOR_EACH_MAX NUMBER_OF_BASES-1
#define FOR_EACH_N(N) CaseF(shape_kind<N>) return N;
#include "loop_over_numbers.hpp"
#undef FOR_EACH_N
#undef FOR_EACH_MAX
}
EndMatchF
return invalid;
}
XTL_TIMED_FUNC_END
#else
#error No preprocessed version provided
#endif
//------------------------------------------------------------------------------
XTL_TIMED_FUNC_BEGIN
size_t do_visit(const Shape& s, size_t)
{
struct Visitor : ShapeVisitor
{
#define FOR_EACH_MAX NUMBER_OF_BASES-1
#define FOR_EACH_N(N) virtual void visit(const shape_kind<N>&) { result = N; }
#include "loop_over_numbers.hpp"
#undef FOR_EACH_N
#undef FOR_EACH_MAX
size_t result;
};
Visitor v;
v.result = invalid;
s.accept(v);
return v.result;
}
XTL_TIMED_FUNC_END
//------------------------------------------------------------------------------
Shape* make_shape(size_t i)
{
switch (i % NUMBER_OF_DERIVED)
{
#define FOR_EACH_MAX NUMBER_OF_DERIVED-1
#define FOR_EACH_N(N) case N: return new shape_kind<N>;
#include "loop_over_numbers.hpp"
#undef FOR_EACH_N
#undef FOR_EACH_MAX
}
return 0;
}
//------------------------------------------------------------------------------
#include "testvismat.hpp" // Utilities for timing tests
//------------------------------------------------------------------------------
int main()
{
verdict pp = test_repetitive();
verdict ps = test_sequential();
verdict pr = test_randomized();
std::cout << "OVERALL: "
<< "Repetitive: " << pp << "; "
<< "Sequential: " << ps << "; "
<< "Random: " << pr
<< std::endl;
}
//------------------------------------------------------------------------------
| [
"leckey.ryan@gmail.com"
] | leckey.ryan@gmail.com |
7e94f835ccf3605c0ce7b980a3edcf3a2b9c69ba | 55aa5fd7e32f566eb2e6e052239197ac56e3bcf2 | /Bytespeicher Display/SaschaVersion/Easy_Matrix_Bytespeicher_Scrolling_Message_station_Wifi_4/SaschaVersion3/SaschaVersion3.ino | 086873dd87c515cea09012b6c564033b7952a12c | [] | no_license | fpf2000/fluchtdisplay | 9e76cf4ddf954ad5a78bdea38a93affa1f39b402 | b0a4e35b46b8ad04abb574fab6e053969e72c505 | refs/heads/master | 2021-09-15T03:07:25.259146 | 2018-05-24T17:40:31 | 2018-05-24T17:40:31 | 115,513,806 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 10,589 | ino | #include <WiFiServer.h>
#include <ESP8266WiFiSTA.h>
#include <ESP8266WiFi.h>
#include <WiFiClient.h>
#include <ESP8266WiFiGeneric.h>
#include <ESP8266WiFiMulti.h>
#include <ESP8266WiFiType.h>
#include <ESP8266WiFiScan.h>
#include <ESP8266WiFiAP.h>
#include <WiFiClientSecure.h>
#include <WiFiUdp.h>
#include <Ticker.h>
#include <Dhcp.h>
#include <EthernetClient.h>
#include <EthernetUdp.h>
#include <Dns.h>
#include <Ethernet.h>
#include <EthernetServer.h>
/*
Project: Wifi controlled LED matrix display
NodeMCU pins -> EasyMatrix pins
MOSI-D7-GPIO13 -> DIN
CLK-D5-GPIO14 -> Clk
GPIO0-D3 -> LOAD
*/
#include <ESP8266WiFi.h>
#include <ESP8266WebServer.h>
#include <SPI.h>
#include <Adafruit_GFX.h>
#include <Max72xxPanel.h>
// Darueber signalisieren wir, ob etwas getan werden soll.
enum Signal {
unknown,
DO,
DONE
};
// Darueber signalisieren wir, ob json gepusht werden soll
volatile Signal pushSensornetDataSignal = unknown;
IPAddress sensornetHost(185, 100, 84, 206); //collector server
unsigned int sensornetPort = 9910; //sensornet UDP Port
unsigned int localPort = 9911; //local UDP Port
String rconUser = "tutorial"; //rcon user
String rconSecret = "peitsch"; //rcon secret
String rconCommand = ""; //rcon kommando (user:secret command)
WiFiUDP udp;
String ip("");
Ticker sensornetTicker;
#define WIFI_SSID "Freifunk Erfurt" // insert your SSID
#define WIFI_PASS "" // insert your password
// ******************* String form to sent to the client-browser ************************************
String form =
"<p>"
"<center>"
"<h1>Display Bytespeicher Erfurt</h1>"
"<form action='msg'><p>Gebe hier dein Displaytext ein <input type='text' name='msg' size=100 autofocus> <input type='submit' value='Submit'></form>"
"</center>";
ESP8266WebServer server(80); // HTTP server will listen at port 80
long period;
int offset=1,refresh=0;
int pinCS = 0; // Attach CS to this pin, DIN to MOSI and CLK to SCK (cf http://arduino.cc/en/Reference/SPI )
int numberOfHorizontalDisplays = 4;
int numberOfVerticalDisplays = 1;
String decodedMsg;
Max72xxPanel matrix = Max72xxPanel(pinCS, numberOfHorizontalDisplays, numberOfVerticalDisplays);
String tape = "Arduino";
int wait = 100; // In milliseconds
int spacer = 2;
int width = 5 + spacer; // The font width is 5 pixels
/*
handles the messages coming from the webbrowser, restores a few special characters and
constructs the strings that can be sent to the oled display
*/
void handle_msg() {
matrix.fillScreen(LOW);
server.send(200, "text/html", form); // Send same page so they can send another msg
refresh=1;
// Display msg on Oled
String msg = server.arg("msg");
Serial.println(msg);
decodedMsg = msg;
// Restore special characters that are misformed to %char by the client browser
decodedMsg.replace("+", " ");
decodedMsg.replace("%21", "!");
decodedMsg.replace("%22", "");
decodedMsg.replace("%23", "#");
decodedMsg.replace("%24", "$");
decodedMsg.replace("%25", "%");
decodedMsg.replace("%26", "&");
decodedMsg.replace("%27", "'");
decodedMsg.replace("%28", "(");
decodedMsg.replace("%29", ")");
decodedMsg.replace("%2A", "*");
decodedMsg.replace("%2B", "+");
decodedMsg.replace("%2C", ",");
decodedMsg.replace("%2F", "/");
decodedMsg.replace("%3A", ":");
decodedMsg.replace("%3B", ";");
decodedMsg.replace("%3C", "<");
decodedMsg.replace("%3D", "=");
decodedMsg.replace("%3E", ">");
decodedMsg.replace("%3F", "?");
decodedMsg.replace("%40", "@");
//Serial.println(decodedMsg); // print original string to monitor
talk2irc("#erfurt", decodedMsg);
//Serial.println(' '); // new line in monitor
}
//----------------------
// setupMATRIX()
//
// Matrix initiieren ...
//----------------------
void setupMATRIX(void) {
matrix.setIntensity(10); // Use a value between 0 and 15 for brightness
// Adjust to your own needs
// matrix.setPosition(0, 1, 0); // The first display is at <0, 0>
// matrix.setPosition(1, 0, 0); // The second display is at <1, 0>
// Adjust to your own needs
matrix.setPosition(0, 0, 0); // The first display is at <0, 0>
matrix.setPosition(1, 1, 0); // The second display is at <1, 0>
matrix.setPosition(2, 2, 0); // The third display is at <2, 0>
matrix.setPosition(3, 3, 0); // And the last display is at <3, 0>
matrix.setRotation(0, 1); // Display 1 mit 90°
matrix.setRotation(1, 1); // Display 2 mit 90°
matrix.setRotation(2, 1); // Display 3 mit 90°
matrix.setRotation(3, 1); // Display 4 mit 90°
}
//-------------------
// startWIFI()
//
// Wifi starten, verbinden, ...
//-------------------
void startWIFI(void) {
Serial.print("Connecting to ");
Serial.println(WIFI_SSID);
//WiFi.mode(WIFI_STA); ??? KvH hat das drin..
WiFi.begin(WIFI_SSID, WIFI_PASS);
while (WiFi.status() != WL_CONNECTED) {
Serial.print(".");
delay(500);
}
Serial.println("");
Serial.println("WiFi connected");
ip = ipToString(WiFi.localIP());
Serial.println("IP address: ");
Serial.println(ip);
}
//----------------------
// startHTTP()
//
// HTTP starten....
//----------------------
void startHTTP(void) {
// Set up the endpoints for HTTP server, Endpoints can be written as inline functions:
server.on("/", []() {
server.send(200, "text/html", form);
});
server.on("/msg", handle_msg); // And as regular external functions:
server.begin(); // Start the server
Serial.println("WebServer ready! ");
}
//----------------------
// startUDP()
//
// UDP starten ...
//----------------------
void startUDP(void) {
udp.begin(localPort);
Serial.println("UDP started");
}
//-----------------
//readUDP()
//
// Nachsehen, ob wir etwas aus dem UDP Empfangspuffer lesen können
//-----------------
void readUDP() {
char rcvbuffer[16];
delay(2000);
int cb = udp.parsePacket();
if (!cb) {
//Serial.println("no packet yet");
}
else {
Serial.print("UDP packet received, length=");
Serial.println(cb);
udp.read(rcvbuffer, 16);
Serial.println(rcvbuffer);
}
}
//-----------------------
// enableSensornetPushDataSignal()
//
// Wird vom Ticker getriggert.
// Interrupt-like. So kurz wie moeglich..
//-----------------------
void enableSensornetPushDataSignal(void) {
pushSensornetDataSignal = DO;
}
//-----------------------------
// pushSensornetData()
//
// Daten zur Sammelstelle puschen
//-----------------------------
void pushSensornetData(void) {
rconCommand = "";
rconCommand += rconUser;
rconCommand += ":";
rconCommand += rconSecret;
rconCommand += " ";
rconCommand += "setsensors ";
String message = rconCommand;
message += "{";
message += "\"version\": \"0.3\",";
message += "\"id\": \"f4ed3a73b46a\",";
message += "\"nickname\": \"Bytespeicher_Display\",";
message += "\"sensors\": ";
message += "{";
message += "\"display\": ";
message += "[";
message += "{";
message += "\"name\": \"Bytespeicher Display\",";
message += "\"value\": \"";
message += decodedMsg;
message += "\",";
message += "\"unit\": \"text\"";
message += "}";
message += "]";
message += "},";
message += "\"system\": ";
message += "{";
message += "\"voltage\": ";
message += 0;
message += ",";
message += "\"IP\": \"";
message += ipToString(WiFi.localIP());
message += "\",";
message += "\"timestamp\": 0,";
message += "\"uptime\": 0,";
message += "\"heap\": 0";
message += "}";
message += "}\n";
int message_len = message.length() + 1;
char msgbuffer[message_len];
message.toCharArray(msgbuffer, message_len);
udp.beginPacket(sensornetHost, sensornetPort);
udp.write(msgbuffer);
udp.endPacket();
Serial.println(msgbuffer);
readUDP();
}
String ipToString(IPAddress ip){
String s="";
for (int i=0; i<4; i++)
s += i ? "." + String(ip[i]) : String(ip[i]);
return s;
}
void talk2irc(String channel, String msg){
rconCommand = "";
rconCommand += rconUser;
rconCommand += ":";
rconCommand += rconSecret;
rconCommand += " ";
rconCommand += "talk";
rconCommand += " ";
String message = rconCommand;
message += channel;
message += " ";
message += "[Bytespeicher Display] ";
message += msg;
int message_len = message.length() + 1;
char msgbuffer[message_len];
message.toCharArray(msgbuffer, message_len);
udp.beginPacket(sensornetHost, sensornetPort);
udp.write(msgbuffer);
udp.endPacket();
Serial.println(msgbuffer);
readUDP();
}
void setup(void) {
setupMATRIX();
//ESP.wdtDisable(); // used to debug, disable wachdog timer,
Serial.begin(115200); // full speed to monitor
/*
* Ersetzt durch Funktion
WiFi.begin(SSID, PASS); // Connect to WiFi network
while (WiFi.status() != WL_CONNECTED) { // Wait for connection
delay(500);
Serial.print(".");
}
*/
startWIFI();
startUDP();
startHTTP();
sensornetTicker.attach(60, enableSensornetPushDataSignal);
/*
* Ersetzt durch Funktion??
Serial.print("SSID : "); // prints SSID in monitor
Serial.println(SSID); // to monitor
char result[16];
sprintf(result, "%3d.%3d.%1d.%3d", WiFi.localIP()[0], WiFi.localIP()[1], WiFi.localIP()[2], WiFi.localIP()[3]);
Serial.println();
Serial.println(result);
decodedMsg = result;
*/
decodedMsg = ip;
/*
* Ersetzt druch StartWifi?
Serial.println(WiFi.localIP()); // Serial monitor prints localIP
*/
Serial.print(analogRead(A0));
}
void loop(void) {
for ( int i = 0 ; i < width * decodedMsg.length() + matrix.width() - 1 - spacer; i++ ) {
server.handleClient(); // checks for incoming messages
if (refresh==1) i=0;
refresh=0;
matrix.fillScreen(LOW);
int letter = i / width;
int x = (matrix.width() - 1) - i % width;
int y = (matrix.height() - 8) / 2; // center the text vertically
while ( x + width - spacer >= 0 && letter >= 0 ) {
if ( letter < decodedMsg.length() ) {
matrix.drawChar(x, y, decodedMsg[letter], HIGH, LOW, 1);
}
letter--;
x -= width;
}
matrix.write(); // Send bitmap to display
delay(wait);
}
if (pushSensornetDataSignal == DO)
{
pushSensornetData();
pushSensornetDataSignal = DONE;
}
}
| [
"fpf2000@gmx.de"
] | fpf2000@gmx.de |
bd6b62a4259c6f5f45e439309347367a3ae397c4 | 2bec5a52ce1fb3266e72f8fbeb5226b025584a16 | /mnlfa/inst/testfiles/mnlfa_rcpp_mstep_trait_unidim/mnlfa_rcpp_mstep_trait_unidim_DeepState_TestHarness.cpp | 8d31bb649df2b84a04a15cc631878bdf94fbc774 | [] | no_license | akhikolla/InformationHouse | 4e45b11df18dee47519e917fcf0a869a77661fce | c0daab1e3f2827fd08aa5c31127fadae3f001948 | refs/heads/master | 2023-02-12T19:00:20.752555 | 2020-12-31T20:59:23 | 2020-12-31T20:59:23 | 325,589,503 | 9 | 2 | null | null | null | null | UTF-8 | C++ | false | false | 1,930 | cpp | // AUTOMATICALLY GENERATED BY RCPPDEEPSTATE PLEASE DO NOT EDIT BY HAND, INSTEAD EDIT
// mnlfa_rcpp_mstep_trait_unidim_DeepState_TestHarness_generation.cpp and mnlfa_rcpp_mstep_trait_unidim_DeepState_TestHarness_checks.cpp
#include <fstream>
#include <RInside.h>
#include <iostream>
#include <RcppDeepState.h>
#include <qs.h>
#include <DeepState.hpp>
double mnlfa_rcpp_mstep_trait_unidim(Rcpp::NumericMatrix theta, Rcpp::NumericMatrix mu_p, Rcpp::NumericMatrix sigma_p, Rcpp::NumericMatrix post);
TEST(mnlfa_deepstate_test,mnlfa_rcpp_mstep_trait_unidim_test){
RInside R;
std::cout << "input starts" << std::endl;
NumericMatrix theta = RcppDeepState_NumericMatrix();
qs::c_qsave(theta,"/home/akhila/fuzzer_packages/fuzzedpackages/mnlfa/inst/testfiles/mnlfa_rcpp_mstep_trait_unidim/inputs/theta.qs",
"high", "zstd", 1, 15, true, 1);
std::cout << "theta values: "<< theta << std::endl;
NumericMatrix mu_p = RcppDeepState_NumericMatrix();
qs::c_qsave(mu_p,"/home/akhila/fuzzer_packages/fuzzedpackages/mnlfa/inst/testfiles/mnlfa_rcpp_mstep_trait_unidim/inputs/mu_p.qs",
"high", "zstd", 1, 15, true, 1);
std::cout << "mu_p values: "<< mu_p << std::endl;
NumericMatrix sigma_p = RcppDeepState_NumericMatrix();
qs::c_qsave(sigma_p,"/home/akhila/fuzzer_packages/fuzzedpackages/mnlfa/inst/testfiles/mnlfa_rcpp_mstep_trait_unidim/inputs/sigma_p.qs",
"high", "zstd", 1, 15, true, 1);
std::cout << "sigma_p values: "<< sigma_p << std::endl;
NumericMatrix post = RcppDeepState_NumericMatrix();
qs::c_qsave(post,"/home/akhila/fuzzer_packages/fuzzedpackages/mnlfa/inst/testfiles/mnlfa_rcpp_mstep_trait_unidim/inputs/post.qs",
"high", "zstd", 1, 15, true, 1);
std::cout << "post values: "<< post << std::endl;
std::cout << "input ends" << std::endl;
try{
mnlfa_rcpp_mstep_trait_unidim(theta,mu_p,sigma_p,post);
}
catch(Rcpp::exception& e){
std::cout<<"Exception Handled"<<std::endl;
}
}
| [
"akhilakollasrinu424jf@gmail.com"
] | akhilakollasrinu424jf@gmail.com |
fe3bcb14dbff30984d738d34fe2e222c90755a7a | db507912e598b291811a5a73db5f8ba33c8be2f9 | /client/win/VolatilityRanker.cpp | 67677b0df31abd3043cd166422850d4241c79d0e | [] | no_license | biniyu/k-line-print | ab3ee023876adaa9de8dd98b14dbd362a0b2810a | d1e033f79044d6ae62f86e6116cc902b6a7eeb83 | refs/heads/master | 2016-09-06T14:19:55.887544 | 2013-08-25T14:59:21 | 2013-08-25T14:59:21 | 40,391,671 | 2 | 0 | null | null | null | null | GB18030 | C++ | false | false | 3,154 | cpp | #include "StdAfx.h"
#include "VolatilityRanker.h"
#include "Utility.h"
#include "KLinePrint.h"
#include "KLineCollection.h"
#include "KLineReader.h"
VolatilityRanker::~VolatilityRanker(void)
{
}
vector<string> VolatilityRanker::Rank()
{
vector<string> res;
// 处理当天的
string curFile = Utility::GetMajorContractPath(m_strFileName);
string dayLineFile = Utility::GetDayLinePath(curFile);
KLineCollection& klcday = GetDayLineData(dayLineFile);
KLine kline = klcday.GetKLineByTime(Utility::GetDateByPath(curFile));
if(m_enRankMode == en_RankModeHighLow)
{
AddToRankList(kline.high - kline.low, curFile);
}
else if(m_enRankMode == en_RankModeOpenClose)
{
AddToRankList(abs(kline.open - kline.close), curFile);
}
else if(m_enRankMode == en_RankModeGap)
{
KLine prev = klcday.GetKLineByTime(CALENDAR.GetPrev(Utility::GetDateByPath(curFile)));
if(prev.open) AddToRankList(abs(prev.close - kline.open), curFile);
}
// 向后处理
while(1)
{
curFile = Utility::GetNeighborCsvFile(curFile, false, true);
if(!curFile.size()) break;
string dayLineFile = Utility::GetDayLinePath(curFile);
KLineCollection& klcday = GetDayLineData(dayLineFile);
KLine kline = klcday.GetKLineByTime(Utility::GetDateByPath(curFile));
if(m_enRankMode == en_RankModeHighLow)
{
AddToRankList(kline.high - kline.low, curFile);
}
else if(m_enRankMode == en_RankModeOpenClose)
{
AddToRankList(abs(kline.open - kline.close), curFile);
}
else if(m_enRankMode == en_RankModeGap)
{
KLine prev = klcday.GetKLineByTime(CALENDAR.GetPrev(Utility::GetDateByPath(curFile)));
if(prev.open)AddToRankList(abs(prev.close - kline.open), curFile);
}
}
curFile = Utility::GetMajorContractPath(m_strFileName);
// 向前处理
while(1)
{
curFile = Utility::GetNeighborCsvFile(curFile, true, true);
if(!curFile.size()) break;
string dayLineFile = Utility::GetDayLinePath(curFile);
KLineCollection& klcday = GetDayLineData(dayLineFile);
KLine kline = klcday.GetKLineByTime(Utility::GetDateByPath(curFile));
if(m_enRankMode == en_RankModeHighLow)
{
AddToRankList(kline.high - kline.low, curFile);
}
else if(m_enRankMode == en_RankModeOpenClose)
{
AddToRankList(abs(kline.open - kline.close), curFile);
}
else if(m_enRankMode == en_RankModeGap)
{
KLine prev = klcday.GetKLineByTime(CALENDAR.GetPrev(Utility::GetDateByPath(curFile)));
if(prev.open)AddToRankList(abs(prev.close - kline.open), curFile);
}
}
multimap <int, string>::reverse_iterator rit;
for(rit = m_mapRankList.rbegin(); rit != m_mapRankList.rend(); rit++)
{
res.push_back(rit->second);
}
return res;
}
KLineCollection& VolatilityRanker::GetDayLineData(string dayLineFile)
{
if(m_mapDayLines.find(dayLineFile) == m_mapDayLines.end())
{
KLineReader klReader;
klReader.Read(dayLineFile, m_mapDayLines[dayLineFile]);
}
return m_mapDayLines[dayLineFile];
}
void VolatilityRanker::AddToRankList(int volatility, string file)
{
m_mapRankList.insert(pair<int,string>(volatility, file));
} | [
"osc_zju@163.com"
] | osc_zju@163.com |
526004ba419554c55e0e20f2e5b38fbf6189c88c | 2b1b459706bbac83dad951426927b5798e1786fc | /src/security/lib/scrutiny/utils/ffi/chunked-decompressor.cc | d6af82deb53dc346d402ae4152bf6612af9afce7 | [
"BSD-2-Clause"
] | permissive | gnoliyil/fuchsia | bc205e4b77417acd4513fd35d7f83abd3f43eb8d | bc81409a0527580432923c30fbbb44aba677b57d | refs/heads/main | 2022-12-12T11:53:01.714113 | 2022-01-08T17:01:14 | 2022-12-08T01:29:53 | 445,866,010 | 4 | 3 | BSD-2-Clause | 2022-10-11T05:44:30 | 2022-01-08T16:09:33 | C++ | UTF-8 | C++ | false | false | 884 | cc | // Copyright 2020 The Fuchsia Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "chunked-decompressor.h"
#include <fbl/array.h>
#include <src/lib/chunked-compression/chunked-decompressor.h>
#include <src/lib/chunked-compression/status.h>
size_t zstd_chunked_decompress(const void* src, size_t src_len, void* dst, size_t dst_capacity) {
using namespace chunked_compression;
SeekTable seek_table;
HeaderReader reader;
Status status = reader.Parse(src, src_len, dst_capacity, &seek_table);
if (status != kStatusOk) {
return 0;
}
ChunkedDecompressor decompressor;
size_t uncompressed_size = 0;
status = decompressor.Decompress(seek_table, src, src_len, dst, dst_capacity, &uncompressed_size);
if (status != kStatusOk) {
return 0;
}
return uncompressed_size;
}
| [
"commit-bot@chromium.org"
] | commit-bot@chromium.org |
0fbe8cc26ce0a4e22de8f0ea17c870dcd31ad9b1 | 680216c8481d2397b84dbaf40f2a4b8e74851717 | /gameNode.cpp | be095e0b61482d592430d8c3d8d1d393fc11416e | [] | no_license | GeunPark/TeamProject | 0f3699bd7f04bf06939d3587a901e249a523cee9 | 76125ded597f78d654a12252ba53c8ac958e4e12 | refs/heads/master | 2020-03-23T11:57:42.641253 | 2018-07-19T05:57:56 | 2018-07-19T05:57:56 | 141,528,648 | 0 | 0 | null | null | null | null | UHC | C++ | false | false | 2,856 | cpp | #include "stdafx.h"
#include "gameNode.h"
//=============================================================
// ## 초기화 ## Init(void)
//=============================================================
HRESULT gameNode::Init(void)
{
return S_OK;
}
HRESULT gameNode::Init(bool managerInit)
{
_hdc = GetDC(_hWnd);
_managerInit = managerInit;
if (managerInit)
{
SetTimer(_hWnd, 1, 10, NULL); //타이머 초기화
KEYMANAGER->Init(); //키매니저 초기화
RND->Init(); //랜덤펑션 초기화
IMAGEMANAGER->Init(); //이미지매니저 초기화
}
return S_OK;
}
//=============================================================
// ## 해제 ## Release(void)
//=============================================================
void gameNode::Release(void)
{
if (_managerInit)
{
//타이머 해제
KillTimer(_hWnd, 1);
//키매니저 해제
KEYMANAGER->Release();
KEYMANAGER->ReleaseSingleton();
//랜덤펑션 싱클톤 해제
RND->Release();
RND->ReleaseSingleton();
//이미지매니저 싱글톤 해제
IMAGEMANAGER->Release();
IMAGEMANAGER->ReleaseSingleton();
}
//DC 해제
ReleaseDC(_hWnd, _hdc);
}
//=============================================================
// ## 업데이트 ## Update(void)
//=============================================================
void gameNode::Update(void)
{
//새로고침 (나중에 고성능 타이머를 만든 후에는 사용하지 않는다)
//더블버퍼링 이후 사용하지 않는다 (true => false)
InvalidateRect(_hWnd, NULL, FALSE);
}
//=============================================================
// ## 렌더 ## Render(void)
//=============================================================
void gameNode::Render(void)
{
}
//=============================================================
// ## 메인프로시져 ##
//=============================================================
LRESULT gameNode::MainProc(HWND hWnd, UINT iMessage, WPARAM wParam, LPARAM lParam)
{
HDC hdc; //핸들DC
PAINTSTRUCT ps; //페인트구조체
switch (iMessage)
{
case WM_TIMER:
this->Update();
break;
case WM_PAINT: //출력에 관한 모든것을 담당한다(문자, 그림, 도형등등 화면에 보이는 모든것)
hdc = BeginPaint(hWnd, &ps);
this->Render();
EndPaint(hWnd, &ps);
break;
case WM_MOUSEMOVE:
_ptMouse.x = LOWORD(lParam);
_ptMouse.y = HIWORD(lParam);
break;
case WM_KEYDOWN: //키보드 키가 눌렸을때 메세지 발생
switch (wParam)
{
case VK_ESCAPE: //esc 키를 누르면 화면종료
PostMessage(hWnd, WM_DESTROY, 0, 0);
break;
}
break;
case WM_DESTROY: //소멸자
PostQuitMessage(0);
return 0;
}
//윈도우 프로시져에서 처리되지 않은 나머지 메세지를 처리해준다
return (DefWindowProc(hWnd, iMessage, wParam, lParam));
return LRESULT();
}
| [
"32009960+GeunPark@users.noreply.github.com"
] | 32009960+GeunPark@users.noreply.github.com |
9550e86ede886b6f5f1f7f6180ee1becf69c0282 | e21497ee3e6aced8be368d3832f478332df9a109 | /editor-support/cocostudio/WidgetReader/ArmatureNodeReader/CSArmatureNode_generated.h | d64d6ffa2b1bbd9784fa062a71aecc882186431f | [] | no_license | isoundy000/x-studio365 | 097ddf25ddb9392f6bd30d599776fffcede18704 | 18bbf34fb3712955f09c817677bd3cee2c81852c | refs/heads/master | 2020-03-22T15:04:31.356863 | 2018-07-04T01:47:18 | 2018-07-04T01:47:18 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 8,356 | h | // automatically generated by the FlatBuffers compiler, do not modify
#ifndef FLATBUFFERS_GENERATED_CSARMATURENODE_FLATBUFFERS_H_
#define FLATBUFFERS_GENERATED_CSARMATURENODE_FLATBUFFERS_H_
#include "flatbuffers/flatbuffers.h"
#include "editor-support/cocostudio/CSParseBinary_generated.h"
namespace flatbuffers {
struct CSArmatureNodeOption;
struct ResourceItemData;
struct CSArmatureNodeOption FLATBUFFERS_FINAL_CLASS : private flatbuffers::Table {
enum {
VT_NODEOPTIONS = 4,
VT_FILEDATA = 6,
VT_ISLOOP = 8,
VT_ISAUTOPLAY = 10,
VT_CURRENTANIMATIONNAME = 12,
VT_CURRENTARMATURENAME = 14,
VT_TIMESCALE = 16,
VT_ARMATURESCALE = 18
};
const flatbuffers::WidgetOptions *nodeOptions() const {
return GetPointer<const flatbuffers::WidgetOptions *>(VT_NODEOPTIONS);
}
const ResourceItemData *fileData() const {
return GetPointer<const ResourceItemData *>(VT_FILEDATA);
}
bool isLoop() const {
return GetField<uint8_t>(VT_ISLOOP, 1) != 0;
}
bool isAutoPlay() const {
return GetField<uint8_t>(VT_ISAUTOPLAY, 1) != 0;
}
const flatbuffers::String *currentAnimationName() const {
return GetPointer<const flatbuffers::String *>(VT_CURRENTANIMATIONNAME);
}
const flatbuffers::String *currentArmatureName() const {
return GetPointer<const flatbuffers::String *>(VT_CURRENTARMATURENAME);
}
float timeScale() const {
return GetField<float>(VT_TIMESCALE, 0.0f);
}
float armatureScale() const {
return GetField<float>(VT_ARMATURESCALE, 0.0f);
}
bool Verify(flatbuffers::Verifier &verifier) const {
return VerifyTableStart(verifier) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_NODEOPTIONS) &&
verifier.VerifyTable(nodeOptions()) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_FILEDATA) &&
verifier.VerifyTable(fileData()) &&
VerifyField<uint8_t>(verifier, VT_ISLOOP) &&
VerifyField<uint8_t>(verifier, VT_ISAUTOPLAY) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_CURRENTANIMATIONNAME) &&
verifier.Verify(currentAnimationName()) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_CURRENTARMATURENAME) &&
verifier.Verify(currentArmatureName()) &&
VerifyField<float>(verifier, VT_TIMESCALE) &&
VerifyField<float>(verifier, VT_ARMATURESCALE) &&
verifier.EndTable();
}
};
struct CSArmatureNodeOptionBuilder {
flatbuffers::FlatBufferBuilder &fbb_;
flatbuffers::uoffset_t start_;
void add_nodeOptions(flatbuffers::Offset<flatbuffers::WidgetOptions> nodeOptions) {
fbb_.AddOffset(CSArmatureNodeOption::VT_NODEOPTIONS, nodeOptions);
}
void add_fileData(flatbuffers::Offset<ResourceItemData> fileData) {
fbb_.AddOffset(CSArmatureNodeOption::VT_FILEDATA, fileData);
}
void add_isLoop(bool isLoop) {
fbb_.AddElement<uint8_t>(CSArmatureNodeOption::VT_ISLOOP, static_cast<uint8_t>(isLoop), 1);
}
void add_isAutoPlay(bool isAutoPlay) {
fbb_.AddElement<uint8_t>(CSArmatureNodeOption::VT_ISAUTOPLAY, static_cast<uint8_t>(isAutoPlay), 1);
}
void add_currentAnimationName(flatbuffers::Offset<flatbuffers::String> currentAnimationName) {
fbb_.AddOffset(CSArmatureNodeOption::VT_CURRENTANIMATIONNAME, currentAnimationName);
}
void add_currentArmatureName(flatbuffers::Offset<flatbuffers::String> currentArmatureName) {
fbb_.AddOffset(CSArmatureNodeOption::VT_CURRENTARMATURENAME, currentArmatureName);
}
void add_timeScale(float timeScale) {
fbb_.AddElement<float>(CSArmatureNodeOption::VT_TIMESCALE, timeScale, 0.0f);
}
void add_armatureScale(float armatureScale) {
fbb_.AddElement<float>(CSArmatureNodeOption::VT_ARMATURESCALE, armatureScale, 0.0f);
}
CSArmatureNodeOptionBuilder(flatbuffers::FlatBufferBuilder &_fbb)
: fbb_(_fbb) {
start_ = fbb_.StartTable();
}
CSArmatureNodeOptionBuilder &operator=(const CSArmatureNodeOptionBuilder &);
flatbuffers::Offset<CSArmatureNodeOption> Finish() {
const auto end = fbb_.EndTable(start_, 8);
auto o = flatbuffers::Offset<CSArmatureNodeOption>(end);
return o;
}
};
inline flatbuffers::Offset<CSArmatureNodeOption> CreateCSArmatureNodeOption(
flatbuffers::FlatBufferBuilder &_fbb,
flatbuffers::Offset<flatbuffers::WidgetOptions> nodeOptions = 0,
flatbuffers::Offset<ResourceItemData> fileData = 0,
bool isLoop = true,
bool isAutoPlay = true,
flatbuffers::Offset<flatbuffers::String> currentAnimationName = 0,
flatbuffers::Offset<flatbuffers::String> currentArmatureName = 0,
float timeScale = 0.0f,
float armatureScale = 0.0f) {
CSArmatureNodeOptionBuilder builder_(_fbb);
builder_.add_armatureScale(armatureScale);
builder_.add_timeScale(timeScale);
builder_.add_currentArmatureName(currentArmatureName);
builder_.add_currentAnimationName(currentAnimationName);
builder_.add_fileData(fileData);
builder_.add_nodeOptions(nodeOptions);
builder_.add_isAutoPlay(isAutoPlay);
builder_.add_isLoop(isLoop);
return builder_.Finish();
}
inline flatbuffers::Offset<CSArmatureNodeOption> CreateCSArmatureNodeOptionDirect(
flatbuffers::FlatBufferBuilder &_fbb,
flatbuffers::Offset<flatbuffers::WidgetOptions> nodeOptions = 0,
flatbuffers::Offset<ResourceItemData> fileData = 0,
bool isLoop = true,
bool isAutoPlay = true,
const char *currentAnimationName = nullptr,
const char *currentArmatureName = nullptr,
float timeScale = 0.0f,
float armatureScale = 0.0f) {
return flatbuffers::CreateCSArmatureNodeOption(
_fbb,
nodeOptions,
fileData,
isLoop,
isAutoPlay,
currentAnimationName ? _fbb.CreateString(currentAnimationName) : 0,
currentArmatureName ? _fbb.CreateString(currentArmatureName) : 0,
timeScale,
armatureScale);
}
struct ResourceItemData FLATBUFFERS_FINAL_CLASS : private flatbuffers::Table {
enum {
VT_TYPE = 4,
VT_PATH = 6
};
int32_t type() const {
return GetField<int32_t>(VT_TYPE, 0);
}
const flatbuffers::String *path() const {
return GetPointer<const flatbuffers::String *>(VT_PATH);
}
bool Verify(flatbuffers::Verifier &verifier) const {
return VerifyTableStart(verifier) &&
VerifyField<int32_t>(verifier, VT_TYPE) &&
VerifyField<flatbuffers::uoffset_t>(verifier, VT_PATH) &&
verifier.Verify(path()) &&
verifier.EndTable();
}
};
struct ResourceItemDataBuilder {
flatbuffers::FlatBufferBuilder &fbb_;
flatbuffers::uoffset_t start_;
void add_type(int32_t type) {
fbb_.AddElement<int32_t>(ResourceItemData::VT_TYPE, type, 0);
}
void add_path(flatbuffers::Offset<flatbuffers::String> path) {
fbb_.AddOffset(ResourceItemData::VT_PATH, path);
}
ResourceItemDataBuilder(flatbuffers::FlatBufferBuilder &_fbb)
: fbb_(_fbb) {
start_ = fbb_.StartTable();
}
ResourceItemDataBuilder &operator=(const ResourceItemDataBuilder &);
flatbuffers::Offset<ResourceItemData> Finish() {
const auto end = fbb_.EndTable(start_, 2);
auto o = flatbuffers::Offset<ResourceItemData>(end);
return o;
}
};
inline flatbuffers::Offset<ResourceItemData> CreateResourceItemData(
flatbuffers::FlatBufferBuilder &_fbb,
int32_t type = 0,
flatbuffers::Offset<flatbuffers::String> path = 0) {
ResourceItemDataBuilder builder_(_fbb);
builder_.add_path(path);
builder_.add_type(type);
return builder_.Finish();
}
inline flatbuffers::Offset<ResourceItemData> CreateResourceItemDataDirect(
flatbuffers::FlatBufferBuilder &_fbb,
int32_t type = 0,
const char *path = nullptr) {
return flatbuffers::CreateResourceItemData(
_fbb,
type,
path ? _fbb.CreateString(path) : 0);
}
inline const flatbuffers::CSArmatureNodeOption *GetCSArmatureNodeOption(const void *buf) {
return flatbuffers::GetRoot<flatbuffers::CSArmatureNodeOption>(buf);
}
inline bool VerifyCSArmatureNodeOptionBuffer(
flatbuffers::Verifier &verifier) {
return verifier.VerifyBuffer<flatbuffers::CSArmatureNodeOption>(nullptr);
}
inline void FinishCSArmatureNodeOptionBuffer(
flatbuffers::FlatBufferBuilder &fbb,
flatbuffers::Offset<flatbuffers::CSArmatureNodeOption> root) {
fbb.Finish(root);
}
} // namespace flatbuffers
#endif // FLATBUFFERS_GENERATED_CSARMATURENODE_FLATBUFFERS_H_
| [
"halx99@163.com"
] | halx99@163.com |
801f431a6835e4409af629addffa1169fcccd34b | 7ed4274e8cbc58d5a3fc553766f5ea422dd35782 | /cpp/All_combinations_of_an_array.cpp | 5f5f09e37df2e861d4c71397ba3666d95f9b7741 | [] | no_license | G-Gowtham/Programming | 75bd789c97afedb3b035b712cf7db62b304059b7 | 05824b4cfcf62681e18521c857b8f359b4e18c58 | refs/heads/master | 2023-01-23T13:52:26.453816 | 2020-11-23T07:14:41 | 2020-11-23T07:14:41 | 277,239,521 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 747 | cpp | // C++ program to print all combination
// of size r in an array of size n
#include<bits/stdc++.h>
using namespace std;
void combinationUtil(int arr[], int data[], int start, int end,int index)
{
for (int j = 0; j <index; j++)
cout << data[j] << " ";
cout << endl;
for (int i = start; i <= end; i++)
{
data[index] = arr[i];
combinationUtil(arr, data, i+1,end,index+1 );
}
}
void printCombination(int arr[], int n)
{
int data[n];
combinationUtil(arr, data, 0, n-1, 0);
}
// Driver code
int main()
{
int arr[] = {1, 2, 3, 4, 5};
int r = 3;
int n = sizeof(arr)/sizeof(arr[0]);
printCombination(arr, n);
}
// This code is contributed by rathbhupendra
| [
"gowthamg.cs17@bitsathy.ac.in"
] | gowthamg.cs17@bitsathy.ac.in |
54854a47fcc6fdf7006e7216bb0d32b1a63546ac | c33ba9f9055da94d93c5d66fb5efa6551f1193ec | /lmc/src/updatewindow.h | 841adf94cda6f8db6bba1849a813ed677d9b40e8 | [] | no_license | venmade/lanmessenger | 16c4053ef6612ebceafe85c8ed829df8500eecb5 | 2d6078af878ed139a1525ec215ce2b13d1439483 | refs/heads/master | 2020-04-15T13:31:07.358893 | 2018-12-25T14:06:01 | 2018-12-25T14:06:01 | 164,719,769 | 0 | 1 | null | 2019-01-08T19:37:31 | 2019-01-08T19:37:31 | null | UTF-8 | C++ | false | false | 1,893 | h | /****************************************************************************
**
** This file is part of LAN Messenger.
**
** Copyright (c) 2010 - 2012 Qualia Digital Solutions.
**
** Contact: qualiatech@gmail.com
**
** LAN Messenger is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** LAN Messenger is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with LAN Messenger. If not, see <http://www.gnu.org/licenses/>.
**
****************************************************************************/
#ifndef UPDATEWINDOW_H
#define UPDATEWINDOW_H
#include <QWidget>
#include <qevent.h>
#include "xmlmessage.h"
namespace Ui {
class UpdateWindow;
}
class lmcUpdateWindow : public QWidget
{
Q_OBJECT
public:
explicit lmcUpdateWindow(QRect* pRect, QWidget *parent = 0);
~lmcUpdateWindow();
void init(void);
void stop(void);
void receiveMessage(MessageType type, QString* lpszUserId, XmlMessage* pMessage);
void settingsChanged(void);
signals:
void messageSent(MessageType type, QString* lpszUserId, XmlMessage* pMessage);
protected:
bool eventFilter(QObject* pObject, QEvent* pEvent);
void changeEvent(QEvent* pEvent);
private slots:
void btnRecheck_clicked(void);
private:
void setUIText(void);
void checkForUpdates(void);
QString getStatusMessage(void);
enum UpdateStatus{US_Check, US_Error, US_New, US_Latest};
Ui::UpdateWindow *ui;
QString webVersion;
UpdateStatus status;
};
#endif // UPDATEWINDOW_H
| [
"lanmsgnr@gmail.com"
] | lanmsgnr@gmail.com |
51693bc2723574aba97e712a0f32483ac0a12193 | 8a2efd88cb53ae9ad2088769607bcff140f268da | /algorithm design/leetcode-2-445/leetcode-2/leetcode-2.cpp | 763b5a4120c96776dd7831271e44d6ac329b674a | [] | no_license | playerxq/algorithm-design | ad1713e750db02f0c9162cf37f669e7c94308e60 | 91aa8591390a0e8de1c41f1931b39a261118f227 | refs/heads/master | 2020-06-29T05:20:35.088824 | 2018-09-07T13:49:50 | 2018-09-07T13:49:50 | 74,445,903 | 0 | 0 | null | null | null | null | GB18030 | C++ | false | false | 3,977 | cpp | // leetcode-2.cpp : 定义控制台应用程序的入口点。
//
#include "stdafx.h"
#include <cstdio>
#include <iostream>
#include <string.h>
#include <math.h>
#include <vector>
#include <queue>
#include<iomanip>
#include <ctype.h>
#include <algorithm>
using namespace std;
/**
* Definition for singly-linked list.
* struct ListNode {
* int val;
* ListNode *next;
* ListNode(int x) : val(x), next(NULL) {}
* };
*/
struct ListNode {
int val;
ListNode *next;
ListNode(int x) : val(x), next(NULL) {}
};
class Solution1 {
public:
ListNode* addTwoNumbers(ListNode* l1, ListNode* l2) {
int c = 0;
ListNode* res = NULL;
ListNode* pre = res;
while(l1!=NULL&&l2!=NULL)
{
int vv = l1->val+l2->val+c;
int x = vv%10;
c = vv/10;
ListNode* nn = new ListNode(x);
if(res==NULL)
{
res = nn;
pre = res;
}
else
{
pre->next = nn;
pre = pre->next;
}
l1 = l1->next;
l2 = l2->next;
}
while(l1!=NULL)
{
int vv = l1->val+c;
int x = vv%10;
c = vv/10;
ListNode* nn = new ListNode(x);
if(res==NULL)
{
res = nn;
pre = res;
}
else
{
pre->next = nn;
pre = pre->next;
}
l1 = l1->next;
}
while(l2!=NULL)
{
int vv = l2->val+c;
int x = vv%10;
c = vv/10;
ListNode* nn = new ListNode(x);
if(res==NULL)
{
res = nn;
pre = res;
}
else
{
pre->next = nn;
pre = pre->next;
}
l2 = l2->next;
}
return res;
}
};
class Solution {
public:
ListNode* addTwoNumbers(ListNode* l1, ListNode* l2) {
int c1 = 0;
int c2 = 0;
ListNode* cur1 = l1;
ListNode* cur2 = l2;
if (cur1 == NULL)
return cur2;
if (cur2 == NULL)
return cur1;
while (cur1 != NULL)
{
c1++;
cur1 = cur1->next;
}
while (cur2 != NULL)
{
c2++;
cur2 = cur2->next;
}
ListNode* res;
ListNode* pre=NULL;
int c = max(c1, c2) - min(c1,c2);
cur1 = l1;
cur2 = l2;
while (c)
{
int x = c1 > c2 ? cur1->val : cur2->val;
ListNode* nn = new ListNode(x);
if (pre == NULL)
{
pre = nn;
res = pre;
}
else
{
pre->next = nn;
pre = pre->next;
}
if (c1 > c2)
cur1 = cur1->next;
else
cur2 = cur2->next;
c--;
}
while (cur1 != NULL)
{
int x = cur1->val + cur2->val;
ListNode* nn = new ListNode(x);
if (pre == NULL)
{
pre = nn;
res = pre;
}
else
{
pre->next = nn;
pre = pre->next;
}
cur1 = cur1->next;
cur2 = cur2->next;
}
ListNode* cur = res;
ListNode* nx = cur->next;
cur->next = NULL;
while (cur != pre)
{
ListNode* nnx = nx->next;
nx->next = cur;
cur = nx;
nx = nnx;
}
int cc = 0;
while (cur != NULL)
{
int x = (cur->val + cc);
cur->val = x % 10;
cc = x / 10;
cur = cur->next;
}
while (cc)
{
ListNode* nn = new ListNode(cc%10);
cc /= 10;
res->next = nn;
res = res->next;
}
cur = pre;
nx = cur->next;
cur->next = NULL;
while (cur != res)
{
ListNode* nnx = nx->next;
nx->next = cur;
cur = nx;
nx = nnx;
}
return res;
}
};
int main()
{
freopen("input.txt","r",stdin);
freopen("output.txt","w",stdout);
Solution s;
struct ListNode a(7),b(2),c(4),z(3);
struct ListNode d(5),e(6),f(4);
a.next = &b;
b.next = &c;
c.next = &z;
d.next = &e;
e.next = &f;
ListNode* res = s.addTwoNumbers(&a,&d);
while(res!=NULL)
{
printf("%d-",res->val);
res = res->next;
}
getchar();
}
| [
"1062842783@qq.com"
] | 1062842783@qq.com |
f28b130101ff4096619e7a6842f015bacd722a30 | af62be724c367d7d83aa8eda752ff8962b7df10c | /src/media/audio/audio_core/audio_link_unittest.cc | 7db7c19954111340f9f94ab6af1bf1611aa7a6e1 | [
"BSD-3-Clause"
] | permissive | AlbertSid/fuchsia | 1d369e95ea6e55789f401022cb20fa3c28d85a92 | 018b23ae3462ea6bf9c91b00a5d8698c2b79d119 | refs/heads/master | 2020-08-24T05:16:31.873193 | 2019-10-21T19:37:04 | 2019-10-21T19:37:04 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,197 | cc | // Copyright 2019 The Fuchsia Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/media/audio/audio_core/audio_link.h"
#include <gtest/gtest.h>
#include "src/media/audio/audio_core/audio_object.h"
#include "src/media/audio/audio_core/mixer/gain.h"
namespace media::audio {
namespace {
class MockObjectNoCurve : public AudioObject {
public:
MockObjectNoCurve() : AudioObject(AudioObject::Type::Output) {}
};
class MockObjectWithCurve : public AudioObject {
public:
MockObjectWithCurve(VolumeCurve volume_curve)
: AudioObject(AudioObject::Type::Output), volume_curve_(std::move(volume_curve)) {}
std::optional<VolumeCurve> GetVolumeCurve() const override { return {volume_curve_}; }
private:
VolumeCurve volume_curve_;
};
class AudioLinkChild : public AudioLink {
public:
AudioLinkChild(SourceType source_type, fbl::RefPtr<AudioObject> source,
fbl::RefPtr<AudioObject> dest)
: AudioLink(source_type, source, dest) {}
};
TEST(AudioLinkTest, LinkObjectWithVolumeCurve) {
const auto no_curve = fbl::AdoptRef(new MockObjectNoCurve());
const auto with_curve =
fbl::AdoptRef(new MockObjectWithCurve(VolumeCurve::DefaultForMinGain(-10.0)));
AudioLinkChild link(AudioLink::SourceType::Packet, no_curve, with_curve);
// Here we ensure our provided curve is loaded, and not the fallback.
EXPECT_FLOAT_EQ(link.volume_curve().VolumeToDb(0.5), -5.0);
}
TEST(AudioLinkTest, LinkObjectsWithNoCurves) {
const auto no_curve1 = fbl::AdoptRef(new MockObjectNoCurve());
const auto no_curve2 = fbl::AdoptRef(new MockObjectNoCurve());
AudioLinkChild link(AudioLink::SourceType::Packet, no_curve1, no_curve2);
// This passes by not crashing, to ensure we accept this valid case.
// A reasonable fallback curve should be loaded.
EXPECT_FLOAT_EQ(link.volume_curve().VolumeToDb(fuchsia::media::audio::MIN_VOLUME),
fuchsia::media::audio::MUTED_GAIN_DB);
EXPECT_FLOAT_EQ(link.volume_curve().VolumeToDb(fuchsia::media::audio::MAX_VOLUME),
Gain::kUnityGainDb);
}
} // namespace
} // namespace media::audio
| [
"commit-bot@chromium.org"
] | commit-bot@chromium.org |
94eab8017dbe4d5bf946c09b7f40ce3bb36aa370 | 2398e3d23c6d86a0d15cbf66d53aae80d858d0f9 | /SimpleMath/stdafx.cpp | ab0e140046601227d56af5c485700dc7d6c33d32 | [] | no_license | Fareon88/SimpleMathWithTests | d40c14289a1b90001abe60bd89da885545f84766 | bb10f1242763b75f8ec378bc9306942f4fcfd3e0 | refs/heads/master | 2021-01-11T18:33:16.396029 | 2017-01-20T14:50:01 | 2017-01-20T14:50:01 | 79,550,510 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 290 | cpp | // stdafx.cpp : source file that includes just the standard includes
// SimpleMath.pch will be the pre-compiled header
// stdafx.obj will contain the pre-compiled type information
#include "stdafx.h"
// TODO: reference any additional headers you need in STDAFX.H
// and not in this file
| [
"KCQ376@KCQ376-01"
] | KCQ376@KCQ376-01 |
a078953875ae8c10f43f570c9959045003099472 | 8a21e794347dc61a51db17d05161b6ca7634594f | /sorting/sticklen.cpp | f2e061da0539a8e2f6ea2c1864c0e6a9997d76c3 | [] | no_license | Mahima246/CSES_Problems_set_solutions | e5900ca9d99eefa0b05bd530fccb229694a403a3 | a092cea2b916060227dad7f45c3d69f041ee5c2f | refs/heads/main | 2023-05-07T21:30:59.558061 | 2021-05-17T21:22:47 | 2021-05-17T21:22:47 | 368,324,980 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 383 | cpp | #include<iostream>
#include<bits/stdc++.h>
#define int long long int
using namespace std;
signed main(){
int n;
cin>>n;
vector<int> v;
for(int i=0;i<n;i++){
int x;
cin>>x;
v.push_back(x);
}
sort(v.begin(), v.end());
int ans =0;
for(int i=0;i<v.size();i++){
ans += abs(v[i]- v[n/2]);
}
cout<<ans;
return 0;
} | [
"mahimaarora@Mahimas-MacBook-Air.local"
] | mahimaarora@Mahimas-MacBook-Air.local |
1c1449d7559477a9048ba53ade9c126ba906ad01 | 8e39f4709bfe050a64d6496ca41d402750f91944 | /code/02606_바이러스.cpp14.cpp | 3c709444598adb2a49791c9f5e0cc63073339aaa | [] | no_license | LeeJehwan/Baekjoon-Online-Judge | 66fd0799087082988ff1a77fd1fda836bd0d6953 | 681a2c937be7a774edc1b21bfed3617e0ba1018b | refs/heads/master | 2020-04-16T17:48:32.470045 | 2019-08-03T17:57:01 | 2019-08-03T17:57:01 | 165,789,670 | 2 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 536 | cpp | #include <iostream>
#include <vector>
using namespace std;
bool virarr[105];
vector <int> v[105];
void virus(int s) {
if (virarr[s])
return;
for (int i = 0; i < v[s].size(); i++) {
virarr[s] = true;
virus(v[s][i]);
}
}
int main() {
int vertex, edge;
cin >> vertex >> edge;
for (int i = 0; i < edge; i++) {
int temp1, temp2;
cin >> temp1 >> temp2;
v[temp1].push_back(temp2);
v[temp2].push_back(temp1);
}
virus(1);
int sum = 0;
for (int i = 0; i <= vertex; i++)
sum += virarr[i];
cout << sum-1 << endl;
} | [
"wpghks7@naver.com"
] | wpghks7@naver.com |
0d989ce882ee84aa03a7cad7cc7f2fd85bdb39b4 | d99fc93689445f7c5070b9efb1ecd3761fb835bc | /temp/id_41.cpp | 8f50c1d93426c9298c56d583178eeda0eeb7fa49 | [] | no_license | LS-01/HZOJ | 044a67acdabad13279cf1169a6592481ce5e002c | a049d56534c51d5f679e39e65e1b5752f7dec438 | refs/heads/master | 2023-06-06T23:03:48.218068 | 2021-07-05T06:28:57 | 2021-07-05T06:28:57 | 295,476,895 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,749 | cpp | /*************************************************************************
> File Name: id_41.cpp
> Author: ls
> Mail:
> Created Time: Thu 07 Jan 2021 02:14:08 PM CST
************************************************************************/
#include <iostream>
#include <vector>
using namespace std;
class BigInt : public vector<int> {
public:
BigInt() {
push_back(0);
}
BigInt(int x) {
push_back(x);
proccess_digit();
}
BigInt operator*(int x) {
BigInt ret(*this);
ret *= x;
return ret;
}
void operator*=(int x) {
for (int i = 0; i < size(); i++) at(i) *= x;
proccess_digit();
return;
}
void operator+=(const BigInt &num) {
for (int i = 0; i < num.size(); i++) {
if (i == size()) push_back(num[i]);
else at(i) += num[i];
}
proccess_digit();
return;
}
BigInt operator+(const BigInt &num) {
BigInt ret(*this);
ret += num;
return ret;
}
void proccess_digit() {
for (int i = 0; i < size(); i++) {
if (at(i) < 10) continue;
if (i + 1 == size()) push_back(0);
at(i + 1) += at(i) / 10;
at(i) %= 10;
}
return;
}
};
ostream &operator<<(ostream &out, const BigInt &num) {
for (int i = num.size() - 1; i >= 0; --i) {
out << num[i];
}
return out;
}
int main() {
int n, k;
cin >> n >> k;
BigInt f[3] = {0};
f[1] = k;
f[2] = k * (k - 1);
f[0] = k * (k - 1) * (k - 2);
for (int i = 4; i <= n; i++) {
f[i % 3] = f[(i - 1) % 3] * (k - 2) + f[(i - 2) % 3] * (k - 1);
}
cout << f[n % 3] << endl;
return 0;
}
| [
"LS_01_phil@163.com"
] | LS_01_phil@163.com |
1e7006efe6b7da3dc14a5e6853dd1d9220e95f56 | 49bf571e8f5e9ee2e6119a7d4582f3d762b68a08 | /Qt-master/QtExcel/ExcelManger.cpp | 84d5897c889ec2c559e97000d539d8484fbeaa09 | [] | no_license | a798447431/Qt_Project | a88e5b31e5175617787799d27c2a4603d8a09d0b | 03c7518b59d56369df97582505e1729503fa1664 | refs/heads/master | 2020-12-27T12:24:42.999604 | 2020-02-03T06:45:41 | 2020-02-03T06:45:41 | 237,900,469 | 0 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 4,031 | cpp | #include "ExcelManger.h"
#include <QDebug>
#if defined(Q_OS_WIN)
#include <QAxObject>
#include <windows.h>
#endif // Q_OS_WIN
#include <QVariant>
ExcelManger::ExcelManger(QObject *parent) : QObject(parent)
{
// 在后台线程中使用QAxObject必须先初始化
CoInitializeEx(NULL, COINIT_MULTITHREADED);
}
bool ExcelManger::Test(QString &path)
{
QAxObject *excel = NULL; //本例中,excel设定为Excel文件的操作对象
QAxObject *workbooks = NULL;
QAxObject *workbook = NULL; //Excel操作对象
excel = new QAxObject("Excel.Application");
excel->dynamicCall("SetVisible(bool)", true); //true 表示操作文件时可见,false表示为不可见
workbooks = excel->querySubObject("WorkBooks");
//————————————————按文件路径打开文件————————————————————
workbook = workbooks->querySubObject("Open(QString&)", path);
// 获取打开的excel文件中所有的工作sheet
QAxObject * worksheets = workbook->querySubObject("WorkSheets");
//—————————————————Excel文件中表的个数:——————————————————
int iWorkSheet = worksheets->property("Count").toInt();
qDebug() << QString("Excel文件中表的个数: %1").arg(QString::number(iWorkSheet));
// ————————————————获取第n个工作表 querySubObject("Item(int)", n);——————————
QAxObject * worksheet = worksheets->querySubObject("Item(int)", 1);//本例获取第一个,最后参数填1
//—————————获取该sheet的数据范围(可以理解为有数据的矩形区域)————
QAxObject * usedrange = worksheet->querySubObject("UsedRange");
//———————————————————获取行数———————————————
QAxObject * rows = usedrange->querySubObject("Rows");
int iRows = rows->property("Count").toInt();
qDebug() << QString("行数为: %1").arg(QString::number(iRows));
//————————————获取列数—————————
QAxObject * columns = usedrange->querySubObject("Columns");
int iColumns = columns->property("Count").toInt();
qDebug() << QString("列数为: %1").arg(QString::number(iColumns));
//————————数据的起始行———
int iStartRow = rows->property("Row").toInt();
qDebug() << QString("起始行为: %1").arg(QString::number(iStartRow));
//————————数据的起始列————————————
int iColumn = columns->property("Column").toInt();
qDebug() << QString("起始列为: %1").arg(QString::number(iColumn));
//——————————————读出数据—————————————
//获取第i行第j列的数据
//假如是第6行,第6列 对应表中F列6行,即F6
QAxObject *range1 = worksheet->querySubObject("Range(QString)", "F6:F6");
QString strRow6Col6 = "";
strRow6Col6 = range1->property("Value").toString();
qDebug() << "第6行,第6列的数据为:" + strRow6Col6;
//待添加一个转换函数,即第6行,第6列,66转为F6
//—————————————写入数据—————————————
//获取F6的位置
QAxObject *range2 = worksheet->querySubObject("Range(QString)", "F6:F6");
//写入数据, 第6行,第6列
range2->setProperty("Value", "中共十九大");
QString newStr = "";
newStr = range2->property("Value").toString();
qDebug() << "写入数据后,第6行,第6列的数据为:" + newStr;
//!!!!!!!一定要记得close,不然系统进程里会出现n个EXCEL.EXE进程
workbook->dynamicCall("Save()");
workbook->dynamicCall("Close()");
excel->dynamicCall("Quit()");
if (excel)
{
delete excel;
excel = NULL;
}
return true;
}
| [
"253604653@qq.com"
] | 253604653@qq.com |
1579f28a1d9bf15c3de53aac4ba8a989126467a6 | 77674e7445ade55022e22577b3105aba2aff7eea | /src/Light.cpp | 5cbe9ae0fceeeec5cc053e45f2b066c5f360015b | [] | no_license | Jahoo444/projekt-programistyczny | 5572651b9217458be95ec505690db5afd2b87e9b | 2b450ef5198cc22b9e73247dbf64c2a08d84dc1f | refs/heads/master | 2021-09-04T12:26:18.876598 | 2018-01-18T17:08:11 | 2018-01-18T17:08:11 | 110,578,598 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 812 | cpp | #include "Light.h"
#include "command.h"
Light::Light( enum DIRECTIONS dir, enum COLORS color, Uint32 startTime ) : commands{}
{
this->dir = dir;
this->color = color;
this->startTime = startTime;
this->switchTime = startTime;
}
void Light::addCommand(command& c)
{
commands.push(c);
}
int Light::getCommandSize()
{
return commands.size();
}
command Light::getCommand()
{
if(commands.size() == 0)
{
commands.push(command::command_wait(this->dir, 1000));
//commands.push(command::command_change_light(this->dir));
}
if(commands.size() > 0)
return commands.front();
else
return command::command_wait(this->dir, 500);
}
void Light::popFirstCommand()
{
if(commands.size() > 0)
commands.pop();
}
void Light::clearCommands()
{
std::queue<command> empty;
std::swap( commands, empty );
}
| [
"bartlomiej.nagacz@nokia.com"
] | bartlomiej.nagacz@nokia.com |
fad4d07ad5178cc1ca6c35b9d4360365e6755daa | 7449d8f2875c701ab545db9e989e02ae7ebf2313 | /BoostTestAdapterNunit/Resources/SourceFiltering/MultiLineCommentTest_FilteredSourceCode.cpp | 502a818de8a5a6c71b574085717f3499dafbb545 | [
"BSL-1.0",
"MIT",
"Apache-2.0",
"zlib-acknowledgement"
] | permissive | stimm81/vs-boost-unit-test-adapter | f6398a72b02da2d0c8b9d5572961a69cc326d3ab | 391dec1e1ff7331dfb21459835b6f5e85efe9573 | refs/heads/master | 2021-01-18T12:26:07.116624 | 2015-09-01T08:56:51 | 2015-09-01T08:56:51 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 296 | cpp | std::cout << "Hello World 01\n"; //not filtered
std::cout << "Hello World 04\n"; //not filtered
*/ //this is technically a syntax error //not filtered
std::cout << "Hello World 05\n"; //not filtered
std::cout << "Hello World 10\n"; //not filtered | [
"djbonnici@gmail.com"
] | djbonnici@gmail.com |
8ec72ea2b3805407240c8b4fca8a0f8c5a9cfd13 | 1385c32207e378f47bf2153956825e89228b8de1 | /references/WebRTC/modules/rtp_rtcp/source/rtp_header_extensions.h | cd01c1aaeb90a13aa1a9de0c4255f3a467172fdb | [
"BSD-3-Clause",
"LicenseRef-scancode-unknown-license-reference",
"LicenseRef-scancode-google-patent-license-webrtc",
"LicenseRef-scancode-google-patent-license-webm",
"Apache-2.0",
"LicenseRef-scancode-proprietary-license",
"LicenseRef-scancode-free-unknown"
] | permissive | marlonnardi/alcinoe | 4d5dc32328fff661792f5805a799e16b001688d1 | 5e14b2fca7adcc38e483771055b5623501433334 | refs/heads/master | 2020-08-12T09:38:29.484894 | 2020-05-17T23:17:32 | 2020-05-17T23:17:32 | 163,667,647 | 1 | 0 | Apache-2.0 | 2019-10-12T22:52:31 | 2018-12-31T12:34:34 | Pascal | UTF-8 | C++ | false | false | 8,374 | h | /*
* Copyright (c) 2016 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef MODULES_RTP_RTCP_SOURCE_RTP_HEADER_EXTENSIONS_H_
#define MODULES_RTP_RTCP_SOURCE_RTP_HEADER_EXTENSIONS_H_
#include <stddef.h>
#include <stdint.h>
#include <string>
#include "api/array_view.h"
#include "api/rtp_headers.h"
#include "api/video/video_content_type.h"
#include "api/video/video_frame_marking.h"
#include "api/video/video_rotation.h"
#include "api/video/video_timing.h"
#include "common_types.h" // NOLINT(build/include)
#include "modules/rtp_rtcp/include/rtp_rtcp_defines.h"
namespace webrtc {
class AbsoluteSendTime {
public:
static constexpr RTPExtensionType kId = kRtpExtensionAbsoluteSendTime;
static constexpr uint8_t kValueSizeBytes = 3;
static constexpr const char kUri[] =
"http://www.webrtc.org/experiments/rtp-hdrext/abs-send-time";
static bool Parse(rtc::ArrayView<const uint8_t> data, uint32_t* time_24bits);
static size_t ValueSize(uint32_t time_24bits) { return kValueSizeBytes; }
static bool Write(rtc::ArrayView<uint8_t> data, uint32_t time_24bits);
static constexpr uint32_t MsTo24Bits(int64_t time_ms) {
return static_cast<uint32_t>(((time_ms << 18) + 500) / 1000) & 0x00FFFFFF;
}
};
class AudioLevel {
public:
static constexpr RTPExtensionType kId = kRtpExtensionAudioLevel;
static constexpr uint8_t kValueSizeBytes = 1;
static constexpr const char kUri[] =
"urn:ietf:params:rtp-hdrext:ssrc-audio-level";
static bool Parse(rtc::ArrayView<const uint8_t> data,
bool* voice_activity,
uint8_t* audio_level);
static size_t ValueSize(bool voice_activity, uint8_t audio_level) {
return kValueSizeBytes;
}
static bool Write(rtc::ArrayView<uint8_t> data,
bool voice_activity,
uint8_t audio_level);
};
class TransmissionOffset {
public:
static constexpr RTPExtensionType kId = kRtpExtensionTransmissionTimeOffset;
static constexpr uint8_t kValueSizeBytes = 3;
static constexpr const char kUri[] = "urn:ietf:params:rtp-hdrext:toffset";
static bool Parse(rtc::ArrayView<const uint8_t> data, int32_t* rtp_time);
static size_t ValueSize(int32_t rtp_time) { return kValueSizeBytes; }
static bool Write(rtc::ArrayView<uint8_t> data, int32_t rtp_time);
};
class TransportSequenceNumber {
public:
static constexpr RTPExtensionType kId = kRtpExtensionTransportSequenceNumber;
static constexpr uint8_t kValueSizeBytes = 2;
static constexpr const char kUri[] =
"http://www.ietf.org/id/"
"draft-holmer-rmcat-transport-wide-cc-extensions-01";
static bool Parse(rtc::ArrayView<const uint8_t> data, uint16_t* value);
static size_t ValueSize(uint16_t value) { return kValueSizeBytes; }
static bool Write(rtc::ArrayView<uint8_t> data, uint16_t value);
};
class VideoOrientation {
public:
static constexpr RTPExtensionType kId = kRtpExtensionVideoRotation;
static constexpr uint8_t kValueSizeBytes = 1;
static constexpr const char kUri[] = "urn:3gpp:video-orientation";
static bool Parse(rtc::ArrayView<const uint8_t> data, VideoRotation* value);
static size_t ValueSize(VideoRotation) { return kValueSizeBytes; }
static bool Write(rtc::ArrayView<uint8_t> data, VideoRotation value);
static bool Parse(rtc::ArrayView<const uint8_t> data, uint8_t* value);
static size_t ValueSize(uint8_t value) { return kValueSizeBytes; }
static bool Write(rtc::ArrayView<uint8_t> data, uint8_t value);
};
class PlayoutDelayLimits {
public:
static constexpr RTPExtensionType kId = kRtpExtensionPlayoutDelay;
static constexpr uint8_t kValueSizeBytes = 3;
static constexpr const char kUri[] =
"http://www.webrtc.org/experiments/rtp-hdrext/playout-delay";
// Playout delay in milliseconds. A playout delay limit (min or max)
// has 12 bits allocated. This allows a range of 0-4095 values which
// translates to a range of 0-40950 in milliseconds.
static constexpr int kGranularityMs = 10;
// Maximum playout delay value in milliseconds.
static constexpr int kMaxMs = 0xfff * kGranularityMs; // 40950.
static bool Parse(rtc::ArrayView<const uint8_t> data,
PlayoutDelay* playout_delay);
static size_t ValueSize(const PlayoutDelay&) {
return kValueSizeBytes;
}
static bool Write(rtc::ArrayView<uint8_t> data,
const PlayoutDelay& playout_delay);
};
class VideoContentTypeExtension {
public:
static constexpr RTPExtensionType kId = kRtpExtensionVideoContentType;
static constexpr uint8_t kValueSizeBytes = 1;
static constexpr const char kUri[] =
"http://www.webrtc.org/experiments/rtp-hdrext/video-content-type";
static bool Parse(rtc::ArrayView<const uint8_t> data,
VideoContentType* content_type);
static size_t ValueSize(VideoContentType) {
return kValueSizeBytes;
}
static bool Write(rtc::ArrayView<uint8_t> data,
VideoContentType content_type);
};
class VideoTimingExtension {
public:
static constexpr RTPExtensionType kId = kRtpExtensionVideoTiming;
static constexpr uint8_t kValueSizeBytes = 13;
static constexpr const char kUri[] =
"http://www.webrtc.org/experiments/rtp-hdrext/video-timing";
static bool Parse(rtc::ArrayView<const uint8_t> data,
VideoSendTiming* timing);
static size_t ValueSize(const VideoSendTiming&) { return kValueSizeBytes; }
static bool Write(rtc::ArrayView<uint8_t> data,
const VideoSendTiming& timing);
static size_t ValueSize(uint16_t time_delta_ms, uint8_t idx) {
return kValueSizeBytes;
}
// Writes only single time delta to position idx.
static bool Write(rtc::ArrayView<uint8_t> data,
uint16_t time_delta_ms,
uint8_t idx);
};
class FrameMarkingExtension {
public:
static constexpr RTPExtensionType kId = kRtpExtensionFrameMarking;
static constexpr const char kUri[] =
"http://tools.ietf.org/html/draft-ietf-avtext-framemarking-07";
static bool Parse(rtc::ArrayView<const uint8_t> data,
FrameMarking* frame_marking);
static size_t ValueSize(const FrameMarking& frame_marking);
static bool Write(rtc::ArrayView<uint8_t> data,
const FrameMarking& frame_marking);
private:
static bool IsScalable(uint8_t temporal_id, uint8_t layer_id);
};
// Base extension class for RTP header extensions which are strings.
// Subclasses must defined kId and kUri static constexpr members.
class BaseRtpStringExtension {
public:
// String RTP header extensions are limited to 16 bytes because it is the
// maximum length that can be encoded with one-byte header extensions.
static constexpr uint8_t kMaxValueSizeBytes = 16;
static bool Parse(rtc::ArrayView<const uint8_t> data,
StringRtpHeaderExtension* str);
static size_t ValueSize(const StringRtpHeaderExtension& str) {
return str.size();
}
static bool Write(rtc::ArrayView<uint8_t> data,
const StringRtpHeaderExtension& str);
static bool Parse(rtc::ArrayView<const uint8_t> data, std::string* str);
static size_t ValueSize(const std::string& str) { return str.size(); }
static bool Write(rtc::ArrayView<uint8_t> data, const std::string& str);
};
class RtpStreamId : public BaseRtpStringExtension {
public:
static constexpr RTPExtensionType kId = kRtpExtensionRtpStreamId;
static constexpr const char kUri[] =
"urn:ietf:params:rtp-hdrext:sdes:rtp-stream-id";
};
class RepairedRtpStreamId : public BaseRtpStringExtension {
public:
static constexpr RTPExtensionType kId = kRtpExtensionRepairedRtpStreamId;
static constexpr const char kUri[] =
"urn:ietf:params:rtp-hdrext:sdes:repaired-rtp-stream-id";
};
class RtpMid : public BaseRtpStringExtension {
public:
static constexpr RTPExtensionType kId = kRtpExtensionMid;
static constexpr const char kUri[] = "urn:ietf:params:rtp-hdrext:sdes:mid";
};
} // namespace webrtc
#endif // MODULES_RTP_RTCP_SOURCE_RTP_HEADER_EXTENSIONS_H_
| [
"loki5100-nospam@yahoo.fr"
] | loki5100-nospam@yahoo.fr |
10e99aa81a55e296355282f2da4936de102a5e7e | 8567438779e6af0754620a25d379c348e4cd5a5d | /gpu/config/gpu_control_list.h | 3158e1bb37213a3f7014fa741e9881b6a6bbd55b | [
"BSD-3-Clause"
] | permissive | thngkaiyuan/chromium | c389ac4b50ccba28ee077cbf6115c41b547955ae | dab56a4a71f87f64ecc0044e97b4a8f247787a68 | refs/heads/master | 2022-11-10T02:50:29.326119 | 2017-04-08T12:28:57 | 2017-04-08T12:28:57 | 84,073,924 | 0 | 1 | BSD-3-Clause | 2022-10-25T19:47:15 | 2017-03-06T13:04:15 | null | UTF-8 | C++ | false | false | 17,117 | h | // Copyright (c) 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef GPU_CONFIG_GPU_CONTROL_LIST_H_
#define GPU_CONFIG_GPU_CONTROL_LIST_H_
#include <stddef.h>
#include <stdint.h>
#include <memory>
#include <set>
#include <string>
#include <vector>
#include "base/containers/hash_tables.h"
#include "base/memory/ref_counted.h"
#include "base/values.h"
#include "build/build_config.h"
#include "gpu/gpu_export.h"
namespace gpu {
struct GPUInfo;
class GPU_EXPORT GpuControlList {
public:
enum OsType {
kOsLinux,
kOsMacosx,
kOsWin,
kOsChromeOS,
kOsAndroid,
kOsAny,
kOsUnknown
};
enum OsFilter {
// In loading, ignore all entries that belong to other OS.
kCurrentOsOnly,
// In loading, keep all entries. This is for testing only.
kAllOs
};
GpuControlList();
virtual ~GpuControlList();
// Loads control list information from a json file.
// If failed, the current GpuControlList is un-touched.
bool LoadList(const std::string& json_context, OsFilter os_filter);
// Collects system information and combines them with gpu_info and control
// list information to decide which entries are applied to the current
// system and returns the union of features specified in each entry.
// If os is kOsAny, use the current OS; if os_version is empty, use the
// current OS version.
std::set<int> MakeDecision(
OsType os, std::string os_version, const GPUInfo& gpu_info);
// Collects the active entries from the last MakeDecision() call.
// If disabled set to true, return entries that are disabled; otherwise,
// return enabled entries.
void GetDecisionEntries(std::vector<uint32_t>* entry_ids,
bool disabled) const;
// Collects all disabled extensions.
std::vector<std::string> GetDisabledExtensions();
// Returns the description and bugs from active entries from the last
// MakeDecision() call.
//
// Each problems has:
// {
// "description": "Your GPU is too old",
// "crBugs": [1234],
// "webkitBugs": []
// }
void GetReasons(
base::ListValue* problem_list, const std::string& tag) const;
// Return the largest entry id. This is used for histogramming.
uint32_t max_entry_id() const;
// Returns the version of the control list.
std::string version() const;
// Check if we need more gpu info to make the decisions.
// This is computed from the last MakeDecision() call.
// If yes, we should create a gl context and do a full gpu info collection.
bool needs_more_info() const { return needs_more_info_; }
// Returns the number of entries. This is only for tests.
size_t num_entries() const;
// This is only for tests.
bool has_duplicated_entry_id() const;
// Register a feature to FeatureMap - used to construct a GpuControlList.
void AddSupportedFeature(const std::string& feature_name, int feature_id);
// Register whether "all" is recognized as all features.
void set_supports_feature_type_all(bool supported);
// Enables logging of control list decisions.
void enable_control_list_logging(
const std::string& control_list_logging_name) {
control_list_logging_enabled_ = true;
control_list_logging_name_ = control_list_logging_name;
}
private:
friend class GpuControlListEntryTest;
friend class MachineModelInfoTest;
friend class NumberInfoTest;
friend class OsInfoTest;
friend class StringInfoTest;
friend class VersionInfoTest;
enum NumericOp {
kBetween, // <= * <=
kEQ, // =
kLT, // <
kLE, // <=
kGT, // >
kGE, // >=
kAny,
kUnknown // Indicates the data is invalid.
};
class GPU_EXPORT VersionInfo {
public:
// If version_style is empty, it defaults to kNumerical.
VersionInfo(const std::string& version_op,
const std::string& version_style,
const std::string& version_string,
const std::string& version_string2);
~VersionInfo();
// Determines if a given version is included in the VersionInfo range.
// "splitter" divides version string into segments.
bool Contains(const std::string& version, char splitter) const;
// Same as above, using '.' as splitter.
bool Contains(const std::string& version) const;
// Determine if the version_style is lexical.
bool IsLexical() const;
// Determines if the VersionInfo contains valid information.
bool IsValid() const;
private:
enum VersionStyle {
kVersionStyleNumerical,
kVersionStyleLexical,
kVersionStyleUnknown
};
static VersionStyle StringToVersionStyle(const std::string& version_style);
// Compare two version strings.
// Return 1 if version > version_ref,
// 0 if version = version_ref,
// -1 if version < version_ref.
// Note that we only compare as many segments as both versions contain.
// For example: Compare("10.3.1", "10.3") returns 0,
// Compare("10.3", "10.3.1") returns 0.
// If "version_style" is Lexical, the first segment is compared
// numerically, all other segments are compared lexically.
// Lexical is used for AMD Linux driver versions only.
static int Compare(const std::vector<std::string>& version,
const std::vector<std::string>& version_ref,
VersionStyle version_style);
NumericOp op_;
VersionStyle version_style_;
std::vector<std::string> version_;
std::vector<std::string> version2_;
};
class GPU_EXPORT OsInfo {
public:
OsInfo(const std::string& os,
const std::string& version_op,
const std::string& version_string,
const std::string& version_string2);
~OsInfo();
// Determines if a given os/version is included in the OsInfo set.
bool Contains(OsType type, const std::string& version) const;
// Determines if the VersionInfo contains valid information.
bool IsValid() const;
OsType type() const;
// Maps string to OsType; returns kOsUnknown if it's not a valid os.
static OsType StringToOsType(const std::string& os);
private:
OsType type_;
std::unique_ptr<VersionInfo> version_info_;
};
class GPU_EXPORT FloatInfo {
public:
FloatInfo(const std::string& float_op,
const std::string& float_value,
const std::string& float_value2);
// Determines if a given float is included in the FloatInfo.
bool Contains(float value) const;
// Determines if the FloatInfo contains valid information.
bool IsValid() const;
private:
NumericOp op_;
float value_;
float value2_;
};
class GPU_EXPORT IntInfo {
public:
IntInfo(const std::string& int_op,
const std::string& int_value,
const std::string& int_value2);
// Determines if a given int is included in the IntInfo.
bool Contains(int value) const;
// Determines if the IntInfo contains valid information.
bool IsValid() const;
private:
NumericOp op_;
int value_;
int value2_;
};
class GPU_EXPORT BoolInfo {
public:
explicit BoolInfo(bool value);
// Determines if a given bool is included in the BoolInfo.
bool Contains(bool value) const;
private:
bool value_;
};
class GpuControlListEntry;
typedef scoped_refptr<GpuControlListEntry> ScopedGpuControlListEntry;
typedef base::hash_map<std::string, int> FeatureMap;
class GPU_EXPORT GpuControlListEntry
: public base::RefCounted<GpuControlListEntry> {
public:
// Constructs GpuControlListEntry from DictionaryValue loaded from json.
// Top-level entry must have an id number. Others are exceptions.
static ScopedGpuControlListEntry GetEntryFromValue(
const base::DictionaryValue* value, bool top_level,
const FeatureMap& feature_map,
bool supports_feature_type_all);
// Logs a control list match for this rule in the list identified by
// |control_list_logging_name|.
void LogControlListMatch(
const std::string& control_list_logging_name) const;
// Determines if a given os/gc/machine_model/driver is included in the
// Entry set.
bool Contains(OsType os_type, const std::string& os_version,
const GPUInfo& gpu_info) const;
// Determines whether we needs more gpu info to make the blacklisting
// decision. It should only be checked if Contains() returns true.
bool NeedsMoreInfo(const GPUInfo& gpu_info, bool consider_exceptions) const;
// Returns the OsType.
OsType GetOsType() const;
// Returns the entry's unique id. 0 is reserved.
uint32_t id() const;
// Returns whether the entry is disabled.
bool disabled() const;
// Returns the description of the entry
const std::string& description() const { return description_; }
// Returns a list of Chromium and Webkit bugs applicable to this entry
const std::vector<int>& cr_bugs() const { return cr_bugs_; }
const std::vector<int>& webkit_bugs() const { return webkit_bugs_; }
const std::vector<std::string>& disabled_extensions() const {
return disabled_extensions_;
}
// Returns the blacklisted features in this entry.
const std::set<int>& features() const;
// Returns a list of blacklisted feature names in this entry.
void GetFeatureNames(base::ListValue* feature_names,
const FeatureMap& feature_map,
bool supports_feature_type_all) const;
private:
friend class base::RefCounted<GpuControlListEntry>;
enum MultiGpuStyle {
kMultiGpuStyleOptimus,
kMultiGpuStyleAMDSwitchable,
kMultiGpuStyleAMDSwitchableIntegrated,
kMultiGpuStyleAMDSwitchableDiscrete,
kMultiGpuStyleNone
};
enum MultiGpuCategory {
// This entry applies if this is the primary GPU on the system.
kMultiGpuCategoryPrimary,
// This entry applies if this is a secondary GPU on the system.
kMultiGpuCategorySecondary,
// This entry applies if this is the active GPU on the system.
kMultiGpuCategoryActive,
// This entry applies if this is any of the GPUs on the system.
kMultiGpuCategoryAny,
kMultiGpuCategoryNone
};
enum GLType {
kGLTypeGL, // This is default on MacOSX, Linux, ChromeOS
kGLTypeGLES, // This is default on Android
kGLTypeANGLE, // This is default on Windows
kGLTypeNone
};
GpuControlListEntry();
~GpuControlListEntry();
bool SetId(uint32_t id);
void SetDisabled(bool disabled);
bool SetOsInfo(const std::string& os,
const std::string& version_op,
const std::string& version_string,
const std::string& version_string2);
bool SetVendorId(const std::string& vendor_id_string);
bool AddDeviceId(const std::string& device_id_string);
bool SetMultiGpuStyle(const std::string& multi_gpu_style_string);
bool SetMultiGpuCategory(const std::string& multi_gpu_category_string);
bool SetGLType(const std::string& gl_type_string);
bool SetDriverVendorInfo(const std::string& vendor_value);
bool SetDriverVersionInfo(const std::string& version_op,
const std::string& version_style,
const std::string& version_string,
const std::string& version_string2);
bool SetDriverDateInfo(const std::string& date_op,
const std::string& date_string,
const std::string& date_string2);
bool SetGLVersionInfo(const std::string& version_op,
const std::string& version_string,
const std::string& version_string2);
bool SetGLVersionStringInfo(const std::string& version_string_value);
bool SetGLVendorInfo(const std::string& vendor_value);
bool SetGLRendererInfo(const std::string& renderer_value);
bool SetGLExtensionsInfo(const std::string& extensions_value);
bool SetGLResetNotificationStrategyInfo(const std::string& op,
const std::string& int_string,
const std::string& int_string2);
bool SetCpuBrand(const std::string& cpu_value);
bool SetPerfGraphicsInfo(const std::string& op,
const std::string& float_string,
const std::string& float_string2);
bool SetPerfGamingInfo(const std::string& op,
const std::string& float_string,
const std::string& float_string2);
bool SetPerfOverallInfo(const std::string& op,
const std::string& float_string,
const std::string& float_string2);
bool AddMachineModelName(const std::string& model_name);
bool SetMachineModelVersionInfo(const std::string& version_op,
const std::string& version_string,
const std::string& version_string2);
bool SetGpuCountInfo(const std::string& op,
const std::string& int_string,
const std::string& int_string2);
void SetDirectRenderingInfo(bool value);
void SetInProcessGPUInfo(bool value);
bool SetPixelShaderVersionInfo(const std::string& version_op,
const std::string& version_string,
const std::string& version_string2);
bool SetFeatures(const std::vector<std::string>& features,
const std::vector<std::string>& exceptions,
const FeatureMap& feature_map,
bool supports_feature_type_all);
void AddException(ScopedGpuControlListEntry exception);
// Return true if GL_VERSION string does not fit the entry info
// on GL type and GL version.
bool GLVersionInfoMismatch(const std::string& gl_version) const;
static MultiGpuStyle StringToMultiGpuStyle(const std::string& style);
static MultiGpuCategory StringToMultiGpuCategory(
const std::string& category);
static GLType StringToGLType(const std::string& gl_type);
// map a feature_name to feature_id. If the string is not a registered
// feature name, return false.
static bool StringToFeature(const std::string& feature_name,
int* feature_id,
const FeatureMap& feature_map);
// Return the default GL type, depending on the OS.
// See GLType declaration.
static GLType GetDefaultGLType();
uint32_t id_;
bool disabled_;
std::string description_;
std::vector<int> cr_bugs_;
std::vector<int> webkit_bugs_;
std::vector<std::string> disabled_extensions_;
std::unique_ptr<OsInfo> os_info_;
uint32_t vendor_id_;
std::vector<uint32_t> device_id_list_;
MultiGpuStyle multi_gpu_style_;
MultiGpuCategory multi_gpu_category_;
GLType gl_type_;
std::string driver_vendor_info_;
std::unique_ptr<VersionInfo> driver_version_info_;
std::unique_ptr<VersionInfo> driver_date_info_;
std::unique_ptr<VersionInfo> gl_version_info_;
std::string gl_version_string_info_;
std::string gl_vendor_info_;
std::string gl_renderer_info_;
std::string gl_extensions_info_;
std::unique_ptr<IntInfo> gl_reset_notification_strategy_info_;
std::string cpu_brand_;
std::unique_ptr<FloatInfo> perf_graphics_info_;
std::unique_ptr<FloatInfo> perf_gaming_info_;
std::unique_ptr<FloatInfo> perf_overall_info_;
std::vector<std::string> machine_model_name_list_;
std::unique_ptr<VersionInfo> machine_model_version_info_;
std::unique_ptr<IntInfo> gpu_count_info_;
std::unique_ptr<BoolInfo> direct_rendering_info_;
std::unique_ptr<BoolInfo> in_process_gpu_info_;
std::unique_ptr<VersionInfo> pixel_shader_version_info_;
std::set<int> features_;
std::vector<ScopedGpuControlListEntry> exceptions_;
};
// Gets the current OS type.
static OsType GetOsType();
bool LoadList(const base::DictionaryValue& parsed_json, OsFilter os_filter);
void Clear();
static NumericOp StringToNumericOp(const std::string& op);
std::string version_;
std::vector<ScopedGpuControlListEntry> entries_;
// This records all the blacklist entries that are appliable to the current
// user machine. It is updated everytime MakeDecision() is called and is
// used later by GetDecisionEntries().
std::vector<ScopedGpuControlListEntry> active_entries_;
uint32_t max_entry_id_;
bool needs_more_info_;
// The features a GpuControlList recognizes and handles.
FeatureMap feature_map_;
bool supports_feature_type_all_;
bool control_list_logging_enabled_;
std::string control_list_logging_name_;
};
} // namespace gpu
#endif // GPU_CONFIG_GPU_CONTROL_LIST_H_
| [
"hedonist.ky@gmail.com"
] | hedonist.ky@gmail.com |
ee33d0b43013150c6dc6597c89d8f5a26a2b98dd | 8d55088a0e249dddfa4ed0d0073a158fe2c5c80b | /include/suic/Extend/Controls/ToolBar.h | 8e4dc3bd8132f9e45d9afd1cef81d512fd29339f | [
"MIT"
] | permissive | mackenbaron/MPFUI | bbdff0e3f2735a0a4898b74ca363b5243516d103 | bb720fc0323de5e9990765ece63854480f52282b | refs/heads/master | 2021-01-19T23:48:05.817174 | 2017-08-23T04:42:47 | 2017-08-23T04:42:47 | null | 0 | 0 | null | null | null | null | GB18030 | C++ | false | false | 4,792 | h | // 华勤科技版权所有 2010-2011
//
// 文件名:ToolBar.h
// 功 能:工具栏控件类。
//
// 作 者:MPF开发组
// 时 间:2010-07-02
//
// ============================================================================
#ifndef _UITOOLBAR_H_
#define _UITOOLBAR_H_
#include <Extend/suiwgxconfig.h>
#include <System/Tools/Array.h>
#include <System/Tools/Collection.h>
#include <Extend/Controls/ToolBarPanel.h>
#include <Framework/Controls/HeaderedItemsControl.h>
namespace suic
{
class BandInfo
{
private:
int _thickness;
Array<ToolBar*> _band;
public:
BandInfo()
{
_thickness = 0;
}
Array<ToolBar*>& GetBand()
{
return _band;
}
int GetThickness() const
{
return _thickness;
}
void SetThickness(int val)
{
_thickness = val;
}
};
class ToolBarTray;
class SUIWGX_API ToolBarCollection
{
public:
ToolBarCollection(ToolBarTray* parent);
~ToolBarCollection();
int GetCount() const;
ToolBar* GetToolBar(int index) const;
int IndexOf(Object* val);
bool Contains(Object* value);
void AddToolBar(ToolBar* item);
void InsertToolBar(int index, ToolBar* item);
void RemoveToolBar(int index);
void SetToolBar(int index, ToolBar* item);
void Clear();
private:
void RemoveToolBarItem(ToolBar* child);
void AddToolBarItem(ToolBar* toolBar);
private:
ToolBarTray* _parent;
Array<ToolBar*> _toolBars;
};
class SUIWGX_API ToolBarTray : public FrameworkElement, public IAddChild
{
public:
static DpProperty* OrientationProperty;
static bool StaticInit();
ToolBarTray();
~ToolBarTray();
Orientation GetOrientation();
void SetOrientation(Orientation val);
protected:
void OnArrange(const Size& arrangeSize);
Size OnMeasure(const Size& constraint);
void AddChild(Object* child);
void AddText(String val);
int GetVisualChildrenCount();
Element* GetVisualChild(int index);
private:
bool IsBandsDirty();
void GenerateBands();
ToolBarCollection* GetToolBars();
BandInfo* CreateBand(int startIndex);
int GetBandFromOffset(int toolBarOffset);
void InsertBand(ToolBar* toolBar, int toolBarIndex);
void InsertToolBar(ToolBar* toolBar, Array<ToolBar*>& band);
void ExpandToolBars(Array<ToolBar*>& band, int startIndex, int endIndex, int expandAmount);
private:
bool _bandsDirty;
Array<BandInfo*> _bands;
ToolBarCollection* _toolBarsCollection;
};
/// <summary>
/// ToolBar
/// </summary>
class SUIWGX_API ToolBar : public HeaderedItemsControl
{
public:
static DpProperty* BandIndexProperty;
static DpProperty* BandProperty;
static DpProperty* HasOverflowItemsProperty;
static DpProperty* IsOverflowItemProperty;
static DpProperty* IsOverflowOpenProperty;
static DpProperty* OrientationProperty;
static DpProperty* OverflowModeProperty;
static bool CoerceIsOverflowOpen(DpObject* d, bool val);
static Orientation CoerceOrientation(DpObject* d, Orientation val);
static bool CoerceToolTipIsEnabled(DpObject* d, bool val);
static bool GetIsOverflowItem(DpObject* elem);
static bool IsValidOverflowMode(int val);
static void SetIsOverflowItem(DpObject* elem, Object* val);
static void SetOverflowMode(DpObject* elem, OverflowMode mode);
static OverflowMode GetOverflowMode(DpObject* elem);
static void OnMouseDown(Element* sender, MouseButtonEventArg* e);
static void OnOverflowModeChanged(DpObject* d, DpPropChangedEventArg* e);
static void OnOverflowOpenChanged(DpObject* d, DpPropChangedEventArg* e);
static bool StaticInit();
ToolBar();
virtual ~ToolBar();
RTTIOfClass(ToolBar)
ToolBarOverflowPanel* FindToolBarOverflowPanel();
ToolBarPanel* FindToolBarPanel();
void InvalidateLayout();
int GetBand();
void SetBand(int val);
int GetBandIndex();
void SetBandIndex(int val);
bool IsOverflowOpen();
void SetIsOverflowOpen(bool val);
protected:
int GetMinLength() const;
int GetMaxLength() const;
ToolBarTray* GetToolBarTray();
Orientation GetOrientation();
ToolBarPanel* GetToolBarPanel();
ToolBarOverflowPanel* GetToolBarOverflowPanel();
void Close();
void RegisterToOpenOnLoad();
Size OnMeasure(const Size& constraint);
void OnItemsChanged(NotifyCollChangedEventArg* e);
void OnTemplateChangedInternal(FrameworkTemplate* oldTemplate, FrameworkTemplate* newTemplate);
friend class ToolBarTray;
friend class ToolBarPanel;
friend class ToolBarOverflowPanel;
private:
int _maxLength;
int _minLength;
ToolBarPanel* _toolBarPanel;
ToolBarOverflowPanel* _toolBarOverflowPanel;
};
}
#endif
| [
"china0851@foxmail.com"
] | china0851@foxmail.com |
0a528b42c8c16849dc310dcde4ee353b963ffb1d | 6e2ae6c455a3a615c40d4cf56ae500490458e4d1 | /src/utiltime.h | f10b16e541f6c004553a45b7a2c1cbafd8755205 | [
"MIT"
] | permissive | Jbuzzz/xuez | c7514220f7b39c5e14083c0ecf11d98d3cbae4d0 | 27f33b9674688b094baa5d8a9b8801ca84ce75eb | refs/heads/master | 2020-09-25T11:57:27.911983 | 2019-08-30T17:45:14 | 2019-08-30T17:45:14 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 662 | h | // Copyright (c) 2009-2010 Satoshi Nakamoto
// Copyright (c) 2009-2014 The Bitcoin developers
// Copyright (c) 2016-2018 The Xuez developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef BITCOIN_UTILTIME_H
#define BITCOIN_UTILTIME_H
#include <stdint.h>
#include <string>
int64_t GetTime();
int64_t GetTimeMillis();
int64_t GetTimeMicros();
void SetMockTime(int64_t nMockTimeIn);
void MilliSleep(int64_t n);
std::string DateTimeStrFormat(const char* pszFormat, int64_t nTime);
std::string DurationToDHMS(int64_t nDurationTime);
#endif // BITCOIN_UTILTIME_H
| [
"dbraford@gmail.com"
] | dbraford@gmail.com |
a204329abcc141459683057c39ad0dad5bdc8df2 | 9ca5b44b494b7e8e19a700e89734bb478df5ca5f | /NextPermutation.cpp | 7ac84c82ac2fb9f0400bdfa39fb4c2f9ce0aae61 | [
"BSD-3-Clause"
] | permissive | hgfeaon/leetcode | ce549f0dc8c3a7fa367f10a189f09dd6f8dbf7c6 | 1e2a562bd8341fc57a02ecff042379989f3361ea | refs/heads/master | 2021-01-25T08:59:56.033771 | 2015-03-10T06:35:51 | 2015-03-10T06:35:51 | 17,615,493 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 908 | cpp | #include <vector>
#include <iostream>
#include <cstdlib>
#include <algorithm>
using namespace std;
class Solution {
public:
void nextPermutation(vector<int> &num) {
// std::next_permutation(num.begin(), num.end());
// return;
if (num.size() < 2) return;
int i = num.size() - 2;
while (i>=0 && (num[i] >= num[i+1])) i--;
if (i >= 0) {
int p = num.size() - 1;
while (p >= 0 && num[p] <= num[i]) p--;
int t = num[i];
num[i] = num[p];
num[p] = t;
}
reverse(num.begin() + i + 1, num.end());
}
};
int main() {
int nums[] = {1, 2, 3};
vector<int> num(nums, nums + sizeof(nums) / sizeof(int));
Solution s;
s.nextPermutation(num);
for (int i=0; i<num.size(); i++) cout<<num[i]<<",";
cout<<endl;
system("pause");
return 0;
}
| [
"hgfeaon@qq.com"
] | hgfeaon@qq.com |
ae051a7a1b5c094205ea1c11683f43975bccb677 | 85014e06d4756739f4ff15c4a62cb76be2d7c2d9 | /software/src/stereomatcher/PhotometricNormalizer.h | 5cb17756b581a40af04549313851a001e0d0d018 | [] | no_license | vmartinlac/salma | ce96e8a6fa077ae70a4bd7f52028cb94cac5ce46 | a7b9688f92e9c78f778952356ec56193f80e2d0d | refs/heads/master | 2020-03-23T04:36:08.656763 | 2019-06-07T20:14:16 | 2019-06-07T20:14:16 | 141,093,741 | 2 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 391 | h |
#pragma once
#include <opencv2/core.hpp>
#include <vector>
class PhotometricNormalizer
{
public:
PhotometricNormalizer();
void prepare(const cv::Mat& left_image, const cv::Mat& right_image);
void operator()(
const cv::Mat& left_from,
const cv::Mat& right_from,
cv::Mat& left_to,
cv::Mat& right_to);
protected:
cv::Mat mRightToLeft;
};
| [
"victormartinlac@gmail.com"
] | victormartinlac@gmail.com |
5aee61d91f9b70560ff3abf7b7ffc62465545878 | c9cf0586ace11aa32fa67606d237a130a06364ee | /circular-cylinder-2-20/w_20/12/uniform/time | bd8d1b061955d2e711190488e49bda2cd836cc6e | [] | no_license | jezvonek/CFD-Final-Project | c74cfa21f22545c27d97d85cf30eb6dc8c824dc1 | 7c9a7fb032d74f20888effa0a0b75b212bf899f4 | refs/heads/master | 2022-07-05T14:43:52.967657 | 2020-05-14T03:40:56 | 2020-05-14T03:40:56 | 262,370,756 | 1 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 991 | /*--------------------------------*- C++ -*----------------------------------*\
| ========= | |
| \\ / F ield | OpenFOAM: The Open Source CFD Toolbox |
| \\ / O peration | Version: v1912 |
| \\ / A nd | Website: www.openfoam.com |
| \\/ M anipulation | |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
format ascii;
class dictionary;
location "12/uniform";
object time;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
value 12.0000000000004761;
name "12";
index 2400;
deltaT 0.005;
deltaT0 0.005;
// ************************************************************************* //
| [
"jezvonek@gmail.com"
] | jezvonek@gmail.com | |
12adfb05a9c4eae5f8cd940b492b079e7a9fb2a9 | 83ba8d0e0991f37914565bfe2c0e1a8226d35f5b | /Old_Stuff/coding_questions/rotate_array.cpp | e78d0455e64d1318dbb9a57d406cbcbbed010bcc | [] | no_license | danielin917/Interview | 0a32b3bd12670c7f734e4863495c59e67f2b3751 | 63da7d1482b7716ac93804d8044310aff6a04941 | refs/heads/master | 2021-01-15T15:36:58.918101 | 2016-09-13T18:57:10 | 2016-09-13T18:57:10 | 54,928,977 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 597 | cpp | #include<iostream>
using namespace std;
void swap(int& a, int& b){
int x = a;
a = b;
b = x;
}
void rotate_array(int r, int* array, int size){
int step = r % size;
int* storage = new int[step];
/*
*fill storage(plan ahead for deleted spots)
*/
for(int i = 0; i < step; i++)
{
storage[i] = array[i];
}
for(int i = 0; i < size; i++)
{
swap(array[(i + step) % size], storage[i % step]);
}
}
int main(){
int a[] = {1,2,3,4,5,6,7,8,9};
int length = sizeof(a)/sizeof(*a);
rotate_array(3, a, length);
for(int i = 0; i < length; i++){
cout << a[i] << " ";
}
cout << endl;
}
| [
"danielin@umich.edu"
] | danielin@umich.edu |
24c175543b36afe234eb717cd22009db3e79a361 | b074f6a668f55cb7329a23e1726fc07511e37b3d | /level03/여행경로.cpp | 738acb0bcc083909feb36a80805600e62027a7cd | [] | no_license | inbdni/Programmers | 2f6001a69c74b564bb03a42a82ac935cd71fda5a | 1bfbf28ba50ac47598108e175aa966bd566a510d | refs/heads/master | 2023-05-06T18:18:11.411457 | 2021-05-28T08:37:29 | 2021-05-28T08:37:29 | 323,623,856 | 3 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,139 | cpp | #include <string>
#include <vector>
#include <map>
#include <algorithm>
using namespace std;
map<string, vector<string>> path;
map<string, vector<bool>> visited;
vector<string> answer;
bool dfs(int r, int n, string curr)
{
int i;
if (r == n)
{
return true;
}
for (i = 0; i < path[curr].size(); i++)
{
if (visited[curr][i])
{
continue;
}
visited[curr][i] = true;
answer.push_back(path[curr][i]);
if (dfs(r + 1, n, path[curr][i]))
{
return true;
}
answer.pop_back();
visited[curr][i] = false;
}
return false;
}
vector<string> solution(vector<vector<string>> tickets) {
map<string, vector<string>>::iterator it;
int i;
for (i = 0; i < tickets.size(); i++)
{
path[tickets[i][0]].push_back(tickets[i][1]);
visited[tickets[i][0]].push_back(false);
}
for (it = path.begin(); it != path.end(); it++)
{
sort(it->second.begin(), it->second.end());
}
answer.push_back("ICN");
dfs(0, tickets.size(), "ICN");
return answer;
}
| [
"jimin@baegjimin-ui-MacBookPro.local"
] | jimin@baegjimin-ui-MacBookPro.local |
403e92cc56a82b93d0e5d14af13db9649e8f970b | 7684c324199fe7af993ba3de10930e51aa736119 | /data_structure/ThreadedTree.h | 7a60703205268cecaccf0dadd3da72d67a00a77d | [] | no_license | jelly074100209/algorithm_in_cpp | 734ecedeffdf4a14945803864d85fa0096cad35d | e986c2c325ed2a9f4c556b4c055c00dacf67d69a | refs/heads/master | 2021-01-11T05:21:30.327142 | 2016-11-21T09:08:07 | 2016-11-21T09:08:07 | 71,847,594 | 0 | 0 | null | null | null | null | GB18030 | C++ | false | false | 3,737 | h | #ifndef THREADED_TREE_H
#define THREADED_TREE_H
template<class T>
class ThreadedNode
{
public:
ThreadedNode()
{
left = right = 0;
}
ThreadedNode(const T& el, ThreadedNode *l = 0, ThreadedNode *r = 0)
{
key = el; left = l; right = r; successor = 0;
}
ThreadedNode *left, *right;
T key;
unsigned int successor : 1; //表示只占一bit,0表示后继,1表示前驱
};
template<class T>
class ThreadedTree
{
public:
ThreadedTree()
{
root = 0;
}
~ThreadedTree()
{
clear();
}
void clear()
{
clear(root); root = 0;
}
void virtual visit(ThreadedNode<T>* p)
{
cout << p->key << " ";
}
void preorder();
void inorder();
void postorder();
void insert(const T&);
protected:
ThreadedNode<T>* root;
void clear(ThreadedNode<T>*);
};
template<class T>
void ThreadedTree<T>::clear(ThreadedNode<T> *p)
{
if (p != 0)
{
clear(p->left);
if (p->successor == 0) //go to the right only if it is a descendant
{
clear(p->right);
}
delete p;
}
}
template<class T>
void ThreadedTree<T>::insert(const T& el)
{
ThreadedNode<T> *p, *prev = 0, *newNode;
newNode = new ThreadedNode<T>(el);
if (root == 0)//如果是空树则直接插入
{
root = newNode;
return;
}
p = root;
while (p != 0)//找到一个合适的节点准备插入
{
prev = p;//赋值给当前节点的前驱
if (p->key > el)
{
p = p->left;
}
else if (p->successor == 0)
{
p = p->right;
}
else break;
}
if (prev->key > el)//左子树
{
prev->left = newNode;
newNode->successor = 1;
newNode->right = prev;//构造前驱线索
}
else if (prev->successor == 1)//如果是右子树并且父节点有前驱,则取消父节点前驱
{
newNode->successor = 1;
prev->successor = 0;
newNode->right = prev->right;
prev->right = newNode;//将新节点放到右子树
}
else
{
prev->right = newNode;
}
}
template<class T>
void ThreadedTree<T>::inorder()
{
ThreadedNode<T> *prev, *p = root;
if (p != 0)
{
while (p->left != 0)
{
p = p->left;//先到最左子树
}
while (p != 0)
{
visit(p);//访问最左子树节点
prev = p;
p = p->right;
if (p != 0 && prev->successor == 0)
{
while (p->left != 0)
{
p = p->left;
}
}
}
}
}
template<class T>
void ThreadedTree<T>::preorder()
{
ThreadedNode<T> *p = root;
while (p != 0)
{
visit(p);
if (p->left != 0)
{
p = p->left;
}
else if (p->right != 0 && p->successor == 0)
{
p = p->right;
}
else
{
while (p->successor == 1)
{
p = p->right;
}
p = p->right;
}
}
}
template<class T>
void ThreadedTree<T>::postorder()
{
ThreadedNode<T> *q, *r, *s, *p = new ThreadedNode<T>, *rightmost, *dummy = p;
p->left = root;
for (rightmost = root; rightmost->right != 0; rightmost = rightmost->right);
rightmost->successor = 1;
rightmost->right = p;
enum direction
{
goLeft, goRight, visiting
} dir = goLeft;
while (p != 0)
{
if (dir == goLeft)
{
if (p->left != 0)
{
p = p->left;
}
else
{
dir = goRight;
}
}
else if (dir == goRight)
{
if (p->right != 0 && p->successor == 0)
{
p = p->right;
dir = goLeft;
}
else
{
dir = visiting;
}
}
else
{
if (p == dummy)
{
rightmost->right = 0;
rightmost->successor = 0;
delete dummy;
return;
}
visit(p);
if (p->right != 0 && p->right->left == p)
{
p = p->right;
dir = goRight;
}
else
{
for (q = p->right->left, r = q->right, s = r->right; r != p; q = r, r = s, s = s->right)
{
r->right = q;
}
for (s = q->right; q != p->right->left; q->right = r, r = q, q = s, s = s->right)
{
visit(q);
}
visit(q);
p = p->right;
dir = goRight;
}
}
}
}
#endif | [
"419756656@qq.com"
] | 419756656@qq.com |
581d77320935859b7d58af92b463e40e2e03dd12 | f1bd4d38d8a279163f472784c1ead12920b70be2 | /xr_3da/xrGame/AI/ai_monster_debug.cpp | e96ef29be07df457b8c01b241802dbbaefaafa63 | [] | no_license | YURSHAT/stk_2005 | 49613f4e4a9488ae5e3fd99d2b60fd9c6aca2c83 | b68bbf136688d57740fd9779423459ef5cbfbdbb | refs/heads/master | 2023-04-05T16:08:44.658227 | 2021-04-18T09:08:18 | 2021-04-18T18:35:59 | 361,129,668 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 3,144 | cpp | #include "stdafx.h"
#include "ai_monster_debug.h"
#include "../entity_alive.h"
#include "../hudmanager.h"
#include "../level.h"
CMonsterDebug::CMonsterDebug(CEntityAlive *pM, const Fvector &shift_vec, float height)
{
pMonster = pM;
floor_height = height;
shift = shift_vec;
active = false;
}
CMonsterDebug::~CMonsterDebug()
{
}
void CMonsterDebug::M_Clear()
{
_data.clear();
}
void CMonsterDebug::M_Add(u32 index, LPCSTR str, u32 col)
{
if (_data.size() < index) index = _data.size();
_elem new_elem;
strcpy(new_elem.text, str);
new_elem.col = col;
if (index < _data.size()) _data[index] = new_elem;
else _data.push_back(new_elem);
}
void CMonsterDebug::M_Update()
{
#ifdef DEBUG
if (!active) return;
Fmatrix res;
res.mul(Device.mFullTransform,pMonster->XFORM());
Fvector4 v_res;
res.transform(v_res,shift);
if (v_res.z < 0 || v_res.w < 0) return;
if (v_res.x < -1.f || v_res.x > 1.f || v_res.y<-1.f || v_res.y>1.f) return;
float x = (1.f + v_res.x)/2.f * (Device.dwWidth);
float y = (1.f - v_res.y)/2.f * (Device.dwHeight);
for (u32 i=0; i<_data.size(); i++) {
HUD().pFontMedium->SetColor(_data[i].col);
HUD().pFontMedium->OutSet(x,y-=floor_height);
HUD().pFontMedium->OutNext(_data[i].text);
}
#endif
}
//-------------------------------------------------------------------------------------
void CMonsterDebug::L_AddPoint(const Fvector &pos, float box_size, u32 col)
{
for (u32 i=0; i<_points.size(); i++) {
if (_points[i].pos.similar(pos)) return;
}
_elem_point new_point;
new_point.pos = pos;
new_point.col = col;
new_point.box_size = box_size;
_points.push_back(new_point);
}
void CMonsterDebug::L_AddLine(const Fvector &pos, const Fvector &pos2, u32 col)
{
for (u32 i=0; i<_lines.size(); i++) {
if (_lines[i].p1.similar(pos) && _lines[i].p2.similar(pos2)) return;
}
_elem_line new_line;
new_line.p1 = pos;
new_line.p2 = pos2;
new_line.col = col;
_lines.push_back(new_line);
}
void CMonsterDebug::L_Clear()
{
_points.clear();
_lines.clear();
}
void CMonsterDebug::L_Update()
{
#ifdef DEBUG
if (!active) return;
for (u32 i=0; i<_points.size(); i++) {
RCache.dbg_DrawAABB(_points[i].pos,_points[i].box_size,_points[i].box_size,_points[i].box_size,_points[i].col);
Fvector upV;
upV = _points[i].pos;
upV.y += 5.0f;
RCache.dbg_DrawLINE(Fidentity,_points[i].pos,upV,_points[i].col);
}
for (i=0; i<_lines.size(); i++) {
RCache.dbg_DrawLINE(Fidentity,_lines[i].p1,_lines[i].p2,_lines[i].col);
}
#endif
}
//-------------------------------------------------------------------------------------
void CMonsterDebug::HT_Add(float x, float y, LPCSTR str)
{
for (u32 i=0; i<_text.size(); i++) {
if (xr_strcmp(_text[i].text, str) == 0) return;
}
_elem_const new_text;
strcpy(new_text.text, str);
new_text.x = x;
new_text.y = y;
_text.push_back(new_text);
}
void CMonsterDebug::HT_Clear()
{
_text.clear();
}
void CMonsterDebug::HT_Update()
{
#ifdef DEBUG
if (!active) return;
for (u32 i=0; i<_text.size(); i++) {
HUD().pFontMedium->OutSet(_text[i].x,_text[i].y);
HUD().pFontMedium->OutNext(_text[i].text);
}
#endif
}
| [
"loxotron@bk.ru"
] | loxotron@bk.ru |
f1f93877aa4d875c01fa8da4120df12d0d76772f | ef1ff47700c85548f7cb0cfd18e85b855933474c | /include/PDF/TimestampingConfiguration.h | 051e94f3acc54539e7131d6d679296479ce44942 | [] | no_license | Innovasium-2014/PDFTron-SDK | 6ea169ba89b5031083d0188e2a96f1fe6157dc76 | 0aa79129af0292c1f195d3e17b71ec9501479f0c | refs/heads/master | 2023-03-27T22:40:59.947292 | 2021-04-01T15:30:26 | 2021-04-01T15:30:26 | 236,060,276 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 3,085 | h | //---------------------------------------------------------------------------------------
// Copyright (c) 2001-2020 by PDFTron Systems Inc. All Rights Reserved.
// Consult legal.txt regarding legal and license information.
//---------------------------------------------------------------------------------------
#ifndef PDFTRON_H_CPPPDFTimestampingConfiguration
#define PDFTRON_H_CPPPDFTimestampingConfiguration
#include <C/PDF/TRN_TimestampingConfiguration.h>
#include <Common/BasicTypes.h>
#include <Common/UString.h>
#include <PDF/PDFDoc.h>
#include <PDF/VerificationOptions.h>
#include <PDF/TimestampingTestResult.h>
namespace pdftron { namespace PDF {
/**
* A class representing a set of options for timestamping a document.
*/
class TimestampingConfiguration
{
public:
TimestampingConfiguration(const TimestampingConfiguration& other);
TimestampingConfiguration& operator= (const TimestampingConfiguration& other);
~TimestampingConfiguration();
void Destroy();
//methods:
/**
* Constructor.
*
* @param in_url -- a string representing a URL of a timestamp authority (TSA) to use during timestamping
*/
TimestampingConfiguration(const UString& in_url);
/**
* Setter to change the timestamp authority (TSA) URL to use during timestamping.
*
* @param in_url -- a string representing a URL of a timestamp authority.
*/
void SetTimestampAuthorityServerURL(const UString& in_url);
/**
* Setter for a username to use during timestamping.
*
* @param in_username -- a string representing a username..
*/
void SetTimestampAuthorityServerUsername(const UString& in_username);
/**
* Setter for a username to use during timestamping.
*
* @param in_password -- a string representing a password..
*/
void SetTimestampAuthorityServerPassword(const UString& in_password);
/**
* Setter for whether to use a nonce (unique random number) during timestamping.
* This is on by default, and should be on whenever a timestamp authority
* supports it, because it helps prevent replay attacks.
*
* @param in_use_nonce -- a boolean value representing whether or not to use a nonce
*/
void SetUseNonce(bool in_use_nonce);
/**
* Tests a timestamping configuration for usability and reports any failures. This function
* does not throw on many common failures, unlike the real signing, thereby allowing early
* diagnosis of things like connectivity issues with timestamp authorities.
*
* @param in_opts -- a set of verification options to try to use
* @return A result object containing information about the status of the configuration test
* and any errors that occurred during it.
*/
TimestampingTestResult TestConfiguration(const pdftron::PDF::VerificationOptions& in_opts) const;
#ifdef SWIG
TimestampingConfiguration();
#endif
#ifndef SWIGHIDDEN
TimestampingConfiguration(TRN_TimestampingConfiguration impl);
TRN_TimestampingConfiguration m_impl;
#endif
};
#include <Impl/TimestampingConfiguration.inl>
} //end pdftron
} //end PDF
#endif //PDFTRON_H_CPPPDFTimestampingConfiguration
| [
"alegemaate@gmail.com"
] | alegemaate@gmail.com |
3c30ea8c5c83be8a8308659e3718cc2914997482 | 00eaeacedc909bf421474eb6bb3c84ed370258aa | /Thefightplan.cpp | be5c4794fa85265159583cf78d54ac957b505493 | [] | no_license | kibo27/coding | 232e51a96214b4bc0db12dd7ec8f8e2cddc7bba4 | 4bf5d21048e399fdb2cf0f6dc7ad4df573ad70e5 | refs/heads/master | 2020-12-28T16:35:18.168628 | 2020-03-07T04:16:38 | 2020-03-07T04:16:38 | 238,406,767 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,079 | cpp | #include<bits/stdc++.h>
using namespace std;
typedef long long ll;
#define pb push_back
#define mp make_pair
#define mem(x,y) memset(x,y,sizeof(x))
#define Boost std::ios::sync_with_stdio(false);
void Bfs(vector<vector<int>> &x,int s,int e)
{
queue<int> bs;
vector<int> vis(x.size(),1);
map<int,int> ma;
bs.push(s);
ma[s]=0;
vis[s]=0;
while(!bs.empty())
{
int vs=bs.front();
bs.pop();
for (int i = 0; i < x[vs].size(); i++)
{
if(x[vs][i])
if(vis[i])
{
vis[i]=0;
ma[i]=vs;
bs.push(i);
}
}
}
stack<int> xo;
xo.push(e);
while(ma[e])
{
xo.push(ma[e]);
e=ma[e];
}
cout<<xo.size()<<"\n";
while (!xo.empty())
{
cout<<xo.top()<<" ";
xo.pop();
}
cout<<"\n";
}
int main()
{
Boost;
int n,m,t,c,u,v;
cin>>n>>m>>t>>c;
vector<vector<int>> x(n+1,vector<int>(n+1,0));
for (int i = 0; i < m; i++)
{
cin>>u>>v;
x[u][v]=1;
x[v][u]=1;
}
cin>>u>>v;
Bfs(x,u,v);
} | [
"anprest149@gmail.com"
] | anprest149@gmail.com |
0bd8042578a5e70371279fb5843d42767ae86117 | 3ed8b1a88c529c48333e8480ed3db9727eb0564c | /TeaProduction IMS/stdafx.cpp | ea935ed1874b74ed3aa0cef27904d4a98e2a7a30 | [] | no_license | zhouyu0615/TeaProduction-IMS | eb3e6f986bf148cb9e758c2d3eb27913ef4acc2f | c23a38ebc2c47509ea864697af1ce127b49aa1f4 | refs/heads/master | 2016-09-05T20:03:36.064850 | 2015-07-21T11:12:35 | 2015-07-21T11:12:35 | 39,171,050 | 1 | 0 | null | 2015-07-20T00:24:07 | 2015-07-16T01:59:57 | C++ | GB18030 | C++ | false | false | 172 | cpp |
// stdafx.cpp : 只包括标准包含文件的源文件
// TeaProduction IMS.pch 将作为预编译头
// stdafx.obj 将包含预编译类型信息
#include "stdafx.h"
| [
"871211719@qq.com"
] | 871211719@qq.com |
c939f8ffb014af3b3a8d8a725c5902599725e7e0 | fb5620092b301774495b8845ec8df8c248d4ac06 | /cho/src/generated/riot_api_data.cpp | cf060fd00cf192f0f8f19cd35c85dbf072983168 | [
"MIT"
] | permissive | Querijn/ChoPlusPlus | ffcd06ccd14620d3518483df96c6e8975fb6f270 | 9ff68c7ae6594ca9bdb6928489c7ac01b15d0aee | refs/heads/master | 2021-06-09T04:39:38.863718 | 2020-04-15T06:08:24 | 2020-04-15T06:08:24 | 92,028,574 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 159,627 | cpp | // This file is automatically generated!
// To edit this, edit template/source.mst and run cho_generator.
#include <cho/generated/riot_api_data.hpp>
#include <cho/generated/riot_api_platform.hpp>
#include <cho/riot_api_request.hpp>
#include <cho_json/json.hpp>
#include <cho/hash.hpp>
#include <thread>
namespace cho
{
template<typename ... Args>
std::string string_format(const std::string& format, Args ... args)
{
size_t size = snprintf(nullptr, 0, format.c_str(), args ...) + 1;
if( size <= 0 )
throw std::runtime_error("Error during size evaluation of string_format, cannot determine end size of string!");
if (size < 1024)
{
char buf[1024];
snprintf(buf, size, format.c_str(), args...);
return std::string(buf, buf + size - 1);
}
else
{
std::unique_ptr<char[]> buf(new char[ size ]);
snprintf(buf.get(), size, format.c_str(), args ...);
return std::string(buf.get(), buf.get() + size - 1);
}
}
std::string to_string(const cho::champion_key& a_type)
{
return std::to_string(static_cast<int32_t>(a_type));
}
std::string to_string(const std::string& a_type)
{
return a_type;
}
template<typename T>
void setup_optional_argument(std::string& a_path, const char* a_name, const T& a_elem, bool& a_is_first)
{
a_path += a_is_first ? '?' : '&';
a_path += a_name;
a_path += '=';
a_path += to_string(a_elem);
a_is_first = false;
}
template<typename T>
void setup_optional_argument(std::string& a_path, const char* a_name, const std::vector<T>& a_vector, bool& a_is_first)
{
for (auto& elem : a_vector)
setup_optional_argument(a_path, a_name, elem, a_is_first);
}
template<typename T>
void setup_optional_argument(std::string& a_path, const char* a_name, cho::optional<T> a_elem, bool& a_is_first)
{
if (a_elem.filled == false)
return;
setup_optional_argument(a_path, a_name, a_elem.value, a_is_first);
}
platform_id get_platform_by_string(const char* a_platform_string)
{
switch (cho::crc32_lc(a_platform_string, strlen(a_platform_string)))
{
default:
case COMPILE_TIME_CRC32_LC_STR("br1"): return platform_id::br1;
case COMPILE_TIME_CRC32_LC_STR("eun1"): return platform_id::eun1;
case COMPILE_TIME_CRC32_LC_STR("euw1"): return platform_id::euw1;
case COMPILE_TIME_CRC32_LC_STR("jp1"): return platform_id::jp1;
case COMPILE_TIME_CRC32_LC_STR("kr"): return platform_id::kr;
case COMPILE_TIME_CRC32_LC_STR("la1"): return platform_id::la1;
case COMPILE_TIME_CRC32_LC_STR("la2"): return platform_id::la2;
case COMPILE_TIME_CRC32_LC_STR("na1"): return platform_id::na1;
case COMPILE_TIME_CRC32_LC_STR("oc1"): return platform_id::oc1;
case COMPILE_TIME_CRC32_LC_STR("tr1"): return platform_id::tr1;
case COMPILE_TIME_CRC32_LC_STR("ru"): return platform_id::ru;
case COMPILE_TIME_CRC32_LC_STR("pbe1"): return platform_id::pbe1;
case COMPILE_TIME_CRC32_LC_STR("americas"): return platform_id::americas;
case COMPILE_TIME_CRC32_LC_STR("europe"): return platform_id::europe;
case COMPILE_TIME_CRC32_LC_STR("asia"): return platform_id::asia;
}
}
static std::vector<const char*> g_riot_api_servers =
{
"https://br1.api.riotgames.com",
"https://eun1.api.riotgames.com",
"https://euw1.api.riotgames.com",
"https://jp1.api.riotgames.com",
"https://kr.api.riotgames.com",
"https://la1.api.riotgames.com",
"https://la2.api.riotgames.com",
"https://na1.api.riotgames.com",
"https://oc1.api.riotgames.com",
"https://tr1.api.riotgames.com",
"https://ru.api.riotgames.com",
"https://pbe1.api.riotgames.com",
"https://americas.api.riotgames.com",
"https://europe.api.riotgames.com",
"https://asia.api.riotgames.com",
};
void from_json(cho::json& a_json, std::string& a_string)
{
a_string = a_json.to_string();
}
void from_json(cho::json& a_json, int64_t& a_number)
{
a_number = a_json.to_integer();
}
void from_json(cho::json& a_json, int32_t& a_number)
{
a_number = static_cast<int32_t>(a_json.to_integer());
}
void from_json(cho::json& a_json, uint64_t& a_number)
{
a_number = static_cast<uint64_t>(a_json.to_unsigned_integer());
}
void from_json(cho::json& a_json, uint32_t& a_number)
{
a_number = static_cast<uint32_t>(a_json.to_unsigned_integer());
}
void from_json(cho::json& a_json, champion_key& a_number)
{
a_number = static_cast<champion_key>(a_json.to_unsigned_integer());
}
void from_json(cho::json& a_json, double& a_number)
{
a_number = a_json.to_double();
}
void from_json(cho::json& a_json, float& a_number)
{
a_number = static_cast<float>(a_json.to_double());
}
void from_json(cho::json& a_json, bool& a_bool)
{
a_bool = a_json.to_bool();
}
template<typename T>
void from_json(cho::json& a_json, std::vector<T>& a_array)
{
a_array.clear();
T elem;
for (auto& json_elem : a_json)
{
from_json(*json_elem.second, elem);
a_array.push_back(elem);
}
}
template<typename T>
void from_json(cho::json& a_json, std::map<std::string, T>& a_map)
{
a_map.clear();
T elem;
for (auto& json_elem : a_json)
{
from_json(*json_elem.second, elem);
a_map[json_elem.first.to_string()] = elem;
}
}
void from_json(cho::json& a_json, champion_mastery_v4::champion_mastery_dto& a_element)
{
if (a_json["championId"] != nullptr)
from_json(*a_json["championId"], a_element.champion_id);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
if (a_json["chestGranted"] != nullptr)
from_json(*a_json["chestGranted"], a_element.chest_granted);
if (a_json["lastPlayTime"] != nullptr)
from_json(*a_json["lastPlayTime"], a_element.last_play_time);
if (a_json["tokensEarned"] != nullptr)
from_json(*a_json["tokensEarned"], a_element.tokens_earned);
if (a_json["championLevel"] != nullptr)
from_json(*a_json["championLevel"], a_element.champion_level);
if (a_json["championPoints"] != nullptr)
from_json(*a_json["championPoints"], a_element.champion_points);
if (a_json["championPointsSinceLastLevel"] != nullptr)
from_json(*a_json["championPointsSinceLastLevel"], a_element.champion_points_since_last_level);
if (a_json["championPointsUntilNextLevel"] != nullptr)
from_json(*a_json["championPointsUntilNextLevel"], a_element.champion_points_until_next_level);
}
void from_json(cho::json& a_json, champion_v3::champion_info& a_element)
{
if (a_json["freeChampionIds"] != nullptr)
from_json(*a_json["freeChampionIds"], a_element.free_champion_ids);
if (a_json["maxNewPlayerLevel"] != nullptr)
from_json(*a_json["maxNewPlayerLevel"], a_element.max_new_player_level);
if (a_json["freeChampionIdsForNewPlayers"] != nullptr)
from_json(*a_json["freeChampionIdsForNewPlayers"], a_element.free_champion_ids_for_new_players);
}
void from_json(cho::json& a_json, clash_v1::player_dto& a_element)
{
if (a_json["role"] != nullptr)
from_json(*a_json["role"], a_element.role);
if (a_json["teamId"] != nullptr)
from_json(*a_json["teamId"], a_element.team_id);
if (a_json["position"] != nullptr)
from_json(*a_json["position"], a_element.position);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
}
void from_json(cho::json& a_json, clash_v1::team_dto& a_element)
{
if (a_json["id"] != nullptr)
from_json(*a_json["id"], a_element.id);
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["tier"] != nullptr)
from_json(*a_json["tier"], a_element.tier);
if (a_json["iconId"] != nullptr)
from_json(*a_json["iconId"], a_element.icon_id);
if (a_json["captain"] != nullptr)
from_json(*a_json["captain"], a_element.captain);
if (a_json["players"] != nullptr)
from_json(*a_json["players"], a_element.players);
if (a_json["abbreviation"] != nullptr)
from_json(*a_json["abbreviation"], a_element.abbreviation);
if (a_json["tournamentId"] != nullptr)
from_json(*a_json["tournamentId"], a_element.tournament_id);
}
void from_json(cho::json& a_json, clash_v1::tournament_phase_dto& a_element)
{
if (a_json["id"] != nullptr)
from_json(*a_json["id"], a_element.id);
if (a_json["cancelled"] != nullptr)
from_json(*a_json["cancelled"], a_element.cancelled);
if (a_json["startTime"] != nullptr)
from_json(*a_json["startTime"], a_element.start_time);
if (a_json["registrationTime"] != nullptr)
from_json(*a_json["registrationTime"], a_element.registration_time);
}
void from_json(cho::json& a_json, clash_v1::tournament_dto& a_element)
{
if (a_json["id"] != nullptr)
from_json(*a_json["id"], a_element.id);
if (a_json["nameKey"] != nullptr)
from_json(*a_json["nameKey"], a_element.name_key);
if (a_json["themeId"] != nullptr)
from_json(*a_json["themeId"], a_element.theme_id);
if (a_json["schedule"] != nullptr)
from_json(*a_json["schedule"], a_element.schedule);
if (a_json["nameKeySecondary"] != nullptr)
from_json(*a_json["nameKeySecondary"], a_element.name_key_secondary);
}
void from_json(cho::json& a_json, league_exp_v4::mini_series_dto& a_element)
{
if (a_json["wins"] != nullptr)
from_json(*a_json["wins"], a_element.wins);
if (a_json["losses"] != nullptr)
from_json(*a_json["losses"], a_element.losses);
if (a_json["target"] != nullptr)
from_json(*a_json["target"], a_element.target);
if (a_json["progress"] != nullptr)
from_json(*a_json["progress"], a_element.progress);
}
void from_json(cho::json& a_json, league_exp_v4::league_entry_dto& a_element)
{
if (a_json["rank"] != nullptr)
from_json(*a_json["rank"], a_element.rank);
if (a_json["tier"] != nullptr)
from_json(*a_json["tier"], a_element.tier);
if (a_json["wins"] != nullptr)
from_json(*a_json["wins"], a_element.wins);
if (a_json["losses"] != nullptr)
from_json(*a_json["losses"], a_element.losses);
if (a_json["veteran"] != nullptr)
from_json(*a_json["veteran"], a_element.veteran);
if (a_json["inactive"] != nullptr)
from_json(*a_json["inactive"], a_element.inactive);
if (a_json["leagueId"] != nullptr)
from_json(*a_json["leagueId"], a_element.league_id);
if (a_json["hotStreak"] != nullptr)
from_json(*a_json["hotStreak"], a_element.hot_streak);
if (a_json["queueType"] != nullptr)
from_json(*a_json["queueType"], a_element.queue_type);
if (a_json["freshBlood"] != nullptr)
from_json(*a_json["freshBlood"], a_element.fresh_blood);
if (a_json["miniSeries"] != nullptr)
from_json(*a_json["miniSeries"], a_element.mini_series);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
if (a_json["leaguePoints"] != nullptr)
from_json(*a_json["leaguePoints"], a_element.league_points);
if (a_json["summonerName"] != nullptr)
from_json(*a_json["summonerName"], a_element.summoner_name);
}
void from_json(cho::json& a_json, league_v4::mini_series_dto& a_element)
{
if (a_json["wins"] != nullptr)
from_json(*a_json["wins"], a_element.wins);
if (a_json["losses"] != nullptr)
from_json(*a_json["losses"], a_element.losses);
if (a_json["target"] != nullptr)
from_json(*a_json["target"], a_element.target);
if (a_json["progress"] != nullptr)
from_json(*a_json["progress"], a_element.progress);
}
void from_json(cho::json& a_json, league_v4::league_entry_dto& a_element)
{
if (a_json["rank"] != nullptr)
from_json(*a_json["rank"], a_element.rank);
if (a_json["tier"] != nullptr)
from_json(*a_json["tier"], a_element.tier);
if (a_json["wins"] != nullptr)
from_json(*a_json["wins"], a_element.wins);
if (a_json["losses"] != nullptr)
from_json(*a_json["losses"], a_element.losses);
if (a_json["veteran"] != nullptr)
from_json(*a_json["veteran"], a_element.veteran);
if (a_json["inactive"] != nullptr)
from_json(*a_json["inactive"], a_element.inactive);
if (a_json["leagueId"] != nullptr)
from_json(*a_json["leagueId"], a_element.league_id);
if (a_json["hotStreak"] != nullptr)
from_json(*a_json["hotStreak"], a_element.hot_streak);
if (a_json["queueType"] != nullptr)
from_json(*a_json["queueType"], a_element.queue_type);
if (a_json["freshBlood"] != nullptr)
from_json(*a_json["freshBlood"], a_element.fresh_blood);
if (a_json["miniSeries"] != nullptr)
from_json(*a_json["miniSeries"], a_element.mini_series);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
if (a_json["leaguePoints"] != nullptr)
from_json(*a_json["leaguePoints"], a_element.league_points);
if (a_json["summonerName"] != nullptr)
from_json(*a_json["summonerName"], a_element.summoner_name);
}
void from_json(cho::json& a_json, league_v4::league_item_dto& a_element)
{
if (a_json["rank"] != nullptr)
from_json(*a_json["rank"], a_element.rank);
if (a_json["wins"] != nullptr)
from_json(*a_json["wins"], a_element.wins);
if (a_json["losses"] != nullptr)
from_json(*a_json["losses"], a_element.losses);
if (a_json["veteran"] != nullptr)
from_json(*a_json["veteran"], a_element.veteran);
if (a_json["inactive"] != nullptr)
from_json(*a_json["inactive"], a_element.inactive);
if (a_json["hotStreak"] != nullptr)
from_json(*a_json["hotStreak"], a_element.hot_streak);
if (a_json["freshBlood"] != nullptr)
from_json(*a_json["freshBlood"], a_element.fresh_blood);
if (a_json["miniSeries"] != nullptr)
from_json(*a_json["miniSeries"], a_element.mini_series);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
if (a_json["leaguePoints"] != nullptr)
from_json(*a_json["leaguePoints"], a_element.league_points);
if (a_json["summonerName"] != nullptr)
from_json(*a_json["summonerName"], a_element.summoner_name);
}
void from_json(cho::json& a_json, league_v4::league_list_dto& a_element)
{
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["tier"] != nullptr)
from_json(*a_json["tier"], a_element.tier);
if (a_json["queue"] != nullptr)
from_json(*a_json["queue"], a_element.queue);
if (a_json["entries"] != nullptr)
from_json(*a_json["entries"], a_element.entries);
if (a_json["leagueId"] != nullptr)
from_json(*a_json["leagueId"], a_element.league_id);
}
void from_json(cho::json& a_json, lol_status_v3::translation& a_element)
{
if (a_json["locale"] != nullptr)
from_json(*a_json["locale"], a_element.locale);
if (a_json["content"] != nullptr)
from_json(*a_json["content"], a_element.content);
if (a_json["heading"] != nullptr)
from_json(*a_json["heading"], a_element.heading);
}
void from_json(cho::json& a_json, lol_status_v3::message& a_element)
{
if (a_json["id"] != nullptr)
from_json(*a_json["id"], a_element.id);
if (a_json["author"] != nullptr)
from_json(*a_json["author"], a_element.author);
if (a_json["content"] != nullptr)
from_json(*a_json["content"], a_element.content);
if (a_json["severity"] != nullptr)
from_json(*a_json["severity"], a_element.severity);
if (a_json["created_at"] != nullptr)
from_json(*a_json["created_at"], a_element.created_at);
if (a_json["updated_at"] != nullptr)
from_json(*a_json["updated_at"], a_element.updated_at);
if (a_json["translations"] != nullptr)
from_json(*a_json["translations"], a_element.translations);
}
void from_json(cho::json& a_json, lol_status_v3::incident& a_element)
{
if (a_json["id"] != nullptr)
from_json(*a_json["id"], a_element.id);
if (a_json["active"] != nullptr)
from_json(*a_json["active"], a_element.active);
if (a_json["updates"] != nullptr)
from_json(*a_json["updates"], a_element.updates);
if (a_json["created_at"] != nullptr)
from_json(*a_json["created_at"], a_element.created_at);
}
void from_json(cho::json& a_json, lol_status_v3::service& a_element)
{
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["slug"] != nullptr)
from_json(*a_json["slug"], a_element.slug);
if (a_json["status"] != nullptr)
from_json(*a_json["status"], a_element.status);
if (a_json["incidents"] != nullptr)
from_json(*a_json["incidents"], a_element.incidents);
}
void from_json(cho::json& a_json, lol_status_v3::shard_status& a_element)
{
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["slug"] != nullptr)
from_json(*a_json["slug"], a_element.slug);
if (a_json["locales"] != nullptr)
from_json(*a_json["locales"], a_element.locales);
if (a_json["hostname"] != nullptr)
from_json(*a_json["hostname"], a_element.hostname);
if (a_json["services"] != nullptr)
from_json(*a_json["services"], a_element.services);
if (a_json["region_tag"] != nullptr)
from_json(*a_json["region_tag"], a_element.region_tag);
}
void from_json(cho::json& a_json, lor_ranked_v1::player_dto& a_element)
{
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["rank"] != nullptr)
from_json(*a_json["rank"], a_element.rank);
}
void from_json(cho::json& a_json, lor_ranked_v1::leaderboard_dto& a_element)
{
if (a_json["players"] != nullptr)
from_json(*a_json["players"], a_element.players);
}
void from_json(cho::json& a_json, match_v4::mastery_dto& a_element)
{
if (a_json["rank"] != nullptr)
from_json(*a_json["rank"], a_element.rank);
if (a_json["masteryId"] != nullptr)
from_json(*a_json["masteryId"], a_element.mastery_id);
}
void from_json(cho::json& a_json, match_v4::team_bans_dto& a_element)
{
if (a_json["pickTurn"] != nullptr)
from_json(*a_json["pickTurn"], a_element.pick_turn);
if (a_json["championId"] != nullptr)
from_json(*a_json["championId"], a_element.champion_id);
}
void from_json(cho::json& a_json, match_v4::team_stats_dto& a_element)
{
if (a_json["win"] != nullptr)
from_json(*a_json["win"], a_element.win);
if (a_json["bans"] != nullptr)
from_json(*a_json["bans"], a_element.bans);
if (a_json["teamId"] != nullptr)
from_json(*a_json["teamId"], a_element.team_id);
if (a_json["baronKills"] != nullptr)
from_json(*a_json["baronKills"], a_element.baron_kills);
if (a_json["firstBaron"] != nullptr)
from_json(*a_json["firstBaron"], a_element.first_baron);
if (a_json["firstBlood"] != nullptr)
from_json(*a_json["firstBlood"], a_element.first_blood);
if (a_json["firstTower"] != nullptr)
from_json(*a_json["firstTower"], a_element.first_tower);
if (a_json["towerKills"] != nullptr)
from_json(*a_json["towerKills"], a_element.tower_kills);
if (a_json["dragonKills"] != nullptr)
from_json(*a_json["dragonKills"], a_element.dragon_kills);
if (a_json["firstDragon"] != nullptr)
from_json(*a_json["firstDragon"], a_element.first_dragon);
if (a_json["vilemawKills"] != nullptr)
from_json(*a_json["vilemawKills"], a_element.vilemaw_kills);
if (a_json["firstInhibitor"] != nullptr)
from_json(*a_json["firstInhibitor"], a_element.first_inhibitor);
if (a_json["inhibitorKills"] != nullptr)
from_json(*a_json["inhibitorKills"], a_element.inhibitor_kills);
if (a_json["firstRiftHerald"] != nullptr)
from_json(*a_json["firstRiftHerald"], a_element.first_rift_herald);
if (a_json["riftHeraldKills"] != nullptr)
from_json(*a_json["riftHeraldKills"], a_element.rift_herald_kills);
if (a_json["dominionVictoryScore"] != nullptr)
from_json(*a_json["dominionVictoryScore"], a_element.dominion_victory_score);
}
void from_json(cho::json& a_json, match_v4::rune_dto& a_element)
{
if (a_json["rank"] != nullptr)
from_json(*a_json["rank"], a_element.rank);
if (a_json["runeId"] != nullptr)
from_json(*a_json["runeId"], a_element.rune_id);
}
void from_json(cho::json& a_json, match_v4::participant_stats_dto& a_element)
{
if (a_json["win"] != nullptr)
from_json(*a_json["win"], a_element.win);
if (a_json["item0"] != nullptr)
from_json(*a_json["item0"], a_element.item0);
if (a_json["item1"] != nullptr)
from_json(*a_json["item1"], a_element.item1);
if (a_json["item2"] != nullptr)
from_json(*a_json["item2"], a_element.item2);
if (a_json["item3"] != nullptr)
from_json(*a_json["item3"], a_element.item3);
if (a_json["item4"] != nullptr)
from_json(*a_json["item4"], a_element.item4);
if (a_json["item5"] != nullptr)
from_json(*a_json["item5"], a_element.item5);
if (a_json["item6"] != nullptr)
from_json(*a_json["item6"], a_element.item6);
if (a_json["kills"] != nullptr)
from_json(*a_json["kills"], a_element.kills);
if (a_json["perk0"] != nullptr)
from_json(*a_json["perk0"], a_element.perk0);
if (a_json["perk1"] != nullptr)
from_json(*a_json["perk1"], a_element.perk1);
if (a_json["perk2"] != nullptr)
from_json(*a_json["perk2"], a_element.perk2);
if (a_json["perk3"] != nullptr)
from_json(*a_json["perk3"], a_element.perk3);
if (a_json["perk4"] != nullptr)
from_json(*a_json["perk4"], a_element.perk4);
if (a_json["perk5"] != nullptr)
from_json(*a_json["perk5"], a_element.perk5);
if (a_json["deaths"] != nullptr)
from_json(*a_json["deaths"], a_element.deaths);
if (a_json["assists"] != nullptr)
from_json(*a_json["assists"], a_element.assists);
if (a_json["goldSpent"] != nullptr)
from_json(*a_json["goldSpent"], a_element.gold_spent);
if (a_json["perk0Var1"] != nullptr)
from_json(*a_json["perk0Var1"], a_element.perk0var1);
if (a_json["perk0Var2"] != nullptr)
from_json(*a_json["perk0Var2"], a_element.perk0var2);
if (a_json["perk0Var3"] != nullptr)
from_json(*a_json["perk0Var3"], a_element.perk0var3);
if (a_json["perk1Var1"] != nullptr)
from_json(*a_json["perk1Var1"], a_element.perk1var1);
if (a_json["perk1Var2"] != nullptr)
from_json(*a_json["perk1Var2"], a_element.perk1var2);
if (a_json["perk1Var3"] != nullptr)
from_json(*a_json["perk1Var3"], a_element.perk1var3);
if (a_json["perk2Var1"] != nullptr)
from_json(*a_json["perk2Var1"], a_element.perk2var1);
if (a_json["perk2Var2"] != nullptr)
from_json(*a_json["perk2Var2"], a_element.perk2var2);
if (a_json["perk2Var3"] != nullptr)
from_json(*a_json["perk2Var3"], a_element.perk2var3);
if (a_json["perk3Var1"] != nullptr)
from_json(*a_json["perk3Var1"], a_element.perk3var1);
if (a_json["perk3Var2"] != nullptr)
from_json(*a_json["perk3Var2"], a_element.perk3var2);
if (a_json["perk3Var3"] != nullptr)
from_json(*a_json["perk3Var3"], a_element.perk3var3);
if (a_json["perk4Var1"] != nullptr)
from_json(*a_json["perk4Var1"], a_element.perk4var1);
if (a_json["perk4Var2"] != nullptr)
from_json(*a_json["perk4Var2"], a_element.perk4var2);
if (a_json["perk4Var3"] != nullptr)
from_json(*a_json["perk4Var3"], a_element.perk4var3);
if (a_json["perk5Var1"] != nullptr)
from_json(*a_json["perk5Var1"], a_element.perk5var1);
if (a_json["perk5Var2"] != nullptr)
from_json(*a_json["perk5Var2"], a_element.perk5var2);
if (a_json["perk5Var3"] != nullptr)
from_json(*a_json["perk5Var3"], a_element.perk5var3);
if (a_json["totalHeal"] != nullptr)
from_json(*a_json["totalHeal"], a_element.total_heal);
if (a_json["champLevel"] != nullptr)
from_json(*a_json["champLevel"], a_element.champ_level);
if (a_json["goldEarned"] != nullptr)
from_json(*a_json["goldEarned"], a_element.gold_earned);
if (a_json["pentaKills"] != nullptr)
from_json(*a_json["pentaKills"], a_element.penta_kills);
if (a_json["doubleKills"] != nullptr)
from_json(*a_json["doubleKills"], a_element.double_kills);
if (a_json["nodeCapture"] != nullptr)
from_json(*a_json["nodeCapture"], a_element.node_capture);
if (a_json["quadraKills"] != nullptr)
from_json(*a_json["quadraKills"], a_element.quadra_kills);
if (a_json["tripleKills"] != nullptr)
from_json(*a_json["tripleKills"], a_element.triple_kills);
if (a_json["turretKills"] != nullptr)
from_json(*a_json["turretKills"], a_element.turret_kills);
if (a_json["unrealKills"] != nullptr)
from_json(*a_json["unrealKills"], a_element.unreal_kills);
if (a_json["visionScore"] != nullptr)
from_json(*a_json["visionScore"], a_element.vision_score);
if (a_json["wardsKilled"] != nullptr)
from_json(*a_json["wardsKilled"], a_element.wards_killed);
if (a_json["wardsPlaced"] != nullptr)
from_json(*a_json["wardsPlaced"], a_element.wards_placed);
if (a_json["perkSubStyle"] != nullptr)
from_json(*a_json["perkSubStyle"], a_element.perk_sub_style);
if (a_json["playerScore0"] != nullptr)
from_json(*a_json["playerScore0"], a_element.player_score0);
if (a_json["playerScore1"] != nullptr)
from_json(*a_json["playerScore1"], a_element.player_score1);
if (a_json["playerScore2"] != nullptr)
from_json(*a_json["playerScore2"], a_element.player_score2);
if (a_json["playerScore3"] != nullptr)
from_json(*a_json["playerScore3"], a_element.player_score3);
if (a_json["playerScore4"] != nullptr)
from_json(*a_json["playerScore4"], a_element.player_score4);
if (a_json["playerScore5"] != nullptr)
from_json(*a_json["playerScore5"], a_element.player_score5);
if (a_json["playerScore6"] != nullptr)
from_json(*a_json["playerScore6"], a_element.player_score6);
if (a_json["playerScore7"] != nullptr)
from_json(*a_json["playerScore7"], a_element.player_score7);
if (a_json["playerScore8"] != nullptr)
from_json(*a_json["playerScore8"], a_element.player_score8);
if (a_json["playerScore9"] != nullptr)
from_json(*a_json["playerScore9"], a_element.player_score9);
if (a_json["killingSprees"] != nullptr)
from_json(*a_json["killingSprees"], a_element.killing_sprees);
if (a_json["participantId"] != nullptr)
from_json(*a_json["participantId"], a_element.participant_id);
if (a_json["teamObjective"] != nullptr)
from_json(*a_json["teamObjective"], a_element.team_objective);
if (a_json["altarsCaptured"] != nullptr)
from_json(*a_json["altarsCaptured"], a_element.altars_captured);
if (a_json["firstBloodKill"] != nullptr)
from_json(*a_json["firstBloodKill"], a_element.first_blood_kill);
if (a_json["firstTowerKill"] != nullptr)
from_json(*a_json["firstTowerKill"], a_element.first_tower_kill);
if (a_json["inhibitorKills"] != nullptr)
from_json(*a_json["inhibitorKills"], a_element.inhibitor_kills);
if (a_json["nodeNeutralize"] != nullptr)
from_json(*a_json["nodeNeutralize"], a_element.node_neutralize);
if (a_json["totalScoreRank"] != nullptr)
from_json(*a_json["totalScoreRank"], a_element.total_score_rank);
if (a_json["timeCCingOthers"] != nullptr)
from_json(*a_json["timeCCingOthers"], a_element.time_ccing_others);
if (a_json["trueDamageDealt"] != nullptr)
from_json(*a_json["trueDamageDealt"], a_element.true_damage_dealt);
if (a_json["trueDamageTaken"] != nullptr)
from_json(*a_json["trueDamageTaken"], a_element.true_damage_taken);
if (a_json["firstBloodAssist"] != nullptr)
from_json(*a_json["firstBloodAssist"], a_element.first_blood_assist);
if (a_json["firstTowerAssist"] != nullptr)
from_json(*a_json["firstTowerAssist"], a_element.first_tower_assist);
if (a_json["largestMultiKill"] != nullptr)
from_json(*a_json["largestMultiKill"], a_element.largest_multi_kill);
if (a_json["magicDamageDealt"] != nullptr)
from_json(*a_json["magicDamageDealt"], a_element.magic_damage_dealt);
if (a_json["perkPrimaryStyle"] != nullptr)
from_json(*a_json["perkPrimaryStyle"], a_element.perk_primary_style);
if (a_json["totalDamageDealt"] != nullptr)
from_json(*a_json["totalDamageDealt"], a_element.total_damage_dealt);
if (a_json["totalDamageTaken"] != nullptr)
from_json(*a_json["totalDamageTaken"], a_element.total_damage_taken);
if (a_json["totalPlayerScore"] != nullptr)
from_json(*a_json["totalPlayerScore"], a_element.total_player_score);
if (a_json["totalUnitsHealed"] != nullptr)
from_json(*a_json["totalUnitsHealed"], a_element.total_units_healed);
if (a_json["altarsNeutralized"] != nullptr)
from_json(*a_json["altarsNeutralized"], a_element.altars_neutralized);
if (a_json["combatPlayerScore"] != nullptr)
from_json(*a_json["combatPlayerScore"], a_element.combat_player_score);
if (a_json["nodeCaptureAssist"] != nullptr)
from_json(*a_json["nodeCaptureAssist"], a_element.node_capture_assist);
if (a_json["firstInhibitorKill"] != nullptr)
from_json(*a_json["firstInhibitorKill"], a_element.first_inhibitor_kill);
if (a_json["magicalDamageTaken"] != nullptr)
from_json(*a_json["magicalDamageTaken"], a_element.magical_damage_taken);
if (a_json["totalMinionsKilled"] != nullptr)
from_json(*a_json["totalMinionsKilled"], a_element.total_minions_killed);
if (a_json["damageSelfMitigated"] != nullptr)
from_json(*a_json["damageSelfMitigated"], a_element.damage_self_mitigated);
if (a_json["largestKillingSpree"] != nullptr)
from_json(*a_json["largestKillingSpree"], a_element.largest_killing_spree);
if (a_json["physicalDamageDealt"] != nullptr)
from_json(*a_json["physicalDamageDealt"], a_element.physical_damage_dealt);
if (a_json["physicalDamageTaken"] != nullptr)
from_json(*a_json["physicalDamageTaken"], a_element.physical_damage_taken);
if (a_json["damageDealtToTurrets"] != nullptr)
from_json(*a_json["damageDealtToTurrets"], a_element.damage_dealt_to_turrets);
if (a_json["firstInhibitorAssist"] != nullptr)
from_json(*a_json["firstInhibitorAssist"], a_element.first_inhibitor_assist);
if (a_json["neutralMinionsKilled"] != nullptr)
from_json(*a_json["neutralMinionsKilled"], a_element.neutral_minions_killed);
if (a_json["nodeNeutralizeAssist"] != nullptr)
from_json(*a_json["nodeNeutralizeAssist"], a_element.node_neutralize_assist);
if (a_json["objectivePlayerScore"] != nullptr)
from_json(*a_json["objectivePlayerScore"], a_element.objective_player_score);
if (a_json["largestCriticalStrike"] != nullptr)
from_json(*a_json["largestCriticalStrike"], a_element.largest_critical_strike);
if (a_json["longestTimeSpentLiving"] != nullptr)
from_json(*a_json["longestTimeSpentLiving"], a_element.longest_time_spent_living);
if (a_json["sightWardsBoughtInGame"] != nullptr)
from_json(*a_json["sightWardsBoughtInGame"], a_element.sight_wards_bought_in_game);
if (a_json["damageDealtToObjectives"] != nullptr)
from_json(*a_json["damageDealtToObjectives"], a_element.damage_dealt_to_objectives);
if (a_json["visionWardsBoughtInGame"] != nullptr)
from_json(*a_json["visionWardsBoughtInGame"], a_element.vision_wards_bought_in_game);
if (a_json["totalTimeCrowdControlDealt"] != nullptr)
from_json(*a_json["totalTimeCrowdControlDealt"], a_element.total_time_crowd_control_dealt);
if (a_json["trueDamageDealtToChampions"] != nullptr)
from_json(*a_json["trueDamageDealtToChampions"], a_element.true_damage_dealt_to_champions);
if (a_json["magicDamageDealtToChampions"] != nullptr)
from_json(*a_json["magicDamageDealtToChampions"], a_element.magic_damage_dealt_to_champions);
if (a_json["totalDamageDealtToChampions"] != nullptr)
from_json(*a_json["totalDamageDealtToChampions"], a_element.total_damage_dealt_to_champions);
if (a_json["neutralMinionsKilledTeamJungle"] != nullptr)
from_json(*a_json["neutralMinionsKilledTeamJungle"], a_element.neutral_minions_killed_team_jungle);
if (a_json["physicalDamageDealtToChampions"] != nullptr)
from_json(*a_json["physicalDamageDealtToChampions"], a_element.physical_damage_dealt_to_champions);
if (a_json["neutralMinionsKilledEnemyJungle"] != nullptr)
from_json(*a_json["neutralMinionsKilledEnemyJungle"], a_element.neutral_minions_killed_enemy_jungle);
}
void from_json(cho::json& a_json, match_v4::participant_timeline_dto& a_element)
{
if (a_json["lane"] != nullptr)
from_json(*a_json["lane"], a_element.lane);
if (a_json["role"] != nullptr)
from_json(*a_json["role"], a_element.role);
if (a_json["participantId"] != nullptr)
from_json(*a_json["participantId"], a_element.participant_id);
if (a_json["xpPerMinDeltas"] != nullptr)
from_json(*a_json["xpPerMinDeltas"], a_element.xp_per_min_deltas);
if (a_json["goldPerMinDeltas"] != nullptr)
from_json(*a_json["goldPerMinDeltas"], a_element.gold_per_min_deltas);
if (a_json["creepsPerMinDeltas"] != nullptr)
from_json(*a_json["creepsPerMinDeltas"], a_element.creeps_per_min_deltas);
if (a_json["csDiffPerMinDeltas"] != nullptr)
from_json(*a_json["csDiffPerMinDeltas"], a_element.cs_diff_per_min_deltas);
if (a_json["xpDiffPerMinDeltas"] != nullptr)
from_json(*a_json["xpDiffPerMinDeltas"], a_element.xp_diff_per_min_deltas);
if (a_json["damageTakenPerMinDeltas"] != nullptr)
from_json(*a_json["damageTakenPerMinDeltas"], a_element.damage_taken_per_min_deltas);
if (a_json["damageTakenDiffPerMinDeltas"] != nullptr)
from_json(*a_json["damageTakenDiffPerMinDeltas"], a_element.damage_taken_diff_per_min_deltas);
}
void from_json(cho::json& a_json, match_v4::participant_dto& a_element)
{
if (a_json["runes"] != nullptr)
from_json(*a_json["runes"], a_element.runes);
if (a_json["stats"] != nullptr)
from_json(*a_json["stats"], a_element.stats);
if (a_json["teamId"] != nullptr)
from_json(*a_json["teamId"], a_element.team_id);
if (a_json["spell1Id"] != nullptr)
from_json(*a_json["spell1Id"], a_element.spell1id);
if (a_json["spell2Id"] != nullptr)
from_json(*a_json["spell2Id"], a_element.spell2id);
if (a_json["timeline"] != nullptr)
from_json(*a_json["timeline"], a_element.timeline);
if (a_json["masteries"] != nullptr)
from_json(*a_json["masteries"], a_element.masteries);
if (a_json["championId"] != nullptr)
from_json(*a_json["championId"], a_element.champion_id);
if (a_json["participantId"] != nullptr)
from_json(*a_json["participantId"], a_element.participant_id);
if (a_json["highestAchievedSeasonTier"] != nullptr)
from_json(*a_json["highestAchievedSeasonTier"], a_element.highest_achieved_season_tier);
}
void from_json(cho::json& a_json, match_v4::player_dto& a_element)
{
if (a_json["accountId"] != nullptr)
from_json(*a_json["accountId"], a_element.account_id);
if (a_json["platformId"] != nullptr)
from_json(*a_json["platformId"], a_element.platform_id);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
if (a_json["profileIcon"] != nullptr)
from_json(*a_json["profileIcon"], a_element.profile_icon);
if (a_json["summonerName"] != nullptr)
from_json(*a_json["summonerName"], a_element.summoner_name);
if (a_json["matchHistoryUri"] != nullptr)
from_json(*a_json["matchHistoryUri"], a_element.match_history_uri);
if (a_json["currentAccountId"] != nullptr)
from_json(*a_json["currentAccountId"], a_element.current_account_id);
if (a_json["currentPlatformId"] != nullptr)
from_json(*a_json["currentPlatformId"], a_element.current_platform_id);
}
void from_json(cho::json& a_json, match_v4::participant_identity_dto& a_element)
{
if (a_json["player"] != nullptr)
from_json(*a_json["player"], a_element.player);
if (a_json["participantId"] != nullptr)
from_json(*a_json["participantId"], a_element.participant_id);
}
void from_json(cho::json& a_json, match_v4::match_dto& a_element)
{
if (a_json["mapId"] != nullptr)
from_json(*a_json["mapId"], a_element.map_id);
if (a_json["teams"] != nullptr)
from_json(*a_json["teams"], a_element.teams);
if (a_json["gameId"] != nullptr)
from_json(*a_json["gameId"], a_element.game_id);
if (a_json["queueId"] != nullptr)
from_json(*a_json["queueId"], a_element.queue_id);
if (a_json["gameMode"] != nullptr)
from_json(*a_json["gameMode"], a_element.game_mode);
if (a_json["gameType"] != nullptr)
from_json(*a_json["gameType"], a_element.game_type);
if (a_json["seasonId"] != nullptr)
from_json(*a_json["seasonId"], a_element.season_id);
if (a_json["platformId"] != nullptr)
from_json(*a_json["platformId"], a_element.platform_id);
if (a_json["gameVersion"] != nullptr)
from_json(*a_json["gameVersion"], a_element.game_version);
if (a_json["gameCreation"] != nullptr)
from_json(*a_json["gameCreation"], a_element.game_creation);
if (a_json["gameDuration"] != nullptr)
from_json(*a_json["gameDuration"], a_element.game_duration);
if (a_json["participants"] != nullptr)
from_json(*a_json["participants"], a_element.participants);
if (a_json["participantIdentities"] != nullptr)
from_json(*a_json["participantIdentities"], a_element.participant_identities);
}
void from_json(cho::json& a_json, match_v4::match_position_dto& a_element)
{
if (a_json["x"] != nullptr)
from_json(*a_json["x"], a_element.x);
if (a_json["y"] != nullptr)
from_json(*a_json["y"], a_element.y);
}
void from_json(cho::json& a_json, match_v4::match_event_dto& a_element)
{
if (a_json["type"] != nullptr)
from_json(*a_json["type"], a_element.type);
if (a_json["itemId"] != nullptr)
from_json(*a_json["itemId"], a_element.item_id);
if (a_json["teamId"] != nullptr)
from_json(*a_json["teamId"], a_element.team_id);
if (a_json["afterId"] != nullptr)
from_json(*a_json["afterId"], a_element.after_id);
if (a_json["beforeId"] != nullptr)
from_json(*a_json["beforeId"], a_element.before_id);
if (a_json["killerId"] != nullptr)
from_json(*a_json["killerId"], a_element.killer_id);
if (a_json["laneType"] != nullptr)
from_json(*a_json["laneType"], a_element.lane_type);
if (a_json["position"] != nullptr)
from_json(*a_json["position"], a_element.position);
if (a_json["victimId"] != nullptr)
from_json(*a_json["victimId"], a_element.victim_id);
if (a_json["wardType"] != nullptr)
from_json(*a_json["wardType"], a_element.ward_type);
if (a_json["creatorId"] != nullptr)
from_json(*a_json["creatorId"], a_element.creator_id);
if (a_json["eventType"] != nullptr)
from_json(*a_json["eventType"], a_element.event_type);
if (a_json["skillSlot"] != nullptr)
from_json(*a_json["skillSlot"], a_element.skill_slot);
if (a_json["timestamp"] != nullptr)
from_json(*a_json["timestamp"], a_element.timestamp);
if (a_json["towerType"] != nullptr)
from_json(*a_json["towerType"], a_element.tower_type);
if (a_json["levelUpType"] != nullptr)
from_json(*a_json["levelUpType"], a_element.level_up_type);
if (a_json["monsterType"] != nullptr)
from_json(*a_json["monsterType"], a_element.monster_type);
if (a_json["ascendedType"] != nullptr)
from_json(*a_json["ascendedType"], a_element.ascended_type);
if (a_json["buildingType"] != nullptr)
from_json(*a_json["buildingType"], a_element.building_type);
if (a_json["participantId"] != nullptr)
from_json(*a_json["participantId"], a_element.participant_id);
if (a_json["pointCaptured"] != nullptr)
from_json(*a_json["pointCaptured"], a_element.point_captured);
if (a_json["monsterSubType"] != nullptr)
from_json(*a_json["monsterSubType"], a_element.monster_sub_type);
if (a_json["assistingParticipantIds"] != nullptr)
from_json(*a_json["assistingParticipantIds"], a_element.assisting_participant_ids);
}
void from_json(cho::json& a_json, match_v4::match_frame_dto& a_element)
{
if (a_json["events"] != nullptr)
from_json(*a_json["events"], a_element.events);
if (a_json["timestamp"] != nullptr)
from_json(*a_json["timestamp"], a_element.timestamp);
if (a_json["participantFrames"] != nullptr)
from_json(*a_json["participantFrames"], a_element.participant_frames);
}
void from_json(cho::json& a_json, match_v4::match_participant_frame_dto& a_element)
{
if (a_json["xp"] != nullptr)
from_json(*a_json["xp"], a_element.xp);
if (a_json["level"] != nullptr)
from_json(*a_json["level"], a_element.level);
if (a_json["position"] != nullptr)
from_json(*a_json["position"], a_element.position);
if (a_json["teamScore"] != nullptr)
from_json(*a_json["teamScore"], a_element.team_score);
if (a_json["totalGold"] != nullptr)
from_json(*a_json["totalGold"], a_element.total_gold);
if (a_json["currentGold"] != nullptr)
from_json(*a_json["currentGold"], a_element.current_gold);
if (a_json["dominionScore"] != nullptr)
from_json(*a_json["dominionScore"], a_element.dominion_score);
if (a_json["minionsKilled"] != nullptr)
from_json(*a_json["minionsKilled"], a_element.minions_killed);
if (a_json["participantId"] != nullptr)
from_json(*a_json["participantId"], a_element.participant_id);
if (a_json["jungleMinionsKilled"] != nullptr)
from_json(*a_json["jungleMinionsKilled"], a_element.jungle_minions_killed);
}
void from_json(cho::json& a_json, match_v4::match_reference_dto& a_element)
{
if (a_json["lane"] != nullptr)
from_json(*a_json["lane"], a_element.lane);
if (a_json["role"] != nullptr)
from_json(*a_json["role"], a_element.role);
if (a_json["queue"] != nullptr)
from_json(*a_json["queue"], a_element.queue);
if (a_json["gameId"] != nullptr)
from_json(*a_json["gameId"], a_element.game_id);
if (a_json["season"] != nullptr)
from_json(*a_json["season"], a_element.season);
if (a_json["champion"] != nullptr)
from_json(*a_json["champion"], a_element.champion);
if (a_json["timestamp"] != nullptr)
from_json(*a_json["timestamp"], a_element.timestamp);
if (a_json["platformId"] != nullptr)
from_json(*a_json["platformId"], a_element.platform_id);
}
void from_json(cho::json& a_json, match_v4::match_timeline_dto& a_element)
{
if (a_json["frames"] != nullptr)
from_json(*a_json["frames"], a_element.frames);
if (a_json["frameInterval"] != nullptr)
from_json(*a_json["frameInterval"], a_element.frame_interval);
}
void from_json(cho::json& a_json, match_v4::matchlist_dto& a_element)
{
if (a_json["matches"] != nullptr)
from_json(*a_json["matches"], a_element.matches);
if (a_json["endIndex"] != nullptr)
from_json(*a_json["endIndex"], a_element.end_index);
if (a_json["startIndex"] != nullptr)
from_json(*a_json["startIndex"], a_element.start_index);
if (a_json["totalGames"] != nullptr)
from_json(*a_json["totalGames"], a_element.total_games);
}
void from_json(cho::json& a_json, spectator_v4::banned_champion& a_element)
{
if (a_json["teamId"] != nullptr)
from_json(*a_json["teamId"], a_element.team_id);
if (a_json["pickTurn"] != nullptr)
from_json(*a_json["pickTurn"], a_element.pick_turn);
if (a_json["championId"] != nullptr)
from_json(*a_json["championId"], a_element.champion_id);
}
void from_json(cho::json& a_json, spectator_v4::observer& a_element)
{
if (a_json["encryptionKey"] != nullptr)
from_json(*a_json["encryptionKey"], a_element.encryption_key);
}
void from_json(cho::json& a_json, spectator_v4::perks& a_element)
{
if (a_json["perkIds"] != nullptr)
from_json(*a_json["perkIds"], a_element.perk_ids);
if (a_json["perkStyle"] != nullptr)
from_json(*a_json["perkStyle"], a_element.perk_style);
if (a_json["perkSubStyle"] != nullptr)
from_json(*a_json["perkSubStyle"], a_element.perk_sub_style);
}
void from_json(cho::json& a_json, spectator_v4::game_customization_object& a_element)
{
if (a_json["content"] != nullptr)
from_json(*a_json["content"], a_element.content);
if (a_json["category"] != nullptr)
from_json(*a_json["category"], a_element.category);
}
void from_json(cho::json& a_json, spectator_v4::current_game_participant& a_element)
{
if (a_json["bot"] != nullptr)
from_json(*a_json["bot"], a_element.bot);
if (a_json["perks"] != nullptr)
from_json(*a_json["perks"], a_element.perks);
if (a_json["teamId"] != nullptr)
from_json(*a_json["teamId"], a_element.team_id);
if (a_json["spell1Id"] != nullptr)
from_json(*a_json["spell1Id"], a_element.spell1id);
if (a_json["spell2Id"] != nullptr)
from_json(*a_json["spell2Id"], a_element.spell2id);
if (a_json["championId"] != nullptr)
from_json(*a_json["championId"], a_element.champion_id);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
if (a_json["summonerName"] != nullptr)
from_json(*a_json["summonerName"], a_element.summoner_name);
if (a_json["profileIconId"] != nullptr)
from_json(*a_json["profileIconId"], a_element.profile_icon_id);
if (a_json["gameCustomizationObjects"] != nullptr)
from_json(*a_json["gameCustomizationObjects"], a_element.game_customization_objects);
}
void from_json(cho::json& a_json, spectator_v4::current_game_info& a_element)
{
if (a_json["mapId"] != nullptr)
from_json(*a_json["mapId"], a_element.map_id);
if (a_json["gameId"] != nullptr)
from_json(*a_json["gameId"], a_element.game_id);
if (a_json["gameMode"] != nullptr)
from_json(*a_json["gameMode"], a_element.game_mode);
if (a_json["gameType"] != nullptr)
from_json(*a_json["gameType"], a_element.game_type);
if (a_json["observers"] != nullptr)
from_json(*a_json["observers"], a_element.observers);
if (a_json["gameLength"] != nullptr)
from_json(*a_json["gameLength"], a_element.game_length);
if (a_json["platformId"] != nullptr)
from_json(*a_json["platformId"], a_element.platform_id);
if (a_json["participants"] != nullptr)
from_json(*a_json["participants"], a_element.participants);
if (a_json["gameStartTime"] != nullptr)
from_json(*a_json["gameStartTime"], a_element.game_start_time);
if (a_json["bannedChampions"] != nullptr)
from_json(*a_json["bannedChampions"], a_element.banned_champions);
if (a_json["gameQueueConfigId"] != nullptr)
from_json(*a_json["gameQueueConfigId"], a_element.game_queue_config_id);
}
void from_json(cho::json& a_json, spectator_v4::participant& a_element)
{
if (a_json["bot"] != nullptr)
from_json(*a_json["bot"], a_element.bot);
if (a_json["teamId"] != nullptr)
from_json(*a_json["teamId"], a_element.team_id);
if (a_json["spell1Id"] != nullptr)
from_json(*a_json["spell1Id"], a_element.spell1id);
if (a_json["spell2Id"] != nullptr)
from_json(*a_json["spell2Id"], a_element.spell2id);
if (a_json["championId"] != nullptr)
from_json(*a_json["championId"], a_element.champion_id);
if (a_json["summonerName"] != nullptr)
from_json(*a_json["summonerName"], a_element.summoner_name);
if (a_json["profileIconId"] != nullptr)
from_json(*a_json["profileIconId"], a_element.profile_icon_id);
}
void from_json(cho::json& a_json, spectator_v4::featured_game_info& a_element)
{
if (a_json["mapId"] != nullptr)
from_json(*a_json["mapId"], a_element.map_id);
if (a_json["gameId"] != nullptr)
from_json(*a_json["gameId"], a_element.game_id);
if (a_json["gameMode"] != nullptr)
from_json(*a_json["gameMode"], a_element.game_mode);
if (a_json["gameType"] != nullptr)
from_json(*a_json["gameType"], a_element.game_type);
if (a_json["observers"] != nullptr)
from_json(*a_json["observers"], a_element.observers);
if (a_json["gameLength"] != nullptr)
from_json(*a_json["gameLength"], a_element.game_length);
if (a_json["platformId"] != nullptr)
from_json(*a_json["platformId"], a_element.platform_id);
if (a_json["participants"] != nullptr)
from_json(*a_json["participants"], a_element.participants);
if (a_json["gameStartTime"] != nullptr)
from_json(*a_json["gameStartTime"], a_element.game_start_time);
if (a_json["bannedChampions"] != nullptr)
from_json(*a_json["bannedChampions"], a_element.banned_champions);
if (a_json["gameQueueConfigId"] != nullptr)
from_json(*a_json["gameQueueConfigId"], a_element.game_queue_config_id);
}
void from_json(cho::json& a_json, spectator_v4::featured_games& a_element)
{
if (a_json["gameList"] != nullptr)
from_json(*a_json["gameList"], a_element.game_list);
if (a_json["clientRefreshInterval"] != nullptr)
from_json(*a_json["clientRefreshInterval"], a_element.client_refresh_interval);
}
void from_json(cho::json& a_json, summoner_v4::summoner_dto& a_element)
{
if (a_json["id"] != nullptr)
from_json(*a_json["id"], a_element.id);
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["puuid"] != nullptr)
from_json(*a_json["puuid"], a_element.puuid);
if (a_json["accountId"] != nullptr)
from_json(*a_json["accountId"], a_element.account_id);
if (a_json["revisionDate"] != nullptr)
from_json(*a_json["revisionDate"], a_element.revision_date);
if (a_json["profileIconId"] != nullptr)
from_json(*a_json["profileIconId"], a_element.profile_icon_id);
if (a_json["summonerLevel"] != nullptr)
from_json(*a_json["summonerLevel"], a_element.summoner_level);
}
void from_json(cho::json& a_json, tft_league_v1::mini_series_dto& a_element)
{
if (a_json["wins"] != nullptr)
from_json(*a_json["wins"], a_element.wins);
if (a_json["losses"] != nullptr)
from_json(*a_json["losses"], a_element.losses);
if (a_json["target"] != nullptr)
from_json(*a_json["target"], a_element.target);
if (a_json["progress"] != nullptr)
from_json(*a_json["progress"], a_element.progress);
}
void from_json(cho::json& a_json, tft_league_v1::league_entry_dto& a_element)
{
if (a_json["rank"] != nullptr)
from_json(*a_json["rank"], a_element.rank);
if (a_json["tier"] != nullptr)
from_json(*a_json["tier"], a_element.tier);
if (a_json["wins"] != nullptr)
from_json(*a_json["wins"], a_element.wins);
if (a_json["losses"] != nullptr)
from_json(*a_json["losses"], a_element.losses);
if (a_json["veteran"] != nullptr)
from_json(*a_json["veteran"], a_element.veteran);
if (a_json["inactive"] != nullptr)
from_json(*a_json["inactive"], a_element.inactive);
if (a_json["leagueId"] != nullptr)
from_json(*a_json["leagueId"], a_element.league_id);
if (a_json["hotStreak"] != nullptr)
from_json(*a_json["hotStreak"], a_element.hot_streak);
if (a_json["queueType"] != nullptr)
from_json(*a_json["queueType"], a_element.queue_type);
if (a_json["freshBlood"] != nullptr)
from_json(*a_json["freshBlood"], a_element.fresh_blood);
if (a_json["miniSeries"] != nullptr)
from_json(*a_json["miniSeries"], a_element.mini_series);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
if (a_json["leaguePoints"] != nullptr)
from_json(*a_json["leaguePoints"], a_element.league_points);
if (a_json["summonerName"] != nullptr)
from_json(*a_json["summonerName"], a_element.summoner_name);
}
void from_json(cho::json& a_json, tft_league_v1::league_item_dto& a_element)
{
if (a_json["rank"] != nullptr)
from_json(*a_json["rank"], a_element.rank);
if (a_json["wins"] != nullptr)
from_json(*a_json["wins"], a_element.wins);
if (a_json["losses"] != nullptr)
from_json(*a_json["losses"], a_element.losses);
if (a_json["veteran"] != nullptr)
from_json(*a_json["veteran"], a_element.veteran);
if (a_json["inactive"] != nullptr)
from_json(*a_json["inactive"], a_element.inactive);
if (a_json["hotStreak"] != nullptr)
from_json(*a_json["hotStreak"], a_element.hot_streak);
if (a_json["freshBlood"] != nullptr)
from_json(*a_json["freshBlood"], a_element.fresh_blood);
if (a_json["miniSeries"] != nullptr)
from_json(*a_json["miniSeries"], a_element.mini_series);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
if (a_json["leaguePoints"] != nullptr)
from_json(*a_json["leaguePoints"], a_element.league_points);
if (a_json["summonerName"] != nullptr)
from_json(*a_json["summonerName"], a_element.summoner_name);
}
void from_json(cho::json& a_json, tft_league_v1::league_list_dto& a_element)
{
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["tier"] != nullptr)
from_json(*a_json["tier"], a_element.tier);
if (a_json["queue"] != nullptr)
from_json(*a_json["queue"], a_element.queue);
if (a_json["entries"] != nullptr)
from_json(*a_json["entries"], a_element.entries);
if (a_json["leagueId"] != nullptr)
from_json(*a_json["leagueId"], a_element.league_id);
}
void from_json(cho::json& a_json, tft_match_v1::companion_dto& a_element)
{
if (a_json["skin_ID"] != nullptr)
from_json(*a_json["skin_ID"], a_element.skin_id);
if (a_json["species"] != nullptr)
from_json(*a_json["species"], a_element.species);
if (a_json["content_ID"] != nullptr)
from_json(*a_json["content_ID"], a_element.content_id);
}
void from_json(cho::json& a_json, tft_match_v1::unit_dto& a_element)
{
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["tier"] != nullptr)
from_json(*a_json["tier"], a_element.tier);
if (a_json["items"] != nullptr)
from_json(*a_json["items"], a_element.items);
if (a_json["rarity"] != nullptr)
from_json(*a_json["rarity"], a_element.rarity);
if (a_json["character_id"] != nullptr)
from_json(*a_json["character_id"], a_element.character_id);
}
void from_json(cho::json& a_json, tft_match_v1::trait_dto& a_element)
{
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["num_units"] != nullptr)
from_json(*a_json["num_units"], a_element.num_units);
if (a_json["tier_total"] != nullptr)
from_json(*a_json["tier_total"], a_element.tier_total);
if (a_json["tier_current"] != nullptr)
from_json(*a_json["tier_current"], a_element.tier_current);
}
void from_json(cho::json& a_json, tft_match_v1::participant_dto& a_element)
{
if (a_json["level"] != nullptr)
from_json(*a_json["level"], a_element.level);
if (a_json["puuid"] != nullptr)
from_json(*a_json["puuid"], a_element.puuid);
if (a_json["units"] != nullptr)
from_json(*a_json["units"], a_element.units);
if (a_json["traits"] != nullptr)
from_json(*a_json["traits"], a_element.traits);
if (a_json["companion"] != nullptr)
from_json(*a_json["companion"], a_element.companion);
if (a_json["gold_left"] != nullptr)
from_json(*a_json["gold_left"], a_element.gold_left);
if (a_json["placement"] != nullptr)
from_json(*a_json["placement"], a_element.placement);
if (a_json["last_round"] != nullptr)
from_json(*a_json["last_round"], a_element.last_round);
if (a_json["time_eliminated"] != nullptr)
from_json(*a_json["time_eliminated"], a_element.time_eliminated);
if (a_json["players_eliminated"] != nullptr)
from_json(*a_json["players_eliminated"], a_element.players_eliminated);
if (a_json["total_damage_to_players"] != nullptr)
from_json(*a_json["total_damage_to_players"], a_element.total_damage_to_players);
}
void from_json(cho::json& a_json, tft_match_v1::info_dto& a_element)
{
if (a_json["queue_id"] != nullptr)
from_json(*a_json["queue_id"], a_element.queue_id);
if (a_json["game_length"] != nullptr)
from_json(*a_json["game_length"], a_element.game_length);
if (a_json["game_version"] != nullptr)
from_json(*a_json["game_version"], a_element.game_version);
if (a_json["participants"] != nullptr)
from_json(*a_json["participants"], a_element.participants);
if (a_json["game_datetime"] != nullptr)
from_json(*a_json["game_datetime"], a_element.game_datetime);
if (a_json["tft_set_number"] != nullptr)
from_json(*a_json["tft_set_number"], a_element.tft_set_number);
}
void from_json(cho::json& a_json, tft_match_v1::metadata_dto& a_element)
{
if (a_json["match_id"] != nullptr)
from_json(*a_json["match_id"], a_element.match_id);
if (a_json["data_version"] != nullptr)
from_json(*a_json["data_version"], a_element.data_version);
if (a_json["participants"] != nullptr)
from_json(*a_json["participants"], a_element.participants);
}
void from_json(cho::json& a_json, tft_match_v1::match_dto& a_element)
{
if (a_json["info"] != nullptr)
from_json(*a_json["info"], a_element.info);
if (a_json["metadata"] != nullptr)
from_json(*a_json["metadata"], a_element.metadata);
}
void from_json(cho::json& a_json, tft_summoner_v1::summoner_dto& a_element)
{
if (a_json["id"] != nullptr)
from_json(*a_json["id"], a_element.id);
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["puuid"] != nullptr)
from_json(*a_json["puuid"], a_element.puuid);
if (a_json["accountId"] != nullptr)
from_json(*a_json["accountId"], a_element.account_id);
if (a_json["revisionDate"] != nullptr)
from_json(*a_json["revisionDate"], a_element.revision_date);
if (a_json["profileIconId"] != nullptr)
from_json(*a_json["profileIconId"], a_element.profile_icon_id);
if (a_json["summonerLevel"] != nullptr)
from_json(*a_json["summonerLevel"], a_element.summoner_level);
}
void from_json(cho::json& a_json, tournament_stub_v4::lobby_event_dto& a_element)
{
if (a_json["eventType"] != nullptr)
from_json(*a_json["eventType"], a_element.event_type);
if (a_json["timestamp"] != nullptr)
from_json(*a_json["timestamp"], a_element.timestamp);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
}
void from_json(cho::json& a_json, tournament_stub_v4::lobby_event_dtowrapper& a_element)
{
if (a_json["eventList"] != nullptr)
from_json(*a_json["eventList"], a_element.event_list);
}
void from_json(cho::json& a_json, tournament_stub_v4::provider_registration_parameters& a_element)
{
if (a_json["url"] != nullptr)
from_json(*a_json["url"], a_element.url);
if (a_json["region"] != nullptr)
from_json(*a_json["region"], a_element.region);
}
void from_json(cho::json& a_json, tournament_stub_v4::tournament_code_parameters& a_element)
{
if (a_json["mapType"] != nullptr)
from_json(*a_json["mapType"], a_element.map_type);
if (a_json["metadata"] != nullptr)
from_json(*a_json["metadata"], a_element.metadata);
if (a_json["pickType"] != nullptr)
from_json(*a_json["pickType"], a_element.pick_type);
if (a_json["teamSize"] != nullptr)
from_json(*a_json["teamSize"], a_element.team_size);
if (a_json["spectatorType"] != nullptr)
from_json(*a_json["spectatorType"], a_element.spectator_type);
if (a_json["allowedSummonerIds"] != nullptr)
from_json(*a_json["allowedSummonerIds"], a_element.allowed_summoner_ids);
}
void from_json(cho::json& a_json, tournament_stub_v4::tournament_registration_parameters& a_element)
{
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["providerId"] != nullptr)
from_json(*a_json["providerId"], a_element.provider_id);
}
void from_json(cho::json& a_json, tournament_v4::lobby_event_dto& a_element)
{
if (a_json["eventType"] != nullptr)
from_json(*a_json["eventType"], a_element.event_type);
if (a_json["timestamp"] != nullptr)
from_json(*a_json["timestamp"], a_element.timestamp);
if (a_json["summonerId"] != nullptr)
from_json(*a_json["summonerId"], a_element.summoner_id);
}
void from_json(cho::json& a_json, tournament_v4::lobby_event_dtowrapper& a_element)
{
if (a_json["eventList"] != nullptr)
from_json(*a_json["eventList"], a_element.event_list);
}
void from_json(cho::json& a_json, tournament_v4::provider_registration_parameters& a_element)
{
if (a_json["url"] != nullptr)
from_json(*a_json["url"], a_element.url);
if (a_json["region"] != nullptr)
from_json(*a_json["region"], a_element.region);
}
void from_json(cho::json& a_json, tournament_v4::tournament_code_dto& a_element)
{
if (a_json["id"] != nullptr)
from_json(*a_json["id"], a_element.id);
if (a_json["map"] != nullptr)
from_json(*a_json["map"], a_element.map);
if (a_json["code"] != nullptr)
from_json(*a_json["code"], a_element.code);
if (a_json["region"] != nullptr)
from_json(*a_json["region"], a_element.region);
if (a_json["metaData"] != nullptr)
from_json(*a_json["metaData"], a_element.meta_data);
if (a_json["password"] != nullptr)
from_json(*a_json["password"], a_element.password);
if (a_json["pickType"] != nullptr)
from_json(*a_json["pickType"], a_element.pick_type);
if (a_json["teamSize"] != nullptr)
from_json(*a_json["teamSize"], a_element.team_size);
if (a_json["lobbyName"] != nullptr)
from_json(*a_json["lobbyName"], a_element.lobby_name);
if (a_json["providerId"] != nullptr)
from_json(*a_json["providerId"], a_element.provider_id);
if (a_json["spectators"] != nullptr)
from_json(*a_json["spectators"], a_element.spectators);
if (a_json["participants"] != nullptr)
from_json(*a_json["participants"], a_element.participants);
if (a_json["tournamentId"] != nullptr)
from_json(*a_json["tournamentId"], a_element.tournament_id);
}
void from_json(cho::json& a_json, tournament_v4::tournament_code_parameters& a_element)
{
if (a_json["mapType"] != nullptr)
from_json(*a_json["mapType"], a_element.map_type);
if (a_json["metadata"] != nullptr)
from_json(*a_json["metadata"], a_element.metadata);
if (a_json["pickType"] != nullptr)
from_json(*a_json["pickType"], a_element.pick_type);
if (a_json["teamSize"] != nullptr)
from_json(*a_json["teamSize"], a_element.team_size);
if (a_json["spectatorType"] != nullptr)
from_json(*a_json["spectatorType"], a_element.spectator_type);
if (a_json["allowedSummonerIds"] != nullptr)
from_json(*a_json["allowedSummonerIds"], a_element.allowed_summoner_ids);
}
void from_json(cho::json& a_json, tournament_v4::tournament_code_update_parameters& a_element)
{
if (a_json["mapType"] != nullptr)
from_json(*a_json["mapType"], a_element.map_type);
if (a_json["pickType"] != nullptr)
from_json(*a_json["pickType"], a_element.pick_type);
if (a_json["spectatorType"] != nullptr)
from_json(*a_json["spectatorType"], a_element.spectator_type);
if (a_json["allowedSummonerIds"] != nullptr)
from_json(*a_json["allowedSummonerIds"], a_element.allowed_summoner_ids);
}
void from_json(cho::json& a_json, tournament_v4::tournament_registration_parameters& a_element)
{
if (a_json["name"] != nullptr)
from_json(*a_json["name"], a_element.name);
if (a_json["providerId"] != nullptr)
from_json(*a_json["providerId"], a_element.provider_id);
}
namespace champion_mastery_v4
{
void get_champion_mastery_score_async
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
std::function<void(size_t response_code, int32_t result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_champion_mastery_score";
static const char* service = "champion_mastery_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/champion-mastery/v4/scores/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
int32_t return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_champion_mastery_score_response get_champion_mastery_score
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_champion_mastery_score";
static const char* service = "champion_mastery_v4";
std::string path = string_format("%s/lol/champion-mastery/v4/scores/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_champion_mastery_score_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_all_champion_masteries_async
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
std::function<void(size_t response_code, std::vector<champion_mastery_v4::champion_mastery_dto> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_all_champion_masteries";
static const char* service = "champion_mastery_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/champion-mastery/v4/champion-masteries/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<champion_mastery_v4::champion_mastery_dto> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_all_champion_masteries_response get_all_champion_masteries
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_all_champion_masteries";
static const char* service = "champion_mastery_v4";
std::string path = string_format("%s/lol/champion-mastery/v4/champion-masteries/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_all_champion_masteries_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_champion_mastery_async
(
cho::platform_id a_platform,
cho::champion_key a_champion_id,
const char* a_encrypted_summoner_id,
std::function<void(size_t response_code, champion_mastery_v4::champion_mastery_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_champion_mastery";
static const char* service = "champion_mastery_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/champion-mastery/v4/champion-masteries/by-summoner/%s/by-champion/%d", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str(), a_champion_id);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
champion_mastery_v4::champion_mastery_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_champion_mastery_response get_champion_mastery
(
cho::platform_id a_platform,
cho::champion_key a_champion_id,
const char* a_encrypted_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_champion_mastery";
static const char* service = "champion_mastery_v4";
std::string path = string_format("%s/lol/champion-mastery/v4/champion-masteries/by-summoner/%s/by-champion/%d", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str(), a_champion_id);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_champion_mastery_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace champion_v3
{
void get_champion_info_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, champion_v3::champion_info result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_champion_info";
static const char* service = "champion_v3";
char path[1024];
snprintf(path, 1024, "%s/lol/platform/v3/champion-rotations", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
champion_v3::champion_info return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_champion_info_response get_champion_info
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "get_champion_info";
static const char* service = "champion_v3";
std::string path = string_format("%s/lol/platform/v3/champion-rotations", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_champion_info_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace clash_v1
{
void get_tournaments_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, std::vector<clash_v1::tournament_dto> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_tournaments";
static const char* service = "clash_v1";
char path[1024];
snprintf(path, 1024, "%s/lol/clash/v1/tournaments", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<clash_v1::tournament_dto> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_tournaments_response get_tournaments
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "get_tournaments";
static const char* service = "clash_v1";
std::string path = string_format("%s/lol/clash/v1/tournaments", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_tournaments_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_team_by_id_async
(
cho::platform_id a_platform,
const char* a_team_id,
std::function<void(size_t response_code, clash_v1::team_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_team_by_id";
static const char* service = "clash_v1";
char path[1024];
snprintf(path, 1024, "%s/lol/clash/v1/teams/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_team_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
clash_v1::team_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_team_by_id_response get_team_by_id
(
cho::platform_id a_platform,
const char* a_team_id,
riot::api* a_riot_api
)
{
static const char* method = "get_team_by_id";
static const char* service = "clash_v1";
std::string path = string_format("%s/lol/clash/v1/teams/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_team_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_team_by_id_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_tournament_by_id_async
(
cho::platform_id a_platform,
int32_t a_tournament_id,
std::function<void(size_t response_code, clash_v1::tournament_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_tournament_by_id";
static const char* service = "clash_v1";
char path[1024];
snprintf(path, 1024, "%s/lol/clash/v1/tournaments/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_tournament_id);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
clash_v1::tournament_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_tournament_by_id_response get_tournament_by_id
(
cho::platform_id a_platform,
int32_t a_tournament_id,
riot::api* a_riot_api
)
{
static const char* method = "get_tournament_by_id";
static const char* service = "clash_v1";
std::string path = string_format("%s/lol/clash/v1/tournaments/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_tournament_id);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_tournament_by_id_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_tournament_by_team_async
(
cho::platform_id a_platform,
const char* a_team_id,
std::function<void(size_t response_code, clash_v1::tournament_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_tournament_by_team";
static const char* service = "clash_v1";
char path[1024];
snprintf(path, 1024, "%s/lol/clash/v1/tournaments/by-team/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_team_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
clash_v1::tournament_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_tournament_by_team_response get_tournament_by_team
(
cho::platform_id a_platform,
const char* a_team_id,
riot::api* a_riot_api
)
{
static const char* method = "get_tournament_by_team";
static const char* service = "clash_v1";
std::string path = string_format("%s/lol/clash/v1/tournaments/by-team/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_team_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_tournament_by_team_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_players_by_summoner_async
(
cho::platform_id a_platform,
const char* a_summoner_id,
std::function<void(size_t response_code, std::vector<clash_v1::player_dto> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_players_by_summoner";
static const char* service = "clash_v1";
char path[1024];
snprintf(path, 1024, "%s/lol/clash/v1/players/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<clash_v1::player_dto> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_players_by_summoner_response get_players_by_summoner
(
cho::platform_id a_platform,
const char* a_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_players_by_summoner";
static const char* service = "clash_v1";
std::string path = string_format("%s/lol/clash/v1/players/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_players_by_summoner_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace league_exp_v4
{
void get_league_entries_async
(
cho::platform_id a_platform,
const char* a_queue,
const char* a_tier,
const char* a_division,
get_league_entries_optional_args a_optional,
std::function<void(size_t response_code, std::vector<league_exp_v4::league_entry_dto> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries";
static const char* service = "league_exp_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/league-exp/v4/entries/%d/%d/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue, a_tier, a_division);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<league_exp_v4::league_entry_dto> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_league_entries_response get_league_entries
(
cho::platform_id a_platform,
const char* a_queue,
const char* a_tier,
const char* a_division,
get_league_entries_optional_args a_optional,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries";
static const char* service = "league_exp_v4";
std::string path = string_format("%s/lol/league-exp/v4/entries/%d/%d/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue, a_tier, a_division);
bool is_first = true;
setup_optional_argument(path, "page", a_optional.page, is_first);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_league_entries_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace league_v4
{
void get_league_by_id_async
(
cho::platform_id a_platform,
const char* a_league_id,
std::function<void(size_t response_code, league_v4::league_list_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_league_by_id";
static const char* service = "league_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/league/v4/leagues/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_league_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
league_v4::league_list_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_league_by_id_response get_league_by_id
(
cho::platform_id a_platform,
const char* a_league_id,
riot::api* a_riot_api
)
{
static const char* method = "get_league_by_id";
static const char* service = "league_v4";
std::string path = string_format("%s/lol/league/v4/leagues/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_league_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_league_by_id_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_master_league_async
(
cho::platform_id a_platform,
const char* a_queue,
std::function<void(size_t response_code, league_v4::league_list_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_master_league";
static const char* service = "league_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/league/v4/masterleagues/by-queue/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
league_v4::league_list_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_master_league_response get_master_league
(
cho::platform_id a_platform,
const char* a_queue,
riot::api* a_riot_api
)
{
static const char* method = "get_master_league";
static const char* service = "league_v4";
std::string path = string_format("%s/lol/league/v4/masterleagues/by-queue/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_master_league_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_league_entries_async
(
cho::platform_id a_platform,
const char* a_division,
const char* a_tier,
const char* a_queue,
get_league_entries_optional_args a_optional,
std::function<void(size_t response_code, std::vector<league_v4::league_entry_dto> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries";
static const char* service = "league_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/league/v4/entries/%d/%d/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue, a_tier, a_division);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<league_v4::league_entry_dto> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_league_entries_response get_league_entries
(
cho::platform_id a_platform,
const char* a_division,
const char* a_tier,
const char* a_queue,
get_league_entries_optional_args a_optional,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries";
static const char* service = "league_v4";
std::string path = string_format("%s/lol/league/v4/entries/%d/%d/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue, a_tier, a_division);
bool is_first = true;
setup_optional_argument(path, "page", a_optional.page, is_first);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_league_entries_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_challenger_league_async
(
cho::platform_id a_platform,
const char* a_queue,
std::function<void(size_t response_code, league_v4::league_list_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_challenger_league";
static const char* service = "league_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/league/v4/challengerleagues/by-queue/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
league_v4::league_list_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_challenger_league_response get_challenger_league
(
cho::platform_id a_platform,
const char* a_queue,
riot::api* a_riot_api
)
{
static const char* method = "get_challenger_league";
static const char* service = "league_v4";
std::string path = string_format("%s/lol/league/v4/challengerleagues/by-queue/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_challenger_league_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_grandmaster_league_async
(
cho::platform_id a_platform,
const char* a_queue,
std::function<void(size_t response_code, league_v4::league_list_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_grandmaster_league";
static const char* service = "league_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/league/v4/grandmasterleagues/by-queue/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
league_v4::league_list_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_grandmaster_league_response get_grandmaster_league
(
cho::platform_id a_platform,
const char* a_queue,
riot::api* a_riot_api
)
{
static const char* method = "get_grandmaster_league";
static const char* service = "league_v4";
std::string path = string_format("%s/lol/league/v4/grandmasterleagues/by-queue/%d", g_riot_api_servers[static_cast<int>(a_platform)], a_queue);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_grandmaster_league_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_league_entries_for_summoner_async
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
std::function<void(size_t response_code, std::vector<league_v4::league_entry_dto> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries_for_summoner";
static const char* service = "league_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/league/v4/entries/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<league_v4::league_entry_dto> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_league_entries_for_summoner_response get_league_entries_for_summoner
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries_for_summoner";
static const char* service = "league_v4";
std::string path = string_format("%s/lol/league/v4/entries/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_league_entries_for_summoner_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace lol_status_v3
{
void get_shard_data_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, lol_status_v3::shard_status result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_shard_data";
static const char* service = "lol_status_v3";
char path[1024];
snprintf(path, 1024, "%s/lol/status/v3/shard-data", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
lol_status_v3::shard_status return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_shard_data_response get_shard_data
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "get_shard_data";
static const char* service = "lol_status_v3";
std::string path = string_format("%s/lol/status/v3/shard-data", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_shard_data_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace lor_ranked_v1
{
void get_leaderboards_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, lor_ranked_v1::leaderboard_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_leaderboards";
static const char* service = "lor_ranked_v1";
char path[1024];
snprintf(path, 1024, "%s/lor/ranked/v1/leaderboards", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
lor_ranked_v1::leaderboard_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_leaderboards_response get_leaderboards
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "get_leaderboards";
static const char* service = "lor_ranked_v1";
std::string path = string_format("%s/lor/ranked/v1/leaderboards", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_leaderboards_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace match_v4
{
void get_match_async
(
cho::platform_id a_platform,
int64_t a_match_id,
std::function<void(size_t response_code, match_v4::match_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_match";
static const char* service = "match_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/match/v4/matches/%lld", g_riot_api_servers[static_cast<int>(a_platform)], a_match_id);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
match_v4::match_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_match_response get_match
(
cho::platform_id a_platform,
int64_t a_match_id,
riot::api* a_riot_api
)
{
static const char* method = "get_match";
static const char* service = "match_v4";
std::string path = string_format("%s/lol/match/v4/matches/%lld", g_riot_api_servers[static_cast<int>(a_platform)], a_match_id);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_match_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_match_timeline_async
(
cho::platform_id a_platform,
int64_t a_match_id,
std::function<void(size_t response_code, match_v4::match_timeline_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_match_timeline";
static const char* service = "match_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/match/v4/timelines/by-match/%lld", g_riot_api_servers[static_cast<int>(a_platform)], a_match_id);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
match_v4::match_timeline_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_match_timeline_response get_match_timeline
(
cho::platform_id a_platform,
int64_t a_match_id,
riot::api* a_riot_api
)
{
static const char* method = "get_match_timeline";
static const char* service = "match_v4";
std::string path = string_format("%s/lol/match/v4/timelines/by-match/%lld", g_riot_api_servers[static_cast<int>(a_platform)], a_match_id);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_match_timeline_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_matchlist_async
(
cho::platform_id a_platform,
const char* a_encrypted_account_id,
get_matchlist_optional_args a_optional,
std::function<void(size_t response_code, match_v4::matchlist_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_matchlist";
static const char* service = "match_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/match/v4/matchlists/by-account/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_account_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
match_v4::matchlist_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_matchlist_response get_matchlist
(
cho::platform_id a_platform,
const char* a_encrypted_account_id,
get_matchlist_optional_args a_optional,
riot::api* a_riot_api
)
{
static const char* method = "get_matchlist";
static const char* service = "match_v4";
std::string path = string_format("%s/lol/match/v4/matchlists/by-account/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_account_id).c_str());
bool is_first = true;
setup_optional_argument(path, "champion", a_optional.champion, is_first);
setup_optional_argument(path, "queue", a_optional.queue, is_first);
setup_optional_argument(path, "season", a_optional.season, is_first);
setup_optional_argument(path, "end_time", a_optional.end_time, is_first);
setup_optional_argument(path, "begin_time", a_optional.begin_time, is_first);
setup_optional_argument(path, "end_index", a_optional.end_index, is_first);
setup_optional_argument(path, "begin_index", a_optional.begin_index, is_first);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_matchlist_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_match_ids_by_tournament_code_async
(
cho::platform_id a_platform,
const char* a_tournament_code,
std::function<void(size_t response_code, std::vector<int64_t> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_match_ids_by_tournament_code";
static const char* service = "match_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/match/v4/matches/by-tournament-code/%s/ids", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<int64_t> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_match_ids_by_tournament_code_response get_match_ids_by_tournament_code
(
cho::platform_id a_platform,
const char* a_tournament_code,
riot::api* a_riot_api
)
{
static const char* method = "get_match_ids_by_tournament_code";
static const char* service = "match_v4";
std::string path = string_format("%s/lol/match/v4/matches/by-tournament-code/%s/ids", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_match_ids_by_tournament_code_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_match_by_tournament_code_async
(
cho::platform_id a_platform,
const char* a_tournament_code,
int64_t a_match_id,
std::function<void(size_t response_code, match_v4::match_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_match_by_tournament_code";
static const char* service = "match_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/match/v4/matches/%lld/by-tournament-code/%s", g_riot_api_servers[static_cast<int>(a_platform)], a_match_id, cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
match_v4::match_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_match_by_tournament_code_response get_match_by_tournament_code
(
cho::platform_id a_platform,
const char* a_tournament_code,
int64_t a_match_id,
riot::api* a_riot_api
)
{
static const char* method = "get_match_by_tournament_code";
static const char* service = "match_v4";
std::string path = string_format("%s/lol/match/v4/matches/%lld/by-tournament-code/%s", g_riot_api_servers[static_cast<int>(a_platform)], a_match_id, cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_match_by_tournament_code_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace spectator_v4
{
void get_featured_games_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, spectator_v4::featured_games result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_featured_games";
static const char* service = "spectator_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/spectator/v4/featured-games", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
spectator_v4::featured_games return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_featured_games_response get_featured_games
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "get_featured_games";
static const char* service = "spectator_v4";
std::string path = string_format("%s/lol/spectator/v4/featured-games", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_featured_games_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_current_game_info_by_summoner_async
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
std::function<void(size_t response_code, spectator_v4::current_game_info result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_current_game_info_by_summoner";
static const char* service = "spectator_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/spectator/v4/active-games/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
spectator_v4::current_game_info return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_current_game_info_by_summoner_response get_current_game_info_by_summoner
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_current_game_info_by_summoner";
static const char* service = "spectator_v4";
std::string path = string_format("%s/lol/spectator/v4/active-games/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_current_game_info_by_summoner_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace summoner_v4
{
void get_by_summoner_id_async
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
std::function<void(size_t response_code, summoner_v4::summoner_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_by_summoner_id";
static const char* service = "summoner_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/summoner/v4/summoners/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
summoner_v4::summoner_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_by_summoner_id_response get_by_summoner_id
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_by_summoner_id";
static const char* service = "summoner_v4";
std::string path = string_format("%s/lol/summoner/v4/summoners/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_by_summoner_id_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_by_summoner_name_async
(
cho::platform_id a_platform,
const char* a_summoner_name,
std::function<void(size_t response_code, summoner_v4::summoner_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_by_summoner_name";
static const char* service = "summoner_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/summoner/v4/summoners/by-name/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_summoner_name).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
summoner_v4::summoner_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_by_summoner_name_response get_by_summoner_name
(
cho::platform_id a_platform,
const char* a_summoner_name,
riot::api* a_riot_api
)
{
static const char* method = "get_by_summoner_name";
static const char* service = "summoner_v4";
std::string path = string_format("%s/lol/summoner/v4/summoners/by-name/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_summoner_name).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_by_summoner_name_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_by_puuid_async
(
cho::platform_id a_platform,
const char* a_encrypted_puuid,
std::function<void(size_t response_code, summoner_v4::summoner_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_by_puuid";
static const char* service = "summoner_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/summoner/v4/summoners/by-puuid/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_puuid).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
summoner_v4::summoner_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_by_puuid_response get_by_puuid
(
cho::platform_id a_platform,
const char* a_encrypted_puuid,
riot::api* a_riot_api
)
{
static const char* method = "get_by_puuid";
static const char* service = "summoner_v4";
std::string path = string_format("%s/lol/summoner/v4/summoners/by-puuid/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_puuid).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_by_puuid_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_by_account_id_async
(
cho::platform_id a_platform,
const char* a_encrypted_account_id,
std::function<void(size_t response_code, summoner_v4::summoner_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_by_account_id";
static const char* service = "summoner_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/summoner/v4/summoners/by-account/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_account_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
summoner_v4::summoner_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_by_account_id_response get_by_account_id
(
cho::platform_id a_platform,
const char* a_encrypted_account_id,
riot::api* a_riot_api
)
{
static const char* method = "get_by_account_id";
static const char* service = "summoner_v4";
std::string path = string_format("%s/lol/summoner/v4/summoners/by-account/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_account_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_by_account_id_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace tft_league_v1
{
void get_master_league_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, tft_league_v1::league_list_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_master_league";
static const char* service = "tft_league_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/league/v1/master", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tft_league_v1::league_list_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_master_league_response get_master_league
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "get_master_league";
static const char* service = "tft_league_v1";
std::string path = string_format("%s/tft/league/v1/master", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_master_league_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_challenger_league_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, tft_league_v1::league_list_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_challenger_league";
static const char* service = "tft_league_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/league/v1/challenger", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tft_league_v1::league_list_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_challenger_league_response get_challenger_league
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "get_challenger_league";
static const char* service = "tft_league_v1";
std::string path = string_format("%s/tft/league/v1/challenger", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_challenger_league_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_grandmaster_league_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, tft_league_v1::league_list_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_grandmaster_league";
static const char* service = "tft_league_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/league/v1/grandmaster", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tft_league_v1::league_list_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_grandmaster_league_response get_grandmaster_league
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "get_grandmaster_league";
static const char* service = "tft_league_v1";
std::string path = string_format("%s/tft/league/v1/grandmaster", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_grandmaster_league_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_league_by_id_async
(
cho::platform_id a_platform,
const char* a_league_id,
std::function<void(size_t response_code, tft_league_v1::league_list_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_league_by_id";
static const char* service = "tft_league_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/league/v1/leagues/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_league_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tft_league_v1::league_list_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_league_by_id_response get_league_by_id
(
cho::platform_id a_platform,
const char* a_league_id,
riot::api* a_riot_api
)
{
static const char* method = "get_league_by_id";
static const char* service = "tft_league_v1";
std::string path = string_format("%s/tft/league/v1/leagues/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_league_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_league_by_id_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_league_entries_async
(
cho::platform_id a_platform,
const char* a_tier,
const char* a_division,
get_league_entries_optional_args a_optional,
std::function<void(size_t response_code, std::vector<tft_league_v1::league_entry_dto> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries";
static const char* service = "tft_league_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/league/v1/entries/%s/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tier).c_str(), cho::request::url_encode(a_division).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<tft_league_v1::league_entry_dto> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_league_entries_response get_league_entries
(
cho::platform_id a_platform,
const char* a_tier,
const char* a_division,
get_league_entries_optional_args a_optional,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries";
static const char* service = "tft_league_v1";
std::string path = string_format("%s/tft/league/v1/entries/%s/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tier).c_str(), cho::request::url_encode(a_division).c_str());
bool is_first = true;
setup_optional_argument(path, "page", a_optional.page, is_first);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_league_entries_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_league_entries_for_summoner_async
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
std::function<void(size_t response_code, std::vector<tft_league_v1::league_entry_dto> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries_for_summoner";
static const char* service = "tft_league_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/league/v1/entries/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<tft_league_v1::league_entry_dto> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_league_entries_for_summoner_response get_league_entries_for_summoner
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_league_entries_for_summoner";
static const char* service = "tft_league_v1";
std::string path = string_format("%s/tft/league/v1/entries/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_league_entries_for_summoner_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace tft_match_v1
{
void get_match_async
(
cho::platform_id a_platform,
const char* a_match_id,
std::function<void(size_t response_code, tft_match_v1::match_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_match";
static const char* service = "tft_match_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/match/v1/matches/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_match_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tft_match_v1::match_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_match_response get_match
(
cho::platform_id a_platform,
const char* a_match_id,
riot::api* a_riot_api
)
{
static const char* method = "get_match";
static const char* service = "tft_match_v1";
switch (a_platform)
{
case cho::platform_id::eun1:
case cho::platform_id::euw1:
case cho::platform_id::tr1:
case cho::platform_id::ru:
a_platform = cho::platform_id::europe;
break;
case cho::platform_id::jp1:
case cho::platform_id::kr:
a_platform = cho::platform_id::asia;
break;
case cho::platform_id::la1:
case cho::platform_id::la2:
case cho::platform_id::na1:
case cho::platform_id::oc1:
case cho::platform_id::pbe1:
case cho::platform_id::br1:
a_platform = cho::platform_id::americas;
break;
}
std::string path = string_format("%s/tft/match/v1/matches/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_match_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_match_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_match_ids_by_puuid_async
(
cho::platform_id a_platform,
const char* a_puuid,
get_match_ids_by_puuid_optional_args a_optional,
std::function<void(size_t response_code, std::vector<std::string> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_match_ids_by_puuid";
static const char* service = "tft_match_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/match/v1/matches/by-puuid/%s/ids", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_puuid).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<std::string> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_match_ids_by_puuid_response get_match_ids_by_puuid
(
cho::platform_id a_platform,
const char* a_puuid,
get_match_ids_by_puuid_optional_args a_optional,
riot::api* a_riot_api
)
{
static const char* method = "get_match_ids_by_puuid";
static const char* service = "tft_match_v1";
switch (a_platform)
{
case cho::platform_id::eun1:
case cho::platform_id::euw1:
case cho::platform_id::tr1:
case cho::platform_id::ru:
a_platform = cho::platform_id::europe;
break;
case cho::platform_id::jp1:
case cho::platform_id::kr:
a_platform = cho::platform_id::asia;
break;
case cho::platform_id::la1:
case cho::platform_id::la2:
case cho::platform_id::na1:
case cho::platform_id::oc1:
case cho::platform_id::pbe1:
case cho::platform_id::br1:
a_platform = cho::platform_id::americas;
break;
}
std::string path = string_format("%s/tft/match/v1/matches/by-puuid/%s/ids", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_puuid).c_str());
bool is_first = true;
setup_optional_argument(path, "count", a_optional.count, is_first);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_match_ids_by_puuid_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace tft_summoner_v1
{
void get_by_summoner_id_async
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
std::function<void(size_t response_code, tft_summoner_v1::summoner_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_by_summoner_id";
static const char* service = "tft_summoner_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/summoner/v1/summoners/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tft_summoner_v1::summoner_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_by_summoner_id_response get_by_summoner_id
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_by_summoner_id";
static const char* service = "tft_summoner_v1";
std::string path = string_format("%s/tft/summoner/v1/summoners/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_by_summoner_id_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_by_summoner_name_async
(
cho::platform_id a_platform,
const char* a_summoner_name,
std::function<void(size_t response_code, tft_summoner_v1::summoner_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_by_summoner_name";
static const char* service = "tft_summoner_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/summoner/v1/summoners/by-name/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_summoner_name).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tft_summoner_v1::summoner_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_by_summoner_name_response get_by_summoner_name
(
cho::platform_id a_platform,
const char* a_summoner_name,
riot::api* a_riot_api
)
{
static const char* method = "get_by_summoner_name";
static const char* service = "tft_summoner_v1";
std::string path = string_format("%s/tft/summoner/v1/summoners/by-name/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_summoner_name).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_by_summoner_name_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_by_puuid_async
(
cho::platform_id a_platform,
const char* a_encrypted_puuid,
std::function<void(size_t response_code, tft_summoner_v1::summoner_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_by_puuid";
static const char* service = "tft_summoner_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/summoner/v1/summoners/by-puuid/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_puuid).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tft_summoner_v1::summoner_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_by_puuid_response get_by_puuid
(
cho::platform_id a_platform,
const char* a_encrypted_puuid,
riot::api* a_riot_api
)
{
static const char* method = "get_by_puuid";
static const char* service = "tft_summoner_v1";
std::string path = string_format("%s/tft/summoner/v1/summoners/by-puuid/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_puuid).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_by_puuid_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_by_account_id_async
(
cho::platform_id a_platform,
const char* a_encrypted_account_id,
std::function<void(size_t response_code, tft_summoner_v1::summoner_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_by_account_id";
static const char* service = "tft_summoner_v1";
char path[1024];
snprintf(path, 1024, "%s/tft/summoner/v1/summoners/by-account/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_account_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tft_summoner_v1::summoner_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_by_account_id_response get_by_account_id
(
cho::platform_id a_platform,
const char* a_encrypted_account_id,
riot::api* a_riot_api
)
{
static const char* method = "get_by_account_id";
static const char* service = "tft_summoner_v1";
std::string path = string_format("%s/tft/summoner/v1/summoners/by-account/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_account_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_by_account_id_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace third_party_code_v4
{
void get_third_party_code_by_summoner_id_async
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
std::function<void(size_t response_code, std::string result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_third_party_code_by_summoner_id";
static const char* service = "third_party_code_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/platform/v4/third-party-code/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::string return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_third_party_code_by_summoner_id_response get_third_party_code_by_summoner_id
(
cho::platform_id a_platform,
const char* a_encrypted_summoner_id,
riot::api* a_riot_api
)
{
static const char* method = "get_third_party_code_by_summoner_id";
static const char* service = "third_party_code_v4";
std::string path = string_format("%s/lol/platform/v4/third-party-code/by-summoner/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_encrypted_summoner_id).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_third_party_code_by_summoner_id_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace tournament_stub_v4
{
void create_tournament_code_async
(
cho::platform_id a_platform,
int64_t a_tournament_id,
create_tournament_code_optional_args a_optional,
std::function<void(size_t response_code, std::vector<std::string> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "create_tournament_code";
static const char* service = "tournament_stub_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament-stub/v4/codes", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<std::string> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
create_tournament_code_response create_tournament_code
(
cho::platform_id a_platform,
int64_t a_tournament_id,
create_tournament_code_optional_args a_optional,
riot::api* a_riot_api
)
{
static const char* method = "create_tournament_code";
static const char* service = "tournament_stub_v4";
std::string path = string_format("%s/lol/tournament-stub/v4/codes", g_riot_api_servers[static_cast<int>(a_platform)]);
bool is_first = true;
setup_optional_argument(path, "count", a_optional.count, is_first);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
create_tournament_code_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void register_provider_data_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, int32_t result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "register_provider_data";
static const char* service = "tournament_stub_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament-stub/v4/providers", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
int32_t return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
register_provider_data_response register_provider_data
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "register_provider_data";
static const char* service = "tournament_stub_v4";
std::string path = string_format("%s/lol/tournament-stub/v4/providers", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
register_provider_data_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void register_tournament_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, int32_t result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "register_tournament";
static const char* service = "tournament_stub_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament-stub/v4/tournaments", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
int32_t return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
register_tournament_response register_tournament
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "register_tournament";
static const char* service = "tournament_stub_v4";
std::string path = string_format("%s/lol/tournament-stub/v4/tournaments", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
register_tournament_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_lobby_events_by_code_async
(
cho::platform_id a_platform,
const char* a_tournament_code,
std::function<void(size_t response_code, tournament_stub_v4::lobby_event_dtowrapper result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_lobby_events_by_code";
static const char* service = "tournament_stub_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament-stub/v4/lobby-events/by-code/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tournament_stub_v4::lobby_event_dtowrapper return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_lobby_events_by_code_response get_lobby_events_by_code
(
cho::platform_id a_platform,
const char* a_tournament_code,
riot::api* a_riot_api
)
{
static const char* method = "get_lobby_events_by_code";
static const char* service = "tournament_stub_v4";
std::string path = string_format("%s/lol/tournament-stub/v4/lobby-events/by-code/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_lobby_events_by_code_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
namespace tournament_v4
{
void create_tournament_code_async
(
cho::platform_id a_platform,
int64_t a_tournament_id,
create_tournament_code_optional_args a_optional,
std::function<void(size_t response_code, std::vector<std::string> result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "create_tournament_code";
static const char* service = "tournament_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament/v4/codes", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
std::vector<std::string> return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
create_tournament_code_response create_tournament_code
(
cho::platform_id a_platform,
int64_t a_tournament_id,
create_tournament_code_optional_args a_optional,
riot::api* a_riot_api
)
{
static const char* method = "create_tournament_code";
static const char* service = "tournament_v4";
std::string path = string_format("%s/lol/tournament/v4/codes", g_riot_api_servers[static_cast<int>(a_platform)]);
bool is_first = true;
setup_optional_argument(path, "count", a_optional.count, is_first);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
create_tournament_code_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void register_provider_data_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, int32_t result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "register_provider_data";
static const char* service = "tournament_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament/v4/providers", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
int32_t return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
register_provider_data_response register_provider_data
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "register_provider_data";
static const char* service = "tournament_v4";
std::string path = string_format("%s/lol/tournament/v4/providers", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
register_provider_data_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void register_tournament_async
(
cho::platform_id a_platform,
std::function<void(size_t response_code, int32_t result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "register_tournament";
static const char* service = "tournament_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament/v4/tournaments", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
int32_t return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
register_tournament_response register_tournament
(
cho::platform_id a_platform,
riot::api* a_riot_api
)
{
static const char* method = "register_tournament";
static const char* service = "tournament_v4";
std::string path = string_format("%s/lol/tournament/v4/tournaments", g_riot_api_servers[static_cast<int>(a_platform)]);
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
register_tournament_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void get_tournament_code_async
(
cho::platform_id a_platform,
const char* a_tournament_code,
std::function<void(size_t response_code, tournament_v4::tournament_code_dto result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_tournament_code";
static const char* service = "tournament_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament/v4/codes/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tournament_v4::tournament_code_dto return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_tournament_code_response get_tournament_code
(
cho::platform_id a_platform,
const char* a_tournament_code,
riot::api* a_riot_api
)
{
static const char* method = "get_tournament_code";
static const char* service = "tournament_v4";
std::string path = string_format("%s/lol/tournament/v4/codes/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_tournament_code_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
void update_code_async
(
cho::platform_id a_platform,
const char* a_tournament_code,
std::function<void(size_t response_code)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "update_code";
static const char* service = "tournament_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament/v4/codes/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
a_callback(request->get_response_code());
});
}
update_code_response update_code
(
cho::platform_id a_platform,
const char* a_tournament_code,
riot::api* a_riot_api
)
{
static const char* method = "update_code";
static const char* service = "tournament_v4";
std::string path = string_format("%s/lol/tournament/v4/codes/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
update_code_response response;
response.response_code = request->get_response_code();
return response;
}
void get_lobby_events_by_code_async
(
cho::platform_id a_platform,
const char* a_tournament_code,
std::function<void(size_t response_code, tournament_v4::lobby_event_dtowrapper result)> a_callback,
riot::api* a_riot_api
)
{
static const char* method = "get_lobby_events_by_code";
static const char* service = "tournament_v4";
char path[1024];
snprintf(path, 1024, "%s/lol/tournament/v4/lobby-events/by-code/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path);
std::async(std::launch::async, [&request, a_callback]()
{
request->perform();
if (!a_callback) // If no callback was supplied, we don't parse the json result.
return;
auto response_code = request->get_response_code();
tournament_v4::lobby_event_dtowrapper return_element;
if (response_code >= 200 && response_code < 300)
from_json(request->get_json(), return_element);
a_callback(response_code, return_element);
});
}
get_lobby_events_by_code_response get_lobby_events_by_code
(
cho::platform_id a_platform,
const char* a_tournament_code,
riot::api* a_riot_api
)
{
static const char* method = "get_lobby_events_by_code";
static const char* service = "tournament_v4";
std::string path = string_format("%s/lol/tournament/v4/lobby-events/by-code/%s", g_riot_api_servers[static_cast<int>(a_platform)], cho::request::url_encode(a_tournament_code).c_str());
auto request = a_riot_api->make_request(a_platform, service, method, path.c_str());
request->perform();
get_lobby_events_by_code_response response;
response.response_code = request->get_response_code();
if (response.response_code >= 200 && response.response_code < 300)
from_json(request->get_json(), response.result);
return response;
}
}
} | [
"gitfork@irule.at"
] | gitfork@irule.at |
539b42272d92e9a0cb123e058cb29a4454b18b2f | 70f85c18971a315f4da17c7591a986670081f694 | /S25FLx_FIFO.h | 3e4fcbc87ad1eb6fa3134bee7f711ad7c3d46995 | [] | no_license | BleepLabs/S25FLx_FIFO | 90bdbc3b0b8c8e70a69069b86852b4941c6bcebb | 8636134382b7abe5d1059974029147f24168a9f5 | refs/heads/master | 2021-01-13T00:59:26.540520 | 2015-09-30T21:24:53 | 2015-09-30T21:24:53 | 43,459,946 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,638 | h | /*
Arduino S25FLx Serial Flash library
By John-Mike Reed (Dr. Bleep) of Bleep labs
This free library is realeased under Creative comoms license CC BY-SA 3.0
http://creativecommons.org/licenses/by-sa/3.0/deed.en_US
*/
//Define S25FLx control bytes
#define WREN 0x06 /* Write Enable */
#define WRDI 0x04 /* Write Disable */
#define RDSR 0x05 /* Read Status Register */
#define WRSR 0x01 /* Write Status Register */
#define READ 0x03 /* Read Data Bytes */
#define FAST_READ 0x0b /* Read Data Bytes at Higher Speed //Not used as as the 328 isn't fast enough */
#define PP 0x02 /* Page Program */
#define SE 0x20 /* Sector Erase (4k) */
#define BE 0xd8 /* Block Erase (64k) */
#define CE 0xc7 /* Erase entire chip */
#define DP 0xb9 /* Deep Power-down */
#define RES 0xab /* Release Power-down, return Device ID */
#define RDID 0x9F /* Read Manufacture ID, memory type ID, capacity ID */
#define cs 10 //Chip select pin
#include "arduino.h"
#include <SPIFIFO.h>
#ifndef S25FLx_h
#define S25FLx_h
class flash
{
public:
flash();
byte stat();
void waitforit();
void write_enable();
void erase_4k(uint32_t loc);
void erase_64k(uint32_t loc);
void erase_all();
void read(uint32_t loc, uint8_t* array, uint32_t length);
void write(uint32_t loc, uint8_t* array, uint32_t length);
void read16(uint32_t loc, int16_t* array, byte length);
void write16(uint32_t loc, int16_t* array, byte length);
void write_reg(byte w);
void read_info();
private:
};
#endif
| [
"drbleep@bleeplabs.com"
] | drbleep@bleeplabs.com |
8ee752748659cc29d69df9181f219af474c4bfe1 | 345f5dca1256a804afa0a9b3299fa6caa201b4c8 | /randoms/PAT/Basic/1090.cpp | bc1507af150a47594142e2643c367361e72b900d | [] | no_license | HaroldCC/playground | 2508d4b391ac7edd2b1565c24788056052e0ce6b | fd37879f66c6da6e15419a47b16116deae6c8b6f | refs/heads/main | 2023-09-04T12:23:06.348909 | 2021-11-08T14:32:06 | 2021-11-08T14:32:06 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,311 | cpp | /**
* @file 1090.cpp
* @author midlane.top
* @brief https://pintia.cn/problem-sets/994805260223102976/problems/1038429484026175488
* @version 0.1
* @date 2021-08-06
*
* @copyright Copyright (c) 2021
*
*/
#include <iostream>
#include <vector>
#include <map>
#include <set>
using namespace std;
int main() {
int n, m;
set<int> s;
map<int, set<int>> index;
cin >> n >> m;
int n1, n2;
for(int i = 0; i < n; i++) {
cin >> n1 >> n2;
s.insert(n1);
s.insert(n2);
index[n1].insert(n2);
index[n2].insert(n1);
}
int count;
set<int> nums;
int tmp;
bool flag;
for(int i = 0; i < m; i++) {
flag = false;
nums.clear();
cin >> count;
for(int j = 0; j < count; j++) {
cin >> tmp;
if(flag) {
continue;
}
if(s.count(tmp) == 0) {
continue;
}
for(auto i : index[tmp]) {
if(nums.count(i) != 0) {
flag = true;
}
}
if(!flag) {
nums.insert(tmp);
}
}
if(flag) {
cout << "No" << endl;
} else {
cout << "Yes" << endl;
}
}
return 0;
} | [
"zhong.rs232@gmail.com"
] | zhong.rs232@gmail.com |
2f70e0818ff87a09bd316cfc543f604f773b17b8 | 22396617ba7908790a91b81d4d8de8e56979ab31 | /Classes/WXDeathLayer.cpp | 83721b511eb61650807535d16c01f624808df154 | [] | no_license | atom-chen/JH-DY | a604a048b2131019aac1327ed434e4b360058c8a | f69ac123a3f00b300949d7c3565ec2408841655d | refs/heads/master | 2020-06-03T06:34:11.519406 | 2018-02-03T09:39:06 | 2018-02-03T09:39:06 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,179 | cpp | #include "WXDeathLayer.h"
#include "CommonFuncs.h"
#include "StartScene.h"
#include "SoundManager.h"
#include "Const.h"
#include "AnalyticUtil.h"
#include "GameScene.h"
WXDeathLayer::WXDeathLayer()
{
}
WXDeathLayer::~WXDeathLayer()
{
}
bool WXDeathLayer::init()
{
LayerColor* color = LayerColor::create(Color4B(0, 0, 0, 255));
this->addChild(color);
Node* csbnode = CSLoader::createNode("deathLayer.csb");
this->addChild(csbnode);
csbnode->runAction(FadeIn::create(3.0f));
////layer 点击事件,屏蔽下层事件
auto listener = EventListenerTouchOneByOne::create();
listener->onTouchBegan = [=](Touch *touch, Event *event)
{
return true;
};
listener->onTouchEnded = [=](Touch *touch, Event *event)
{
Director::getInstance()->replaceScene(StartScene::createScene());
};
listener->setSwallowTouches(true);
_eventDispatcher->addEventListenerWithSceneGraphPriority(listener, this);
SoundManager::getInstance()->playBackMusic(SoundManager::MUSIC_ID_DEATH);
#ifdef ANALYTICS
std::string pastdaystr = StringUtils::format("pastday%d", g_nature->getPastDays());
AnalyticUtil::onEvent(pastdaystr.c_str());
#endif
return true;
}
bool WXDeathLayer::isPhone() {
static const Size size = Director::getInstance()->getVisibleSize();
static const float rate = size.height / size.width;
if (rate >= 1.49) {
return true;
}
else {
return false;
}
}
WXDeathLayer* WXDeathLayer::create()
{
WXDeathLayer *pRet = new WXDeathLayer();
if (pRet && pRet->init())
{
pRet->autorelease();
}
else
{
delete pRet;
pRet = NULL;
}
return pRet;
}
void WXDeathLayer::jumpDown(cocos2d::Node *node, float dt) {
if (nullptr == node) {
return;
}
const float originY = node->getPositionY();
node->setPositionY(originY + dt);
ActionInterval *action = Sequence::create(
MoveBy::create(0.2, Vec2(0, -dt - 10)),
MoveBy::create(0.2, Vec2(0, 20)),
MoveBy::create(0.1, Vec2(0, -18)),
MoveBy::create(0.1, Vec2(0, 13)),
MoveBy::create(0.1, Vec2(0, -5)),
ScaleTo::create(0.1, 1.02, 0.98, 1),
ScaleTo::create(0.1, 0.98, 1, 1),
ScaleTo::create(0.1, 1.02, 0.98, 1),
ScaleTo::create(0.1, 1, 1, 1),
NULL);
node->runAction(action);
} | [
"zhou_jian007@126.com"
] | zhou_jian007@126.com |
b5669b9c3f3f61b120f61bfe59c937ac55340155 | 299cd957a25af54c53449fe846a4ccb1c9163008 | /Figures/Figures.cpp | eeeb7bd3e736022bd6a10644a6b44b5f653e0256 | [] | no_license | notrich22/Figures | b5973c3ed45d8f74283d4e2a1457ae88f9d325d5 | c7b2084bdfa10a0eb5355e359303789823fefd73 | refs/heads/master | 2023-08-17T13:00:25.652574 | 2021-10-06T16:25:09 | 2021-10-06T16:25:09 | 414,287,642 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 185 | cpp | #include "Figures.h"
void Figures::display()
{
cout << name << ":\n";
cout << "P = " << P << endl;
cout << "S = " << S << endl;
cout << "Corner Count = " << cornerCount << endl;
}
| [
"notrich22@mail.ru"
] | notrich22@mail.ru |
ad41176f347cef3cbbcc38b2cf69613b35826c3d | b1eb86a932e801233d31f71ed141ae7507e8ae79 | /Udacity-CarND-P06-Extended-Kalman-Filter/src/FusionEKF.cpp | 27ece1e587b72cb9e810d4cbe8c33be0fde0a08f | [
"MIT"
] | permissive | Francisobiagwu/Udacity-CarND-Self-Driving-Car | 6888769cd56e9af8dcbb467dd63b9e8d52c9c22f | 05cff8b7e467da682bb0ca7916e1c114b6625a30 | refs/heads/master | 2020-06-23T05:34:01.442776 | 2018-06-22T00:18:11 | 2018-06-22T00:18:11 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 5,604 | cpp | #include "FusionEKF.h"
#include "tools.h"
#include "Eigen/Dense"
#include <iostream>
#include <chrono>
using namespace std;
using Eigen::MatrixXd;
using Eigen::VectorXd;
using std::vector;
// https://stackoverflow.com/questions/2940367/what-is-more-efficient-using-pow-to-square-or-just-multiply-it-with-itself
class Timer {
public:
explicit Timer () : from (std::chrono::high_resolution_clock::now()) { }
void start () {
from = std::chrono::high_resolution_clock::now();
}
double elapsed() const {
return std::chrono::duration_cast<std::chrono::milliseconds>(std::chrono::high_resolution_clock::now() - from).count() * 1.0e-6;
}
private:
std::chrono::high_resolution_clock::time_point from;
};
/*
* Constructor.
*/
FusionEKF::FusionEKF() {
is_initialized_ = false;
previous_timestamp_ = 0;
// initializing matrices
R_laser_ = MatrixXd(2, 2);
R_radar_ = MatrixXd(3, 3);
H_laser_ = MatrixXd(2, 4);
Hj_ = MatrixXd(3, 4);
//measurement covariance matrix - laser
R_laser_ << 0.0225, 0,
0 , 0.0225;
//measurement covariance matrix - radar
R_radar_ << 0.09, 0 , 0,
0 , 0.0009, 0,
0 , 0 , 0.09;
/**
TODO:
* Finish initializing the FusionEKF.
* Set the process and measurement noises
*/
H_laser_ << 1, 0, 0, 0,
0, 1, 0, 0;
//float noise_ax = 9.0;
//float noise_ay = 9.0;
// Initial Transition Matrix
ekf_.F_ = MatrixXd(4,4);
ekf_.F_ << 1, 0, 1, 0,
0, 1, 0, 0,
0, 0, 1, 0,
0, 0, 0, 1;
// State Coveriance Matrix
ekf_.P_ = MatrixXd(4,4);
ekf_.P_ << 1, 0, 1, 0,
0, 1, 0, 0,
0, 0, 1000, 0,
0, 0, 0,1000;
}
/**
* Destructor.
*/
FusionEKF::~FusionEKF() {}
void FusionEKF::ProcessMeasurement(const MeasurementPackage &measurement_pack) {
Timer timer;
timer.start();
/*****************************************************************************
* Initialization
****************************************************************************/
if (!is_initialized_) {
/**
TODO:
* Initialize the state ekf_.x_ with the first measurement.
* Create the covariance matrix.
* Remember: you'll need to convert radar from polar to cartesian coordinates.
*/
// first measurement
cout << "EKF: " << endl;
ekf_.x_ = VectorXd(4);
ekf_.x_ << 0.001, 0.001, 0.001, 0.001;
if (measurement_pack.sensor_type_ == MeasurementPackage::RADAR) {
/**
Convert radar from polar to cartesian coordinates and initialize state.
*/
float rho = measurement_pack.raw_measurements_[0];
float phi = measurement_pack.raw_measurements_[1];
float rho_dot = measurement_pack.raw_measurements_[2];
ekf_.x_ << rho * cos(phi), rho * sin(phi), 0, 0;
}
else if (measurement_pack.sensor_type_ == MeasurementPackage::LASER) {
/**
Initialize state.
*/
ekf_.x_ << measurement_pack.raw_measurements_[0], measurement_pack.raw_measurements_[1], 0.0, 0.0;
}
previous_timestamp_ = measurement_pack.timestamp_;
// done initializing, no need to predict or update
is_initialized_ = true;
return;
}
/*****************************************************************************
* Prediction
****************************************************************************/
/**
TODO:
* Update the state transition matrix F according to the new elapsed time.
- Time is measured in seconds.
* Update the process noise covariance matrix.
* Use noise_ax = 9 and noise_ay = 9 for your Q matrix.
*/
//compute the time elapsed between the current and previous measurements
float dt = (measurement_pack.timestamp_ - previous_timestamp_) / 1000000.0; //dt - expressed in seconds
previous_timestamp_ = measurement_pack.timestamp_;
float dt_2 = dt * dt;
float dt_3 = dt_2 * dt;
float dt_4 = dt_3 * dt;
//Modify the F matrix so that the time is integrated
ekf_.F_(0, 2) = dt;
ekf_.F_(1, 3) = dt;
//set the process covariance matrix Q
ekf_.Q_ = MatrixXd(4, 4);
// change to 6.0 to see what happens
float noise_ax = 9.0;
float noise_ay = 9.0;
ekf_.Q_ << (dt_4/4)*noise_ax, 0, (dt_3/2)*noise_ax, 0,
0, (dt_4/4)*noise_ay, 0, (dt_3/2)*noise_ay,
(dt_3/2)*noise_ax, 0, dt_2*noise_ax, 0,
0, (dt_3/2)*noise_ay, 0, dt_2*noise_ay;
ekf_.Predict();
/*****************************************************************************
* Update
****************************************************************************/
/**
TODO:
* Use the sensor type to perform the update step.
* Update the state and covariance matrices.
*/
if (measurement_pack.sensor_type_ == MeasurementPackage::RADAR) {
// Radar updates
Hj_ = tools.CalculateJacobian(ekf_.x_);
ekf_.H_ = Hj_;
ekf_.R_ = R_radar_;
ekf_.UpdateEKF(measurement_pack.raw_measurements_);
} else {
// Laser updates
ekf_.H_ = H_laser_;
ekf_.R_ = R_laser_;
ekf_.Update(measurement_pack.raw_measurements_);
}
std::cout << "Processed time: " << timer.elapsed() << std::endl;
// print the output
cout << "x_ = " << ekf_.x_ << endl;
cout << "P_ = " << ekf_.P_ << endl;
}
| [
"udacity@mouse152n-04u.yrd.suzuki.co.jp"
] | udacity@mouse152n-04u.yrd.suzuki.co.jp |
3be6f8248cd700c115baf86d46008291ead58de6 | f68202dfca4fc120967fd9dbdd6a4669bde1aecb | /gdal-3.0.2/ogr/ogrsf_frmts/libkml/ogrlibkmldriver.cpp | 77ade37179b2e2ae86be2f5714c698c99cc3fb76 | [
"Apache-2.0",
"LicenseRef-scancode-public-domain",
"BSD-2-Clause",
"LicenseRef-scancode-warranty-disclaimer",
"MIT",
"SunPro",
"LicenseRef-scancode-info-zip-2005-02",
"BSD-3-Clause"
] | permissive | tiarnan97/circuitApp | 1338dfdb9d010ca60a1deccee9968b91a73724c2 | bd9069364437ae73cdca2a60d395f89616e7c032 | refs/heads/master | 2023-04-27T00:27:58.349520 | 2019-12-16T18:14:27 | 2019-12-16T18:14:27 | 215,044,695 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 17,542 | cpp | /******************************************************************************
*
* Project: KML Translator
* Purpose: Implements OGRLIBKMLDriver
* Author: Brian Case, rush at winkey dot org
*
******************************************************************************
* Copyright (c) 2010, Brian Case
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*****************************************************************************/
#include "libkml_headers.h"
#include "ogr_libkml.h"
#include "cpl_conv.h"
#include "cpl_error.h"
#include "cpl_multiproc.h"
CPL_CVSID("$Id: ogrlibkmldriver.cpp 59a14714d4e03779006fdac3a977641bccd2447b 2019-07-30 21:41:17 +0200 Even Rouault $")
using kmldom::KmlFactory;
static CPLMutex *hMutex = nullptr;
static KmlFactory* m_poKmlFactory = nullptr;
/******************************************************************************
OGRLIBKMLDriverUnload()
******************************************************************************/
static void OGRLIBKMLDriverUnload( GDALDriver * /* poDriver */ )
{
if( hMutex != nullptr )
CPLDestroyMutex(hMutex);
hMutex = nullptr;
m_poKmlFactory = nullptr;
}
/************************************************************************/
/* OGRLIBKMLDriverIdentify() */
/************************************************************************/
static int OGRLIBKMLDriverIdentify( GDALOpenInfo* poOpenInfo )
{
if( !poOpenInfo->bStatOK )
return FALSE;
if( poOpenInfo->bIsDirectory )
return -1;
const char* pszExt = CPLGetExtension(poOpenInfo->pszFilename);
if( EQUAL(pszExt, "kml") ||
EQUAL(pszExt, "kmz") )
{
return TRUE;
}
if( poOpenInfo->pabyHeader &&
( strstr(reinterpret_cast<char *>(poOpenInfo->pabyHeader),
"<kml") != nullptr ||
strstr(reinterpret_cast<char *>(poOpenInfo->pabyHeader),
"<kml:kml") != nullptr) )
{
return TRUE;
}
return FALSE;
}
/******************************************************************************
Open()
******************************************************************************/
static GDALDataset *OGRLIBKMLDriverOpen( GDALOpenInfo* poOpenInfo )
{
if( OGRLIBKMLDriverIdentify(poOpenInfo) == FALSE )
return nullptr;
{
CPLMutexHolderD(&hMutex);
if( m_poKmlFactory == nullptr )
m_poKmlFactory = KmlFactory::GetFactory();
}
OGRLIBKMLDataSource *poDS = new OGRLIBKMLDataSource( m_poKmlFactory );
if( !poDS->Open( poOpenInfo->pszFilename,
poOpenInfo->eAccess == GA_Update ) )
{
delete poDS;
poDS = nullptr;
}
return poDS;
}
/************************************************************************/
/* Create() */
/************************************************************************/
static GDALDataset *OGRLIBKMLDriverCreate( const char * pszName,
int /* nBands */,
int /* nXSize */,
int /* nYSize */,
GDALDataType /* eDT */,
char **papszOptions )
{
CPLAssert( nullptr != pszName );
CPLDebug( "LIBKML", "Attempt to create: %s", pszName );
{
CPLMutexHolderD(&hMutex);
if( m_poKmlFactory == nullptr )
m_poKmlFactory = KmlFactory::GetFactory();
}
OGRLIBKMLDataSource *poDS = new OGRLIBKMLDataSource( m_poKmlFactory );
if( !poDS->Create( pszName, papszOptions ) ) {
delete poDS;
poDS = nullptr;
}
return poDS;
}
/******************************************************************************
DeleteDataSource()
Note: This method recursively deletes an entire dir if the datasource is a dir
and all the files are kml or kmz.
******************************************************************************/
static CPLErr OGRLIBKMLDriverDelete( const char *pszName )
{
/***** dir *****/
VSIStatBufL sStatBuf;
if( !VSIStatL( pszName, &sStatBuf ) && VSI_ISDIR( sStatBuf.st_mode ) )
{
char **papszDirList = VSIReadDir( pszName );
for( int iFile = 0;
papszDirList != nullptr && papszDirList[iFile] != nullptr;
iFile++ )
{
if( CE_Failure == OGRLIBKMLDriverDelete( papszDirList[iFile] ) )
{
CSLDestroy( papszDirList );
return CE_Failure;
}
}
CSLDestroy( papszDirList );
if( VSIRmdir( pszName ) < 0 )
{
return CE_Failure;
}
}
/***** kml *****/
else if( EQUAL( CPLGetExtension( pszName ), "kml" ) )
{
if( VSIUnlink( pszName ) < 0 )
return CE_Failure;
}
/***** kmz *****/
else if( EQUAL( CPLGetExtension( pszName ), "kmz" ) )
{
if( VSIUnlink( pszName ) < 0 )
return CE_Failure;
}
/***** do not delete other types of files *****/
else
{
return CE_Failure;
}
// TODO(schwehr): Isn't this redundant to the else case?
return CE_None;
}
/******************************************************************************
RegisterOGRLIBKML()
******************************************************************************/
void RegisterOGRLIBKML()
{
if( GDALGetDriverByName( "LIBKML" ) != nullptr )
return;
GDALDriver *poDriver = new GDALDriver();
poDriver->SetDescription( "LIBKML" );
poDriver->SetMetadataItem( GDAL_DCAP_VECTOR, "YES" );
poDriver->SetMetadataItem( GDAL_DMD_LONGNAME,
"Keyhole Markup Language (LIBKML)" );
poDriver->SetMetadataItem( GDAL_DMD_EXTENSIONS, "kml kmz" );
poDriver->SetMetadataItem( GDAL_DMD_HELPTOPIC, "drv_libkml.html" );
poDriver->SetMetadataItem( GDAL_DMD_CREATIONOPTIONLIST,
"<CreationOptionList>"
" <Option name='DOCUMENT_ID' type='string' description='Id of the root <Document> node' default='root_doc'/>'"
" <Option name='AUTHOR_NAME' type='string' description='Name in <atom:Author> element'/>"
" <Option name='AUTHOR_URI' type='string' description='URI in <atom:Author> element'/>"
" <Option name='AUTHOR_EMAIL' type='string' description='Email in <atom:Author> element'/>"
" <Option name='LINK' type='string' description='Href of <atom:link> element'/>"
" <Option name='PHONENUMBER' type='string' description='Value of <phoneNumber> element'/>"
" <Option name='NAME' type='string' description='Value of <name> element of top container'/>"
" <Option name='VISIBILITY' type='integer' description='Value of <visibility> element of top container (0/1)'/>"
" <Option name='OPEN' type='integer' description='Value of <open> element of top container (0/1)'/>"
" <Option name='SNIPPET' type='string' description='Value of <snippet> element of top container'/>"
" <Option name='DESCRIPTION' type='string' description='Value of <description> element of top container'/>"
" <Option name='LISTSTYLE_TYPE' type='string-select' description='Value of <listItemType> element of top container'>"
" <Value>check</Value>"
" <Value>radioFolder</Value>"
" <Value>checkOffOnly</Value>"
" <Value>checkHideChildren</Value>"
" </Option>"
" <Option name='LISTSTYLE_ICON_HREF' type='string' description='URL of the icon to display for the main folder. Sets the href element of the <ItemIcon> element'/>"
" <Option name='*_BALLOONSTYLE_BGCOLOR' type='string' description='Background color of a <BallonStyle> element if a style X is defined'/>"
" <Option name='*_BALLOONSTYLE_TEXT' type='string' description='Text of a <BallonStyle> element if a style X is defined'/>"
" <Option name='NLC_MINREFRESHPERIOD' type='float' description='<minRefreshPeriod> element of a <NetworkLinkControl> element'/>"
" <Option name='NLC_MAXSESSIONLENGTH' type='float' description='<maxSessionLength> element of a <NetworkLinkControl> element'/>"
" <Option name='NLC_COOKIE' type='string' description='<cookie> element of a <NetworkLinkControl> element'/>"
" <Option name='NLC_MESSAGE' type='string' description='<message> element of a <NetworkLinkControl> element'/>"
" <Option name='NLC_LINKNAME' type='string' description='<linkName> element of a <NetworkLinkControl> element'/>"
" <Option name='NLC_LINKDESCRIPTION' type='string' description='<linkDescription> element of a <NetworkLinkControl> element'/>"
" <Option name='NLC_LINKSNIPPET' type='string' description='<linkSnippet> element of a <NetworkLinkControl> element'/>"
" <Option name='NLC_EXPIRES' type='string' description='Date to set in <expires> element of a <NetworkLinkControl> element'/>"
" <Option name='UPDATE_TARGETHREF' type='string' description='If set, a NetworkLinkControl KML file with an <Update> element will be generated'/>"
"</CreationOptionList>");
poDriver->SetMetadataItem( GDAL_DS_LAYER_CREATIONOPTIONLIST,
"<LayerCreationOptionList>"
" <Option name='NAME' type='string' description='Value of <name> element of layer container'/>"
" <Option name='VISIBILITY' type='integer' description='Value of <visibility> element of layer container (0/1)'/>"
" <Option name='OPEN' type='integer' description='Value of <open> element of layer container (0/1)'/>"
" <Option name='SNIPPET' type='string' description='Value of <snippet> element of layer container'/>"
" <Option name='DESCRIPTION' type='string' description='Value of <description> element of layer container'/>"
" <Option name='LOOKAT_LONGITUDE' type='float' description='<longitude> of a <LookAt> element at layer level' min='-180' max='180'/>"
" <Option name='LOOKAT_LATITUDE' type='float' description='<latitude> of a <LookAt> element at layer level' min='-90' max='90'/>"
" <Option name='LOOKAT_RANGE' type='float' description='<range> of a <LookAt> element at layer level' min='0'/>"
" <Option name='LOOKAT_HEADING' type='float' description='<heading> of a <LookAt> element at layer level'/>"
" <Option name='LOOKAT_TILT' type='float' description='<tilt> of a <LookAt> element at layer level'/>"
" <Option name='LOOKAT_ALTITUDE' type='float' description='<altitude> of a <LookAt> element at layer level'/>"
" <Option name='LOOKAT_ALTITUDEMODE' type='string-select' description='<altitudeMode> of a <LookAt> element at layer level'>"
" <Value>clampToGround</Value>"
" <Value>relativeToGround</Value>"
" <Value>absolute</Value>"
" <Value>clampToSeaFloor</Value>"
" <Value>relativeToSeaFloor</Value>"
" </Option>"
" <Option name='CAMERA_LONGITUDE' type='float' description='<longitude> of a <Camera> element at layer level' min='-180' max='180'/>"
" <Option name='CAMERA_LATITUDE' type='float' description='<latitude> of a <Camera> element at layer level' min='-90' max='90'/>"
" <Option name='CAMERA_HEADING' type='float' description='<heading> of a <Camera> element at layer level'/>"
" <Option name='CAMERA_TILT' type='float' description='<tilt> of a <Camera> element at layer level'/>"
" <Option name='CAMERA_ROLL' type='float' description='<roll> of a <Camera> element at layer level'/>"
" <Option name='CAMERA_ALTITUDE' type='float' description='<altitude> of a <Camera> element at layer level'/>"
" <Option name='CAMERA_ALTITUDEMODE' type='string-select' description='<altitudeMode> of a <Camera> element at layer level'>"
" <Value>clampToGround</Value>"
" <Value>relativeToGround</Value>"
" <Value>absolute</Value>"
" <Value>clampToSeaFloor</Value>"
" <Value>relativeToSeaFloor</Value>"
" </Option>"
" <Option name='ADD_REGION' type='boolean' description='Whether to generate a <Region> element to control when objects of the layer are visible or not' default='NO'/>"
" <Option name='REGION_XMIN' type='float' description='West coordinate of the region' min='-180' max='180'/>"
" <Option name='REGION_YMIN' type='float' description='South coordinate of the region' min='-90' max='90'/>"
" <Option name='REGION_XMAX' type='float' description='East coordinate of the region' min='-180' max='180'/>"
" <Option name='REGION_YMAX' type='float' description='North coordinate of the region' min='-90' max='90'/>"
" <Option name='REGION_MIN_LOD_PIXELS' type='float' description='minimum size in pixels of the region so that it is displayed' default='256'/>"
" <Option name='REGION_MAX_LOD_PIXELS' type='float' description='maximum size in pixels of the region so that it is displayed (-1=infinite)' default='-1'/>"
" <Option name='REGION_MIN_FADE_EXTENT' type='float' description='distance over which the geometry fades, from fully opaque to fully transparent' default='0'/>"
" <Option name='REGION_MAX_FADE_EXTENT' type='float' description='distance over which the geometry fades, from fully transparent to fully opaque' default='0'/>"
" <Option name='SO_HREF' type='string' description='URL of the image to display in a <ScreenOverlay>'/>"
" <Option name='SO_NAME' type='string' description='<name> of a <ScreenOverlay>'/>"
" <Option name='SO_DESCRIPTION' type='string' description='<description> of a <ScreenOverlay>'/>"
" <Option name='SO_OVERLAY_X' type='float' description='x attribute of the <overlayXY> of a <ScreenOverlay>'/>"
" <Option name='SO_OVERLAY_Y' type='float' description='y attribute of the <overlayXY> of a <ScreenOverlay>'/>"
" <Option name='SO_OVERLAY_XUNITS' type='string-select' description='xunits attribute of the <overlayXY> of a <ScreenOverlay>'>"
" <Value>fraction</Value>"
" <Value>pixels</Value>"
" <Value>insetPixels</Value>"
" </Option>"
" <Option name='SO_OVERLAY_YUNITS' type='string-select' description='yunits attribute of the <overlayXY> of a <ScreenOverlay>'>"
" <Value>fraction</Value>"
" <Value>pixels</Value>"
" <Value>insetPixels</Value>"
" </Option>"
" <Option name='SO_SCREEN_X' type='float' description='x attribute of the <screenXY> of a <ScreenOverlay>' default='0.05'/>"
" <Option name='SO_SCREEN_Y' type='float' description='y attribute of the <screenXY> of a <ScreenOverlay>' default='0.05'/>"
" <Option name='SO_SCREEN_XUNITS' type='string-select' description='xunits attribute of the <screenXY> of a <ScreenOverlay>' default='fraction'>"
" <Value>fraction</Value>"
" <Value>pixels</Value>"
" <Value>insetPixels</Value>"
" </Option>"
" <Option name='SO_SCREEN_YUNITS' type='string-select' description='yunits attribute of the <screenXY> of a <ScreenOverlay>' default='fraction'>"
" <Value>fraction</Value>"
" <Value>pixels</Value>"
" <Value>insetPixels</Value>"
" </Option>"
" <Option name='SO_SIZE_X' type='float' description='x attribute of the <sizeXY> of a <ScreenOverlay>'/>"
" <Option name='SO_SIZE_Y' type='float' description='y attribute of the <sizeXY> of a <ScreenOverlay>'/>"
" <Option name='SO_SIZE_XUNITS' type='string-select' description='xunits attribute of the <sizeXY> of a <ScreenOverlay>'>"
" <Value>fraction</Value>"
" <Value>pixels</Value>"
" <Value>insetPixels</Value>"
" </Option>"
" <Option name='SO_SIZE_YUNITS' type='string-select' description='yunits attribute of the <sizeXY> of a <ScreenOverlay>'>"
" <Value>fraction</Value>"
" <Value>pixels</Value>"
" <Value>insetPixels</Value>"
" </Option>"
" <Option name='FOLDER' type='boolean' description='Whether to generate a <Folder> element for layers, instead of a <Document>' default='NO'/>"
" <Option name='LISTSTYLE_TYPE' type='string-select' description='Value of <listItemType> element of layer container'>"
" <Value>check</Value>"
" <Value>radioFolder</Value>"
" <Value>checkOffOnly</Value>"
" <Value>checkHideChildren</Value>"
" </Option>"
" <Option name='LISTSTYLE_ICON_HREF' type='string' description='URL of the icon to display for the layer folder. Sets the href element of the <ItemIcon> element'/>"
"</LayerCreationOptionList>");
poDriver->SetMetadataItem( GDAL_DCAP_VIRTUALIO, "YES" );
poDriver->SetMetadataItem( GDAL_DMD_CREATIONFIELDDATATYPES,
"Integer Real String" );
poDriver->SetMetadataItem( GDAL_DCAP_FEATURE_STYLES, "YES" );
poDriver->pfnOpen = OGRLIBKMLDriverOpen;
poDriver->pfnIdentify = OGRLIBKMLDriverIdentify;
poDriver->pfnCreate = OGRLIBKMLDriverCreate;
poDriver->pfnDelete = OGRLIBKMLDriverDelete;
poDriver->pfnUnloadDriver = OGRLIBKMLDriverUnload;
GetGDALDriverManager()->RegisterDriver( poDriver );
}
| [
"tiarnanmcgurk@yahoo.com"
] | tiarnanmcgurk@yahoo.com |
302258113d14275aee0dbe1be5fcaa7977ea8216 | babd69100be262a90a8ba657f258e22ccd1cda8a | /libraries/protocol/include/steem/protocol/smt_util.hpp | c5b6400e06899bf8c8173d8b84f338c6e96793ed | [
"LicenseRef-scancode-warranty-disclaimer",
"MIT"
] | permissive | abitmore/steem | 675f556ec667e0d333dffb636fc15d76e441f459 | 8d26f079e4d9b42225e1576064a8b28fe330f955 | refs/heads/master | 2022-06-25T09:39:54.590538 | 2022-06-17T06:39:39 | 2022-06-17T06:39:39 | 55,368,956 | 2 | 0 | NOASSERTION | 2022-06-18T07:16:08 | 2016-04-03T21:05:18 | C++ | UTF-8 | C++ | false | false | 1,589 | hpp | #pragma once
#include <string>
#include <steem/protocol/types.hpp>
#define SMT_DESTINATION_PREFIX "$"
#define SMT_DESTINATION_ACCOUNT_PREFIX SMT_DESTINATION_PREFIX "!"
#define SMT_DESTINATION_VESTING_SUFFIX ".vesting"
#define SMT_DESTINATION_FROM unit_target_type( SMT_DESTINATION_PREFIX "from" )
#define SMT_DESTINATION_FROM_VESTING unit_target_type( SMT_DESTINATION_PREFIX "from" SMT_DESTINATION_VESTING_SUFFIX )
#define SMT_DESTINATION_MARKET_MAKER unit_target_type( SMT_DESTINATION_PREFIX "market_maker" )
#define SMT_DESTINATION_REWARDS unit_target_type( SMT_DESTINATION_PREFIX "rewards" )
#define SMT_DESTINATION_VESTING unit_target_type( SMT_DESTINATION_PREFIX "vesting" )
#define SMT_DESTINATION_ACCOUNT_VESTING(name) unit_target_type( SMT_DESTINATION_ACCOUNT_PREFIX name SMT_DESTINATION_VESTING_SUFFIX )
namespace steem { namespace protocol { namespace smt {
namespace unit_target {
bool is_contributor( const unit_target_type& unit_target );
bool is_market_maker( const unit_target_type& unit_target );
bool is_rewards( const unit_target_type& unit_target );
bool is_founder_vesting( const unit_target_type& unit_target );
bool is_vesting( const unit_target_type& unit_target );
bool is_account_name_type( const unit_target_type& unit_target );
bool is_vesting_type( const unit_target_type& unit_target );
account_name_type get_unit_target_account( const unit_target_type& unit_target );
bool is_valid_emissions_destination( const unit_target_type& unit_target );
} // steem::protocol::smt::unit_target
} } } // steem::protocol::smt
| [
"steve@gerbino.co"
] | steve@gerbino.co |
614b047622f83673fea1849b5a1dcb46c25bcbf9 | fe3cc6465e2ed72565c03f7952b337e6b5875425 | /OpenFOAM_Examples/Quasi_DNS_Dowtherm_Mixed_Conv/Stable_RANSCase1/99.2/k | 867f1763bf5d32979fb2340887afedb818e3f390 | [] | no_license | EXthan/turbulenceModelling | 185772aac79c2a3e6b3620b5b5e285304c1b2de0 | fdb66b497c15db1a570edb05a0cd83ed93df68c8 | refs/heads/master | 2022-12-04T20:47:50.965306 | 2020-08-24T02:34:23 | 2020-08-24T02:34:23 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 32,216 | /*--------------------------------*- C++ -*----------------------------------*\
| ========= | |
| \\ / F ield | OpenFOAM: The Open Source CFD Toolbox |
| \\ / O peration | Version: v1906 |
| \\ / A nd | Web: www.OpenFOAM.com |
| \\/ M anipulation | |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
format ascii;
class volScalarField;
location "99.2";
object k;
}
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
dimensions [0 2 -2 0 0 0 0];
internalField nonuniform List<scalar>
2528
(
2.12283e-06
2.87652e-06
1.48297e-06
3.5098e-06
8.6903e-07
6.32826e-07
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3.74704e-06
1.41402e-06
2.32461e-06
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2.96603e-05
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1.48297e-06
5.81281e-07
1.7119e-06
2.47077e-06
3.5098e-06
5.98244e-07
1.38889e-06
1.12397e-06
)
;
}
rightWall
{
type kqRWallFunction;
value nonuniform List<scalar>
16
(
7.53788e-08
2.91353e-07
2.07623e-07
3.23267e-09
2.59262e-07
3.65962e-07
3.43011e-07
1.30409e-07
1.9958e-07
4.10089e-07
5.11833e-07
2.23257e-07
2.15906e-07
2.87738e-07
3.02724e-07
4.16402e-08
)
;
}
leftSides_periodic0
{
type cyclic;
}
leftSides_periodic1
{
type cyclic;
}
rightSides_periodic0
{
type cyclic;
}
rightSides_periodic1
{
type cyclic;
}
leftInOut_periodic0
{
type cyclic;
}
leftInOut_periodic1
{
type cyclic;
}
rightInOut_periodic0
{
type cyclic;
}
rightInOut_periodic1
{
type cyclic;
}
}
// ************************************************************************* //
| [
"tong011@e.ntu.edu.sg"
] | tong011@e.ntu.edu.sg | |
06c38d03b4e3876b9dbfd534f1e58edcb787862e | 5d83739af703fb400857cecc69aadaf02e07f8d1 | /Archive2/0a/720ab439bf759d/main.cpp | 5478a57c837509e453bbb3ee014486c4cbedbb51 | [] | no_license | WhiZTiM/coliru | 3a6c4c0bdac566d1aa1c21818118ba70479b0f40 | 2c72c048846c082f943e6c7f9fa8d94aee76979f | refs/heads/master | 2021-01-01T05:10:33.812560 | 2015-08-24T19:09:22 | 2015-08-24T19:09:22 | 56,789,706 | 3 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 926 | cpp | #include <iostream>
#include <vector>
#include <algorithm>
void printVector(std::vector<char> &vec)
{
std::for_each(vec.cbegin(), vec.cend(), []
(const char & symbol)
{
std::cout<<symbol;
}
);
}
void printReverseVector(std::vector<char> &vec)
{
std::for_each(vec.crbegin(), vec.crend(), []
(const char & symbol)
{
std::cout<<symbol;
}
);
}
void fillVector(std::vector<char> & vec)
{
for (char i ='A'; i < ('Z'+1); ++i)
{
vec.push_back(i);
}
}
int main()
{
size_t size = 'Z'-'A' + 1;
std::vector<char> myVector;
myVector.reserve(size);
std::cout<<"Vector capacity:" << myVector.capacity()<<std::endl; // I know that it's not size;
fillVector(myVector);
std::cout<<myVector.capacity()<<std::endl;
printVector(myVector);
std::cout<<std::endl;
printReverseVector(myVector);
return 0;
}
| [
"francis.rammeloo@36614edc-3e3a-acb8-9062-c8ae0e4185df"
] | francis.rammeloo@36614edc-3e3a-acb8-9062-c8ae0e4185df |
f89a266f435c6feb19bf42863eb59dbb86c8e3fd | 01a42b69633daf62a2eb3bb70c5b1b6e2639aa5f | /SCUM_Zombie_Tactical_Sweater_06_classes.hpp | 485b4ee20aea4ce3d334a3e84a49f851d9bc38c3 | [] | no_license | Kehczar/scum_sdk | 45db80e46dac736cc7370912ed671fa77fcb95cf | 8d1770b44321a9d0b277e4029551f39b11f15111 | refs/heads/master | 2022-07-25T10:06:20.892750 | 2020-05-21T11:45:36 | 2020-05-21T11:45:36 | 265,826,541 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 856 | hpp | #pragma once
// Scum 3.79.22573 (UE 4.24)
#ifdef _MSC_VER
#pragma pack(push, 0x8)
#endif
namespace Classes
{
//---------------------------------------------------------------------------
//Classes
//---------------------------------------------------------------------------
// BlueprintGeneratedClass Zombie_Tactical_Sweater_06.Zombie_Tactical_Sweater_06_C
// 0x0000 (0x0730 - 0x0730)
class AZombie_Tactical_Sweater_06_C : public AClothesItem
{
public:
static UClass* StaticClass()
{
static auto ptr = UObject::FindClass("BlueprintGeneratedClass Zombie_Tactical_Sweater_06.Zombie_Tactical_Sweater_06_C");
return ptr;
}
void UpdateMaterialParamsOnClients();
void SetDirtiness(float* dirtiness);
void OnRep_MaterialParameters();
int GetWarmth();
int GetCapacityY();
int GetCapacityX();
};
}
#ifdef _MSC_VER
#pragma pack(pop)
#endif
| [
"65712402+Kehczar@users.noreply.github.com"
] | 65712402+Kehczar@users.noreply.github.com |
3c8f85a6f60fdc43c5b12673976b4d04f4a7a3db | 0a1e820a4e8ca1c78e92454008d6328107f89789 | /src/io/PkgChunkStream.h | 6c1f3d15a962c6eb44fe6dab9e7470839c7f695c | [] | no_license | chaos3d/chaos3d | db3288069c52539bf7797d3f5de98cdb89650983 | e945f9c6bca995d897d3e3b522c00df6eebf6542 | refs/heads/master | 2020-04-24T12:46:13.742558 | 2014-12-24T19:56:51 | 2014-12-24T19:56:51 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 887 | h | /* cHaos3D
*
* Copyright (C) 2009-2010 reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the license in the license sub-directory.
*
*/
#ifndef _CHAOS_PKGCHUNKSTREAM_H
#define _CHAOS_PKGCHUNKSTREAM_H
#include "DataStream.h"
#include <string>
_CHAOS_BEGIN
class CHAOS_PRIVATE PkgChunkStream : public DataStream{
protected:
DataStream* mStream;
size_t mSize;
long mOffset, mStartOff;
std::string const mName;
public:
~PkgChunkStream();
PkgChunkStream(DataStream* ds, long offset, size_t size, char const* name);
virtual bool valid();
virtual bool end();
virtual size_t read(void* buf, size_t bufSize);
virtual bool seek(long offset, int pos);
virtual long tell();
virtual void close();
virtual char const* where() { return mName.c_str(); };
};
_CHAOS_END
#endif
| [
"wuhao.wise@gmail.com"
] | wuhao.wise@gmail.com |
a49ccca4675998fdba2c7ad3078f3683f2a5ac32 | acc2f5336d768a7d86dbd2eec441283cfd11d52d | /src/Core/GCAddVampireFromBurrowingHandler.cpp | bf0dc5c832b0443a534540f21c0b97f3c58d1e5c | [] | no_license | stevexk/server | 86df9e8c2448ad97db9c3ab86820beec507ef092 | 4ddb6e7cfa510bb13ccd87f56db008aa1be1baad | refs/heads/master | 2020-01-23T22:00:57.359964 | 2015-09-18T14:58:27 | 2015-09-18T14:58:27 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 690 | cpp | //--------------------------------------------------------------------------------
//
// Filename : GCAddVampireFromBurrowingHandler.cpp
// Written By : Reiot
//
//--------------------------------------------------------------------------------
// include files
#include "GCAddVampireFromBurrowing.h"
//--------------------------------------------------------------------------------
//--------------------------------------------------------------------------------
void GCAddVampireFromBurrowingHandler::execute (GCAddVampireFromBurrowing * pPacket , Player * pPlayer )
throw(Error )
{
__BEGIN_TRY __BEGIN_DEBUG_EX
#ifdef __GAME_CLIENT__
#endif
__END_DEBUG_EX __END_CATCH
}
| [
"tiancaiamao@gmail.com"
] | tiancaiamao@gmail.com |
10df94ad2c8dbf3e8060c7d6bead2a9bb98c0a09 | 8d1aa597eae7ff732ee475feb91999e78386e47d | /coast/modules/EBCDIC/Test/EBCDICTableTest.h | b9bb06893d2402fa102dc2b48b880b794b017525 | [] | no_license | chenbk85/CuteTestForCoastTest | 63111ba3b54ab2b027684dd6f1b9c5859fcdde9b | 37d933c5fe2e0ce9a801f51b2aa27c7a18098511 | refs/heads/master | 2021-01-12T20:17:22.462721 | 2015-06-08T18:42:09 | 2015-06-10T13:13:35 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 736 | h | /*
* Copyright (c) 2005, Peter Sommerlad and IFS Institute for Software at HSR Rapperswil, Switzerland
* All rights reserved.
*
* This library/application is free software; you can redistribute and/or modify it under the terms of
* the license that is included with this library/application in the file license.txt.
*/
#ifndef _EBCDICTableTest_h_
#define _EBCDICTableTest_h_
//-*-Mode: C++;-*-
/* Some dummy Test cases to start with */
#include "TestCase.h"
//---- EBCDICTableTest ---------------------------------------------------------
class EBCDICTableTest : public testframework::TestCase
{
public:
EBCDICTableTest(TString tstrName);
virtual ~EBCDICTableTest();
static Test *suite ();
void WholeTable ();
};
#endif
| [
"marcel.huber@hsr.ch"
] | marcel.huber@hsr.ch |
0b15003d5088e78a5e04c030d4ec91660eb3d774 | e65e6b345e98633cccc501ad0d6df9918b2aa25e | /Codeforces/Contests/MemSQL_R2/D.cpp | c7d9cc93a541d111b0ec66e3d962c994e6c7099b | [] | no_license | wcysai/CodeLibrary | 6eb99df0232066cf06a9267bdcc39dc07f5aab29 | 6517cef736f1799b77646fe04fb280c9503d7238 | refs/heads/master | 2023-08-10T08:31:58.057363 | 2023-07-29T11:56:38 | 2023-07-29T11:56:38 | 134,228,833 | 5 | 2 | null | null | null | null | UTF-8 | C++ | false | false | 833 | cpp | #include<bits/stdc++.h>
#define MAXN 55
#define MAXT 5500
#define eps 1e-9
#define INF 100000000000
using namespace std;
double dp[MAXN][MAXT];
int n,r;
int f[MAXN],s[MAXN];
double p[MAXN];
int main()
{
scanf("%d %d",&n,&r);
for(int i=0;i<n;i++)
{
scanf("%d %d %lf",&f[i],&s[i],&p[i]);
p[i]/=100;
}
double left=0,right=1e10;
for(int k=0;k<200;k++)
{
double mid=(left+right)/2;
memset(dp,0,sizeof(dp));
for(int j=0;j<=r;j++) dp[n][j]=j;
for(int j=r+1;j<MAXT;j++) dp[n][j]=INF;
for(int i=n-1;i>=0;i--)
for(int j=0;j<MAXT-100;j++)
dp[i][j]=(min(mid+f[i]+j,dp[i+1][j+f[i]]))*p[i]+(min(mid+s[i]+j,dp[i+1][j+s[i]]))*(1-p[i]);
if(dp[0][0]<mid) right=mid; else left=mid;
}
printf("%.10lf\n",left);
return 0;
}
| [
"wcysai@foxmail.com"
] | wcysai@foxmail.com |
dd17a40804547e577ddb673c86082076ea741d0e | 6de692f0e9fef6bc9f61bf212298a5b18c7f5d7e | /848.cpp | ff91ad08e86bb6e2d8febb2d660f710b4a09f958 | [] | no_license | ceciliazhou/uva_onlinejudge_problems | 15acfaf578002d40021107a29326fcc936236138 | a15371dbeb2aca7b4035a5c9ed6b3754d4e44a3a | refs/heads/master | 2021-01-10T01:03:06.165050 | 2013-08-24T22:04:40 | 2013-08-24T22:04:40 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,075 | cpp | #include <iostream>
#include <vector>
using namespace std;
vector<vector<string> > getInput(){
vector<vector<string> > input;
string line;
while(getline(cin, line)){
vector<string> paragraph;
if(!line.empty()){
paragraph.push_back(line);
while(getline(cin, line) && !line.empty())
paragraph.push_back(line);
}
input.push_back(paragraph);
}
return input;
}
void breakLine(string& line, vector<string>& paragraph){
paragraph.push_back(line.substr( 0, line.find_last_not_of( " \t" ) + 1 ));
line.erase();
}
vector<string> format(const vector<string>& paragraph){
vector<string> newPara;
string line;
for(int i = 0; i < paragraph.size(); i++){
//combine two consecutive lines by replacing newline character with space
if (!line.empty()) line += " ";
//break line if blank line follows.
string curLine = paragraph[i];
if((curLine[0] == ' ' || curLine[0] == '\t') && i > 0)
breakLine(line, newPara);
for(int j = 0; j < curLine.length();j++){
//always keep non-newline white spaces
if(curLine[j] == ' ' || curLine[j] == '\t')
line += curLine[j];
else{
int nextWS = curLine.find_first_of(" \t\n", j);
int nextWordLength = (nextWS == string::npos) ? curLine.length() - j : nextWS - j;
//break line if next word doesn't fit current line.
if(line.length() + nextWordLength > 72){
breakLine(line, newPara);
}
//take in next word, whether a line-break occurs or not.
line += curLine.substr(j, nextWordLength);
j += nextWordLength - 1;
}
}
}
line = line.substr( 0, line.find_last_not_of(" \t\n") + 1 );
if(!line.empty()) newPara.push_back(line);
return newPara;
}
void printParagraph(const vector<string>& paragraph){
for(int i = 0; i < paragraph.size(); i++)
cout << paragraph[i] << endl;
}
int main(){
vector<vector<string> > input = getInput();
for(int i = 0; i < input.size(); i++){
printParagraph(format(input[i]));
if(i < input.size() - 1)
cout << endl;
}
}
| [
"shuxiu.zhou@gmail.com"
] | shuxiu.zhou@gmail.com |
0e697bc218808034fc6d63313de9fd446fd35f22 | 89dc506ded6054ec0495bad8911738e6a788f033 | /src/modules/DiskModule.hpp | a367272c5632bac706a769393bac15680420af44 | [] | no_license | pavlovandy/ft_GKrellM | 41c26a20bea8ca82f8482637bdfed629242fda33 | 6d8b2835c3cde97ecb73bb3334bc241b4a92929b | refs/heads/master | 2020-08-11T21:04:28.297451 | 2019-10-13T05:51:12 | 2019-10-13T05:51:12 | 214,627,008 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,308 | hpp | /* ************************************************************************** */
/* */
/* ::: :::::::: */
/* DiskModule.hpp :+: :+: :+: */
/* +:+ +:+ +:+ */
/* By: apavlov <apavlov@student.42.fr> +#+ +:+ +#+ */
/* +#+#+#+#+#+ +#+ */
/* Created: 2019/10/13 05:21:04 by apavlov #+# #+# */
/* Updated: 2019/10/13 08:13:24 by apavlov ### ########.fr */
/* */
/* ************************************************************************** */
#ifndef DISKMODULE_HPP
# define DISKMODULE_HPP
# include "IMonitorModule.hpp"
class DiskModule : public IMonitorModule
{
private:
std::string _vscode_large;
public:
DiskModule();
DiskModule( DiskModule const & );
DiskModule & operator=( DiskModule const & );
~DiskModule();
void displayModule( int & x, Sdl * sdl, TTF_Font * f );
void displayModule( int & x ) ;
bool readAgain();
};
#endif | [
"andrij0pawlov@gmail.com"
] | andrij0pawlov@gmail.com |
49b23e90ce5082dfa30296165fc3926058e521db | b51871ab24c0cdf7151590fd963d09cdcd9e81ac | /trunk/apps/synthesizers/midibox_sid_v3/juce/src/gui/components/KnobOrange.cpp | 211bea06ed3c2e006d4b8b74058d1ca1e40a9822 | [] | no_license | glocklueng/stm32-mios32 | fdc38aff62119984ae0752826f60cec734af9cb4 | 489fe3b3ad65d1fbb3993d506154cb7cc0e214e8 | refs/heads/master | 2021-01-25T04:03:04.354524 | 2015-04-29T08:57:19 | 2015-04-29T08:57:19 | 37,048,243 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 61,604 | cpp | /* -*- mode:C++; tab-width:4; c-basic-offset:4; indent-tabs-mode:nil -*- */
// $Id: KnobOrange.cpp 916 2010-02-14 21:18:12Z tk $
#include "../../includes.h"
#include "KnobOrange.h"
//==============================================================================
KnobOrange::KnobOrange(const String &name)
: Knob(name, 48, 48, ImageCache::getFromMemory(knob_orange_png, knob_orange_pngSize))
{
}
KnobOrange::~KnobOrange()
{
}
//==============================================================================
// Binary resources - be careful not to edit any of these sections!
// JUCER_RESOURCE: knob_orange_png, 16805, "bitmaps/knob_orange.png"
static const unsigned char resource_KnobOrange_knob_orange_png[] = { 137,80,78,71,13,10,26,10,0,0,0,13,73,72,68,82,0,0,9,48,0,0,0,48,8,2,0,0,0,163,45,80,85,0,0,0,9,112,72,89,115,0,0,0,37,0,0,0,37,0,34,240,
98,80,0,0,65,87,73,68,65,84,120,218,237,221,119,96,20,247,153,55,240,103,202,246,170,222,123,1,21,180,2,33,138,64,2,132,77,53,197,96,135,106,27,59,61,78,242,190,62,191,246,189,185,55,151,203,221,189,23,
39,151,56,237,46,151,230,51,41,248,141,141,49,221,134,80,132,13,8,81,4,234,128,122,175,171,182,218,190,179,51,243,254,49,182,44,86,210,130,109,118,102,147,60,223,191,108,105,53,251,97,118,119,102,118,
158,223,239,249,17,251,246,237,131,79,24,134,97,70,70,70,250,250,250,134,135,135,173,86,171,219,237,102,89,22,0,40,138,82,40,20,58,157,46,60,60,60,54,54,54,44,44,76,38,147,125,210,141,127,138,160,7,61,
232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,164,242,112,94,47,0,144,52,141,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,153,45,196,39,42,200,217,108,182,182,182,182,206,206,78,134,
97,226,226,226,114,115,115,83,82,82,34,35,35,181,90,173,240,219,161,161,161,246,246,246,250,250,250,222,222,94,153,76,150,148,148,148,154,154,42,252,54,16,65,15,122,208,131,30,244,160,7,61,232,65,15,122,
208,243,87,224,225,156,182,196,16,117,198,210,213,169,169,169,65,226,73,214,144,11,35,229,113,217,243,181,139,31,11,30,79,186,150,142,84,3,183,242,57,38,42,45,88,60,42,206,160,160,188,114,99,215,210,125,
67,227,19,65,226,1,0,139,155,237,214,167,213,41,82,130,199,51,228,36,155,237,236,85,171,186,107,204,22,36,158,22,155,183,114,200,211,97,231,72,149,22,61,232,65,15,122,208,131,30,244,160,7,61,232,65,79,
64,61,15,90,144,115,185,92,77,77,77,205,205,205,145,145,145,235,215,175,127,244,209,71,147,147,147,85,42,21,65,16,62,143,228,121,222,233,116,118,116,116,156,61,123,246,212,169,83,67,67,67,25,25,25,153,
153,153,74,165,242,33,238,26,244,160,7,61,232,65,15,122,208,131,30,244,160,231,47,194,19,19,162,91,179,121,91,240,120,18,229,222,237,105,170,37,79,255,93,92,241,166,96,241,164,40,214,199,81,241,225,70,
215,87,255,0,134,200,32,241,36,40,88,37,201,49,185,143,90,63,247,202,212,189,36,173,7,0,128,32,109,187,126,196,100,173,8,22,15,0,0,112,97,137,150,175,190,1,10,117,144,120,62,124,88,209,62,199,186,175,
7,143,7,0,128,147,15,62,243,179,22,175,54,88,60,0,46,142,108,151,199,28,212,44,127,239,92,89,144,120,186,221,212,169,94,246,80,15,215,109,231,131,199,243,78,187,187,203,67,163,7,61,232,65,15,122,208,131,
30,244,160,7,61,159,218,115,255,130,28,207,243,131,131,131,55,111,222,84,42,149,207,60,243,204,166,77,155,66,66,66,166,127,111,159,241,15,199,198,198,78,156,56,241,251,223,255,222,229,114,21,20,20,68,
69,69,61,200,31,162,7,61,232,65,15,122,208,131,30,244,160,7,61,159,212,83,89,89,105,224,157,187,159,251,210,99,79,236,12,18,143,145,179,125,61,91,189,126,126,6,241,165,95,19,74,77,144,120,54,197,240,6,
138,245,20,108,181,109,249,182,255,141,139,233,1,0,130,164,38,246,252,220,155,185,36,72,60,66,216,184,156,137,47,188,6,180,60,72,60,0,64,16,132,237,137,255,235,201,91,23,36,158,15,119,84,84,198,196,151,
126,7,114,229,212,63,148,208,243,225,142,218,250,29,207,130,205,65,226,249,240,241,198,152,241,47,31,0,173,49,72,60,66,220,133,219,237,155,190,21,60,30,0,224,189,84,239,154,23,14,117,121,130,196,3,0,22,
150,58,62,64,255,164,153,112,178,124,144,120,78,244,19,255,121,219,49,78,106,23,46,92,136,30,244,160,7,61,232,65,15,122,208,131,158,224,247,80,249,249,249,126,126,205,113,92,75,75,203,141,27,55,138,139,
139,191,255,253,239,151,148,148,168,213,234,7,252,71,18,4,161,82,169,76,38,83,105,105,105,79,79,207,197,139,23,101,50,217,3,222,28,65,15,122,208,131,30,244,160,7,61,232,65,79,80,123,174,93,123,36,59,225,
223,126,246,203,146,146,21,65,226,121,44,134,255,121,161,98,185,105,30,61,175,36,120,60,203,66,188,26,215,24,27,157,201,69,165,5,137,71,73,242,0,64,56,39,60,166,245,32,87,5,137,7,0,128,231,185,176,4,111,
74,65,176,120,132,39,101,73,87,193,230,169,117,38,105,61,66,152,180,101,108,220,220,224,241,0,0,111,140,113,21,108,37,72,42,72,60,0,64,144,148,107,201,78,46,36,54,72,60,66,188,241,5,238,130,199,8,146,
12,18,15,0,16,148,204,177,234,171,124,120,66,144,120,132,240,209,41,220,166,255,101,90,184,40,72,60,0,160,36,249,172,37,43,150,125,227,123,61,125,125,65,226,201,211,115,27,18,20,189,156,238,92,245,221,
224,241,12,218,153,51,181,237,50,185,28,61,232,65,15,122,208,131,30,244,160,7,61,62,241,87,144,227,56,174,161,161,225,238,221,187,95,254,242,151,95,124,241,197,176,176,176,79,241,111,35,8,194,96,48,172,
88,177,66,38,147,157,58,117,138,101,217,136,136,136,79,183,143,208,131,30,244,160,7,61,232,65,15,122,254,54,61,77,245,181,95,219,243,196,11,255,240,157,96,241,212,213,126,203,164,252,223,201,140,62,123,
49,31,158,24,36,158,151,82,137,16,57,75,15,183,123,51,150,242,186,240,96,240,24,229,44,0,0,207,147,142,113,79,238,90,160,168,7,217,72,192,61,0,0,64,122,28,222,184,28,46,50,53,72,60,31,62,23,45,115,207,
91,71,144,100,144,120,0,128,32,120,38,127,61,175,9,9,18,143,16,111,234,66,54,49,47,120,60,0,192,133,39,185,243,31,155,254,218,73,229,1,0,80,104,92,203,158,226,213,134,96,241,0,0,128,167,112,43,155,60,
63,120,60,0,192,69,36,59,87,125,9,100,242,32,241,8,12,231,178,103,217,244,194,32,241,124,24,149,222,190,249,219,250,164,204,96,241,0,0,128,38,34,118,225,223,253,148,54,132,7,137,71,71,113,165,161,164,
70,171,59,82,223,19,60,30,189,154,62,90,221,237,5,64,15,122,208,131,30,244,160,7,61,232,145,214,51,107,65,142,231,249,166,166,166,198,198,198,151,95,126,121,239,222,189,114,185,28,62,67,104,154,158,63,
127,126,72,72,200,137,19,39,72,146,252,20,247,146,208,131,30,244,160,7,61,232,65,15,122,196,241,52,223,105,120,249,197,23,247,62,253,76,144,120,90,26,106,127,176,80,253,76,180,23,178,151,243,106,125,80,
120,10,213,123,18,56,26,60,178,129,70,79,102,49,168,116,65,225,161,120,0,32,188,110,210,57,225,153,91,2,228,3,85,191,2,237,17,66,142,14,123,147,76,92,88,124,144,120,132,95,3,73,121,178,75,31,112,179,1,
247,0,0,0,193,184,61,249,27,65,161,14,18,15,0,16,60,231,158,179,130,11,137,243,191,125,209,60,66,152,68,147,55,121,129,159,167,16,217,3,0,108,84,154,103,222,218,217,138,169,226,123,0,128,215,134,57,139,
246,128,76,17,36,30,16,230,162,21,63,199,135,196,4,137,71,136,219,180,145,153,123,207,196,98,105,61,0,192,27,99,28,27,94,4,133,38,72,60,0,64,16,132,107,201,46,119,254,6,130,32,130,193,243,81,148,246,45,
255,155,72,47,12,26,15,0,0,69,171,50,159,251,150,126,238,194,96,241,80,252,2,35,196,25,85,111,215,246,19,52,29,36,158,120,189,252,237,218,94,130,150,163,7,61,232,65,15,122,208,131,158,191,41,207,172,5,
185,190,190,190,91,183,110,125,227,27,223,216,181,107,23,53,203,96,94,150,101,173,86,107,95,95,95,103,103,231,192,192,128,195,225,32,73,82,38,147,145,51,125,13,35,73,50,43,43,75,161,80,156,56,113,194,
104,52,234,245,159,236,118,18,122,208,131,30,244,160,7,61,232,249,171,244,220,188,121,243,155,223,252,102,240,120,170,42,111,252,211,60,245,238,28,35,151,182,88,152,46,32,185,231,31,243,213,187,226,57,
202,57,66,15,52,49,25,203,124,106,21,82,121,8,224,1,128,176,143,145,150,81,102,110,241,228,220,47,105,61,66,168,209,30,54,102,46,23,145,28,36,30,0,0,130,37,25,167,37,101,169,151,229,28,14,135,244,30,0,
0,224,237,227,55,137,248,17,155,211,106,181,6,131,7,0,28,46,247,31,239,88,238,116,15,122,60,158,193,193,65,201,61,60,16,67,54,248,225,7,205,87,27,59,20,10,133,203,229,146,220,227,112,83,157,118,242,223,
175,116,150,213,54,199,196,196,200,100,50,201,61,3,94,170,201,194,238,191,61,113,190,177,47,35,35,67,165,82,73,238,105,27,101,251,220,112,118,136,184,110,85,102,100,102,202,100,50,201,61,3,118,240,112,
116,23,171,104,79,44,9,143,137,155,190,139,196,247,48,148,140,102,9,150,166,173,43,190,68,133,251,14,23,144,202,35,163,129,36,8,215,146,29,158,123,107,132,18,122,4,4,23,150,104,223,244,45,248,104,53,80,
201,61,32,212,8,23,125,206,181,116,39,65,146,193,224,249,80,69,201,28,107,158,247,20,62,30,36,158,143,94,47,42,101,197,22,50,103,229,137,119,223,11,6,15,1,144,165,3,189,74,241,118,77,143,33,36,4,61,232,
65,15,122,208,131,30,244,252,237,120,232,25,127,234,112,56,42,43,43,55,108,216,176,103,207,158,25,239,142,57,28,142,138,138,138,147,39,79,222,190,125,219,110,183,11,95,39,56,142,211,104,52,217,217,217,
143,61,246,216,210,165,75,213,106,223,145,173,20,69,237,217,179,167,165,165,229,236,217,179,33,33,33,211,31,48,91,208,131,30,244,160,7,61,232,65,207,95,171,103,87,154,230,217,172,16,126,150,7,136,239,
217,153,34,223,147,200,208,181,167,40,15,99,223,252,247,160,53,74,238,217,27,239,21,174,246,100,157,85,154,247,126,104,219,242,109,80,106,131,193,35,68,113,247,172,247,86,190,197,180,201,225,112,84,85,
85,73,238,1,0,240,122,168,243,191,62,124,123,104,196,106,175,169,169,145,222,3,0,0,93,183,46,63,255,246,110,59,75,184,92,46,161,206,36,173,199,197,145,239,220,30,249,135,63,62,207,145,180,70,163,17,42,
22,210,122,174,141,83,191,187,235,120,183,235,143,64,146,33,33,33,114,185,92,114,207,59,109,238,107,195,108,235,248,13,162,172,242,224,193,131,114,185,92,114,79,181,133,53,187,121,243,68,11,113,189,245,
244,233,211,70,163,81,114,143,133,163,28,94,114,204,210,69,92,251,221,185,115,231,76,38,147,228,30,142,82,122,60,158,177,241,94,248,224,123,229,21,21,79,62,249,164,228,30,32,72,222,109,159,176,89,136,
179,95,127,249,229,151,183,110,221,42,185,135,100,61,6,130,161,121,175,172,241,213,87,126,240,131,148,148,148,96,240,228,27,96,94,24,165,204,148,173,97,24,159,121,234,82,121,182,167,42,242,84,28,191,120,
55,161,143,8,18,207,98,35,171,36,57,111,76,158,115,213,231,137,143,174,232,36,247,0,0,65,82,206,162,61,174,197,159,35,8,34,24,60,66,8,74,230,44,218,227,90,249,197,221,64,54,119,116,74,238,17,66,18,176,
115,81,250,173,80,227,169,242,27,193,224,33,128,223,27,239,109,180,200,15,85,86,162,7,61,232,65,15,122,208,131,158,192,121,136,125,251,246,249,252,136,231,249,202,202,74,143,199,179,127,255,254,168,168,
40,159,223,114,28,87,89,89,249,31,255,241,31,29,29,29,115,230,204,73,77,77,13,13,13,21,46,148,61,30,207,232,232,104,91,91,91,83,83,83,82,82,210,55,190,241,141,133,11,23,78,31,250,55,56,56,248,236,179,
207,202,229,242,133,11,23,62,200,68,66,244,160,7,61,232,65,15,122,208,243,176,60,48,62,240,219,95,253,50,124,78,190,207,159,72,229,161,204,237,111,23,43,194,84,148,171,240,9,231,202,47,194,71,253,24,37,
246,200,88,0,32,8,194,147,92,100,127,226,31,121,125,68,48,120,62,12,65,186,230,111,107,200,221,94,93,87,127,228,200,17,233,61,0,0,48,66,25,190,212,28,217,220,211,239,241,120,114,114,114,36,247,240,64,
28,233,225,159,47,159,96,120,152,51,103,78,81,81,145,228,158,170,81,234,159,234,156,21,253,78,0,88,180,104,81,113,113,177,228,158,127,191,235,185,57,78,140,91,109,60,207,151,148,148,44,91,182,76,114,207,
109,183,58,36,60,226,246,237,219,60,207,63,250,232,163,11,23,46,148,220,147,49,55,139,166,233,178,178,50,158,231,215,173,91,151,147,147,35,185,39,53,53,213,108,54,191,251,238,187,0,176,113,227,198,136,
136,8,201,61,161,161,161,13,13,13,167,79,159,38,8,162,180,180,212,235,245,74,238,145,203,229,149,149,149,103,207,158,37,8,34,59,59,123,116,116,84,114,15,0,148,151,151,95,188,120,81,88,20,109,238,220,185,
146,123,60,30,207,165,75,151,174,95,191,14,0,249,249,249,47,189,244,146,228,158,209,209,209,43,87,174,52,54,54,202,100,178,87,94,121,101,211,166,77,146,123,218,218,218,110,215,213,42,61,182,148,252,197,
63,250,241,143,67,66,66,36,247,52,223,189,147,173,112,108,75,150,207,249,252,63,39,22,173,11,18,207,203,115,229,249,58,206,187,96,131,125,235,183,64,174,12,6,207,252,80,150,0,158,160,100,142,229,207,57,
87,62,75,208,178,96,240,8,127,72,144,148,123,238,163,142,13,255,115,192,197,5,131,103,50,102,66,183,253,50,67,232,35,130,196,51,194,80,79,94,114,179,17,41,232,65,15,122,208,131,30,244,252,213,120,102,
104,89,57,54,54,86,93,93,253,210,75,47,21,20,20,248,252,138,97,152,55,223,124,243,123,223,251,94,76,76,204,186,117,235,50,51,51,13,6,131,92,46,167,40,138,162,40,185,92,110,48,24,146,147,147,179,178,178,
204,102,243,27,111,188,161,80,40,178,178,178,124,198,224,107,181,90,157,78,119,244,232,209,152,152,24,149,74,117,223,29,132,30,244,160,7,61,232,65,207,95,168,167,170,170,234,165,23,95,44,88,184,48,72,
60,53,183,110,126,47,159,94,60,82,1,180,130,141,76,3,138,150,220,243,111,11,84,38,61,11,28,75,247,54,200,122,111,179,241,57,156,218,232,118,187,223,122,235,45,41,61,31,133,182,244,208,189,183,203,71,169,
159,252,215,111,94,123,237,181,216,216,88,105,61,0,0,192,91,187,27,247,254,252,157,131,199,222,229,56,110,215,174,93,115,230,204,145,212,3,44,79,28,104,117,255,238,122,251,132,213,26,17,17,177,126,253,
250,176,176,48,105,61,111,246,82,255,90,199,216,189,60,199,113,10,133,162,168,168,72,173,86,75,235,121,185,198,171,75,205,29,31,31,103,24,6,0,22,44,88,32,236,34,9,61,33,89,11,139,87,172,184,123,247,46,
195,48,20,69,153,76,38,153,76,38,173,103,237,186,245,9,9,9,181,181,181,94,175,87,175,215,103,103,103,43,20,10,105,61,153,153,153,36,73,214,212,212,240,60,159,148,148,148,158,158,46,185,199,96,48,140,141,
141,221,185,115,7,0,242,242,242,50,50,50,36,247,200,229,242,142,142,142,246,246,118,138,162,86,174,92,153,151,151,39,185,135,36,201,170,170,170,129,129,1,165,82,185,125,251,246,130,130,2,105,61,194,51,
150,151,151,143,141,141,105,52,154,93,187,118,77,76,76,72,235,17,158,244,242,229,203,86,171,85,163,209,196,198,198,30,60,120,80,90,143,92,46,87,40,20,55,110,220,176,90,173,36,73,222,186,117,75,169,84,
74,235,49,24,12,49,49,49,141,77,205,93,230,209,238,158,30,189,94,111,50,153,164,245,36,39,39,103,206,153,123,161,182,249,205,250,161,138,134,150,13,27,54,248,60,169,248,158,172,236,156,94,23,241,90,101,
215,109,7,169,92,243,133,184,180,204,96,240,236,175,234,53,40,232,244,16,133,231,145,175,186,138,159,33,104,58,24,60,217,58,158,36,0,148,90,103,233,87,156,143,126,13,52,134,160,240,8,33,72,54,49,143,127,
252,91,202,84,211,177,99,199,164,247,0,0,128,154,226,35,52,242,63,213,155,163,99,99,209,131,30,244,160,7,61,232,249,235,240,248,22,228,120,158,175,173,173,141,142,142,126,225,133,23,124,26,68,112,28,119,
224,192,129,95,253,234,87,107,214,172,201,207,207,247,249,237,212,200,100,178,196,196,196,208,208,208,183,222,122,75,38,147,229,229,229,249,84,2,227,227,227,47,95,190,60,56,56,24,23,119,159,213,209,209,
131,30,244,160,7,61,232,249,203,245,164,81,214,111,101,201,73,99,36,167,139,32,62,26,226,45,165,135,180,190,52,151,148,121,108,242,150,10,186,183,158,13,75,230,244,17,78,167,243,141,55,222,248,205,111,
126,35,149,135,38,132,193,68,60,57,214,43,107,184,92,55,226,249,31,255,247,71,199,142,29,91,181,106,85,97,97,161,116,158,15,195,14,14,188,240,251,211,101,85,183,57,142,91,180,104,81,116,116,180,180,30,
30,136,55,59,136,67,45,19,28,207,59,157,78,189,94,31,27,27,59,227,214,68,243,188,209,67,254,184,9,180,198,16,155,205,102,181,90,21,10,69,66,66,194,244,13,138,233,249,254,29,190,116,195,38,146,36,7,6,6,
108,54,155,193,96,136,141,141,149,220,179,112,225,194,225,225,97,97,157,54,225,169,165,245,228,231,231,107,52,154,206,206,206,209,209,81,183,219,157,147,147,51,245,171,130,36,30,185,92,78,211,116,67,67,
131,208,210,211,100,50,77,78,142,145,202,3,0,12,195,84,87,87,179,44,27,30,30,158,145,145,33,185,7,0,204,102,179,80,144,203,206,206,142,140,140,148,220,3,0,245,245,245,125,125,125,114,185,124,241,226,197,
106,181,90,114,15,203,178,229,229,229,86,171,53,36,36,100,233,210,165,74,165,82,90,15,0,88,44,150,139,23,47,50,12,147,156,156,188,100,201,146,164,164,36,105,61,0,208,209,209,113,245,234,85,158,231,115,
114,114,54,108,216,16,22,22,38,173,7,0,170,171,171,171,170,170,0,192,100,50,45,89,178,228,224,193,131,210,122,120,158,191,118,237,154,80,146,143,137,137,169,170,170,146,214,35,108,161,166,166,166,174,
174,142,227,56,171,213,26,26,26,106,50,153,36,244,0,128,76,38,243,120,60,85,245,183,107,6,237,29,189,253,155,55,111,246,169,89,138,239,73,76,76,148,107,116,191,121,191,254,194,152,50,125,203,23,34,239,
189,120,147,196,99,140,136,250,125,69,179,134,32,50,18,99,220,219,190,235,158,191,81,152,177,39,173,199,32,39,242,12,64,0,240,242,16,87,233,23,236,235,95,228,34,83,18,18,18,36,247,124,188,29,69,88,248,
242,199,223,239,177,13,154,135,131,193,3,0,9,42,40,55,243,61,118,22,61,232,65,15,122,208,131,158,79,231,241,237,255,224,116,58,123,123,123,183,111,223,174,209,104,124,126,117,233,210,165,215,94,123,109,
221,186,117,105,105,105,247,157,250,71,16,68,106,106,234,186,117,235,94,123,237,181,75,151,46,249,252,86,163,209,108,223,190,189,167,167,199,233,116,250,223,14,122,208,131,30,244,160,7,61,15,238,217,89,
156,175,33,125,167,138,75,232,121,42,73,102,104,57,175,255,227,215,181,111,125,155,234,168,225,89,150,97,152,63,255,249,207,191,253,237,111,37,241,236,77,150,11,29,174,121,142,165,91,174,234,95,255,186,
231,232,79,159,255,234,87,127,252,227,31,39,36,36,204,88,68,17,199,51,25,210,214,119,246,191,127,114,243,230,77,161,157,183,217,108,150,214,3,0,215,236,84,147,29,72,146,116,185,92,199,143,31,111,105,105,
145,214,115,101,140,254,73,11,187,188,164,68,165,82,121,189,222,11,23,46,180,182,182,74,235,249,225,29,246,209,141,155,182,110,221,170,211,233,56,142,187,114,229,74,127,127,191,228,158,140,140,140,37,
75,150,168,213,106,225,118,170,221,110,151,214,147,150,150,38,84,152,104,154,102,89,182,186,186,154,227,166,181,155,23,215,67,16,4,73,146,233,233,233,194,159,116,119,119,75,238,1,0,153,76,22,30,30,14,
0,22,139,197,225,112,72,238,1,0,133,66,65,211,52,0,56,28,14,158,255,248,20,35,149,103,182,72,232,225,121,94,120,177,104,154,86,40,20,146,123,132,23,203,98,177,0,64,120,120,184,176,62,162,228,175,87,119,
119,183,176,241,244,244,116,146,36,37,247,112,28,39,84,154,105,154,22,138,223,146,191,159,237,118,251,181,107,215,120,158,87,171,213,75,150,44,73,79,79,151,252,243,213,223,223,127,229,202,21,142,227,116,
58,221,150,45,91,214,175,95,47,249,231,189,181,181,245,194,133,11,94,175,87,165,82,45,95,190,252,245,215,95,151,252,248,211,210,210,114,252,248,113,151,203,69,146,100,75,75,75,69,69,133,180,30,0,48,155,
205,55,110,220,176,185,61,215,59,134,78,253,249,207,146,123,8,130,72,72,72,136,79,73,253,63,55,45,79,85,169,70,162,115,166,254,137,84,231,139,181,143,109,250,225,29,246,207,67,148,35,101,249,196,231,255,
203,89,252,12,168,180,210,122,126,116,151,187,50,246,225,92,70,94,17,230,90,250,180,229,203,255,13,155,255,231,182,207,237,148,220,51,25,21,77,236,154,23,21,60,30,37,201,237,77,150,163,7,61,232,65,15,
122,254,130,60,190,5,185,161,161,33,141,70,83,82,82,226,243,243,177,177,177,159,254,244,167,11,22,44,152,190,212,179,159,36,37,37,21,20,20,252,244,167,63,29,27,27,243,249,85,73,73,137,70,163,25,26,26,
242,191,5,244,160,7,61,232,65,15,122,30,208,19,66,50,155,186,78,24,94,123,86,117,254,151,100,127,11,207,48,0,208,221,221,253,234,171,175,154,76,38,73,60,43,98,8,0,0,143,67,126,231,140,80,150,123,227,103,
63,248,251,191,255,123,151,203,229,112,56,132,206,117,18,120,38,227,157,24,125,255,192,205,171,87,60,30,79,117,117,245,59,239,188,51,52,52,52,245,118,179,216,30,0,155,139,188,60,10,66,149,183,171,171,
235,205,55,223,108,105,105,185,47,41,160,158,87,234,220,11,151,149,20,22,22,146,36,105,179,217,142,29,59,230,191,38,23,104,207,247,106,93,166,197,203,74,74,74,86,173,90,69,211,180,203,229,122,239,189,
247,252,111,80,4,79,74,74,74,68,68,68,113,113,49,73,146,14,135,227,220,185,115,110,183,91,90,15,0,68,68,68,152,76,38,0,24,25,25,169,174,174,150,220,3,0,113,113,113,194,92,189,182,182,182,233,79,39,190,
7,0,146,147,147,21,10,5,207,243,205,205,205,51,126,214,68,246,16,4,33,204,67,117,185,92,51,238,34,145,61,0,32,151,203,133,185,131,86,171,117,250,46,18,223,227,63,146,120,120,158,183,90,173,0,160,82,169,
124,134,145,74,181,127,198,198,198,92,46,23,0,68,71,71,79,253,46,45,149,103,242,35,166,80,40,146,147,147,37,247,8,187,168,173,173,13,0,98,99,99,227,226,226,36,247,0,64,117,117,245,200,200,8,0,152,76,166,
136,136,8,201,61,110,183,251,220,185,115,194,132,221,226,226,226,136,136,8,201,63,239,67,67,67,239,189,247,158,203,229,162,105,122,213,170,85,197,197,197,146,31,127,90,90,90,142,29,59,102,179,217,72,146,
44,44,44,92,188,120,177,180,30,158,231,91,90,90,222,124,243,205,174,174,46,0,208,106,181,151,47,95,150,246,248,204,243,252,208,208,208,161,67,135,110,221,186,229,97,185,202,134,187,125,125,125,18,122,
132,48,12,99,179,217,108,94,248,226,37,203,47,217,28,46,54,115,234,161,82,170,243,87,238,194,37,255,82,237,234,226,245,174,165,79,79,124,237,117,199,250,111,242,17,9,4,65,72,229,49,45,94,246,189,90,151,
205,69,2,0,65,16,60,165,99,210,87,88,159,248,183,188,23,126,46,185,103,106,86,196,16,33,36,131,30,244,160,7,61,232,249,75,241,220,243,56,158,231,123,123,123,179,179,179,133,203,223,169,57,125,250,244,
196,196,68,126,126,254,131,44,139,55,25,130,32,76,38,147,213,106,61,125,250,180,207,175,34,34,34,178,179,179,251,250,250,252,220,101,67,15,122,208,131,30,244,4,179,167,32,132,72,172,61,68,183,86,130,125,
92,120,48,203,178,71,142,28,25,29,29,205,205,205,21,223,147,31,70,135,43,60,228,80,155,242,253,215,12,175,127,94,255,167,191,179,189,127,240,249,231,159,111,108,108,108,106,106,170,171,171,243,153,108,
33,130,39,140,158,210,141,218,227,144,223,57,211,122,246,45,167,211,57,49,49,113,244,232,209,63,253,233,79,45,45,45,44,203,194,253,18,16,15,0,0,212,219,104,133,86,175,86,171,57,142,107,106,106,58,112,
224,64,101,101,229,125,43,133,129,243,188,55,68,14,41,194,159,126,250,233,140,140,12,130,32,198,198,198,14,31,62,92,89,89,233,127,47,5,212,211,47,11,91,184,112,225,234,213,171,31,188,38,23,104,143,240,
121,95,176,96,65,65,65,129,176,151,78,158,60,105,179,217,164,245,16,4,145,159,159,47,76,183,234,232,232,168,172,172,156,109,155,226,120,132,39,42,44,44,212,235,245,60,207,223,184,113,67,152,46,35,161,
7,0,100,50,153,208,91,204,225,112,212,215,215,75,238,1,128,208,208,80,225,204,210,221,221,61,227,65,82,100,15,124,84,65,97,89,118,112,112,48,24,60,20,69,41,149,74,0,112,185,92,211,143,69,226,123,252,71,
18,15,203,178,66,245,75,169,84,250,180,170,147,106,255,12,14,14,178,44,59,89,223,149,220,227,112,56,132,73,168,17,17,17,83,219,213,74,248,254,169,175,175,119,56,28,2,64,152,68,40,173,199,98,177,220,184,
113,131,231,121,189,94,95,88,88,56,121,24,151,202,195,243,124,101,101,101,71,71,7,0,164,167,167,79,158,233,36,252,188,219,108,182,147,39,79,142,141,141,17,4,81,80,80,176,96,193,2,201,143,63,62,213,184,
213,171,87,23,20,20,72,232,97,89,182,178,178,242,240,225,195,194,94,202,200,200,120,234,169,167,108,54,155,132,199,103,134,97,42,43,43,15,28,56,208,212,212,196,113,156,90,173,86,40,20,211,7,9,137,121,
190,96,89,182,165,165,229,79,127,250,211,209,163,71,39,38,38,156,12,123,167,201,119,68,142,248,231,47,135,195,81,87,87,215,216,216,120,107,208,190,183,146,238,89,188,151,11,141,159,252,115,169,206,167,
185,185,185,221,132,225,173,65,194,19,153,238,92,249,85,235,243,251,173,123,127,200,204,123,52,60,41,93,170,243,251,128,60,252,189,161,143,111,228,18,36,197,27,162,180,89,37,89,153,25,193,224,17,18,70,
179,249,97,52,122,208,131,30,244,160,103,54,207,61,143,99,89,118,108,108,172,176,176,208,231,123,148,219,237,62,121,242,164,255,190,153,179,69,46,151,231,231,231,159,60,121,210,103,160,52,69,81,133,133,
133,99,99,99,211,219,245,160,7,61,232,65,15,122,102,244,44,202,203,166,56,118,234,113,92,168,13,100,102,102,18,4,241,32,19,155,30,174,167,196,232,210,92,218,175,255,227,215,141,191,218,171,59,248,45,197,
141,119,62,56,246,214,207,126,246,51,179,217,252,246,219,111,151,151,151,247,247,247,123,60,30,209,60,203,162,100,4,124,180,19,92,54,186,249,10,251,206,15,250,90,155,56,142,235,232,232,56,118,236,216,
235,175,191,94,86,86,54,52,52,228,103,83,129,242,0,0,0,195,19,125,46,50,62,62,94,161,80,176,44,219,222,222,126,240,224,193,67,135,14,117,119,119,223,151,20,32,207,193,118,79,201,202,149,123,246,236,73,
73,73,33,73,82,184,135,114,232,208,161,251,14,41,10,148,167,219,147,159,159,31,25,25,185,109,219,54,225,3,232,116,58,207,156,57,227,127,198,85,160,61,114,185,92,38,147,125,162,154,92,160,61,194,166,86,
173,90,37,172,104,213,221,221,125,230,204,25,63,149,84,17,60,0,32,236,37,157,78,199,243,188,159,198,149,162,121,0,192,104,52,10,101,75,139,197,226,167,70,40,154,7,0,132,69,161,1,160,161,161,97,182,102,
26,98,122,104,154,78,77,77,5,0,171,213,58,219,75,38,166,7,0,194,194,194,132,31,6,137,135,36,73,173,86,11,0,78,167,115,198,147,154,200,158,251,70,124,143,199,227,17,222,204,90,173,118,114,217,63,105,247,
143,240,230,145,203,229,97,97,97,65,226,17,38,17,166,166,166,10,29,80,165,245,56,157,206,134,134,6,0,48,24,12,153,153,153,146,123,132,234,151,197,98,17,74,77,70,163,81,90,15,124,212,172,146,231,121,157,
78,183,122,245,234,201,154,165,84,30,134,97,206,156,57,35,148,117,51,50,50,86,173,90,37,124,73,145,240,248,51,189,26,39,147,201,36,244,8,51,26,207,156,57,227,116,58,133,167,219,182,109,91,100,100,164,
132,199,103,97,98,220,233,211,167,173,86,43,73,146,41,41,41,123,246,236,41,41,41,145,202,195,113,92,119,119,247,161,67,135,14,30,60,216,222,222,206,178,172,66,161,136,143,143,239,237,237,245,57,187,137,
118,254,226,56,110,104,104,168,172,172,236,245,215,95,63,118,236,88,71,71,7,15,208,99,30,245,25,103,38,242,249,212,227,241,244,247,247,151,151,151,31,60,120,208,108,54,255,243,77,235,241,180,189,206,210,
207,179,17,41,4,69,137,239,17,194,243,188,80,102,254,127,29,46,59,165,97,19,230,185,138,247,77,236,249,185,229,171,111,56,246,124,223,180,106,189,84,215,27,7,187,61,12,127,239,218,72,4,44,13,87,4,143,
135,0,126,89,148,108,116,116,20,61,232,65,15,122,130,196,115,207,247,37,134,97,220,110,119,90,90,154,207,70,251,250,250,58,59,59,167,246,214,248,68,73,78,78,238,234,234,154,62,43,63,45,45,205,229,114,
249,185,87,139,30,244,160,7,61,193,230,233,234,234,106,107,107,11,9,9,177,219,237,12,195,112,28,247,137,202,96,159,201,227,116,46,106,63,169,255,237,62,237,159,254,65,249,254,107,178,250,11,196,96,235,
111,126,249,95,213,213,213,151,47,95,126,253,245,215,143,28,57,82,81,81,209,214,214,54,62,62,206,48,204,131,192,62,163,103,142,129,2,0,158,101,136,241,126,89,253,89,205,137,87,28,135,126,36,116,98,236,
232,232,56,119,238,220,254,253,251,247,239,223,127,230,204,153,214,214,86,159,165,119,2,231,153,26,74,37,83,41,21,169,169,169,74,165,146,227,184,145,145,145,75,151,46,237,223,191,255,208,161,67,77,77,
77,254,11,60,129,240,12,120,232,54,23,189,117,235,214,189,123,247,102,101,101,201,100,50,134,97,238,222,189,251,198,27,111,28,63,126,124,112,112,208,255,46,10,132,167,197,78,38,39,39,199,198,198,238,216,
177,163,180,180,116,234,84,185,27,55,110,248,159,42,23,56,15,0,40,149,202,53,107,214,172,89,179,70,169,84,122,189,222,107,215,174,29,57,114,100,182,25,78,34,120,224,163,106,211,131,215,228,2,237,1,0,133,
66,177,97,195,134,168,168,40,0,104,104,104,40,47,47,247,115,221,41,130,7,0,30,188,113,165,56,30,97,42,161,48,31,165,170,170,74,104,134,38,161,7,0,52,26,77,86,86,22,0,140,140,140,8,253,226,164,245,8,219,
164,105,154,227,56,63,111,105,49,61,90,173,86,167,211,1,128,217,108,246,122,189,146,123,8,130,80,171,213,194,223,206,118,84,20,211,243,32,17,217,51,185,103,212,106,245,140,227,73,69,246,120,189,94,97,
9,82,157,78,39,20,83,165,245,0,64,75,75,11,199,113,52,77,79,191,182,148,196,211,214,214,38,28,15,179,178,178,166,47,6,44,190,103,100,100,164,170,170,10,0,66,67,67,133,137,95,210,122,166,55,171,148,214,
195,113,92,121,121,185,80,67,141,138,138,218,176,97,195,228,98,141,146,120,96,150,106,156,132,30,139,197,114,228,200,145,107,215,174,121,189,222,169,215,144,82,121,24,134,185,113,227,198,212,137,113,165,
165,165,59,118,236,136,141,141,77,73,73,17,223,195,243,252,224,224,224,241,227,199,223,120,227,141,187,119,239,50,12,35,147,201,178,178,178,246,238,221,251,248,227,143,119,119,119,139,127,254,114,187,
221,77,77,77,135,14,29,218,191,127,255,165,75,151,70,70,70,56,142,83,42,149,169,169,169,50,153,108,250,5,109,160,61,194,98,168,173,173,173,103,206,156,17,190,195,158,59,119,174,163,163,131,97,24,39,195,
14,91,125,91,8,136,112,126,231,121,158,97,152,241,241,241,182,182,182,138,138,138,35,71,142,188,254,250,235,151,47,95,190,50,224,250,119,88,110,217,247,107,231,154,111,120,51,151,240,154,16,130,162,210,
211,211,69,187,222,224,121,158,227,56,134,97,236,118,123,72,72,200,93,43,116,187,101,160,212,114,225,201,76,90,177,107,233,211,182,45,223,141,124,252,107,82,93,255,180,56,233,1,143,239,74,78,115,12,148,
123,150,97,85,232,65,15,122,208,35,190,231,158,7,185,221,110,158,231,133,117,212,167,166,171,171,75,46,151,11,95,140,63,69,180,90,173,76,38,235,234,234,242,233,191,25,30,30,206,243,188,199,227,17,86,101,
152,158,79,237,17,70,142,4,143,135,227,184,233,99,69,209,51,249,98,9,107,137,7,137,135,227,56,175,215,43,147,201,102,123,11,137,233,225,121,222,235,245,10,95,42,164,245,8,151,92,44,203,10,71,16,181,90,
61,219,91,232,161,123,58,59,59,1,192,229,114,205,54,95,135,166,105,163,209,24,16,15,203,198,218,186,232,142,91,156,92,203,43,52,160,84,123,121,242,87,191,250,213,200,200,200,91,111,189,37,147,201,84,42,
149,82,169,212,233,116,42,149,202,96,48,168,213,106,225,190,79,100,100,164,207,188,186,135,226,33,56,54,156,157,160,250,71,169,254,70,184,3,64,144,28,39,31,174,180,179,44,203,178,236,192,192,192,192,192,
64,93,93,29,73,146,10,133,194,96,48,68,68,68,68,71,71,199,196,196,196,199,199,79,126,67,126,184,158,80,250,158,111,74,60,207,39,27,105,163,94,31,17,21,213,223,223,47,212,44,5,216,245,235,215,245,122,125,
66,66,66,70,70,70,70,70,198,212,155,8,129,243,0,64,167,133,151,233,66,118,236,216,49,54,54,86,95,95,223,208,208,48,62,62,238,114,185,238,220,185,211,212,212,20,25,25,57,111,222,60,147,201,36,220,105,21,
199,67,168,116,6,131,33,44,44,108,251,246,237,157,157,157,229,229,229,157,157,157,110,183,187,166,166,166,169,169,41,47,47,175,168,168,72,175,215,139,233,17,62,239,10,133,162,168,168,40,37,37,69,248,242,
41,76,149,107,109,109,93,179,102,205,212,230,90,162,121,224,163,193,167,33,33,33,239,189,247,222,248,248,120,99,99,163,197,98,217,188,121,115,76,76,140,36,30,248,168,38,7,0,55,110,220,16,106,114,91,183,
110,157,241,238,170,56,30,0,48,24,12,155,54,109,122,235,173,183,172,86,235,149,43,87,194,194,194,230,205,155,39,161,71,104,92,217,210,210,210,212,212,36,52,174,44,42,42,154,241,20,38,142,71,120,162,69,
139,22,157,62,125,218,110,183,95,187,118,109,195,134,13,210,122,8,130,152,55,111,222,173,91,183,220,110,119,117,117,245,220,185,115,103,60,101,136,230,1,128,200,200,72,163,209,56,60,60,220,209,209,225,
241,120,102,28,18,40,166,71,46,151,135,135,135,15,15,15,143,143,143,59,28,142,25,15,137,98,122,0,64,48,120,189,94,135,195,49,117,238,142,84,158,251,70,100,143,195,225,16,74,167,146,156,191,102,244,140,
143,143,11,219,151,252,253,12,0,30,143,71,232,124,104,52,26,35,35,35,37,247,176,44,91,93,93,205,113,156,66,161,152,55,111,222,244,67,162,200,30,158,231,175,93,187,102,183,219,9,130,88,180,104,209,244,
26,170,248,158,233,205,42,37,244,0,64,67,67,195,149,43,87,56,142,211,233,116,155,54,109,18,166,89,75,232,105,109,109,157,173,26,39,137,167,191,191,255,248,241,227,3,3,3,0,96,52,26,55,108,216,144,158,158,
62,249,170,137,239,25,29,29,61,115,230,76,115,115,51,199,113,4,65,36,39,39,63,242,200,35,49,49,49,2,73,124,207,196,196,196,149,43,87,106,107,107,133,169,204,20,69,37,37,37,45,91,182,44,41,41,137,162,40,
225,238,135,152,30,135,195,81,83,83,83,87,87,55,52,52,36,52,130,38,8,194,104,52,230,228,228,228,230,230,134,132,132,28,56,112,64,76,143,219,237,110,110,110,110,110,110,238,238,238,158,152,152,152,236,
77,77,16,132,70,163,137,137,137,49,155,205,211,15,221,129,243,48,12,211,211,211,211,223,223,63,48,48,96,54,155,45,22,139,219,237,246,169,80,246,216,60,60,45,155,122,96,10,156,135,101,217,161,161,33,155,
205,102,181,90,29,14,135,197,98,113,58,157,86,171,213,229,114,57,157,78,134,97,220,46,215,43,230,140,239,191,244,239,164,33,146,167,21,194,36,194,16,121,93,128,60,28,199,141,143,143,207,54,96,139,101,
89,47,41,239,176,49,9,74,146,32,8,158,146,1,47,231,85,10,3,37,7,190,35,64,30,161,229,187,92,46,167,40,138,36,201,169,167,12,173,86,75,42,181,157,22,71,194,189,239,160,80,154,35,120,54,16,30,158,231,133,
117,70,105,154,158,241,252,46,190,135,97,24,154,166,103,188,101,39,190,7,0,188,94,47,69,81,179,125,31,20,223,227,231,22,61,122,192,111,137,71,18,143,159,124,34,207,61,85,16,175,215,75,146,228,244,33,114,
67,67,67,106,181,122,182,251,203,29,29,29,117,117,117,217,217,217,179,221,144,162,40,74,173,86,79,191,153,174,209,104,72,146,244,51,250,254,83,120,120,158,111,108,108,108,104,104,200,207,207,15,6,15,195,
48,181,181,181,141,141,141,139,23,47,14,6,207,196,196,196,173,91,183,58,59,59,151,46,93,234,211,156,68,124,143,215,235,237,235,235,171,169,169,25,26,26,90,182,108,217,220,185,115,37,244,48,12,51,58,58,
218,209,209,209,210,210,98,177,88,86,174,92,153,157,157,45,190,71,56,87,217,237,246,209,209,81,161,140,97,54,155,221,110,247,170,85,171,242,242,242,196,241,12,14,14,146,36,217,215,215,231,114,185,172,
86,171,221,110,159,152,152,112,56,28,86,171,213,237,118,11,23,241,165,165,165,243,231,207,15,144,103,234,12,33,134,97,132,214,121,251,247,239,159,237,15,41,138,42,45,45,45,44,44,124,232,30,25,176,113,
229,191,214,87,122,121,78,6,42,57,79,43,92,148,114,240,122,155,112,137,35,236,31,159,191,34,73,82,104,34,183,116,233,210,135,238,161,8,94,55,245,170,155,231,72,194,181,36,12,202,198,195,162,163,163,205,
102,179,240,26,113,28,231,116,58,157,78,167,80,159,163,40,170,164,164,164,164,164,36,224,30,0,0,232,181,49,81,49,113,79,62,249,164,221,110,239,237,237,109,110,110,238,236,236,180,88,44,194,148,112,161,
42,86,84,84,36,148,52,68,240,244,56,61,106,109,132,76,38,139,138,138,138,138,138,90,178,100,73,75,75,75,117,117,117,111,111,47,195,48,194,247,156,241,241,241,117,235,214,205,120,142,15,144,135,250,168,
213,73,106,106,106,66,66,66,115,115,115,69,69,69,95,95,159,211,233,188,118,237,154,203,229,218,178,101,139,248,30,0,32,8,66,152,42,119,227,198,141,138,138,10,135,195,209,216,216,72,81,212,19,79,60,33,
137,71,32,101,100,100,236,220,185,243,221,119,223,237,238,238,30,24,24,40,43,43,219,181,107,215,140,215,136,34,120,96,90,77,238,226,197,139,201,201,201,51,158,115,197,241,0,64,92,92,220,218,181,107,143,
31,63,238,241,120,42,42,42,230,206,157,59,99,13,94,52,143,176,139,132,254,108,85,85,85,11,23,46,156,177,6,47,154,7,0,230,205,155,87,85,85,53,48,48,208,212,212,180,106,213,170,25,107,240,98,122,34,35,35,
19,19,19,155,155,155,251,251,251,29,14,199,140,23,253,98,122,20,10,69,82,82,146,80,0,179,90,173,211,91,252,137,236,17,214,253,186,123,247,174,219,237,182,219,237,51,214,120,196,244,0,128,80,33,16,198,
131,207,248,0,145,61,147,63,247,243,0,49,61,66,207,128,201,29,37,185,199,110,183,11,211,115,133,245,8,37,247,88,173,86,161,64,152,148,148,36,249,241,16,0,28,14,135,208,210,51,49,49,113,198,2,161,200,30,
167,211,217,212,212,4,0,81,81,81,51,142,41,17,217,227,241,120,170,170,170,166,55,171,148,202,195,48,76,69,69,5,195,48,114,185,124,237,218,181,113,113,113,210,122,88,150,189,120,241,226,108,213,56,241,
61,28,199,149,149,149,9,213,184,132,132,132,141,27,55,10,157,3,164,242,240,60,127,254,252,249,198,198,70,0,80,171,213,75,151,46,45,44,44,156,250,193,23,223,83,86,86,86,83,83,3,0,36,73,198,198,198,46,93,
186,52,35,35,99,242,85,19,223,243,193,7,31,8,11,70,2,128,76,38,139,139,139,19,22,33,22,110,77,240,60,47,166,7,0,46,95,190,44,20,188,39,119,136,193,96,72,74,74,202,200,200,136,139,139,211,104,52,111,191,
253,246,240,240,176,104,158,138,138,138,139,23,47,250,172,89,43,12,186,213,233,116,17,17,17,3,3,3,5,5,5,62,223,134,2,231,185,126,253,250,133,11,23,88,150,245,211,135,163,219,77,121,141,177,114,185,124,
114,235,129,243,220,188,121,179,172,172,204,207,250,226,94,175,247,181,193,228,156,175,254,61,173,15,231,21,26,94,174,225,229,42,79,119,15,113,226,153,64,120,106,106,106,202,202,202,0,64,165,82,9,175,
145,90,173,214,235,245,26,141,70,167,211,41,149,74,130,162,122,156,30,159,6,117,58,25,65,1,31,8,79,93,93,221,133,11,23,20,10,133,48,62,59,58,58,58,52,52,84,163,209,8,179,14,40,138,82,105,52,61,206,113,
209,60,119,238,220,121,255,253,247,13,6,67,122,122,122,114,114,114,104,104,232,212,83,134,248,158,187,119,239,150,151,151,71,70,70,154,76,166,216,216,88,159,201,33,226,123,154,154,154,42,42,42,146,146,
146,22,44,88,48,253,43,143,248,158,214,214,214,107,215,174,205,153,51,39,47,47,111,198,235,31,241,61,213,213,213,57,57,57,115,230,204,153,126,73,47,137,231,246,237,219,243,230,205,155,113,22,221,39,242,
220,243,206,19,206,136,211,255,133,66,245,120,70,202,100,167,2,179,217,60,219,13,41,0,160,105,122,250,248,5,225,137,252,47,178,247,137,60,12,195,92,187,118,237,210,165,75,30,143,199,110,183,11,203,225,
72,232,17,122,97,11,3,163,120,158,151,214,227,112,56,106,107,107,175,95,191,62,54,54,6,0,10,133,34,35,35,99,182,34,115,160,61,54,155,173,185,185,185,166,166,166,175,175,79,120,71,214,215,215,207,248,233,
10,168,135,231,121,183,219,61,56,56,216,210,210,210,222,222,110,54,155,39,39,144,54,53,53,101,101,101,137,230,241,122,189,173,173,173,131,131,131,66,5,110,98,98,194,103,12,84,103,103,231,108,5,185,135,
235,97,89,246,198,141,27,221,221,221,127,248,195,31,252,52,99,236,235,235,155,173,32,247,89,60,36,231,53,156,255,181,214,160,4,214,11,60,71,144,172,221,225,236,185,117,89,168,83,206,246,135,12,195,76,
191,62,126,40,30,2,120,146,231,120,142,5,96,193,233,34,0,84,0,155,162,136,22,38,44,41,41,201,225,112,216,108,54,161,50,231,245,122,133,22,145,28,199,113,28,231,191,171,222,103,242,76,123,75,146,44,68,
69,69,109,219,182,205,235,245,250,148,114,39,223,72,46,151,75,52,15,227,225,133,113,97,122,189,94,175,215,207,157,59,215,229,114,13,14,14,182,182,182,182,181,181,13,15,15,123,189,94,255,93,25,3,225,153,
252,95,141,70,99,50,153,114,114,114,250,251,251,133,25,105,14,135,67,46,151,251,153,84,29,80,15,0,200,100,50,97,68,203,237,219,183,175,94,189,58,58,58,58,219,221,76,113,60,0,160,80,40,150,45,91,150,146,
146,114,254,252,249,222,222,222,217,166,199,137,230,1,128,168,168,168,207,125,238,115,103,206,156,105,105,105,153,237,238,170,152,30,161,224,68,146,100,93,93,93,124,124,188,159,73,231,226,120,0,32,43,
43,203,98,177,92,187,118,45,37,37,197,207,21,164,104,158,136,136,136,210,210,210,75,151,46,101,102,102,206,54,67,87,76,143,74,165,90,185,114,229,249,243,231,83,82,82,102,155,161,43,166,135,162,168,162,
162,34,155,205,22,23,23,55,219,192,61,49,61,194,162,77,102,179,57,60,60,124,182,25,78,98,122,0,32,39,39,167,179,179,83,167,211,249,57,4,137,233,73,75,75,203,200,200,144,203,229,51,86,47,196,247,196,199,
199,207,153,51,71,248,143,96,240,68,70,70,102,101,101,121,60,158,217,6,32,138,236,9,13,13,205,206,206,182,90,173,57,57,57,193,224,209,235,245,57,57,57,195,195,195,194,146,150,146,123,84,42,85,86,86,86,
111,111,111,81,81,209,67,255,254,254,41,60,10,133,98,238,220,185,237,237,237,43,87,174,156,237,144,40,166,71,38,147,101,102,102,54,54,54,78,111,86,41,137,135,162,168,148,148,20,187,221,190,120,241,98,
161,227,177,180,30,146,36,227,227,227,71,71,71,231,205,155,183,106,213,170,25,207,242,98,122,132,49,28,189,189,189,233,233,233,107,214,172,153,241,66,90,76,15,0,132,134,134,202,229,242,184,184,184,213,
171,87,199,198,198,78,255,212,139,236,209,106,181,52,77,135,134,134,46,89,178,36,59,59,123,250,133,144,200,175,151,92,46,39,73,82,173,86,103,102,102,154,76,166,152,152,24,159,123,226,34,239,31,97,155,
194,236,252,212,212,212,180,180,180,168,168,168,201,30,69,60,207,139,236,113,185,92,194,12,21,133,66,161,215,235,125,202,42,52,77,31,62,124,120,198,29,27,32,143,197,98,17,238,198,8,115,191,100,50,25,77,
211,74,165,82,169,84,106,181,90,181,90,221,217,217,185,102,205,26,159,249,232,129,243,12,15,15,251,191,191,1,0,109,140,210,153,182,116,234,8,60,66,57,22,32,79,95,95,159,176,228,161,207,194,135,194,78,
32,73,146,231,249,15,66,19,30,91,190,157,166,1,88,47,176,94,130,103,93,195,19,252,217,99,129,240,116,118,118,10,99,128,6,7,7,235,235,235,125,222,72,81,81,81,94,175,215,237,241,125,94,146,0,2,248,135,238,
225,121,190,169,169,201,108,54,155,205,230,150,150,22,185,92,30,17,17,145,146,146,146,158,158,30,21,21,37,28,139,104,154,102,68,244,212,215,215,247,244,244,244,244,244,212,213,213,197,198,198,154,76,166,
140,140,140,169,39,14,145,61,183,110,221,234,232,232,232,232,232,168,173,173,93,180,104,81,94,94,158,207,200,81,49,61,28,199,93,189,122,181,165,165,165,181,181,181,185,185,185,180,180,116,250,23,31,145,
61,229,229,229,237,237,237,77,77,77,197,197,197,139,23,47,158,126,201,33,166,135,101,217,15,62,248,160,187,187,187,169,169,105,203,150,45,233,233,233,211,31,243,224,30,223,82,48,199,113,211,87,251,48,
26,141,194,218,63,62,87,18,83,251,134,39,39,39,207,118,67,74,232,197,60,189,187,139,112,167,216,255,165,231,131,123,28,14,199,217,179,103,107,107,107,57,142,19,174,161,103,251,182,35,130,135,97,152,154,
154,154,139,23,47,10,19,104,212,106,117,110,110,174,84,251,199,237,118,223,185,115,167,162,162,194,108,54,11,47,127,72,72,200,244,206,27,34,120,120,158,31,26,26,170,171,171,187,115,231,206,248,248,184,
128,161,40,42,42,42,202,207,183,211,64,120,44,22,203,237,219,183,219,218,218,132,115,213,212,166,4,42,149,42,54,54,182,176,176,80,28,15,207,243,253,253,253,237,237,237,237,237,237,190,11,60,126,212,120,
48,50,50,114,241,226,197,179,109,246,51,122,60,214,113,194,50,72,58,198,137,137,17,210,62,204,12,246,118,221,188,60,41,153,188,228,18,218,51,10,227,125,116,58,221,162,69,139,2,225,225,89,22,234,223,151,
235,63,190,216,53,2,124,57,131,250,182,91,63,99,59,29,33,114,185,220,79,181,242,179,120,88,158,112,186,120,184,183,209,81,74,152,66,103,209,109,220,184,145,32,136,201,54,158,30,143,199,225,112,8,243,8,
1,96,182,233,158,129,240,68,26,228,142,145,15,59,36,200,229,242,144,144,144,180,180,52,161,217,169,221,110,31,25,25,113,56,28,51,158,39,2,234,153,60,254,8,159,169,228,228,228,228,228,228,146,146,146,209,
209,81,139,197,146,152,152,40,149,71,8,77,211,9,9,9,241,241,241,197,197,197,22,139,37,58,58,90,90,15,0,40,20,138,249,243,231,207,157,59,119,124,124,60,60,60,60,16,199,159,79,228,33,8,34,46,46,110,231,
206,157,22,139,37,36,36,68,114,15,0,104,181,218,205,155,55,219,108,54,173,86,27,12,30,153,76,246,200,35,143,20,21,21,169,84,170,96,240,144,36,185,100,201,146,252,252,124,133,66,17,136,235,141,79,234,33,
8,194,100,50,205,157,59,87,184,231,34,185,7,0,230,204,153,147,156,156,44,147,201,130,196,147,156,156,252,236,179,207,10,35,24,130,193,19,19,19,243,212,83,79,145,36,25,36,158,240,240,240,61,123,246,8,55,
50,130,193,99,52,26,119,238,220,9,0,65,226,209,106,181,79,62,249,100,240,120,84,42,213,182,109,219,130,199,163,80,40,182,108,217,194,243,179,126,169,22,217,35,147,201,54,110,220,40,172,33,23,12,30,154,
166,215,175,95,207,178,236,108,3,38,68,246,80,20,181,118,237,90,134,97,102,27,48,33,178,135,36,201,71,30,121,164,164,164,68,161,80,204,248,0,241,61,165,165,165,203,150,45,83,42,149,51,126,196,68,246,16,
4,81,90,90,186,116,233,210,217,86,49,16,223,179,98,197,138,130,130,2,161,236,20,36,158,188,188,60,131,193,48,99,203,92,73,60,57,57,57,70,163,113,198,130,183,200,30,0,40,46,46,206,200,200,48,24,12,122,
189,126,250,99,196,247,44,95,190,60,49,49,209,96,48,248,204,221,145,112,255,196,196,196,168,213,234,176,176,48,161,2,55,245,145,66,131,68,145,61,194,208,4,97,238,151,90,173,22,238,60,8,23,177,60,207,31,
56,112,96,250,23,234,192,121,138,138,138,180,90,237,108,171,67,241,60,95,87,87,183,123,247,110,159,170,70,224,60,75,151,46,165,40,202,106,181,78,246,148,18,22,214,157,92,246,5,0,154,249,16,219,202,231,
166,158,227,134,239,222,245,194,137,64,120,22,47,94,236,245,122,135,134,134,38,155,157,10,253,147,38,235,115,0,208,189,36,145,73,203,33,93,163,132,101,140,100,109,192,184,156,46,96,121,34,16,199,159,194,
194,66,187,221,46,116,3,242,120,60,189,189,189,189,189,189,21,21,21,70,163,49,41,41,41,53,53,213,98,177,68,70,201,1,238,153,242,232,116,241,1,242,20,20,20,140,141,141,13,14,14,50,12,211,217,217,217,213,
213,101,52,26,179,178,178,230,205,155,39,20,159,28,14,135,152,158,252,252,252,161,161,33,161,155,212,153,51,103,170,170,170,150,46,93,154,149,149,37,188,91,132,227,143,104,30,146,36,115,115,115,251,250,
250,132,86,73,125,125,125,37,37,37,38,147,105,242,192,40,178,135,32,136,204,204,204,158,158,30,143,199,115,225,194,133,145,145,145,71,31,125,116,234,71,91,252,253,147,156,156,220,219,219,43,172,93,50,
189,38,247,137,60,247,92,175,200,229,114,158,231,133,90,250,212,196,199,199,11,179,64,166,254,179,125,86,241,45,46,46,158,237,112,32,28,146,166,143,223,20,158,200,207,56,229,7,247,12,15,15,191,251,238,
187,157,157,157,60,207,107,52,154,53,107,214,228,230,230,74,229,49,155,205,231,207,159,159,236,24,158,148,148,244,200,35,143,196,198,198,206,182,217,192,121,100,50,217,100,39,52,161,196,162,211,233,230,
207,159,95,80,80,224,103,248,115,32,60,194,252,188,59,119,238,8,75,37,9,63,87,169,84,169,169,169,249,249,249,137,137,137,51,94,170,6,200,67,81,212,192,192,192,59,239,188,51,89,157,22,102,243,8,171,91,
37,36,36,232,116,58,63,159,219,135,226,225,121,158,96,220,132,125,140,28,108,239,190,126,65,120,117,166,46,253,21,19,19,19,21,21,53,57,6,202,207,116,144,207,226,1,142,35,223,250,182,81,235,2,143,131,224,
88,158,99,1,224,127,37,195,151,71,84,243,23,22,26,141,70,97,117,52,225,146,75,38,147,77,239,136,253,112,61,28,65,78,76,235,4,62,63,76,166,85,16,69,69,69,179,173,242,229,63,15,221,147,168,33,61,118,155,
240,121,167,40,138,162,40,225,221,235,127,22,145,56,158,201,31,10,101,84,163,209,56,227,58,55,226,123,132,76,246,141,12,18,15,65,16,6,131,193,103,17,14,9,61,0,160,82,169,252,204,149,17,223,35,12,97,11,
30,143,176,96,100,240,120,72,146,244,63,157,81,124,143,255,227,164,200,30,130,32,148,74,101,240,120,252,111,83,18,143,159,185,131,146,120,252,44,232,43,137,199,255,248,95,241,61,126,230,194,162,7,61,15,
226,241,67,66,143,240,61,40,168,60,126,78,97,146,28,15,253,156,226,37,241,248,185,4,146,228,252,229,231,18,81,18,143,159,75,104,73,174,55,102,91,128,89,18,143,92,46,247,51,64,83,124,143,82,169,156,109,
61,23,73,60,42,149,106,182,5,161,37,241,104,52,154,130,130,130,217,54,43,172,36,39,166,199,96,48,20,23,23,207,182,89,167,211,217,218,218,58,125,126,124,224,60,161,161,161,235,214,173,155,44,191,49,12,
35,12,215,22,86,218,27,31,31,191,117,235,214,151,190,244,37,159,167,14,156,39,50,50,114,235,214,173,147,253,147,6,7,7,251,251,251,125,22,35,108,52,100,89,158,122,149,226,89,112,187,8,143,157,116,77,116,
92,185,194,158,251,121,32,60,194,48,95,171,213,218,221,221,61,117,165,198,145,145,145,145,145,145,170,170,42,138,32,188,133,115,56,35,79,218,71,9,175,91,184,79,59,225,5,142,164,3,225,73,73,73,121,230,
153,103,186,186,186,170,171,171,219,218,218,156,78,231,216,216,216,149,43,87,110,222,188,153,148,148,148,149,149,229,178,78,36,106,72,159,130,74,224,60,115,231,206,141,141,141,189,121,243,102,85,85,149,
213,106,29,26,26,58,113,226,196,205,155,55,133,222,194,94,175,215,99,19,213,147,151,151,23,30,30,126,238,220,185,206,206,78,171,213,122,234,212,169,150,150,150,213,171,87,11,39,53,183,219,45,166,71,88,
90,88,173,86,159,57,115,198,110,183,215,212,212,140,143,143,111,220,184,49,60,60,92,120,128,248,158,226,226,98,143,199,35,172,93,50,189,38,247,137,60,190,5,57,153,76,214,211,211,227,243,148,9,9,9,26,141,
102,104,104,104,178,69,166,79,53,110,198,214,234,147,25,28,28,212,104,52,9,9,9,62,63,239,233,233,145,201,100,126,42,49,15,226,225,121,190,163,163,227,221,119,223,29,25,25,1,128,136,136,136,199,30,123,
44,33,33,193,79,205,32,112,158,184,184,56,159,137,113,211,59,134,139,230,153,156,247,42,140,200,80,169,84,121,121,121,139,22,45,242,51,215,33,64,158,176,176,48,175,215,123,252,248,113,225,192,74,146,100,
104,104,168,176,96,111,104,104,168,255,111,203,15,215,195,243,60,105,27,29,174,187,42,236,19,153,76,22,26,26,42,76,151,142,137,137,241,51,203,225,33,122,6,106,175,42,136,110,186,239,54,53,208,76,141,247,
19,46,235,75,145,222,26,157,44,50,51,47,59,59,251,65,42,112,15,209,67,203,229,189,67,35,64,50,0,48,57,117,182,40,154,76,80,19,41,41,41,51,182,196,13,168,135,146,43,58,61,196,130,123,127,158,160,100,141,
188,103,234,241,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,145,220,35,44,207,38,12,215,214,104,52,33,33,33,194,207,59,58,58,122,123,123,11,11,11,197,244,76,29,
159,157,154,154,58,217,63,105,116,116,244,246,237,219,189,189,189,95,249,202,87,40,138,2,160,128,150,243,26,61,11,49,237,124,93,224,60,20,69,9,152,220,220,92,167,211,217,223,223,47,44,27,52,58,58,202,
48,12,11,208,58,239,73,203,246,45,148,165,159,234,107,166,251,111,83,221,141,237,195,157,148,140,11,144,71,46,151,167,167,167,167,166,166,142,142,142,214,215,215,55,52,52,140,142,142,186,221,238,166,166,
166,230,230,230,48,165,76,31,146,68,176,163,60,251,241,186,57,157,30,130,10,216,254,209,235,245,43,87,174,52,153,76,215,175,95,175,173,173,117,58,157,61,61,61,135,15,31,22,26,77,25,192,157,160,244,29,
52,25,56,207,100,171,164,27,55,110,84,84,84,248,76,149,27,28,28,20,217,67,146,228,188,121,243,140,70,227,201,147,39,205,102,115,71,71,199,155,111,190,185,113,227,198,228,228,100,130,32,196,247,8,107,151,
0,192,140,53,185,79,228,33,125,182,171,211,233,106,106,106,124,250,90,10,3,16,38,127,254,137,170,113,60,207,215,214,214,22,23,23,251,204,66,224,121,190,166,166,70,167,211,249,25,141,123,95,143,215,235,
173,170,170,58,116,232,208,200,200,8,65,16,105,105,105,59,119,238,76,76,76,244,83,204,8,156,231,234,213,171,135,15,31,62,117,234,148,213,106,37,8,34,57,57,121,247,238,221,203,150,45,243,95,141,11,144,
39,39,39,167,172,172,172,181,181,149,101,89,133,66,97,50,153,158,126,250,233,181,107,215,134,134,134,250,175,244,60,116,15,207,243,222,225,62,206,237,226,121,94,46,151,167,165,165,61,254,248,227,207,61,
247,220,202,149,43,195,195,195,239,91,141,123,40,30,206,235,37,198,250,229,181,167,181,135,190,109,248,245,83,59,134,78,108,74,84,69,69,69,61,253,244,211,207,61,247,220,218,181,107,211,210,210,212,106,
245,131,212,192,62,187,167,233,228,1,213,201,31,200,111,29,167,250,238,128,99,156,231,216,28,21,177,61,77,195,178,108,74,74,138,209,104,20,150,90,189,175,228,97,121,110,152,25,184,119,174,191,150,229,
214,196,203,167,191,175,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,252,69,120,38,235,115,41,41,41,28,199,173,91,183,206,103,57,82,209,60,4,65,168,213,234,
180,180,180,181,107,215,62,247,220,115,207,60,243,76,84,84,84,105,105,233,198,141,27,65,173,103,99,230,120,10,30,115,60,246,178,229,11,191,188,160,159,175,215,235,3,234,33,73,50,60,60,124,229,202,149,
207,61,247,220,227,143,63,158,150,150,38,116,53,243,42,212,230,39,127,56,241,212,127,186,138,246,114,209,153,0,74,30,136,27,102,38,160,30,130,32,66,67,67,215,174,93,251,244,211,79,155,76,38,133,66,193,
178,108,107,107,107,89,89,217,188,48,133,70,121,111,89,193,3,129,246,40,20,138,101,203,150,237,222,189,91,168,123,9,83,229,14,31,62,124,245,234,213,53,113,180,150,189,103,185,165,64,123,8,130,72,76,76,
220,185,115,103,90,90,26,65,16,35,35,35,135,14,29,170,170,170,242,122,189,181,181,181,226,123,132,154,92,97,97,33,73,146,66,77,174,165,165,5,62,250,188,63,184,231,158,114,8,65,16,81,81,81,183,110,221,
178,219,237,62,63,127,226,137,39,6,7,7,123,122,122,62,81,53,14,0,250,250,250,6,6,6,158,120,226,9,159,26,131,221,110,191,117,235,86,84,84,148,159,218,131,127,207,192,192,192,177,99,199,78,157,58,229,112,
56,40,138,42,40,40,216,190,125,251,125,187,198,5,200,179,126,253,250,142,142,142,187,119,239,114,28,167,86,171,87,173,90,181,99,199,142,184,184,184,251,86,86,2,225,1,214,171,225,220,60,207,211,52,61,103,
206,156,221,187,119,111,222,188,57,58,58,250,65,202,60,15,211,227,245,80,29,53,154,195,255,150,243,238,183,254,57,139,8,83,201,214,172,89,179,107,215,174,220,220,92,255,61,217,30,174,167,166,226,18,245,
187,23,13,255,249,148,230,208,63,202,107,79,19,150,193,112,57,247,127,242,85,114,207,135,203,110,61,160,228,97,121,174,15,123,92,252,189,101,72,57,236,76,36,71,58,91,123,123,123,63,17,230,161,120,174,
13,49,78,217,189,45,161,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,231,97,123,132,155,177,36,73,190,240,194,11,62,119,242,29,110,207,173,250,219,162,
121,84,42,85,110,110,238,174,93,187,214,174,93,107,52,26,95,126,249,229,248,140,185,222,180,133,206,245,47,88,190,240,223,19,95,250,205,200,146,103,43,198,40,17,60,4,65,68,71,71,111,222,188,121,247,238,
221,115,230,204,161,105,154,231,121,98,222,170,137,167,255,203,61,127,59,175,8,19,0,78,25,117,109,136,9,180,71,152,42,183,99,199,142,85,171,86,169,213,106,142,227,238,222,189,219,217,214,186,62,69,71,
40,238,121,94,113,60,161,161,161,219,183,111,47,40,40,160,40,202,225,112,156,58,117,234,248,241,227,195,29,45,59,19,73,159,117,224,68,240,204,88,147,235,237,237,29,233,106,125,112,143,239,252,164,216,
216,216,190,190,190,250,250,122,159,159,103,100,100,108,219,182,237,221,119,223,253,68,213,56,135,195,113,254,252,249,109,219,182,101,100,100,248,252,170,190,190,190,175,175,47,46,46,206,255,30,247,227,
41,46,46,174,175,175,247,122,189,10,133,98,245,234,213,107,215,174,189,111,153,39,112,158,8,157,74,39,167,0,32,62,62,126,247,238,221,203,151,47,247,191,110,74,128,60,60,207,83,189,119,180,7,191,243,34,
220,220,153,170,14,11,9,217,176,97,67,98,98,226,125,39,162,61,92,79,195,205,107,242,218,211,186,63,254,15,253,127,127,77,81,125,132,118,140,238,78,167,191,150,171,109,104,104,152,92,64,78,52,79,175,121,
164,169,230,42,225,25,3,254,227,26,117,154,154,221,151,78,151,149,149,57,28,14,145,61,237,118,190,206,226,123,80,64,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,
131,30,244,136,233,113,187,221,245,245,245,123,246,236,217,190,125,251,199,235,88,43,212,108,66,206,141,176,130,246,9,70,52,15,73,146,137,137,137,27,55,110,12,11,11,219,188,121,243,151,191,246,60,151,
156,103,127,252,91,150,231,127,239,88,243,77,54,42,163,193,74,181,219,121,113,60,74,165,114,249,242,229,187,119,239,22,218,192,106,13,70,249,222,239,59,151,61,5,106,227,228,99,234,44,132,56,30,149,74,
181,118,237,218,213,171,87,43,20,10,175,215,91,87,87,183,58,73,147,166,240,221,160,56,158,233,53,185,147,39,79,62,147,74,165,169,89,159,71,206,230,241,173,211,24,12,6,189,94,127,244,232,81,97,145,173,
143,31,71,146,59,118,236,32,8,226,193,171,113,46,151,235,244,233,211,110,183,123,231,206,157,62,5,33,150,101,143,30,61,106,48,24,116,58,157,255,29,52,155,135,32,136,5,233,137,36,0,77,211,235,215,175,95,
178,100,137,255,133,232,3,231,225,121,158,106,175,202,186,240,195,159,47,32,195,21,164,86,171,189,111,91,200,64,120,188,94,47,57,220,165,57,249,3,253,239,190,34,191,115,38,89,235,249,78,190,92,233,30,
63,115,230,140,211,233,188,47,230,225,122,206,253,231,119,85,239,252,19,221,118,29,192,245,225,235,5,252,174,4,158,27,233,121,239,189,247,68,246,104,141,161,111,119,176,60,220,243,138,160,7,61,232,65,
15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,19,60,158,179,103,207,82,20,245,210,75,47,197,199,199,3,0,65,16,124,72,140,107,249,211,99,207,254,122,63,155,163,
11,9,19,205,67,16,68,88,88,152,78,167,11,13,13,125,229,149,87,98,115,23,58,214,124,211,242,249,223,122,22,108,6,66,205,3,241,118,7,43,154,135,166,233,37,75,150,172,95,191,158,166,105,146,36,51,31,255,
138,115,203,139,188,46,98,242,1,98,122,124,106,114,50,251,200,206,40,142,128,123,122,93,250,241,80,249,249,249,83,255,159,36,73,154,166,43,42,42,138,139,139,35,34,62,254,39,177,44,251,135,63,252,225,253,
247,223,231,121,94,171,213,150,150,150,26,141,70,63,172,161,161,161,19,39,78,52,54,54,58,28,14,157,78,87,80,80,48,245,61,125,247,238,221,159,252,228,39,185,185,185,147,11,93,206,150,25,61,60,207,83,181,
231,47,190,249,235,138,110,11,199,243,30,143,39,38,38,70,163,209,72,224,113,218,84,31,252,94,251,231,87,137,225,174,163,93,204,185,62,102,120,100,100,96,96,32,58,58,90,100,207,90,229,72,82,217,207,233,
174,74,240,122,0,128,227,225,87,141,238,83,221,30,243,240,176,248,158,242,186,230,117,113,178,48,249,199,239,66,105,61,151,239,180,175,141,151,163,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,
122,208,131,30,244,160,7,61,232,65,15,122,208,243,23,230,105,105,123,245,23,191,22,223,211,220,220,236,241,120,82,82,82,22,46,92,72,146,36,175,9,241,100,22,51,105,11,91,58,251,255,237,98,91,182,105,190,
104,30,179,217,92,81,81,49,58,58,74,16,68,86,110,238,252,173,207,120,51,138,168,209,65,218,210,11,60,223,98,167,254,185,198,41,154,135,162,40,181,90,221,212,212,228,241,120,108,30,78,167,32,150,68,80,
83,167,104,249,241,248,22,228,0,64,163,209,116,119,119,247,245,245,149,150,150,78,206,211,188,120,241,226,43,175,188,34,244,27,244,120,60,77,77,77,46,151,75,167,211,41,20,138,169,239,12,150,101,71,71,
71,175,94,189,250,231,63,255,121,112,112,16,0,120,158,175,175,175,207,202,202,74,78,78,22,30,227,241,120,190,255,253,239,15,15,15,231,229,229,61,72,43,69,31,15,239,101,84,151,254,88,254,250,143,190,123,
117,208,205,241,0,48,54,54,118,247,238,93,145,61,189,189,189,107,210,35,13,135,255,85,209,112,10,24,215,185,62,230,31,171,61,18,122,198,154,170,215,132,184,73,234,195,247,144,180,158,206,190,129,65,139,
107,77,56,133,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,254,10,60,4,73,186,213,161,223,125,187,204,60,62,33,149,231,246,237,219,89,89,89,
73,185,11,60,217,43,57,141,145,239,108,250,215,42,91,55,101,20,211,115,246,236,89,155,205,6,0,60,64,245,24,151,107,32,210,244,31,150,210,188,30,242,95,26,216,217,60,196,190,125,251,166,155,250,251,251,
203,203,203,191,243,157,239,108,221,186,149,32,136,206,206,206,47,126,241,139,237,237,237,62,15,83,42,149,17,17,17,81,81,81,194,204,59,171,213,58,56,56,104,54,155,93,46,151,207,35,83,82,82,126,251,219,
223,38,37,37,241,60,127,244,232,209,127,249,151,127,89,190,124,121,116,116,244,125,247,142,175,103,77,169,230,236,127,244,93,62,190,179,108,162,213,202,74,233,185,116,233,103,75,67,182,68,88,1,160,195,
198,237,248,192,41,173,231,202,165,139,63,95,160,220,20,207,162,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,252,117,123,56,142,123,247,
192,111,255,233,213,95,44,43,89,33,161,39,77,71,189,181,66,149,172,37,1,224,68,15,245,205,91,174,217,60,51,23,228,120,158,175,174,174,30,26,26,250,197,47,126,145,154,154,250,226,139,47,158,63,127,254,
1,255,49,179,101,245,234,213,175,190,250,106,91,91,219,243,207,63,31,21,21,101,50,153,30,100,161,181,123,60,3,3,7,182,102,166,143,214,126,229,138,227,84,47,35,185,103,188,227,238,31,151,106,146,52,204,
87,174,186,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,243,183,230,89,31,39,251,213,18,101,167,93,246,84,133,61,36,37,107,54,207,
199,45,43,121,254,158,117,231,66,67,67,123,122,122,46,95,190,220,222,222,126,242,228,73,159,223,126,138,116,117,117,77,76,76,188,241,198,27,28,199,21,20,20,76,54,195,20,50,29,55,131,167,183,247,114,93,
75,179,149,59,212,238,254,172,154,135,225,233,28,28,185,216,61,209,108,227,209,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,243,55,
232,105,179,114,86,158,222,223,230,117,104,35,253,120,136,125,251,246,141,142,142,54,55,55,91,44,22,142,227,166,62,200,237,118,143,143,143,79,183,126,234,16,4,65,16,68,72,72,136,76,38,155,250,115,146,
36,13,6,67,70,70,70,104,104,40,0,248,247,60,44,12,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,243,217,67,146,164,127,15,177,
126,253,250,75,151,46,9,11,208,73,27,173,86,187,98,197,10,0,248,224,131,15,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,158,
191,2,79,113,113,49,101,183,219,71,71,71,165,198,0,0,120,60,30,183,219,61,52,52,100,54,155,165,182,160,7,61,232,65,15,122,208,131,30,244,160,71,250,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,
15,122,208,35,181,5,61,232,121,8,30,187,221,14,52,77,75,45,249,56,114,185,92,46,151,75,173,64,15,122,208,131,30,233,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,79,48,4,61,232,65,15,
122,208,131,30,244,124,246,4,85,49,14,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,
96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,
48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,24,12,6,131,193,96,48,
24,12,6,131,193,96,48,24,12,6,131,121,136,81,169,84,82,19,62,142,86,171,213,106,181,82,43,208,131,30,244,160,71,250,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,19,12,65,15,122,208,
131,30,244,160,7,61,159,61,42,149,138,76,76,76,148,154,241,113,146,146,146,146,146,146,164,86,160,7,61,232,65,143,244,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,39,24,130,30,244,
160,7,61,232,65,15,122,62,123,18,19,19,105,147,201,100,183,219,251,250,250,56,142,147,144,66,146,100,108,108,108,110,110,46,0,88,44,22,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,
208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,231,175,192,99,50,153,136,125,251,246,121,60,158,129,129,1,139,197,34,149,137,36,73,131,193,16,29,29,45,151,203,1,0,61,232,65,15,122,208,131,30,
244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,65,15,122,208,131,30,244,160,7,61,232,249,171,241,252,127,126,91,212,243,163,136,51,213,0,0,0,0,73,69,78,68,174,66,96,130,0,0};
const char* KnobOrange::knob_orange_png = (const char*) resource_KnobOrange_knob_orange_png;
const int KnobOrange::knob_orange_pngSize = 16805;
| [
"root@micro.no-route.org"
] | root@micro.no-route.org |
bc9e7e429b0153003d7c1d6f06f97b541620ffdc | 958dcb5201620519392264e0458545066a07432a | /labs/lab-06/linked-list-iterative/linked-list.h | 3289823b1f0d98a6c98e08b3af9d9ecc6df501aa | [] | no_license | ryanfish17/csc-212-fall2021 | 9023be933ffbab66226eb0fdc77a8f6cf0ad55f8 | db63a53661f946a1f111d7541317275ee4225eff | refs/heads/master | 2023-08-27T12:17:59.903911 | 2021-11-04T16:28:57 | 2021-11-04T16:28:57 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 496 | h | #include "node.h"
#include <vector>
#include <string>
class LinkedList{
private:
Node* head;
unsigned int size;
public:
LinkedList();
~LinkedList();
LinkedList(int data);
LinkedList(std::vector<int> vec);
void push_front(int data);
void push_back(int data);
void insert(int data, int idx);
void remove(int data);
bool contains(int data);
int get_size();
std::string to_string();
}; | [
"cesteves@uri.edu"
] | cesteves@uri.edu |
cb1352135bf722456f21cb1fd3390362f9553b24 | 27ae1eabe8094a1663fafc4f194b63a1700a97cb | /tracker_benchmark_cpp_interface/pf_tracking_v8/tracking_using_re_id_and_pf.cpp | 93d0c55ef18e88cf0ee9a84e9dde8ee3a764f21e | [] | no_license | Wavelet303/visual_tracker_benchmark | 00f1d27c60f7d5a19b41fd3c90c16ba5c3e1a9a2 | 75d1f26343cf6bb429febe3483e170158f522488 | refs/heads/master | 2021-01-20T16:38:25.080205 | 2017-05-09T07:32:31 | 2017-05-09T07:32:31 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 30,229 | cpp | #include "tracking_using_re_id_and_pf.h"
#include "imwrite.h"
#define USE_WEIGHTED_AVERAGE_TEMPLATE
//#define SHOW_EACH_PARTICLE
#define USE_SPATIAL
PTUsingReIdandPF::PTUsingReIdandPF(const std::string& des, int states, int particles) : ParticleFilter(states, particles), acf_extractor(), /*rng(time(0)),*/ no_matched_orb(false),
termcrit_(CV_TERMCRIT_ITER|CV_TERMCRIT_EPS, 20, 0.03), sub_pix_winSize(10,10), win_size(31,31), MAX_COUNT(500)
{
dx=dy=0;dw = 0;probe_needs_ = 5;
sigma_[0] = 10.;
sigma_[1] = 10.;
sigma_[2] = 2.;
hogDetector = cv::HOGDescriptor::getDefaultPeopleDetector();
}
PTUsingReIdandPF::PTUsingReIdandPF(int states /* = 3 */, int particles /* = 52 */, bool uofl /* = true */, bool uo /* = true */, double lr /* = 0.4 */, double sx /* = 20 */,
double sy /* = 10 */, double sw /* = 8 */, double ecri /* = 0.5 */, double riw /* = 0.8 */, double hpx /* = 1.2 */, int tn /* = 4 */, double ar /* = 0.43*/, double rwr /* = 0.5*/,
int binL /* = 16*/, int binU /* = 16*/, int binV /* = 4*/, int binHOG /* = 6*/, int init_probe /* = 5*/, int cur_probe /* = 3*/)
: ParticleFilter(states, particles), acf_extractor(binL, binU, binV, binHOG,
#ifdef USE_SPATIAL
4, 2,
#else
0, 0,
#endif
init_probe, cur_probe), /*rng(time(0)),*/ no_matched_orb(false),
termcrit_(CV_TERMCRIT_ITER|CV_TERMCRIT_EPS, 20, 0.03), sub_pix_winSize(10,10), win_size(31,31), MAX_COUNT(500),
use_optical_flow_lk_(uofl), update_online_(uo), learning_rate_(lr), sigmax_(sx), sigmay_(sy), sigmaw_(sw), exp_coeff_re_id_(ecri), re_id_weight_(riw), hog_particle_expand_(hpx), thread_num_(tn), aspect_ratio_(ar)
,random_walk_ratio_(rwr)
#ifdef SAVE_SCORES_
,hog_scores_("hog_scores.txt"), match_scores_("match_scores.txt")
#endif
{
sigma_max_[0] = sigma_[0] = sx;
sigma_max_[1] = sigma_[1] = sy;
sigma_max_[2] = sigma_[2] = sw;
hogDetector = cv::HOGDescriptor::getDefaultPeopleDetector();
}
PTUsingReIdandPF::~PTUsingReIdandPF()
{
}
void PTUsingReIdandPF::init(cv::Mat& first_img, cv::Rect& first_loc)
{
init_loc = first_loc;
// if (first_loc.width<first_loc.height*aspect_ratio_)
// {
init_loc.width = cvRound(first_loc.height*aspect_ratio_);
int x = first_loc.x-(init_loc.width-first_loc.width)/2;
init_loc.x = x<0?0:x;
// }
// else
// {
// init_loc.height = cvRound(first_loc.width/aspect_ratio_);
// int y = first_loc.y - (init_loc.height - first_loc.height)/2;
// init_loc.y = y<0?0:y;
// }
previous_loc = init_loc;
pre_frame = first_img.clone();
acf_extractor.feature_extract(first_img);
acf_extractor.update_match_model(first_loc);
vx_star_ = 0.;
vy_star_ = 0.;
width_star_ = init_loc.width;
// //new add lk optical flow
// if (use_optical_flow_lk_)
// {
// cv::Mat msk;
// generate_mask(msk, first_img.rows, first_img.cols, first_loc);
// cv::Mat gray;
// cv::cvtColor(first_img, gray, CV_BGR2GRAY);
// cv::goodFeaturesToTrack(gray, lk_points_[0], MAX_COUNT, 0.01, 10, msk, 3, 0, 0.04);
// cornerSubPix(gray, lk_points_[0], sub_pix_winSize, cv::Size(-1,-1), termcrit_);
// }
////////////////////////////////////new added self-adaptive sigma
//sigma_[0] = 1.*previous_loc.width/3.;
sigma_[0] = 1.*previous_loc.width/6. < sigma_max_[0] ? 1.*previous_loc.width/3. : sigma_max_[0];
//sigma_[1] = 1.*previous_loc.width/6.;
sigma_[1] = 1.*previous_loc.width/6. < sigma_max_[1] ? 1.*previous_loc.width/6. : sigma_max_[1];
//sigma_[2] = 1.*previous_loc.width/6.;
sigma_[2] = 1.*previous_loc.width/10. < sigma_max_[2] ? 1.*previous_loc.width/10. : sigma_max_[2];
}
void PTUsingReIdandPF::sys(vec_d& xkm1, vec_d& uk, vec_d& xk)
{
if (xkm1.size() == 0) return;
xk = vec_d(states_num_, 0);
int uks = uk.size();
//xk[3] = xkm1[3] + (uks == 0 ? 0 : uk[0]); //dx
//xk[4] = xkm1[4] + (uks == 0 ? 0 : uk[1]); //dy
//xk[5] = xkm1[5] + (uks == 0 ? 0 : uk[2]); //dw
dx = (uks == 0 ? 0 : uk[0]); //dx
dy = (uks == 0 ? 0 : uk[1]); //dy
dw = (uks == 0 ? 0 : uk[2]); //dw
xk[0] = xkm1[0] + dx; //center x
xk[1] = xkm1[1] + dy; //center y
xk[2] = xkm1[2] + dw; //width
}
void PTUsingReIdandPF::obs(vec_d& xk, vec_d& vk, vec_d& yk)
{
}
void PTUsingReIdandPF::gen_x0(vec_d& x0)
{
//x0.clear();
//x0.push_back(init_loc.x);
//x0.push_back(init_loc.y);
//x0.push_back(init_loc.width);
rect2states(init_loc, x0);
//x0.push_back(0.); //dx
//x0.push_back(0.); //dy
//x0.push_back(0.); //dw
x0.clear();
vec_d x;
rect2states(init_loc, x);
x0.push_back(x[0] + gen_gaussian_noise(0, sigma_[0]));//x
x0.push_back(x[1] + gen_gaussian_noise(0, sigma_[1]));//y
x0.push_back(x[2] + gen_gaussian_noise(0, sigma_[2]));//width
x0.push_back(0. + gen_gaussian_noise(0, 5)); //vx
x0.push_back(0. + gen_gaussian_noise(0, 5)); //vy
if (x0[0] < 0) x0[0] = 0;
else if (x0[0] > pre_frame.cols) x0[0] = pre_frame.cols;
if (x0[1] < 0) x0[1] = 0;
else if (x0[1] > pre_frame.rows) x0[1] = pre_frame.rows;
if (x0[2] < 10) x0[2] = 10;
else if (x0[2]/aspect_ratio_ > pre_frame.rows) x0[2] = pre_frame.rows*aspect_ratio_;
}
void PTUsingReIdandPF::gen_x0(std::vector<vec_d >& x0, vec_d& w0)
{
for (int i = 0; i < particles_num_; ++i)
{
vec_d x;
gen_x0(x);
x0.push_back(x);
}
w0 = vec_d(particles_num_, 1./particles_num_);
if (use_optical_flow_lk_)
{
cv::Mat msk;
generate_mask(msk, pre_frame.rows, pre_frame.cols, init_loc);
cv::Mat gray;
cv::cvtColor(pre_frame, gray, CV_BGR2GRAY);
cv::goodFeaturesToTrack(gray, lk_points_[0], MAX_COUNT, 0.01, 10, msk, 3, 0, 0.04);
if (lk_points_[0].size())
cornerSubPix(gray, lk_points_[0], sub_pix_winSize, cv::Size(-1,-1), termcrit_);
}
}
double PTUsingReIdandPF::p_xk_given_xkm1(vec_d& xkm1, vec_d& xk)
{
//ternary normal distribution; indenpendent identically distributed
vec_d xk_mean;
sys(xkm1, vec_d(), xk_mean);
return normal_distribution(xk[3], xk_mean[3], sigmax_) *
normal_distribution(xk[4], xk_mean[4], sigmay_) *
normal_distribution(xk[5], xk_mean[5], sigmaw_);
}
void PTUsingReIdandPF::p_yk_given_xk_multi_thread(std::vector<vec_d>::iterator& s_xk,
std::vector<double>::iterator& s_item0,
std::vector<double>::iterator& s_item1,
double* si0, double* si1,
int particles_per_thread)
{
for (int i = 0; i < particles_per_thread; s_xk++, s_item0++, s_item1++, i++)
{
cv::Rect r;
states2rect(*s_xk, r);
std::vector<cv::Mat> g(1);
cv::Rect tmp;
tmp = (r&cv::Rect(0,0,cur_frame->cols, cur_frame->rows));
double d = acf_extractor.calc_roi_scores(tmp, learning_rate_);
//item0[i] = normal_distribution(d, 0., 0.35);
//*s_item0 = exp(exp_coeff_re_id_*1./(d+DBL_MIN));
*s_item0 = d;
std::vector<float> descrip;
cv::Mat hog_p;
cv::Rect hog_r,hog_roi;
vec_d hog_xk(states_num_);
hog_xk[0] = (*s_xk)[0];
hog_xk[1] = (*s_xk)[1]; //same center
hog_xk[2] = hog_particle_expand_*(*s_xk)[2]; //expand width
states2rect(hog_xk, hog_r);
hog_roi = hog_r&cv::Rect(0,0,cur_frame->cols, cur_frame->rows);
cur_frame->operator()(hog_roi).copyTo(hog_p);
copyMakeBorder(hog_p, hog_p, hog_roi.y-hog_r.y, hog_r.br().y-hog_roi.br().y, hog_roi.x-hog_r.x, hog_r.br().x-hog_roi.br().x, cv::BORDER_REPLICATE);
resize(hog_p, hog_p, cv::Size(64, 128));
hog_.compute(hog_p,descrip);
double det_coeff = hog_predict(descrip);
//*s_item1 = exp(2*det_coeff);
*s_item1 = det_coeff;
#ifdef SAVE_SCORES_
{
boost::mutex::scoped_lock scop(mut_);
hog_scores_ << det_coeff << " " << (*s_xk)[0] << " " << (*s_xk)[1] << " " << (*s_xk)[2] << std::endl;
match_scores_ << d << " " << (*s_xk)[0] << " " << (*s_xk)[1] << " " << (*s_xk)[2] << std::endl;
}
#endif
}
}
void PTUsingReIdandPF::p_yk_given_xk(std::vector<vec_d>& xk, vec_d& yk, std::vector<double>& pro)
{
//#define MIN_MAX
int pn = xk.size();
std::vector<double> item0(pn, 0), item1(pn, 0);
pro = std::vector<double>(pn, 0.);
double si0 = 0., si1 = 0.;
std::vector<double> ds;
int particles_per_thread = particles_num_ / thread_num_;
std::vector<boost::thread> threads(thread_num_);
for (int i = 0; i < thread_num_; ++i)
{
std::vector<vec_d>::iterator s_xk = xk.begin()+i*particles_per_thread;
//std::vector<double>::iterator s_pro = pro.begin()+i*particles_per_thread;
std::vector<double>::iterator s_item0 = item0.begin()+i*particles_per_thread;
std::vector<double>::iterator s_item1 = item1.begin()+i*particles_per_thread;
if (i != thread_num_-1)
threads[i] = boost::thread(boost::bind(&PTUsingReIdandPF::p_yk_given_xk_multi_thread, this,
s_xk, s_item0, s_item1, &si0, &si1, particles_per_thread));
else
{
threads[i] = boost::thread(boost::bind(&PTUsingReIdandPF::p_yk_given_xk_multi_thread, this,
s_xk, s_item0, s_item1, &si0, &si1, particles_per_thread+particles_num_%thread_num_));
}
}
for (int i = 0; i < thread_num_; ++i)
{
threads[i].join();
}
hog_scores_mapping_(item1);
sdalf_scores_mapping_(item0);
for (int i = 0; i < pn; ++i)
pro[i] = re_id_weight_*item0[i] + (1-re_id_weight_)*item1[i];
}
double PTUsingReIdandPF::q_xk_given_xkm1_yk(vec_d& xkm1, vec_d& yk, vec_d& xk)
{
//Version 3.0 use ORB
vec_d xk_mean;
rect2states(proposal_loc_, xk_mean);
return normal_distribution(xk[0], xk_mean[0], sigmax_) *
normal_distribution(xk[1], xk_mean[1], sigmay_) *
normal_distribution(xk[2], xk_mean[2], sigmaw_);
}
void PTUsingReIdandPF::gen_sys_noise(vec_d& uk)
{
uk.clear();
for (int i = 0; i < 3; ++i)
{
boost::normal_distribution<double> nd(0, sigma_[i]);
uk.push_back(nd(rng));
}
}
void PTUsingReIdandPF::gen_obs_noise(vec_d& vk)
{
}
void PTUsingReIdandPF::sample_from_q(vec_d& xkm1, vec_d& yk, int n, vec_d& x)
{
//version 3.0 use orb to propose proposal locations
vec_d uk;
do
{
rect2states(proposal_loc_, x);
gen_sys_noise(uk);
x[0] += uk[0];
x[1] += uk[1];
x[2] += uk[2];
}while(x[0] - x[2]/2 < 0 || x[1] - x[2]/aspect_ratio_/2 < 0 || x[2] < 10);
}
#define NSIGMA 2
void PTUsingReIdandPF::sample_from_q(std::vector<vec_d >& pold, std::vector<vec_d >& pnew)
{
if (lk_points_[0].size())
{
cv::Mat pre_gray, cur_gray;
std::vector<uchar> status;
std::vector<float> err;
cv::cvtColor(pre_frame, pre_gray, CV_BGR2GRAY);
cv::cvtColor(*cur_frame, cur_gray, CV_BGR2GRAY);
cv::calcOpticalFlowPyrLK(pre_gray, cur_gray, lk_points_[0], lk_points_[1], status, err, win_size,
3, termcrit_, 0, 0.001);
size_t i, k;
for( i = k = 0; i < lk_points_[1].size(); i++ )
{
if( !status[i] )
continue;
lk_points_[1][k] = lk_points_[1][i];
lk_points_[0][k++] = lk_points_[0][i];
}
lk_points_[1].resize(k);
lk_points_[0].resize(k);
}
else lk_points_[1].clear();
cv::Rect cur_proposal;
get_proposal_location(lk_points_[0], lk_points_[1], previous_loc, cur_proposal);
vec_d cp; rect2states(cur_proposal, cp);
//pnew = pold;
pnew.resize(pold.size(), vec_d(states_num_));
std::vector<vec_d>::iterator fpt_ite_new = pnew.begin()+pnew.size()*random_walk_ratio_;
for (; fpt_ite_new != pnew.end(); fpt_ite_new++)
{
(*fpt_ite_new)[0] = cp[0]+gen_gaussian_noise(0, sigma_[0]);
(*fpt_ite_new)[1] = cp[1]+gen_gaussian_noise(0, sigma_[1]);
(*fpt_ite_new)[2] = cp[2]+gen_gaussian_noise(0, sigma_[2]);
(*fpt_ite_new)[3] = vx_star_+gen_gaussian_noise(0,2);
(*fpt_ite_new)[4] = vy_star_+gen_gaussian_noise(0,2);
if ((*fpt_ite_new)[0] < 0) (*fpt_ite_new)[0] = 0;
else if ((*fpt_ite_new)[0] > pre_frame.cols) (*fpt_ite_new)[0] = pre_frame.cols;
if ((*fpt_ite_new)[1] < 0) (*fpt_ite_new)[1] = 0;
else if ((*fpt_ite_new)[1] > pre_frame.rows) (*fpt_ite_new)[1] = pre_frame.rows;
if ((*fpt_ite_new)[2] < 10) (*fpt_ite_new)[2] = 10;
else if ((*fpt_ite_new)[2]/aspect_ratio_ > pre_frame.rows) (*fpt_ite_new)[2] = pre_frame.rows*aspect_ratio_;
}
///////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////
std::vector<vec_d>::iterator rw_ite_old = pold.begin(),rw_ite_old_end = pold.begin()+pold.size()*random_walk_ratio_,
rw_ite_new = pnew.begin();
for (; rw_ite_old != rw_ite_old_end; rw_ite_old++, rw_ite_new++)
{
rw_motion_update(*rw_ite_old, *rw_ite_new, width_star_, vx_star_, vy_star_, pre_frame.cols, pre_frame.rows);
}
#ifdef SHOW_EACH_PARTICLE
//cv::Mat toshow;
drawMatches(pre_frame, lk_points_[0], pold, *cur_frame, lk_points_[1], pnew, toshow);
// cv::Point2f pc1; key_points_center(lk_points_[1], pc1);
// cv::circle(toshow, pc1+cv::Point2f(pre_frame.cols, 0), 3, cv::Scalar(0,0,255), -1);
// cv::Point2f pc0; key_points_center(lk_points_[0], pc0);
// cv::circle(toshow, pc0, 3, cv::Scalar(0,0,255), -1);
//imshow("match",toshow);
//cv::waitKey(2);
#endif
//for paper
//cv::Mat pre_frm_tmp = pre_frame.clone();
//cv::rectangle(pre_frm_tmp, previous_loc, cv::Scalar(0,0,255), 2);
//for (int i = 0; i < lk_points_[0].size(); ++i) cv::circle(pre_frm_tmp, lk_points_[0][i], 3, cv::Scalar(0,255,0));
//cv::Point2f pc; key_points_center(lk_points_[0], pc);
//cv::circle(pre_frm_tmp, pc, 3, cv::Scalar(0,0,255), -1);
//imshow("feature points", pre_frm_tmp);
}
void PTUsingReIdandPF::update_weight(vec_d& wkm1, std::vector<vec_d>& xkm1, std::vector<vec_d>& xk, vec_d& yk, vec_d& wk)
{
std::vector<double> pro; //normalized probability of p_yk_given_xk
p_yk_given_xk(xk, yk, pro);
wk = vec_d(xk.size(), 0.);
for (int i = 0; i < xk.size(); ++i)
wk[i] = wkm1[i]*pro[i];
//wk[i] = 1./particles_num_*pro[i];
}
cv::Rect PTUsingReIdandPF::track(cv::Mat& frame)
{
static int frame_num = 1;
cur_frame = &frame;
acf_extractor.feature_extract(frame);
vec_d xk; //states of time t
std::vector<vec_d> p;
filter(vec_d(), xk, p);
////////////////////////////////////
// if (whether_resample) {learning_rate_ = 0.8;}
// else {learning_rate_ = 0.4;}
//std::cout << "**********learning rate = " << learning_rate_ << "*************" << std::endl;
width_star_ = filter_width(xk[2]);
vec_d xk_1; //states of time t-1
rect2states(previous_loc, xk_1);
vx_star_ = filter_vx(xk[0] - xk_1[0]);
//vx_star_ = xk[0] - xk_1[0];
vy_star_ = filter_vy(xk[1] - xk_1[1]);
//std::cout << "vx_star=" << vx_star_ << "; vy_star=" << vy_star_ << std::endl;
#ifdef SHOW_EACH_PARTICLE
//cv::rectangle(toshow, previous_loc, cv::Scalar(0,0,255), 2);
#endif
states2rect(xk, previous_loc);
#ifdef SHOW_EACH_PARTICLE
//cv::rectangle(toshow, cv::Rect(previous_loc.x+frame.cols, previous_loc.y, previous_loc.width, previous_loc.height), cv::Scalar(0,0,255), 2);
//cv::Mat toshowtmp = toshow(cv::Rect(frame.cols, 0, frame.cols, frame.rows));
//cv::imshow("p", toshowtmp);
cv::imshow("match", toshow);
#endif
//static double rwr = random_walk_ratio_;
//random_walk_ratio_ = rwr;
if (whether_resample)
{acf_extractor.update_match_model(previous_loc&cv::Rect(0,0,frame.cols, frame.rows));}
//else random_walk_ratio_ = 0.8;
//if (whether_resample) {learning_rate_ = 0.8;}
//else {learning_rate_ = 0.2;}
pre_frame = frame.clone();
////////////////////////////////////new added self-adaptive sigma
//sigma_[0] = 1.*previous_loc.width/3.;
sigma_[0] = 1.*previous_loc.width/6. < sigma_max_[0] ? 1.*previous_loc.width/6. : sigma_max_[0];
//sigma_[1] = 1.*previous_loc.width/6.;
sigma_[1] = 1.*previous_loc.width/6. < sigma_max_[1] ? 1.*previous_loc.width/6. : sigma_max_[1];
//sigma_[2] = 1.*previous_loc.width/6.;
sigma_[2] = 1.*previous_loc.width/10. < sigma_max_[2] ? 1.*previous_loc.width/10. : sigma_max_[2];
if (use_optical_flow_lk_)
{
cv::Mat msk;
generate_mask(msk, pre_frame.rows, pre_frame.cols, previous_loc);
cv::Mat gray;
cv::cvtColor(pre_frame, gray, CV_BGR2GRAY);
cv::goodFeaturesToTrack(gray, lk_points_[0], MAX_COUNT, 0.01, 10, msk, 3, 0, 0.04);
if (lk_points_[0].size())
cornerSubPix(gray, lk_points_[0], sub_pix_winSize, cv::Size(-1,-1), termcrit_);
}
return previous_loc;
}
void PTUsingReIdandPF::states2rect(vec_d& x, cv::Rect& r)
{
int xx = x[0] - x[2]/2;
int yy = x[1] - cvRound(x[2]/aspect_ratio_)/2;
r = cv::Rect(xx,yy,(int)x[2],cvRound(x[2]/aspect_ratio_));
}
void PTUsingReIdandPF::rect2states(cv::Rect& r, vec_d& x)
{
x.clear();
x.push_back(r.x+r.width/2);
x.push_back(r.y+r.height/2);
x.push_back(r.width);
}
void PTUsingReIdandPF::generate_mask(cv::Mat& msk,int rows, int cols, cv::Rect& region)
{
msk = cv::Mat::zeros(rows, cols, CV_8UC1);
cv::Rect r = region & cv::Rect(0,0,cols, rows);
msk(r) = cv::Mat::ones(r.height, r.width, msk.type());
}
void PTUsingReIdandPF::key_points_center(std::vector<cv::Point2f>& kp, cv::Point2f& ctr)
{
if (kp.size() == 0) return;
std::vector<cv::Point2f>::iterator b = kp.begin(), e = kp.end();
float x = 0., y = 0.;
for (;b != e; ++b)
{
x += b->x;
y += b->y;
}
ctr.x = x/kp.size();
ctr.y = y/kp.size();
}
void PTUsingReIdandPF::get_proposal_location(std::vector<cv::Point2f>& pre_kp, std::vector<cv::Point2f>& cur_kp, cv::Rect& pre_loc, cv::Rect& cur_proposal_loc)
{
CV_Assert(pre_kp.size() == cur_kp.size());
if (pre_kp.size() == 0) {cur_proposal_loc = pre_loc;return;}
float prex = 0., prey = 0., curx = 0., cury = 0.;
for (int i = 0;i < pre_kp.size(); ++i)
{
prex += pre_kp[i].x;
prey += pre_kp[i].y;
curx += cur_kp[i].x;
cury += cur_kp[i].y;
}
prex /= pre_kp.size();
prey /= pre_kp.size();
curx /= pre_kp.size();
cury /= pre_kp.size(); //center of matched keypoints
cur_proposal_loc.width = pre_loc.width;
cur_proposal_loc.height = pre_loc.height;
cur_proposal_loc.x = pre_loc.x + curx - prex;
cur_proposal_loc.y = pre_loc.y + cury - prey; //relative center of matched keypoints in cur_proposal_loc is the same in pre_loc
}
double PTUsingReIdandPF::hog_predict(const std::vector<float>& v)
{
CV_Assert(v.size()<=hogDetector.size());
float s = hogDetector[hogDetector.size()-1];
int k = 0;
std::for_each(v.begin(),v.end(),[&](const float d){s+=d*hogDetector[k];k++;});
return s;
}
void PTUsingReIdandPF::drawMatches(cv::Mat& img1, std::vector<cv::Point2f>& points1, cv::Mat& img2, std::vector<cv::Point2f>& points2, cv::Mat& res)
{
CV_Assert(points1.size() == points2.size());
CV_Assert(img1.size() == img2.size());
using namespace cv;
res = Mat(img1.rows, img1.cols*2, img1.type());
Point offset(img1.cols, 0);
Rect roi_left(0,0,img1.cols, img1.rows);
Rect roi_right(img1.cols,0,img1.cols, img1.rows);
img1.copyTo(res(roi_left));
img2.copyTo(res(roi_right));
for (int i = 0; i < points1.size(); ++i)
{
circle(res, points1[i], 3, Scalar(0,255,0), 1, 8);
circle(res, Point(points2[i].x+offset.x, points2[i].y+offset.y), 3, Scalar(0,255,0), 1, 8);
line(res, points1[i], Point(points2[i].x+offset.x, points2[i].y+offset.y), Scalar(0, 255, 0), 1, 8);
}
}
void PTUsingReIdandPF::re_id_model_update(pe_re_id::SdalfFeature& sf1, pe_re_id::SdalfFeature& sf2/*new*/, pe_re_id::SdalfFeature& sf3/*output updated*/, double alpha)
{
CV_Assert(alpha <= 1. && alpha >= 0.);
sf3.mapkrnl_div3.BUsim = (1-alpha)*sf1.mapkrnl_div3.BUsim+alpha*sf2.mapkrnl_div3.BUsim;
sf3.mapkrnl_div3.HDanti = (1-alpha)*sf1.mapkrnl_div3.HDanti+alpha*sf2.mapkrnl_div3.HDanti;
sf3.mapkrnl_div3.head_det = sf1.mapkrnl_div3.head_det;
sf3.mapkrnl_div3.head_det_flag = sf1.mapkrnl_div3.head_det_flag;
sf3.mapkrnl_div3.is_ready = sf1.mapkrnl_div3.is_ready;
sf3.mapkrnl_div3.LEGsim = (1-alpha)*sf1.mapkrnl_div3.LEGsim+alpha*sf2.mapkrnl_div3.LEGsim;
sf3.mapkrnl_div3.TLanti = (1-alpha)*sf1.mapkrnl_div3.TLanti+alpha*sf2.mapkrnl_div3.TLanti;
sf3.whisto2.is_ready = sf1.whisto2.is_ready;
sf3.whisto2.whisto = (1-alpha)*sf1.whisto2.whisto+alpha*sf2.whisto2.whisto;
}
void PTUsingReIdandPF::re_id_model_update(pe_re_id::SdalfFeature& sf, std::vector<pe_re_id::SdalfFeature>& p)
{
#ifdef USE_WEIGHTED_AVERAGE_TEMPLATE
static std::vector<pe_re_id::SdalfFeature> history_probe(probe_needs_+1);
static int cnt = 1;
if (cnt == 1) {history_probe[0] = p[0];history_probe[1] = sf; cnt++;}
else if (cnt <= probe_needs_) {history_probe[cnt] = sf; cnt++;}
else {history_probe.erase(history_probe.begin()+1); history_probe.push_back(sf);}
if (p.size() == 1) p.push_back(history_probe[0]);
p[1].whisto2.whisto = cv::Mat::zeros(p[0].whisto2.whisto.size(), p[0].whisto2.whisto.type());
for (int i = 0; i < cnt; ++i)
{
p[1].whisto2.whisto = p[1].whisto2.whisto + get_weight_(i,cnt)*history_probe[i].whisto2.whisto;
std::cout << get_weight_(i, cnt) << " ";
}
std::cout << std::endl;
#else
if (p.size() < probe_needs_) p.push_back(sf);
else {p.erase(p.begin()+1); p.push_back(sf);}
#endif
}
double PTUsingReIdandPF::get_weight_(int i, int n)
{
if (i == 0) return 1-learning_rate_;
const static double w1[] = {1.};
const static double w2[] = {0.2689,0.7311};
const static double w3[] = {0.1483,0.2889,0.5627};
const static double w4[] = {0.1015,0.1674,0.2760,0.4551};
const static double w5[] = {0.0770,0.1148,0.1713,0.2556,0.3813};
const static double w6[] = {0.0619,0.0864,0.1206,0.1683,0.2349,0.3278};
const static double w7[] = {0.0518,0.0689,0.0917,0.1220,0.1623,0.2160,0.2874};
const static double w8[] = {0.0445,0.0571,0.0733,0.0941,0.1208,0.1552,0.1992,0.2558};
const static double w9[] = {0.0389,0.0486,0.0607,0.0759,0.0947,0.1183,0.1478,0.1845,0.2305};
const static double w10[] = {0.0347,0.0423,0.0517,0.0631,0.0771,0.0942,0.1151,0.1405,0.1716,0.2096};
const static double* w[] = {w1,w2,w3,w4,w5,w6,w7,w8,w9,w10};
return w[n-2][i-1]-(1-learning_rate_)/(n-1);
}
void PTUsingReIdandPF::normalize_(vec_d& data)
{
double s = 0.;
std::for_each(data.begin(), data.end(), [&s](double d){s += d;});
std::for_each(data.begin(), data.end(), [s](double& d){d /= s;});
}
void PTUsingReIdandPF::hog_scores_mapping_(vec_d& scores_)
{
//#define EXP_COEFF_HOG 2
// int l = scores_.size();
// double maxs = -DBL_MAX, mins = DBL_MAX;
// for (int i = 0; i < l; ++i)
// {
// if (maxs < scores_[i]) maxs = scores_[i];
// if (mins > scores_[i]) mins = scores_[i];
// }
// std::for_each(scores_.begin(), scores_.end(), [maxs, mins](double& d){d = exp(EXP_COEFF_HOG*(d-mins)/(maxs-mins));});
std::for_each(scores_.begin(), scores_.end(), [](double& d){d = exp(2*d);});
normalize_(scores_);
}
void PTUsingReIdandPF::sdalf_scores_mapping_(vec_d& scores)
{
//#define EXP_COEFF_MATCH 2
// int l = scores.size();
// double maxs = -DBL_MAX, mins = DBL_MAX;
// for (int i = 0; i < l; ++i)
// {
// if (maxs < scores[i]) maxs = scores[i];
// if (mins > scores[i]) mins = scores[i];
// }
// std::for_each(scores.begin(), scores.end(), [maxs,mins](double& d) {d = exp(EXP_COEFF_MATCH*(d-maxs)/(mins-maxs));});
// normalize_(scores);
double s = 0;
double coeff = exp_coeff_re_id_;
std::for_each(scores.begin(), scores.end(), [&s, coeff](double& d){if (d > 0.01) d = exp(coeff*1./(d+DBL_MIN));else d = 0.; s+=d;});
std::for_each(scores.begin(), scores.end(), [s](double& d){d /= s;});
}
cv::Rect PTUsingReIdandPF::get_particles_bounding_box(std::vector<vec_d>::iterator& b, std::vector<vec_d>::iterator& e)
{
int minx = INT_MAX, miny = INT_MAX, maxx = 0, maxy = 0;
for (;b!=e;b++)
{
cv::Rect r;
states2rect(*b, r);
if (minx > r.x) minx = r.x;
if (miny > r.y) miny = r.y;
if (maxx < r.br().x-1) maxx = r.br().x-1;
if (maxy < r.br().y-1) maxy = r.br().y-1;
}
return cv::Rect(minx, miny, maxx-minx+1, maxy-miny+1);
}
#define SCALE_GAUSSIAN_NOISE_VARIANCE 5
void PTUsingReIdandPF::fpt_motion_update(vec_d& particle_pre, vec_d& particle_cur, double meanx, double meany)
{
double xtmp = particle_pre[0] + meanx;
if (xtmp < 0)
particle_cur[0] = xtmp+gen_uniform_noise(0,width_star_/2);
else if (xtmp > pre_frame.cols)
particle_cur[0] = xtmp-gen_uniform_noise(0, width_star_/2);
else
particle_cur[0] = xtmp+gen_gaussian_noise(0,2);
if (particle_cur[0] < 0) particle_cur[0] = 0;
else if (particle_cur[0] > pre_frame.cols) particle_cur[0] = pre_frame.cols;
double ytmp = particle_pre[1] + meany;
if (ytmp < 0)
particle_cur[1] = ytmp+gen_uniform_noise(0,width_star_/2/aspect_ratio_);
else if (ytmp > pre_frame.rows)
particle_cur[1] = ytmp-gen_uniform_noise(0,width_star_/2/aspect_ratio_);
else
particle_cur[1] = ytmp+gen_gaussian_noise(0,2);
if (particle_cur[1] < 0) particle_cur[1] = 0;
else if (particle_cur[1] > pre_frame.rows) particle_cur[1] = pre_frame.rows;
particle_cur[2] = particle_pre[2] + gen_gaussian_noise(0,width_star_/6);
if (particle_cur[2] < 10) particle_cur[2] = 10;
else if (particle_cur[2]/aspect_ratio_ > pre_frame.rows) particle_cur[2] = pre_frame.rows*aspect_ratio_;
//particle_cur[3] = particle_cur[0]-particle_pre[0]+gen_gaussian_noise(0,width_star_/4);
//particle_cur[4] = particle_cur[1] - particle_pre[1]+gen_gaussian_noise(0, width_star_/4);
//particle_cur[3] = meanx + gen_gaussian_noise(0, width_star_/4);
particle_cur[3] = gen_gaussian_noise(0, 1);
//particle_cur[4] = meany + gen_gaussian_noise(0, width_star_/4);
particle_cur[4] = gen_gaussian_noise(0, 1);
}
void PTUsingReIdandPF::rw_motion_update(vec_d& particle_pre, vec_d& particle_cur, double w_star, double vx_star, double vy_star, int frame_w, int frame_h)
{
double xtmp = particle_pre[0]+particle_pre[3];
if (xtmp < 0)
particle_cur[0] = xtmp+gen_uniform_noise(0,w_star/4);
else if (xtmp > frame_w)
particle_cur[0] = xtmp-gen_uniform_noise(0, w_star/4);
else
particle_cur[0] = xtmp+gen_gaussian_noise(0,w_star/4);
if (particle_cur[0] < 0) particle_cur[0] = 0;
else if (particle_cur[0] > frame_w) particle_cur[0] = frame_w;
double ytmp = particle_pre[1] + particle_pre[4];
if (ytmp < 0)
particle_cur[1] = ytmp+gen_uniform_noise(0,w_star/4/aspect_ratio_);
else if (ytmp > frame_h)
particle_cur[1] = ytmp-gen_uniform_noise(0,w_star/4/aspect_ratio_);
else
particle_cur[1] = ytmp+gen_gaussian_noise(0,w_star/4);
if (particle_cur[1] < 0) particle_cur[1] = 0;
else if (particle_cur[1] > frame_h) particle_cur[1] = frame_h;
/*particle_cur[2] = particle_pre[2] + gen_gaussian_noise(0,3);*/
particle_cur[2] = w_star + gen_gaussian_noise(0,width_star_/6);
if (particle_cur[2] < 10) particle_cur[2] = 10;
else if (particle_cur[2]/aspect_ratio_ > frame_h) particle_cur[2] = frame_h*aspect_ratio_;
if (particle_pre[0]< w_star/2) particle_cur[3] = particle_pre[3]+gen_uniform_noise(0,w_star/2);
else if(particle_pre[0] > frame_w-w_star/2) particle_cur[3] = particle_pre[3]-gen_uniform_noise(0,w_star/2);
//else particle_cur[3] = particle_pre[3]+gen_uniform_noise(std::min(particle_pre[3], vx_star), std::max(particle_pre[3], vx_star));
//else particle_cur[3] = vx_star+gen_uniform_noise(std::min(particle_pre[3], vx_star), std::max(particle_pre[3], vx_star));
//else particle_cur[3] = particle_pre[3] + gen_gaussian_noise(0,1);
else particle_cur[3] = gen_gaussian_noise(0, 3);
//else particle_cur[3] = gen_gaussian_noise(0, w_star/3);
if (particle_pre[1]< w_star) particle_cur[4] = particle_pre[4]+gen_uniform_noise(0,w_star/2);
else if(particle_pre[1] > frame_h-w_star) particle_cur[4] = particle_pre[4]-gen_uniform_noise(0,w_star/2);
//else particle_cur[4] = particle_pre[4]+gen_uniform_noise(std::min(particle_pre[4], vy_star), std::max(particle_pre[4], vy_star));
//else particle_cur[4] = vy_star+gen_uniform_noise(std::min(particle_pre[4], vy_star), std::max(particle_pre[4], vy_star));
//else particle_cur[4] = particle_pre[4] + gen_gaussian_noise(0,1);
else particle_cur[4] = gen_gaussian_noise(0, 3);
//else particle_cur[4] = gen_gaussian_noise(0, w_star/3);
}
double PTUsingReIdandPF::filter_width(double d)
{
static int t = 1;
static double pt_1 = 0., et = 0, sumet = 0., et_1 = 0.;
static double Kp=0.2, Ki=0.003, Kd=0.03;
if (t == 1) //if the first frame
{
pt_1 = d;
t++;
return d;
}
if (t == 2)
{
et = d - pt_1;
sumet += et;
pt_1 = pt_1 + (Kp*et+Ki*sumet);
et_1 = et;
t++;
return pt_1;
}
et = d - pt_1;
sumet += et;
pt_1 = pt_1 + (Kp*et+Ki*sumet+Kd*(et-et_1));
et_1 = et;
t++;
return pt_1;
}
double PTUsingReIdandPF::filter_vx(double d)
{
static int t = 1;
static double pt_1 = 0., et = 0, sumet = 0., et_1 = 0.;
static double Kp=0.2, Ki=0.003, Kd=0.03;
if (t == 1) //if the first frame
{
pt_1 = d;
t++;
return d;
}
if (t == 2)
{
et = d - pt_1;
sumet += et;
pt_1 = pt_1 + (Kp*et+Ki*sumet);
et_1 = et;
t++;
return pt_1;
}
et = d - pt_1;
sumet += et;
pt_1 = pt_1 + (Kp*et+Ki*sumet+Kd*(et-et_1));
et_1 = et;
t++;
return pt_1;
}
double PTUsingReIdandPF::filter_vy(double d)
{
static int t = 1;
static double pt_1 = 0., et = 0, sumet = 0., et_1 = 0.;
static double Kp=0.2, Ki=0.003, Kd=0.03;
if (t == 1) //if the first frame
{
pt_1 = d;
t++;
return d;
}
if (t == 2)
{
et = d - pt_1;
sumet += et;
pt_1 = pt_1 + (Kp*et+Ki*sumet);
et_1 = et;
t++;
return pt_1;
}
et = d - pt_1;
sumet += et;
pt_1 = pt_1 + (Kp*et+Ki*sumet+Kd*(et-et_1));
et_1 = et;
t++;
return pt_1;
}
void PTUsingReIdandPF::drawMatches(cv::Mat& img1, std::vector<cv::Point2f>& points1, std::vector<vec_d>& ptc1, cv::Mat& img2, std::vector<cv::Point2f>& points2,std::vector<vec_d>& ptc2, cv::Mat& res)
{
CV_Assert(points1.size() == points2.size());
CV_Assert(img1.size() == img2.size());
using namespace cv;
res = Mat(img1.rows, img1.cols*2, img1.type());
Point offset(img1.cols, 0);
Rect roi_left(0,0,img1.cols, img1.rows);
Rect roi_right(img1.cols,0,img1.cols, img1.rows);
img1.copyTo(res(roi_left));
img2.copyTo(res(roi_right));
for (int i = 0; i < points1.size(); ++i)
{
circle(res, points1[i], 3, Scalar(0,255,0), 1, 8);
circle(res, Point(points2[i].x+offset.x, points2[i].y+offset.y), 3, Scalar(0,255,0), 1, 8);
//line(res, points1[i], Point(points2[i].x+offset.x, points2[i].y+offset.y), Scalar(0, 255, 0), 1, 8);
}
vector<vec_d>::iterator iteb1 = ptc1.begin(), itee1 = ptc1.begin()+10,//+ptc1.size()*random_walk_ratio_,
iteb2 = ptc2.begin(), itee2 = ptc2.begin()+10;//+ptc2.size()*random_walk_ratio_;
for (;iteb1 != itee1; iteb1++,iteb2++)
{
//Rect r1, r2;
//states2rect(*iteb1, r1);
//states2rect(*iteb2, r2);
//rectangle(res, r1, Scalar(255,0,0), 2);
//rectangle(res, r2.tl()+offset, r2.br()+offset-Point(1,1), Scalar(255,0,0), 2);
}
iteb1 = itee1;iteb2 = itee2;itee1 += 5;//= ptc1.end();
for (;iteb1 != itee1; iteb1++,iteb2++)
{
//Rect r1, r2;
//states2rect(*iteb1, r1);
//states2rect(*iteb2, r2);
//rectangle(res, r1, Scalar(0,255,255),2);
//rectangle(res, r2.tl()+offset, r2.br()+offset-Point(1,1), Scalar(0,255,255),2);
}
} | [
"1026314812@qq.com"
] | 1026314812@qq.com |
b91c544541b284696f5bdb8855f3ed095733fe79 | 0a846bc85ecc6ecab462cfae5db84a54c9defa4a | /applications/tensorflow/dynamic_sparsity/ipu_sparse_ops/vector_ostream.hpp | afb6bd4e96bc54c8a596016f9649a86cf5fcfcb2 | [
"MIT"
] | permissive | payoto/graphcore_examples | c7d4d931dc3649567f8023279842345aa50cc3b3 | 46d2b7687b829778369fc6328170a7b14761e5c6 | refs/heads/master | 2022-02-08T20:00:55.182795 | 2021-12-21T11:38:07 | 2021-12-21T11:38:07 | 251,254,539 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 482 | hpp | // Copyright (c) 2020 Graphcore Ltd. All rights reserved.
#pragma once
#include <iostream>
namespace std {
template <typename T>
ostream& operator<< (ostream& out, const vector<T>& v) {
if (!v.empty()) {
out << " ";
copy (v.begin(), v.end(), ostream_iterator<T>(out, " "));
}
return out;
}
template <typename T, typename U>
ostream& operator<< (ostream& out, const std::pair<T,U>& p) {
out << "(" << p.first << "," << p.second << ")";
}
}
| [
"philb@graphcore.ai"
] | philb@graphcore.ai |
0286ea23cfba59466be98efb8c4e04c30fc18804 | 70d119732872d95582b273b104f663191e3b11f5 | /MinPriorityLinkQueue.h | 68c1f5c906bcc5c416ea19c3a419679b71b93b47 | [] | no_license | sundongxu/data-structure | 9d5033f49a3628a263d13dac7f3fd1847d521629 | 668454c1c780ad93697c85b92a8026f6a4a8525c | refs/heads/master | 2021-09-13T21:16:56.415533 | 2018-05-04T08:58:23 | 2018-05-04T08:58:23 | 92,672,312 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 347 | h | #ifndef MIN_PRIORITY_LINK_QUEUE_H
#define MIN_PRIORITY_LINK_QUEUE_H
#include "LinkQueue.h"
// 最小优先链队列类
template <class ElemType>
class MinPriorityLinkQueue : public LinkQueue<ElemType>
{
public:
// 重载入队操作声明:
int InQueue(const ElemType &e); // 重载入队操作
};
#endif // MIN_PRIORITY_LINK_QUEUE_H | [
"sundongxu@sundongxudeMacBook-Pro.local"
] | sundongxu@sundongxudeMacBook-Pro.local |
dbd7cb1fbd39d2106fab3102fd1042abd79b6458 | ef5b20e40a21dceb9aa142768deaa0e7ab22829a | /test/ut_main.cpp | 69500f2997294abfca77a113c6b7ec95127f1226 | [] | no_license | LanHow/Design-Patterns | 3dea65bf61d5c10f35a31662ae1224d8cb7b5766 | 0811e072b2f28afb5ffc3dd5303c79ac4e816a1b | refs/heads/master | 2020-03-16T18:57:48.061131 | 2018-05-10T12:08:08 | 2018-05-10T12:08:08 | 132,894,277 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 211 | cpp | #include <gtest/gtest.h>
#include "ut_fs.h"
#include "ut_iterator.h"
#include "ut_visitor.h"
int main( int argc , char **argv )
{
testing :: InitGoogleTest( &argc , argv ) ;
return RUN_ALL_TESTS( ) ;
}
| [
"zzaaq147@gmail.com"
] | zzaaq147@gmail.com |
7d1d544f64fe26fac3c7342268debbfb3c97290e | 2b0ff7f7529350a00a34de9050d3404be6d588a0 | /042_動態配置記憶體/03_一維動態配置記憶體/利用迴圈初始化/StdAfx.cpp | 610b0b89b120beaa4559226b5fb048664e6bea7c | [] | no_license | isliulin/jashliao_VC | 6b234b427469fb191884df2def0b47c4948b3187 | 5310f52b1276379b267acab4b609a9467f43d8cb | refs/heads/master | 2023-05-13T09:28:49.756293 | 2021-06-08T13:40:23 | 2021-06-08T13:40:23 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 198 | cpp | // stdafx.cpp : source file that includes just the standard includes
// DyMM.pch will be the pre-compiled header
// stdafx.obj will contain the pre-compiled type information
#include "stdafx.h"
| [
"jash.liao@gmail.com"
] | jash.liao@gmail.com |
b83e43a4c42d7139cf7219da3574d4db11e0141f | 051b0f165fa68c3b8757609caa76802b70fc18df | /ch01/ex01_09.cpp | ef0f8ad4b8b751598dc350599e148e1a0c4964be | [
"MIT"
] | permissive | husmen/CppPrimer5 | 3e0223b66c38abdcb908b72dc17cecc3cb5ff756 | ffb33e8cc687e9ed9c5395c69ae348bca793b1d6 | refs/heads/master | 2021-01-19T19:22:22.994153 | 2018-02-27T18:51:21 | 2018-02-27T18:51:21 | 101,187,698 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 188 | cpp | #include <iostream>
int main()
{
int sum = 0, val = 50;
while (val <= 100)
{
sum += val;
++val;
}
std::cout << "Sum of 50 to 100 inclusive is " << sum << std::endl;
return 0;
}
| [
"husmen93@gmail.com"
] | husmen93@gmail.com |
82c2f23fe05b30b649c722d8e8c9899c315c3928 | 5456502f97627278cbd6e16d002d50f1de3da7bb | /chrome/browser/extensions/api/music_manager_private/device_id_mac.cc | 85c5d73396cba5d77b3325963ad0fc81bef0c3b8 | [
"BSD-3-Clause"
] | permissive | TrellixVulnTeam/Chromium_7C66 | 72d108a413909eb3bd36c73a6c2f98de1573b6e5 | c8649ab2a0f5a747369ed50351209a42f59672ee | refs/heads/master | 2023-03-16T12:51:40.231959 | 2017-12-20T10:38:26 | 2017-12-20T10:38:26 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 8,594 | cc | // Copyright 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "chrome/browser/extensions/api/music_manager_private/device_id.h"
#include <CoreFoundation/CoreFoundation.h>
#include <DiskArbitration/DADisk.h>
#include <DiskArbitration/DASession.h>
#include <IOKit/IOKitLib.h>
#include <IOKit/network/IOEthernetController.h>
#include <IOKit/network/IOEthernetInterface.h>
#include <IOKit/network/IONetworkInterface.h>
#include <stddef.h>
#include <sys/mount.h>
#include "base/bind.h"
#include "base/mac/foundation_util.h"
#include "base/mac/scoped_cftyperef.h"
#include "base/mac/scoped_ioobject.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/strings/sys_string_conversions.h"
#include "base/threading/thread_restrictions.h"
#include "content/public/browser/browser_thread.h"
namespace {
using extensions::api::DeviceId;
const char kRootDirectory[] = "/";
typedef base::Callback<bool(const void* bytes, size_t size)>
IsValidMacAddressCallback;
// Return the BSD name (e.g. '/dev/disk1') of the root directory by enumerating
// through the mounted volumes .
// Return "" if an error occured.
std::string FindBSDNameOfSystemDisk() {
struct statfs* mounted_volumes;
int num_volumes = getmntinfo(&mounted_volumes, 0);
if (num_volumes == 0) {
VLOG(1) << "Cannot enumerate list of mounted volumes.";
return std::string();
}
for (int i = 0; i < num_volumes; i++) {
struct statfs* vol = &mounted_volumes[i];
if (std::string(vol->f_mntonname) == kRootDirectory) {
return std::string(vol->f_mntfromname);
}
}
VLOG(1) << "Cannot find disk mounted as '" << kRootDirectory << "'.";
return std::string();
}
// Return the Volume UUID property of a BSD disk name (e.g. '/dev/disk1').
// Return "" if an error occured.
std::string GetVolumeUUIDFromBSDName(const std::string& bsd_name) {
const CFAllocatorRef allocator = NULL;
base::ScopedCFTypeRef<DASessionRef> session(DASessionCreate(allocator));
if (session.get() == NULL) {
VLOG(1) << "Error creating DA Session.";
return std::string();
}
base::ScopedCFTypeRef<DADiskRef> disk(
DADiskCreateFromBSDName(allocator, session, bsd_name.c_str()));
if (disk.get() == NULL) {
VLOG(1) << "Error creating DA disk from BSD disk name.";
return std::string();
}
base::ScopedCFTypeRef<CFDictionaryRef> disk_description(
DADiskCopyDescription(disk));
if (disk_description.get() == NULL) {
VLOG(1) << "Error getting disk description.";
return std::string();
}
CFUUIDRef volume_uuid = base::mac::GetValueFromDictionary<CFUUIDRef>(
disk_description,
kDADiskDescriptionVolumeUUIDKey);
if (volume_uuid == NULL) {
VLOG(1) << "Error getting volume UUID of disk.";
return std::string();
}
base::ScopedCFTypeRef<CFStringRef> volume_uuid_string(
CFUUIDCreateString(allocator, volume_uuid));
if (volume_uuid_string.get() == NULL) {
VLOG(1) << "Error creating string from CSStringRef.";
return std::string();
}
return base::SysCFStringRefToUTF8(volume_uuid_string.get());
}
// Return Volume UUID property of disk mounted as "/".
std::string GetVolumeUUID() {
base::ThreadRestrictions::AssertIOAllowed();
std::string result;
std::string bsd_name = FindBSDNameOfSystemDisk();
if (!bsd_name.empty()) {
VLOG(4) << "BSD name of root directory: '" << bsd_name << "'";
result = GetVolumeUUIDFromBSDName(bsd_name);
}
return result;
}
class MacAddressProcessor {
public:
MacAddressProcessor(const IsValidMacAddressCallback& is_valid_mac_address)
: is_valid_mac_address_(is_valid_mac_address) {
}
bool ProcessNetworkController(io_object_t network_controller) {
// Use the MAC address of the first network interface.
bool keep_going = true;
base::ScopedCFTypeRef<CFDataRef> mac_address_data(
static_cast<CFDataRef>(
IORegistryEntryCreateCFProperty(network_controller,
CFSTR(kIOMACAddress),
kCFAllocatorDefault,
0)));
if (!mac_address_data)
return keep_going;
const UInt8* mac_address = CFDataGetBytePtr(mac_address_data);
size_t mac_address_size = CFDataGetLength(mac_address_data);
if (!is_valid_mac_address_.Run(mac_address, mac_address_size))
return keep_going;
std::string mac_address_string = base::ToLowerASCII(base::HexEncode(
mac_address, mac_address_size));
base::ScopedCFTypeRef<CFStringRef> provider_class(
static_cast<CFStringRef>(
IORegistryEntryCreateCFProperty(network_controller,
CFSTR(kIOProviderClassKey),
kCFAllocatorDefault,
0)));
if (provider_class) {
if (CFStringCompare(provider_class, CFSTR("IOPCIDevice"), 0) ==
kCFCompareEqualTo) {
// MAC address from built-in network card is always best choice.
found_mac_address_ = mac_address_string;
keep_going = false;
return keep_going;
}
}
// Fall back to using non built-in card MAC address, but keep looking.
found_mac_address_ = mac_address_string;
return keep_going;
}
std::string mac_address() const { return found_mac_address_; }
private:
const IsValidMacAddressCallback& is_valid_mac_address_;
std::string found_mac_address_;
};
std::string GetMacAddress(
const IsValidMacAddressCallback& is_valid_mac_address) {
base::ThreadRestrictions::AssertIOAllowed();
mach_port_t master_port;
kern_return_t kr = IOMasterPort(MACH_PORT_NULL, &master_port);
if (kr != KERN_SUCCESS) {
LOG(ERROR) << "IOMasterPort failed: " << kr;
return "";
}
CFMutableDictionaryRef match_classes =
IOServiceMatching(kIOEthernetInterfaceClass);
if (!match_classes) {
LOG(ERROR) << "IOServiceMatching returned a NULL dictionary";
return "";
}
io_iterator_t iterator_ref;
kr = IOServiceGetMatchingServices(master_port,
match_classes,
&iterator_ref);
if (kr != KERN_SUCCESS) {
LOG(ERROR) << "IOServiceGetMatchingServices failed: " << kr;
return "";
}
base::mac::ScopedIOObject<io_iterator_t> iterator(iterator_ref);
MacAddressProcessor processor(is_valid_mac_address);
while (true) {
// Note: interface_service should not be released.
io_object_t interface_service = IOIteratorNext(iterator);
if (!interface_service)
break;
io_object_t controller_service_ref;
kr = IORegistryEntryGetParentEntry(interface_service,
kIOServicePlane,
&controller_service_ref);
if (kr != KERN_SUCCESS) {
LOG(ERROR) << "IORegistryEntryGetParentEntry failed: " << kr;
} else {
base::mac::ScopedIOObject<io_object_t> controller_service(
controller_service_ref);
bool keep_going = processor.ProcessNetworkController(controller_service);
if (!keep_going) {
break;
}
}
}
return processor.mac_address();
}
void GetRawDeviceIdImpl(const IsValidMacAddressCallback& is_valid_mac_address,
const DeviceId::IdCallback& callback) {
base::ThreadRestrictions::AssertIOAllowed();
std::string raw_device_id;
std::string mac_address = GetMacAddress(is_valid_mac_address);
std::string disk_id = GetVolumeUUID();
if (!mac_address.empty() && !disk_id.empty()) {
raw_device_id = mac_address + disk_id;
}
content::BrowserThread::PostTask(
content::BrowserThread::UI,
FROM_HERE,
base::Bind(callback, raw_device_id));
}
} // namespace
namespace extensions {
namespace api {
// static
void DeviceId::GetRawDeviceId(const IdCallback& callback) {
DCHECK_CURRENTLY_ON(content::BrowserThread::UI);
content::BrowserThread::PostTask(
content::BrowserThread::FILE,
FROM_HERE,
base::Bind(GetRawDeviceIdImpl,
base::Bind(DeviceId::IsValidMacAddress),
callback));
}
} // namespace api
} // namespace extensions
| [
"lixiaodonglove7@aliyun.com"
] | lixiaodonglove7@aliyun.com |
f35432628ff476b62139d86d8542f2298a34db20 | 110b19085cb3b8dd1e16b91a9ea25c8abfaebefe | /Praat Source Code/fon/Matrix_and_Pitch.cpp | 299363c5d678c0c6839188aaa61f452fb2fcaecf | [] | no_license | tommyharris/praat-tau | 3d54f531832394140fc65268b721445923cd955e | 7b1635c02c58464f74a91b60affa3eb1de8367da | refs/heads/master | 2016-09-10T18:49:50.473983 | 2014-06-24T15:48:35 | 2014-06-24T15:48:35 | 21,162,610 | 2 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 3,073 | cpp | /* Matrix_and_Pitch.cpp
*
* Copyright (C) 1992-2011 Paul Boersma
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or (at
* your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/*
* pb 2002/07/16 GPL
* pb 2007/08/12 wchar_t
* pb 2009/01/18 Interpreter argument to formula
* pb 2009/04/04 corrected voiceless frames in Pitch_to_Matrix
* pb 2011/06/04 C++
*/
#include "Matrix_and_Pitch.h"
Matrix Pitch_to_Matrix (Pitch me) {
try {
autoMatrix thee = Matrix_create (my xmin, my xmax, my nx, my dx, my x1, 1, 1, 1, 1, 1);
for (long i = 1; i <= my nx; i ++) {
double value = my frame [i]. candidate [1]. frequency;
thy z [1] [i] = value > 0.0 && value < my ceiling ? my frame [i]. candidate [1]. frequency : 0.0;
}
return thee.transfer();
} catch (MelderError) {
Melder_throw (me, ": not converted to Matrix.");
}
}
Pitch Matrix_to_Pitch (Matrix me) {
try {
autoPitch thee = Pitch_create (my xmin, my xmax, my nx, my dx, my x1, 5000, 2);
for (long i = 1; i <= my nx; i ++) {
Pitch_Frame frame = & thy frame [i];
if (my z [1] [i] == 0.0) {
Pitch_Frame_init (frame, 1);
frame->candidate[1].frequency = 0.0; // voiceless candidate always present
frame->candidate[1].strength = 0.4;
} else {
Pitch_Frame_init (frame, 2);
frame->intensity = 1;
frame->candidate[1].frequency = my z [1] [i];
frame->candidate[1].strength = 0.9;
frame->candidate[2].frequency = 0.0; // voiceless candidate always present
frame->candidate[2].strength = 0.4;
}
}
return thee.transfer();
} catch (MelderError) {
Melder_throw (me, ": not converted to Pitch.");
}
}
void Pitch_formula (Pitch me, const wchar_t *formula, Interpreter interpreter) {
try {
autoMatrix m = Matrix_create (my xmin, my xmax, my nx, my dx, my x1, 1, my maxnCandidates, my maxnCandidates, 1, 1);
for (long iframe = 1; iframe <= my nx; iframe ++) {
Pitch_Frame frame = & my frame [iframe];
for (long icand = 1; icand <= frame -> nCandidates; icand ++)
m -> z [icand] [iframe] = frame -> candidate [icand]. frequency;
}
Matrix_formula (m.peek(), formula, interpreter, NULL);
for (long iframe = 1; iframe <= my nx; iframe ++) {
Pitch_Frame frame = & my frame [iframe];
for (long icand = 1; icand <= frame -> nCandidates; icand ++)
frame -> candidate [icand]. frequency = m -> z [icand] [iframe];
}
} catch (MelderError) {
Melder_throw (me, ": formula not completed.");
}
}
/* End of file Matrix_and_Pitch.cpp */
| [
"tommyharris@Tommys-MacBook-Pro.local"
] | tommyharris@Tommys-MacBook-Pro.local |
7071a940329450aa780bccb02e216c1d6c2a682c | e898b0f1f0797487596b00169b50f5206badb73b | /Data_Structure-master/Linklist链表/List.h | a84f11fd5999267d9d3f20387d8f198d7b276ded | [] | no_license | Fantasia1999/408-DS | ca552d777b855280748a17ea815595a080cf4c0b | 5774dd4e11257b8b772ab6068e847bc067253109 | refs/heads/main | 2023-01-11T12:53:20.400878 | 2020-11-14T05:08:01 | 2020-11-14T05:08:01 | 312,654,667 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 707 | h | #ifndef _LIST_
#define _LIST_
// ???????????
template <class ElemType>
class List {
public:
virtual bool IsEmpty() const=0;
virtual int Length() const=0;
virtual void Clear() = 0;
virtual bool GetElem(ElemType &, int) const = 0;
virtual bool SetElem(const ElemType &,int) = 0;
virtual int LocateElem(const ElemType &) const = 0;
virtual int LocatePrior(const ElemType &) const = 0;
virtual int LocateNext(const ElemType &) const = 0;
virtual bool Insert(const ElemType &, int) = 0;
virtual bool TailInsert(const ElemType &) = 0;
virtual bool Delete(ElemType & ,int i) = 0;
virtual void Traverse(void(*visit)(const ElemType &)) const = 0;
};
#endif
| [
"1085505179@qq.com"
] | 1085505179@qq.com |
d1597b7d0c640c4b77c05533985d77560e58df94 | 8a9b88871d1bbe7af5619cdaa564e37a411d623c | /077_BJ_리모컨/리모컨.cpp | 157de764fa910dcd8367d2e40660aad8a77543ab | [] | no_license | zxwnstn/AlgorithmPractice | 1249dab6e4bbf12e315f52db9166d71e34c420be | 5811bb2c2f9f308a8e554d6c8560af26a82d1398 | refs/heads/master | 2020-04-11T16:11:17.785651 | 2019-02-01T12:19:18 | 2019-02-01T12:19:18 | 161,915,621 | 0 | 0 | null | null | null | null | UHC | C++ | false | false | 4,729 | cpp | #include<iostream>
#include<string>
using namespace std;
string usable_number;
//넘버링이 가능한지 판별하는 함수
int IsOkNumbering(int target_n, string broken)
{
string deft = "0123456789";
string s_target = to_string(target_n);
int len_b = broken.length();
int len_tn = s_target.length();
// deft배열안에 고장난 수를 '!' 로
for (int i = 0; i < 10; i++)
{
for (int j = 0; j < len_b; j++)
{
if (deft[i] == broken[j])
{
deft[i] = '!';
break;
}
}
}
// 목표숫자가 !인지 아닌지 확인
int isok = 1;
for (int i = 0; i < len_tn; i++)
{
if (deft[s_target[i]-48] == '!')
{
isok = 0;
break;
}
}
// deft를 usable number로 넘기기
int index = 0;
for (int i = 0; i < 10; i++)
{
if (deft[i] == '!')
continue;
else
usable_number += deft[i];
}
return isok;
}
//+ - 만을 이용
int PlusOrMinus(int target_n)
{
int result = target_n - 100;
if (result < 0)
return -result;
else
return result;
}
//넘버링이 가능한경우
int OnlyNumbering(int target_n)
{
string s = to_string(target_n);
int result = s.size();
return result;
}
//넘버링이 불가능한 경우 n보다 큰 최소값
int Bigcombi(int n)
{
cout << "함수내부! " << usable_number << "유저블넘" << endl;
int len_usable = usable_number.length();
string smallcomb = "";
string s_target = to_string(n);
int len = s_target.size();
//타겟넘버의 맨 앞자리
int front = (int)(s_target[0] - 48);
cout << front << " front " << endl;
// front와 최대값이 같은경우
// front보다 최대값이 큰 경우
// front 보다 최대값이 작은 경우
}
//넘버링이 불가능한 경우 n보다 작은 최대값
int Smallcombi(int n)
{
cout << "함수내부! " << usable_number << "유저블넘" << endl;
int len_usable = usable_number.length();
string smallcomb = "";
string s_target = to_string(n);
int len = s_target.size();
int result;
//타겟넘버의 맨 앞자리
int front = (int)(s_target[0]-48);
cout << front << " front " << endl;
cout << (int)usable_number[len_usable-1] -48 << endl;
// front와 최대값이 같은경우
if (front == (int)usable_number[len_usable-1] - 48)
{
cout << "front와 최대값이 같습니다!" << endl;
int j = -1;
int temp_s_j;
while (1)
{
j++;
for (int i = 0; i < len_usable; i++)
{
if (s_target[j] == usable_number[i])
{
smallcomb += usable_number[i];
}
}
if (j + 1 != smallcomb.size())
{
temp_s_j = s_target[j];
cout << j << "break됩니다!!" << endl;
break;
}
}
for (int i = 0; i < len_usable; i++)
{
if (temp_s_j < usable_number[i])
{
temp_s_j = usable_number[i];
break;
}
}
for (int i = 0; i < len - j; i++)
{
if (i == 0)
smallcomb += temp_s_j;
else
smallcomb += usable_number[0];
}
cout << smallcomb << endl;
result = atoi(smallcomb.c_str());
result -= n;
result += len;
return result;
}
// front보다 최대값이 큰 경우
else if (front < (int)usable_number[len_usable-1] - 48)
{
cout << "front보다 최대값이 큽니다!" << endl;
for (int i = 0; i < len; i++)
{
if (i == 0)
smallcomb += usable_number[len - 1];
else
smallcomb += usable_number[0];
}
cout << smallcomb << endl;
result = atoi(smallcomb.c_str());
result -= n;
result += len;
return result;
}
// front 보다 최대값이 작은 경우
else if (front > (int)usable_number[len_usable-1] - 48)
{
cout << "front 보다 최대값이 작은 경우" << endl;
for (int i = 0; i < len+1; i++)
{
if (i == 0)
{
//usable의 최소값이 0라면
cout << "usalbe의 최소값이 0입니다!" << endl;
if (usable_number[0] == 0)
smallcomb += usable_number[1];
else
smallcomb += usable_number[0];
}
else
smallcomb += usable_number[0];
}
cout << smallcomb << endl;
result = atoi(smallcomb.c_str());
result -= n;
result += len;
return result;
}
}
int main()
{
int target_n;
int n;
string broken;
cin >> target_n;
cin >> n;
for (int i = 0; i < n; i++)
{
char c;
cin >> c;
broken += c;
}
int okn;
okn = IsOkNumbering(target_n, broken);
int bigcbn, smlcbn, posn, numing_n;
posn = PlusOrMinus(target_n);
numing_n = OnlyNumbering(target_n);
if (okn)
{
if (posn > numing_n)
cout << posn;
else
cout << numing_n;
}
else
{
int small = 500000;
bigcbn = 500; //Bigcombi(target_n);
smlcbn = Smallcombi(target_n);
cout << usable_number << endl;
cout << Smallcombi << endl;
int temp[] = { bigcbn, smlcbn, posn, numing_n };
for (int i = 0; i < 4; i++)
{
if (small > temp[i])
small = temp[i];
}
cout << small;
}
return 0;
} | [
"zxwnstn@naver.com"
] | zxwnstn@naver.com |
886738bd25030048878a53f8cd5cc65b1c6f474c | 600df3590cce1fe49b9a96e9ca5b5242884a2a70 | /blimp/engine/app/ui/blimp_screen_unittest.cc | b45420f10924af50ed3c3930176755f46feea0bc | [
"BSD-3-Clause"
] | permissive | metux/chromium-suckless | efd087ba4f4070a6caac5bfbfb0f7a4e2f3c438a | 72a05af97787001756bae2511b7985e61498c965 | refs/heads/orig | 2022-12-04T23:53:58.681218 | 2017-04-30T10:59:06 | 2017-04-30T23:35:58 | 89,884,931 | 5 | 3 | BSD-3-Clause | 2022-11-23T20:52:53 | 2017-05-01T00:09:08 | null | UTF-8 | C++ | false | false | 3,891 | cc | // Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "blimp/engine/app/ui/blimp_screen.h"
#include <memory>
#include <string>
#include <vector>
#include "base/command_line.h"
#include "base/files/file_util.h"
#include "base/files/scoped_temp_dir.h"
#include "base/memory/ptr_util.h"
#include "base/strings/stringprintf.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/display/display.h"
#include "ui/display/display_observer.h"
#include "ui/display/screen.h"
using testing::InSequence;
namespace blimp {
namespace engine {
namespace {
// Checks if two display::Displays have the ID.
MATCHER_P(EqualsDisplay, display, "") {
return display.id() == arg.id();
}
class MockDisplayObserver : public display::DisplayObserver {
public:
MockDisplayObserver() {}
~MockDisplayObserver() override {}
MOCK_METHOD1(OnDisplayAdded, void(const display::Display&));
MOCK_METHOD1(OnDisplayRemoved, void(const display::Display&));
MOCK_METHOD2(OnDisplayMetricsChanged,
void(const display::Display& display, uint32_t changed_metrics));
};
class BlimpScreenTest : public testing::Test {
protected:
void SetUp() override {
screen_ = base::WrapUnique(new BlimpScreen);
screen_->AddObserver(&observer1_);
screen_->AddObserver(&observer2_);
}
std::unique_ptr<BlimpScreen> screen_;
testing::StrictMock<MockDisplayObserver> observer1_;
testing::StrictMock<MockDisplayObserver> observer2_;
};
TEST_F(BlimpScreenTest, ObserversAreInfomed) {
auto display = screen_->GetPrimaryDisplay();
uint32_t changed_metrics =
display::DisplayObserver::DISPLAY_METRIC_DEVICE_SCALE_FACTOR |
display::DisplayObserver::DISPLAY_METRIC_BOUNDS;
InSequence s;
EXPECT_CALL(observer1_,
OnDisplayMetricsChanged(EqualsDisplay(display), changed_metrics));
EXPECT_CALL(observer2_,
OnDisplayMetricsChanged(EqualsDisplay(display), changed_metrics));
changed_metrics = display::DisplayObserver::DISPLAY_METRIC_BOUNDS;
EXPECT_CALL(observer1_,
OnDisplayMetricsChanged(EqualsDisplay(display), changed_metrics));
EXPECT_CALL(observer2_,
OnDisplayMetricsChanged(EqualsDisplay(display), changed_metrics));
changed_metrics =
display::DisplayObserver::DISPLAY_METRIC_DEVICE_SCALE_FACTOR;
EXPECT_CALL(observer1_,
OnDisplayMetricsChanged(EqualsDisplay(display), changed_metrics));
EXPECT_CALL(observer2_,
OnDisplayMetricsChanged(EqualsDisplay(display), changed_metrics));
gfx::Size size1(100, 200);
screen_->UpdateDisplayScaleAndSize(2.0f, size1);
EXPECT_EQ(size1, screen_->GetPrimaryDisplay().GetSizeInPixel());
EXPECT_EQ(2.0f, screen_->GetPrimaryDisplay().device_scale_factor());
screen_->UpdateDisplayScaleAndSize(2.0f, size1);
gfx::Size size2(200, 100);
screen_->UpdateDisplayScaleAndSize(2.0f, size2);
EXPECT_EQ(size2, screen_->GetPrimaryDisplay().GetSizeInPixel());
EXPECT_EQ(2.0f, screen_->GetPrimaryDisplay().device_scale_factor());
screen_->UpdateDisplayScaleAndSize(3.0f, size2);
EXPECT_EQ(3.0f, screen_->GetPrimaryDisplay().device_scale_factor());
}
TEST_F(BlimpScreenTest, RemoveObserver) {
screen_->RemoveObserver(&observer2_);
auto display = screen_->GetPrimaryDisplay();
uint32_t changed_metrics =
display::DisplayObserver::DISPLAY_METRIC_DEVICE_SCALE_FACTOR |
display::DisplayObserver::DISPLAY_METRIC_BOUNDS;
EXPECT_CALL(observer1_,
OnDisplayMetricsChanged(EqualsDisplay(display), changed_metrics));
gfx::Size size1(100, 100);
screen_->UpdateDisplayScaleAndSize(2.0f, size1);
EXPECT_EQ(size1, screen_->GetPrimaryDisplay().GetSizeInPixel());
}
} // namespace
} // namespace engine
} // namespace blimp
| [
"enrico.weigelt@gr13.net"
] | enrico.weigelt@gr13.net |
6e6c3b901b507a677a6bfd4cf185b58eee976a1b | 69eaf2a3bd600ea7ab8e86f9f69e6320eaf814dc | /Offline_Fid/OpticalFlow.cpp | b695219da5e80ce5a0bb5b86d428eca58331ce0b | [] | no_license | ost2015/Offline_Fid | 40642fe9139afd422782133f0d81ae5c9aadc029 | 5666ad5f91b00beedb45e67ab15bc694138c3af1 | refs/heads/master | 2021-01-11T23:41:04.491806 | 2017-06-15T08:24:36 | 2017-06-15T08:24:36 | 78,620,459 | 2 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 11,302 | cpp | /*
* opticalFlow.cpp
*
* Created on: Mar 16, 2016
*/
/*************************************** Includes ***************************************/
// General
#include <iostream>
#include <pthread.h>
#include <time.h>
#include <vector>
#include <fstream>
#include <chrono>
// OpenCV
#include "opencv2/video/tracking.hpp"
#include "opencv2/imgproc/imgproc.hpp"
#include "opencv2/videoio/videoio.hpp"
#include "opencv2/highgui/highgui.hpp"
// Our files
#include "Globals.h"
#ifdef QT
#include "mainwindow.h"
#endif
#include "opticalflowfunctions.h"
/*************************************** Namespaces ***************************************/
using namespace cv;
using namespace std;
/*************************************** Global Variables *********************************/
/* import global variables */
locationStruct currLocation;
locationStruct lastFlowStep;
locationStruct lastFlowStepSections[4];
locationStruct gpsLocation;
int init=0;
class gyro_buffer{
public:
float buffer[10];
int head;
float avg;
gyro_buffer():head(9),avg(0){ int i; for (i = 0; i < 10; i++) buffer[i] = 0; }
void push_n_calc(float x){
head = (head + 1) % 10;
avg = avg - buffer[head] * 0.1 + x*0.1;
buffer[head] = x;
}
};
int run_OF_threads(sectionInfo topLeft, sectionInfo topRight, sectionInfo bottomLeft, sectionInfo bottomRight){
OpticalFlowPerSection(&topLeft);
OpticalFlowPerSection(&topRight);
OpticalFlowPerSection(&bottomLeft);
OpticalFlowPerSection(&bottomRight);
/*
pthread_t bottomLeft_thread, bottomRight_thread;
pthread_t topLeft_thread, topRight_thread;
pthread_create(&topLeft_thread, NULL, OpticalFlowPerSection, &topLeft);
pthread_create(&topRight_thread, NULL, OpticalFlowPerSection, &topRight);
pthread_create(&bottomLeft_thread, NULL, OpticalFlowPerSection, &bottomLeft);
pthread_create(&bottomRight_thread, NULL, OpticalFlowPerSection, &bottomRight);
pthread_join(topLeft_thread, NULL);
pthread_join(topRight_thread, NULL);
pthread_join(bottomLeft_thread, NULL);
pthread_join(bottomRight_thread, NULL);
*/
return 0;
}
/********************************* Main Optical Flow Function *****************************/
/* calculate the location of the UAV according the input frame from the camera and the angles of the body*/
//int opticalFlow(int source, MainWindow &w){
void OpticalFlow(char* path){
int tempX = 0;
int tempY = 0;
locationStruct filteredLocation;
locationStruct prevLocation;
locationStruct locationCorrectionAfterYaw;
sectionInfo topLeft, topRight;
sectionInfo bottomLeft, bottomRight;
//filter
filteredLocation.x = 0.0;
filteredLocation.y = 0.0;
prevLocation.x = 0.0;
prevLocation.y = 0.0;
float alpha = 0.0;
float gyro_threshold = 0.2;
gyro_buffer gyro_z_filter;
//outputs
//file
vector<float> x;
vector<float> y;
vector<float> time;
char File_name_OUTPUT[50];
strcpy_s(File_name_OUTPUT, path);
strcat_s(File_name_OUTPUT, "\\OF_log.csv");
std::ofstream *output;
output = new std::ofstream(File_name_OUTPUT, std::ofstream::out);
//console
int frame=0;
double delta;
chrono::steady_clock::time_point tic = chrono::steady_clock::now();
chrono::steady_clock::time_point toc = chrono::steady_clock::now();
/* define matrices */
Mat cameraMatrix = (Mat_<double>(3, 3) <<
3.33277197938593e+03, 0, 2.06813063483159e+03,
0, 3.33832169430243e+03, 1.15961268140133e+03,
0, 0, 1
);
Mat processedFrame, origFrame;
// Mat flow, uflow;
UMat gray, prevgray;
// Create grid for opticalflow
vector<Point2f> globalGrid;
createGrid(globalGrid, WIDTH_RES, HEIGHT_RES, 20);
#ifdef VIDEO_ACTIVE
namedWindow("flow", WINDOW_NORMAL);
#endif
currLocation.x = 0;
currLocation.y = 0;
locationStruct predLocation;
double rovX, rovY; // range of view in both axis
/* compare every two frames ***/
/******************************************************************************/
// the distorted function can't open the first frame- so ignore it
//for (int i = 0; i < 2; i++);
// for each frame calculate optical flow
// take out frame- still distorted
while (!end_of_file){
origFrame = currentframe;
if (origFrame.empty()) continue;
frame++;
// convert to gray
cvtColor(origFrame, processedFrame, COLOR_BGR2GRAY, CV_8U);
//apply perspective
rotateImage(processedFrame, gray, eulerFromSensors.roll, eulerFromSensors.pitch, 0, 0, 0, 1, cameraMatrix.at<double>(0, 0),
cameraMatrix.at<double>(0, 2), cameraMatrix.at<double>(1, 2));
if (!prevgray.empty())
{
#ifdef VIDEO_ACTIVE
// show camera view
imshow("flow", prevgray);
#endif
// calculate flow per section - each section in different thread
topLeft.frameSection = UMat(gray, Range(0.2*HEIGHT_RES, HEIGHT_RES*0.55), Range(0.2*WIDTH_RES, WIDTH_RES*0.55));
topLeft.prevFrameSection = UMat(prevgray, Range(0.2*HEIGHT_RES, HEIGHT_RES*0.55), Range(0.2*WIDTH_RES, WIDTH_RES*0.55));
topLeft.index = 0;
topLeft.grid = globalGrid;
topRight.frameSection = UMat(gray, Range(0.2*HEIGHT_RES, HEIGHT_RES*0.55), Range(WIDTH_RES*0.45, WIDTH_RES*0.8));
topRight.prevFrameSection = UMat(prevgray, Range(0.2*HEIGHT_RES, HEIGHT_RES*0.55), Range(WIDTH_RES*0.45, WIDTH_RES*0.8));
topRight.index = 1;
topRight.grid = globalGrid;
bottomLeft.frameSection = UMat(gray, Range(0.45*HEIGHT_RES, HEIGHT_RES*0.8), Range(0.2*WIDTH_RES, WIDTH_RES*0.55));
bottomLeft.prevFrameSection = UMat(prevgray, Range(0.45*HEIGHT_RES, HEIGHT_RES*0.8), Range(0.2*WIDTH_RES, WIDTH_RES*0.55));
bottomLeft.index = 2;
bottomLeft.grid = globalGrid;
bottomRight.frameSection = UMat(gray, Range(0.45*HEIGHT_RES, HEIGHT_RES*0.8), Range(WIDTH_RES*0.45, WIDTH_RES*0.8));
bottomRight.prevFrameSection = UMat(prevgray, Range(0.45*HEIGHT_RES, HEIGHT_RES*0.8), Range(WIDTH_RES*0.45, WIDTH_RES*0.8));
bottomRight.index = 3;
bottomRight.grid = globalGrid;
if (!init)
cout << "initializing..." << endl;
run_OF_threads(topLeft, topRight, bottomLeft, bottomRight);
/*
pthread_create(&topLeft_thread, NULL, OpticalFlowPerSection, &topLeft);
pthread_create(&topRight_thread, NULL, OpticalFlowPerSection, &topRight);
pthread_create(&bottomLeft_thread, NULL, OpticalFlowPerSection, &bottomLeft);
pthread_create(&bottomRight_thread, NULL, OpticalFlowPerSection, &bottomRight);
pthread_join(topLeft_thread, NULL);
pthread_join(topRight_thread, NULL);
pthread_join(bottomLeft_thread, NULL);
pthread_join(bottomRight_thread, NULL);
*/
if (!init){
cout << "Go!" << endl;
//start clock
tic = chrono::steady_clock::now();
}
if (!(frame % 50))
cout << "frame: " << frame << " offset: " << offset << endl;
init = 1;
// merge the outputs
/*max*/
lastFlowStep.x = max(max(lastFlowStepSections[0].x, lastFlowStepSections[1].x) ,max( lastFlowStepSections[2].x, lastFlowStepSections[3].x));
lastFlowStep.y = max(max(lastFlowStepSections[0].y, lastFlowStepSections[1].y), max( lastFlowStepSections[2].y, lastFlowStepSections[3].y));
/*avg
lastFlowStep.x = (lastFlowStepSections[0].x + lastFlowStepSections[1].x + lastFlowStepSections[2].x + lastFlowStepSections[3].x) / 4;
lastFlowStep.y = (lastFlowStepSections[0].y + lastFlowStepSections[1].y + lastFlowStepSections[2].y + lastFlowStepSections[3].y) / 4;
*/
// calculate range of view - 2*tan(fov/2)*distance
#ifdef SONAR_ACTIVE
// currently dont take the median, take the last sample
// FOV_X = 63.65
// FOV_Y = 44.96
rovX = 2 * 0.6206305052 * 100 * distanceSonar*cos(eulerFromSensors.roll)*cos(eulerFromSensors.pitch);// 2 * tan(xfov/2) * dist(cm)
rovY = 2 * 0.4138046654 * 100 * distanceSonar*cos(eulerFromSensors.roll)*cos(eulerFromSensors.pitch);// 2 * tan(yfov/2) * dist(cm)
#else
double dist = 87 * (cos(eulerFromSensors.roll)*cos(eulerFromSensors.pitch)); // distance from surface in cm
rovX = 2 * 0.6206305052*dist; // 2 * tan(xfov/2) * dist
rovY = 2 * 0.4138046654*dist; // 2 * tan(yfov/2) * dist
#endif
// If euler speed changed - calculate and apply x,y prediction
if (eulerSpeedChanged.load())
{
eulerSpeedChanged.store(false);
// DeltaX = Delta_Pitch * (Wx / fov_x)
// DeltaY = Delta_Roll * (Wy / fox_y)
predLocation.x = ((eulerFromSensors.pitch - prevEulerFromSensors.pitch)*(180 / PI)*WIDTH_RES) / 63.65;
predLocation.y = ((eulerFromSensors.roll - prevEulerFromSensors.roll)*(180 / PI)*HEIGHT_RES) / 44.96;
//cout << "Sonar with factor: " << distanceSonar << endl;
// calculate final x, y location (apply prediction)
locationCorrectionAfterYaw.x = ((lastFlowStep.x - predLocation.x) / WIDTH_RES)*rovX;
locationCorrectionAfterYaw.y = ((lastFlowStep.y - predLocation.y) / HEIGHT_RES)*rovY;
#ifdef YAW_ACTIVE
// Correct direction using yaw
locationCorrectionAfterYaw = calculateNewLocationByYaw(locationCorrectionAfterYaw);
#endif
// Update current location
currLocation.x -= locationCorrectionAfterYaw.x;
currLocation.y += locationCorrectionAfterYaw.y;
// Update angle correction graph
tempX += lastFlowStep.x;
tempY += lastFlowStep.y;
#ifdef QT
w.AngleCorrectionUpdate(tempX, tempY, -predLocation.x, predLocation.y);
#endif
tempX = 0;
tempY = 0;
}
else{
// calculate final x, y location
locationCorrectionAfterYaw.x = (lastFlowStep.x / WIDTH_RES)*rovX;
locationCorrectionAfterYaw.y = (lastFlowStep.y / HEIGHT_RES)*rovY;
#ifdef YAW_ACTIVE
// Correct direction using yaw
locationCorrectionAfterYaw = calculateNewLocationByYaw(locationCorrectionAfterYaw);
#endif
// calculate final x, y location
currLocation.x -= locationCorrectionAfterYaw.x;
currLocation.y += locationCorrectionAfterYaw.y;
tempX += lastFlowStep.x;
tempY += lastFlowStep.y;
}
// Update Location Plot
#ifdef QT
w.UpdatePlot(currLocation.x, currLocation.y);
#endif
gyro_z_filter.push_n_calc(GyroFromSensors.z);
if (gyro_z_filter.avg > gyro_threshold){
alpha = 0.95;
//cout << "yaw detected " << gyro_z_filter.avg << endl;
}
else
alpha = 0.0;
filteredLocation.x = alpha * filteredLocation.x + (1 - alpha) * currLocation.x;
filteredLocation.y = alpha * filteredLocation.y + (1 - alpha) * currLocation.y;
//(*output)<< offset << "," << currLocation.x << "," << currLocation.y << endl;
//(*output) << offset << "," << filteredLocation.x << "," << filteredLocation.y << endl;
x.push_back(filteredLocation.x);
y.push_back(filteredLocation.y);
time.push_back(offset);
}
/*break conditions
if(waitKey(1)>=0)
break;
if(end_run)
break;
*/
std::swap(prevgray, gray);
}
// close video
#ifdef VIDEO_ACTIVE
destroyWindow("flow");
#endif
//stop clock
toc = chrono::steady_clock::now();
//calc delta
delta = (chrono::duration_cast<chrono::milliseconds>(toc - tic).count());
cout << "total runtime - " << delta / 1000 << " seconds. \nActual test length - " << offset << endl;
vector<float>::iterator itr_x;
vector<float>::iterator itr_y;
vector<float>::iterator itr_time;
itr_x = x.begin();
itr_y = y.begin();
itr_time = time.begin();
for (; itr_x < x.end(); itr_x++){
(*output) << *itr_time << "," << *itr_x << "," << *itr_y << endl;
itr_y++;
itr_time++;
}
output->close();
return ;
}
| [
"Ofer Shahen Tov"
] | Ofer Shahen Tov |
0a194420def552ee4840e12d22f7ae9108426d35 | 5b012a1abe8dd49f97e1c8ec03ac1242d1e5f1fb | /PA10/include/object.h | 529e5a80f9ec33396f6e10da4a49da092a7fba0c | [] | no_license | kurtisrodrigue/CS480Rodrigue | 7c99e990419b460f4cf49f086e0019b99d75476c | e51f0fcac0488d5f8daf321141ebfd2106b44555 | refs/heads/master | 2020-03-27T11:59:56.135680 | 2018-11-16T08:16:50 | 2018-11-16T08:16:50 | 146,520,014 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 761 | h | #ifndef OBJECT_H
#define OBJECT_H
#include <vector>
#include "graphics_headers.h"
#include "Physics.h"
class PhysicsEngine;
class Object
{
friend class PhysicsEngine;
public:
Object();
Object(const char* obj, const char* tex, float siz);
~Object();
void Update(unsigned int dt);
void Render();
void Scale();
void LoadOBJ(const char* obj, const char* tex);
glm::mat4 GetModel();
private:
glm::mat4 model;
std::vector<Vertex> Vertices;
std::vector<unsigned int> Indices;
GLuint VB;
GLuint IB;
GLuint texture;
const aiScene* m_aiscene;
Magick::Blob m_blob;
PhysicsEngine *m_physics;
btCollisionShape *m_shape;
btRigidBody *m_rigidbody;
btVector3 scaling;
float size;
};
#endif /* OBJECT_H */
| [
"tmccrone@nevada.unr.edu"
] | tmccrone@nevada.unr.edu |
988645932ec6b35205f378098efc783cf03306e3 | 35c423b6f7ca5ca0f90a19b2b8bb1b8eb1a73e3d | /TaxesPlease/Messanger.h | 6ad0006166d682ff5c680cbaae19b5db268f77e3 | [] | no_license | GavinClarke/GameCraft2014TaxesPlease | 17d497b26895b02d8de56c2d31d8d36f9cbc2b00 | ac5ffc40d2508a3b6e8dbae3677ae3a23755841a | refs/heads/master | 2021-01-20T00:58:51.171141 | 2014-11-25T17:09:56 | 2014-11-25T17:09:56 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 393 | h | #pragma once
#include <SDL.h>
#include <SDL_ttf.h>
class Messanger
{
public:
Messanger(void);
~Messanger(void);
void render(SDL_Surface* screen);
void exit();
void setPosition(float x, float y);
void setText(std::String message);
private:
SDL_Surface* textSurface;
TTF_Font* font;
SDL_Rect textLocation;
std::String text;
SDL_Color foregroundColor;
SDL_Color backgroundColor;
};
| [
"ben-o-con@hotmail.com"
] | ben-o-con@hotmail.com |
c22fefc4de3ecd45e59853d3a56e93dc476a6a73 | 771a5f9d99fdd2431b8883cee39cf82d5e2c9b59 | /SDK/sailslivery_glitterbeard_01_CustomizationDesc_functions.cpp | cbd9aed04a4b3b7aae71766c9568d71dee5aa9e9 | [
"MIT"
] | permissive | zanzo420/Sea-Of-Thieves-SDK | 6305accd032cc95478ede67d28981e041c154dce | f56a0340eb33726c98fc53eb0678fa2d59aa8294 | refs/heads/master | 2023-03-25T22:25:21.800004 | 2021-03-20T00:51:04 | 2021-03-20T00:51:04 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 628 | cpp | // Name: SeaOfThieves, Version: 2.0.23
#include "../pch.h"
/*!!DEFINE!!*/
/*!!HELPER_DEF!!*/
/*!!HELPER_INC!!*/
#ifdef _MSC_VER
#pragma pack(push, 0x01)
#endif
namespace CG
{
//---------------------------------------------------------------------------
// Functions
//---------------------------------------------------------------------------
void Usailslivery_glitterbeard_01_CustomizationDesc_C::AfterRead()
{
UShipCustomizationDesc::AfterRead();
}
void Usailslivery_glitterbeard_01_CustomizationDesc_C::BeforeDelete()
{
UShipCustomizationDesc::BeforeDelete();
}
}
#ifdef _MSC_VER
#pragma pack(pop)
#endif
| [
"40242723+alxalx14@users.noreply.github.com"
] | 40242723+alxalx14@users.noreply.github.com |
13adc98d124b474f677fe8ff3bfaa40fc8057798 | 276e4af18052185685143ccaeb3d19dbe8f43dda | /samples/QMLLoggingSample/main.cpp | 71e03a398e5e7449d85ff816e9c05caacf7eb6f8 | [
"MIT"
] | permissive | KoWunnaKo/qmllogging | 8185eb4092e221b361eba133715696884c6e86c4 | 8bffc934e306f320aab44b8adabc8e7adba10276 | refs/heads/master | 2022-02-26T00:07:48.093845 | 2019-10-25T07:26:14 | 2019-10-25T07:26:14 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 489 | cpp | #include <QtGui/QGuiApplication>
#include "qtquick2applicationviewer.h"
#include "../../src/qmllogging.h"
_INITIALIZE_QMLLOGGING
int main(int argc, char *argv[])
{
QGuiApplication app(argc, argv);
_START_EASYLOGGINGPP(argc, argv);
QtQuick2ApplicationViewer viewer;
el::qml::QmlLogging::registerNew(viewer.rootContext());
viewer.setMainQmlFile(QStringLiteral("qml/QMLLoggingSample/main.qml"));
viewer.showExpanded();
return app.exec();
}
| [
"mkhan3189@gmail.com"
] | mkhan3189@gmail.com |
bc0c15229b590ec3f1cc58903245a98bbea0d67d | ed152d6b01a580555ffd3cb76cbf05261edb1686 | /TARI_GAMBYONG_BISMILLAH_08_06_2021_RE_ARDUINO/b_misi.ino | 5a53dc864b338e042f0ab8cf434ffbb2bafa7a43 | [] | no_license | hattafaiq/humanoid_opencm904_485_arduinomega | c5b52c2927977cbe21ecdbbdd1668e7a4f7779c4 | bf449514f2da30ca501a792eff3395bfe12abbc5 | refs/heads/master | 2023-06-12T03:09:06.156172 | 2021-06-30T10:23:48 | 2021-06-30T10:23:48 | 381,581,217 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 4,004 | ino |
void misi1(){
Serial.println("Misi1");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
pasang();
//TerimaData();
update_all();
if(step >2)break;
}
}
void misi2(){
Serial.println("Misi2");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
pembuka_emas();
// TerimaData();
update_all();
if(step >10)break;
}
}
void misi3(){
Serial.println("Misi3");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
cuci ();
// TerimaData();
update_all();
if(step >9)break;
}
}
void misi4(){
Serial.println("Misi4");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
atas1();
jalan_cepat_1();
//TerimaData();
update_all();
if(step>11)step=1;
if(step1>12)break;
}
}
void misi5(){
Serial.println("Misi5");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
atas2();
jalan_cepat_1();
//TerimaData();
update_all();
if(step>8)step=1;
if(step1>12)break;
}
}
void misi6(){
Serial.println("Misi6");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
atas3();
jalan_cepat_1();
//TerimaData();
update_all();
if(step>13)step=1;
if(step1>12)break;
}
}
void misi7(){
Serial.println("Misi7");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
atas4();
jalan_cepat_1();
//TerimaData();
update_all();
if(step>10)step=1;
if(step1>12)break;
}
}
void misi8(){
Serial.println("Misi8");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
beksan_1();
jalan_cepat_1();
//TerimaData();
update_all();
if(step>9)step=1;
if(step1>12)break;
}
}
void misi9(){
Serial.println("Misi9");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
beksan_3();
jalan_cepat_1();
//TerimaData();
update_all();
if(step>7)step=1;
if(step1>12)break;
}
}
void misi10(){
Serial.println("Misi10");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
beksan_3();
jalan_m();
//TerimaData();
update_all();
if(step>7)step=1;
if(step1>12)break;
}
}
void misi11(){
Serial.println("Misi11");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
beksan_3();
jalan();
//TerimaData();
update_all();
if(step>7)step=1;
if(step1>12)break;
}
}
void misi12(){
Serial.println("Misi12");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
variasi();
//TerimaData();
update_all();
if(step>6)break;
}
}
void misi13(){
Serial.println("Misi13");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
lepas();
//TerimaData();
update_all();
if(step >2)break;
}
}
void misi14(){
Serial.println("Misi14");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
beksan_2();
//TerimaData();
update_all();
if(step >6)break;
}
}
void misi15(){
Serial.println("Misi15");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
beksan_4();
//TerimaData();
update_all();
if(step >8)break;
}
}
void misi16(){
Serial.println("Misi16");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
beksan_5();
//TerimaData();
update_all();
if(step >12)break;
}
}
void misi17(){
Serial.println("Misi17");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
beksan();
//TerimaData();
update_all();
if(step >10)break;
}
}
void misi18(){
Serial.println("Misi17");
cnt1=1;
counter1=1;
step1=1;
cnt=1;
counter=1;
step=1;
while (1){
penutup();
//TerimaData();
update_all();
if(step >5)break;
}
}
| [
"hattafaiq@gmail.com"
] | hattafaiq@gmail.com |
d0a806f87c96ab608dbb18a0d8a47cabb8d92da3 | bec00f8dcb0bce89abedc404b7006433e1152ce5 | /Source/lexer.cpp | adbadd05f4a91911792c0521bb0245eca96436b0 | [] | no_license | HumMan/BaluScript | 6225f5c479b0f1730489e933db8e81671d97e373 | 19cc50bf069acba763762f43b5e1a456f67aee22 | refs/heads/master | 2020-05-21T13:49:46.743921 | 2020-04-09T12:00:40 | 2020-04-09T12:00:40 | 6,457,341 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 24,603 | cpp | #include "lexer.h"
#include "BytecodeBaseOps/Op.h"
#include <math.h>
#include <stdarg.h>
#include <string>
#include <assert.h>
#include <vector>
#if defined(WIN32)||defined(_WIN32)
#else
#include <string.h>
template<typename... Args>
int _snprintf_s(char* buf, int len, const char* value, Args... args)
{
return snprintf(buf, len, value, args...);
}
template<typename... Args>
int _vsnprintf_s(char* buf, int len, const char* value, Args... args)
{
return vsnprintf(buf, len, value, args...);
}
void strncpy_s(
char *strDest,
size_t numberOfElements,
const char *strSource,
size_t count)
{
strcpy(strDest, strSource);
}
#define sprintf_s sprintf
#endif
template<class T, int block_size>
class TLexerAllocator
{
private:
class TBlock
{
public:
T values[block_size];
TBlock* prev;
};
int count;
TBlock* end;
#ifdef _DEBUG
int total_count;
#endif
public:
TLexerAllocator() :count(0), end(nullptr)
#ifdef _DEBUG
, total_count(0)
#endif
{}
~TLexerAllocator()
{
TBlock* curr = end;
while (curr != nullptr)
{
TBlock* temp = curr;
curr = curr->prev;
delete temp;
}
}
T* New()
{
if (end != nullptr)
{
if (count == block_size)
{
TBlock* b = new TBlock();
count = 0;
b->prev = end;
end = b;
}
}
else
{
end = new TBlock();
count = 0;
end->prev = nullptr;
}
#ifdef _DEBUG
total_count++;
#endif
return &end->values[count++];
}
};
template<class TKey, class TExtKey, class TData, int hash_bits_count = 8>
class THash
{
private:
enum
{
table_size = 1 << hash_bits_count
};
class TNode
{
public:
TKey key;
TData data;
TNode* next;
};
TNode* table[table_size];
TLexerAllocator<TNode, 255> nodes;
public:
THash()
{
for (size_t i = 0; i < table_size; i++)
table[i] = nullptr;
}
bool Find(int use_hash, TExtKey use_key, TKey* &key, TData* &data)
{
assert(use_hash >= 0 && use_hash < table_size);
if (table[use_hash] != nullptr)
{
TNode* curr = table[use_hash];
do
{
if (curr->key == use_key)
{
data = &curr->data;
key = &curr->key;
return true;
}
curr = curr->next;
} while (curr != nullptr);
}
return false;
}
bool Add(int use_hash, TExtKey use_key, TData use_data, TKey* &key, TData* &data)
//use_hash - хеш для доступа к таблице
//use_key - ключевое поле для сравнений в ¤чейке таблицы
//use_data - данные которые будут добавлены если ключ отсутствует
//key - указатель на уже имеющееся ключевое поле
//data - указатель на уже имеющиеся данные
//return: true - данные добавлены; false - данные уже имеются
{
assert(use_hash >= 0 && use_hash < table_size);
TNode* curr = table[use_hash];
TNode* last = nullptr;
if (curr != nullptr)
{
do{
last = curr;
if (curr->key == use_key)
{
data = &curr->data;
key = &curr->key;
return false;
}
curr = curr->next;
} while (curr != nullptr);
}
TNode* node = nodes.New();
node->key = use_key;
node->data = use_data;
node->next = nullptr;
if (table[use_hash] == nullptr)
table[use_hash] = node;
else
last->next = node;
key = &node->key;
data = &node->data;
return true;
}
bool Add(TExtKey use_key, TData use_data)
{
TKey* key;
TData* data;
return Add(GetHash(use_key), use_key, use_data, key, data);
}
int GetHash(const char* str)
{
assert(hash_bits_count >= 1 && hash_bits_count <= 16);
unsigned char h1, h2;
int h;
assert(str != nullptr);
h1 = *str;
if (hash_bits_count > 8)
h2 = *str + 1;
str++;
while (*str)
{
h1 = h1 ^ *str;
if (hash_bits_count > 8)
h2 = h2 ^ *str;
str++;
}
if (hash_bits_count > 8)
h = int(h1 << 8) | int(h2);
else
h = h1;
return h % table_size;
}
};
namespace Lexer
{
class TToken
{
public:
TTokenType type;
short token;
union
{
int int_attrib;
float float_attrib;
int identifier;
};
int line, col;
TToken() {}
TToken(TTokenType use_type) :type(use_type) {}
TToken(TTokenType use_type, short use_token) :type(use_type), token(use_token) {}
TToken(TTokenType use_type, short use_token, int use_att) :type(use_type), token(use_token), int_attrib(use_att) {}
TToken(TTokenType use_type, short use_token, float use_att) :type(use_type), token(use_token), float_attrib(use_att) {}
TToken(TTokenType use_type, short use_token, TNameId use_identifier)
:type(use_type), token(use_token), identifier(use_identifier.GetId()) {}
void SetLineCol(int use_line, int use_col)
{
line = use_line;
col = use_col;
}
bool operator==(const TToken& v)const
{
return type == v.type&&token == v.token;
}
};
class TLexerPrivate : public ILexer
{
public:
THash<std::string, const char*, int, 16> ids_table;
THash<std::string, const char*, int, 16> string_literals_table;
THash<std::string, const char*, TToken, 8> res_words;
int curr_unique_id;
std::vector<std::string*> ids;
const char* source;
const char* curr_char;
int col;
int line;
char c;
std::vector<TToken> tokens;
int curr_token;
inline void NextChar()
{
c = *(++curr_char);
col++;
}
TNameId AddIdentifier(const char* use_name)
{
int hash = ids_table.GetHash(use_name);
int* d;
std::string* key;
if (ids_table.Add(hash, use_name, curr_unique_id, key, d))
{
ids.push_back(key);
#ifdef _DEBUG
curr_unique_id++;
return TNameId(curr_unique_id - 1, ids[curr_unique_id - 1]);
}
return TNameId(*d, ids[*d]);
#else
return TNameId(curr_unique_id++);
}
return TNameId(*d);
#endif
}
TLexerPrivate();
bool IsPrevTokenNotId();
int GetCurrentToken();
void ParseSource(const char* use_source);
void Error(const char* s, int token_id = -1, va_list args = nullptr);
void SetCurrentToken(int use_curr_token);
TNameId NameId();
//TODO не должно использоваться, только через lexer по name_id (т.к. много одинаковых)
std::string StringValue();
TNameId String();
float Float();
int Int();
bool Bool();
char Char();
int GetAttrib();//используется в байткоде чтобы не делать лишних приведений типа
std::string GetNameFromId(TNameId use_id);
TNameId GetIdFromName(const char* use_name);
TTokenType Type();
int Token();
bool Test(TTokenType type);
bool Test(TTokenType type, int token);
bool TestAndGet(TTokenType type, int token);
bool TestAndGet(TTokenType type);
void TestToken(TTokenType type, int token);
void TestToken(TTokenType type);
void GetToken(TTokenType type, int token);
void GetToken(TTokenType type);
void GetToken();
};
int TLexerPrivate::GetCurrentToken()
{
return curr_token;
}
void TLexerPrivate::Error(const char* s, int token_id, va_list args)
{
const int err_head_length = 600;
const int err_length = 500;
char err_head[err_head_length + 1];
char err[err_length + 1];
if (_vsnprintf_s(err, err_length, s, args) < 0)
err[err_length] = '\0';
if (token_id == -1)token_id = curr_token;
if (_snprintf_s(err_head, err_head_length, "Ошибка (строка %i символ %i): %s\n", tokens[token_id].line, tokens[token_id].col, err) < 0)
err_head[err_head_length] = '\0';
throw std::string(err_head);
}
void TLexerPrivate::SetCurrentToken(int use_curr_token)
{
curr_token = use_curr_token;
}
TNameId TLexerPrivate::NameId()
{
if (!(tokens[curr_token].type == TTokenType::Identifier))
Error("Ожидался идентификатор!");
#ifdef _DEBUG
return TNameId(tokens[curr_token].identifier, ids[tokens[curr_token].identifier]);
#else
return tokens[curr_token].identifier;
#endif
}
//TODO не должно использоваться, только через lexer по name_id (т.к. много одинаковых)
std::string TLexerPrivate::StringValue()
{
if (!(tokens[curr_token].type == TTokenType::Value && tokens[curr_token].token == (short)TValue::String))
Error("Ожидалась строковая константа!");
return std::string(*ids[tokens[curr_token].identifier]);
}
TNameId TLexerPrivate::String()
{
if (!(tokens[curr_token].type == TTokenType::Value&&tokens[curr_token].token == (short)TValue::String))
Error("Ожидалась строковая константа!");
#ifdef _DEBUG
return TNameId(tokens[curr_token].identifier, ids[tokens[curr_token].identifier]);
#else
return tokens[curr_token].identifier;
#endif
}
float TLexerPrivate::Float()
{
if (!(tokens[curr_token].type == TTokenType::Value&&tokens[curr_token].token == (short)TValue::Float))
Error("Ожидалось действительное число!");
return tokens[curr_token].float_attrib;
}
int TLexerPrivate::Int()
{
if (!(tokens[curr_token].type == TTokenType::Value&&tokens[curr_token].token == (short)TValue::Int))
Error("Ожидалось целое число!");
return tokens[curr_token].int_attrib;
}
bool TLexerPrivate::Bool()
{
//TODO возможно лишние проверки
if (!(tokens[curr_token].type == TTokenType::Value&&tokens[curr_token].token == (short)TValue::Bool))
Error("Ожидалась булева константа!");
return tokens[curr_token].int_attrib != 0;
}
char TLexerPrivate::Char()
{
if (!(tokens[curr_token].type == TTokenType::Value&&tokens[curr_token].token == (short)TValue::Char))
Error("Ожидалась символьная константа!");
return tokens[curr_token].int_attrib;
}
int TLexerPrivate::GetAttrib()//используетс¤ в байткоде чтобы не делать лишних приведений типа
{
if (!(tokens[curr_token].type == TTokenType::Value &&
(tokens[curr_token].token == (short)TValue::Bool ||
tokens[curr_token].token == (short)TValue::Int ||
tokens[curr_token].token == (short)TValue::Float)))
Error("Ожидалось целая, булева или действительная константа!");
return tokens[curr_token].int_attrib;
}
std::string TLexerPrivate::GetNameFromId(TNameId use_id)
{
return *(ids[use_id.id]);
}
TNameId TLexerPrivate::GetIdFromName(const char* use_name)
{
return AddIdentifier(use_name);
}
TTokenType TLexerPrivate::Type()
{
return (TTokenType)tokens[curr_token].type;
}
int TLexerPrivate::Token()
{
return tokens[curr_token].token;
}
bool TLexerPrivate::Test(TTokenType type)
{
return tokens[curr_token].type == type;
}
bool TLexerPrivate::Test(TTokenType type, int token)
{
return tokens[curr_token].type == type&&tokens[curr_token].token == token;
}
bool TLexerPrivate::TestAndGet(TTokenType type, int token)
{
if (tokens[curr_token].type == type&&tokens[curr_token].token == token)
{
curr_token++;
return true;
}
else return false;
}
bool TLexerPrivate::TestAndGet(TTokenType type)
{
if (tokens[curr_token].type == type)
{
curr_token++;
return true;
}
else return false;
}
void TLexerPrivate::TestToken(TTokenType type, int token)
{
if (type != tokens[curr_token].type&&token == tokens[curr_token].token)
Error("Ожидался другой токен!");
}
void TLexerPrivate::TestToken(TTokenType type)
{
if (type != tokens[curr_token].type)Error("Ожидался другой токен!");
}
void TLexerPrivate::GetToken(TTokenType type, int token)
{
if (type == tokens[curr_token].type&&token == tokens[curr_token].token)
curr_token++;
else Error("Ожидался другой токен!");
}
void TLexerPrivate::GetToken(TTokenType type)
{
if (type == tokens[curr_token].type)
curr_token++;
else Error("Ожидался другой токен!");
}
void TLexerPrivate::GetToken()
{
curr_token++;
}
TLexerPrivate::TLexerPrivate()
{
source = nullptr;
curr_char = nullptr;
col = 1;
line = 1;
tokens.reserve(5000);
curr_token = 0;
tokens.resize(0);
curr_unique_id = 0;
res_words.Add("if", TToken(TTokenType::ResWord, (short)TResWord::If));
res_words.Add("else", TToken(TTokenType::ResWord, (short)TResWord::Else));
res_words.Add("for", TToken(TTokenType::ResWord, (short)TResWord::For));
res_words.Add("while", TToken(TTokenType::ResWord, (short)TResWord::While));
res_words.Add("class", TToken(TTokenType::ResWord, (short)TResWord::Class));
res_words.Add("enum", TToken(TTokenType::ResWord, (short)TResWord::Enum));
res_words.Add("sealed", TToken(TTokenType::ResWord, (short)TResWord::Sealed));
res_words.Add("return", TToken(TTokenType::ResWord, (short)TResWord::Return));
res_words.Add("multifield", TToken(TTokenType::ResWord, (short)TResWord::Multifield));
res_words.Add("new", TToken(TTokenType::ResWord, (short)TResWord::New));
res_words.Add("true", TToken(TTokenType::Value, (short)TValue::Bool, 1));
res_words.Add("false", TToken(TTokenType::Value, (short)TValue::Bool, 0));
res_words.Add("static", TToken(TTokenType::ResWord, (short)TResWord::Static));
res_words.Add("extern", TToken(TTokenType::ResWord, (short)TResWord::Extern));
res_words.Add("private", TToken(TTokenType::ResWord, (short)TResWord::Private));
res_words.Add("public", TToken(TTokenType::ResWord, (short)TResWord::Public));
res_words.Add("readonly", TToken(TTokenType::ResWord, (short)TResWord::Readonly));
res_words.Add("this", TToken(TTokenType::ResWord, (short)TResWord::This));
res_words.Add("bytecode", TToken(TTokenType::ResWord, (short)TResWord::Bytecode));
res_words.Add("var", TToken(TTokenType::ResWord, (short)TResWord::Var));
res_words.Add("func", TToken(TTokenType::ResWord, (short)TResWord::Func));
res_words.Add("default", TToken(TTokenType::ResWord, (short)TResWord::Default));
res_words.Add("copy", TToken(TTokenType::ResWord, (short)TResWord::Copy));
res_words.Add("destr", TToken(TTokenType::ResWord, (short)TResWord::Destr));
res_words.Add("operator", TToken(TTokenType::ResWord, (short)TResWord::Operator));
res_words.Add("conversion", TToken(TTokenType::ResWord, (short)TResWord::Conversion));
for (size_t i = 1; i < TOpcode::OP_END; i++)
res_words.Add(GetBytecodeString((TOpcode::Enum)i), TToken(TTokenType::Bytecode, (TOpcode::Enum)i));
}
//используется при проверке унарных операторов,
//перед унарным оператором может быть всё кроме:
//ResWord Value Identifier RBracketRParenthRBrace Vertical Question Ampersand Dot
bool TLexerPrivate::IsPrevTokenNotId()
{
TTokenType prev = (TTokenType)(tokens.size() > 0 ? (short)tokens.back().type : -1);
return (
prev == TTokenType::ResWord ||
prev == TTokenType::Operator ||
prev == TTokenType::Comma ||
prev == TTokenType::Semicolon ||
prev == TTokenType::Colon ||
prev == TTokenType::LParenth ||
prev == TTokenType::LBrace ||
prev == TTokenType::LBracket);
}
void TLexerPrivate::ParseSource(const char* use_source)
{
source = use_source;
curr_char = source;
col = 1;
line = 1;
c = *curr_char;
int token_col = col;
int token_line = line;
std::vector<char> id_buf;
id_buf.reserve(128);
while (c != '\0')
{
if (c == ' ' || c == '\t' || c == 13) {
NextChar();
token_col = col;
token_line = line;
}
else if (c == '/'&&curr_char[1] == '/')
{
while (c != '\n'&&c != '\0')NextChar();
}
else if (c == 10)
{
NextChar(); line++; col = 1;
token_col = col;
token_line = line;
}
else if (isdigit(c))
{
bool is_int = (c != '.');
double val = c - '0';
NextChar();
while (isdigit(c))
{
val *= 10;
val += c - '0';
NextChar();
}
if (c == '.')
{
is_int = false;
double temp = 10.0;
NextChar();
if (!isdigit(c))Error("Ошибка в числовой константе!");
while (isdigit(c))
{
val += (c - '0') / temp;
temp *= 10.0;
NextChar();
};
}
if (c == 'E' || c == 'e')
{
double epow = 0.0;
NextChar();
if (c == '+') { NextChar(); }
else if (c == '-') { NextChar(); }
else if (!isdigit(c))Error("Ошибка в числовой константе!");
epow = c - '0';
NextChar();
while (isdigit(c))
{
epow *= 10;
epow += c - '0';
NextChar();
};
val = pow(val, epow);
is_int = (floor(epow) == epow);
}
if (is_int)tokens.push_back(TToken(TTokenType::Value, (short)TValue::Int, int(val)));
else tokens.push_back(TToken(TTokenType::Value, (short)TValue::Float, float(val)));
tokens.back().SetLineCol(token_line, token_col);
}
else if (isalpha(c) || c == '_')
{
int chars_count = 0;
while (isalnum(c) || c == '_')
{
NextChar(); chars_count++;
}
id_buf.resize(chars_count + 1);
strncpy_s(&id_buf[0], chars_count + 1, (char*)(curr_char - chars_count), chars_count);
id_buf[chars_count] = '\0';
std::string* key;
TToken* data;
if (res_words.Find(res_words.GetHash(&id_buf[0]), &id_buf[0], key, data))
tokens.push_back(*data);
else
tokens.push_back(TToken(TTokenType::Identifier, -1, AddIdentifier(&id_buf[0])));
tokens.back().SetLineCol(token_line, token_col);
}
else if (c == '"')
{
int chars_count = 0;
NextChar();
while (c != '"')
{
if (c == '\0')Error("Конец файла в константе!");
if (c == '\n')Error("Символ новой строки в константе!");
if (c == '\\' && (*(char*)(curr_char + 1)) == '"') {
NextChar(); chars_count++;
}
NextChar(); chars_count++;
}
id_buf.resize(chars_count + 1);
char* currh = (char*)(curr_char - chars_count);
int t = 0;
while (currh < curr_char)
{
if (*currh == '\\')
{
currh++;
switch (*currh)
{
case 'n':id_buf[t] = '\n'; break;
case 't':id_buf[t] = '\t'; break;
case '\\':id_buf[t] = '\\'; break;
case '"':id_buf[t] = '"'; break;
default:Error("Неизвестный символ в строке!");
}
}
else id_buf[t] = *currh;
currh++;
t++;
}
id_buf[t] = '\0';
NextChar();
tokens.push_back(TToken(TTokenType::Value, (short)TValue::String, AddIdentifier(&id_buf[0])));
tokens.back().SetLineCol(token_line, token_col);
}
else if (c == '\'')
{
NextChar();
{
if (c == '\0')Error("Конец файла в константе!");
if (c == '\n')Error("Символ новой строки в константе!");
}
char result;
if (c == '\\')
{
NextChar();
switch (c)
{
case 'n':result = '\n'; break;
case 't':result = '\t'; break;
case '\\':result = '\\'; break;
case '\'':result = '\''; break;
default:Error("Неизвестный символ!");
}
}
else result = c;
NextChar();
if (c != '\'')Error("Символьное значение должно состоять из одного символа!");
NextChar();
tokens.push_back(TToken(TTokenType::Value, (short)TValue::Char, result));
tokens.back().SetLineCol(token_line, token_col);
}
else
{
switch (c)
{
case '"':break;
case '&':
NextChar();
if (c == '&')
{
NextChar();
if (c == '=')
{
NextChar();
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::AndA));
}
else tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::And));
}
else tokens.push_back(TToken(TTokenType::Ampersand));
break;
case '|':
NextChar();
if (c == '|') {
NextChar();
if (c == '=') {
NextChar();
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::OrA));
}
else tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Or));
}
else tokens.push_back(TToken(TTokenType::Vertical));
break;
case '+':
NextChar();
if (c == '=')
{
NextChar();
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::PlusA));
}
else if (c == '+')
{
NextChar();
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Increment));
}
else
{
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Plus));
}
break;
case '-':
NextChar();
if (c == '=')
{
NextChar();
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::MinusA));
}
else if (c == '-')
{
NextChar();
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Decrement));
}
else
{
if (IsPrevTokenNotId())
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::UnaryMinus));
else if (c == '>')
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::GetByReference));
else
tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Minus));
}
break;
case '*':NextChar(); if (c == '=') { NextChar(); tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::MulA)); }
else tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Mul));
break;
case '/':NextChar(); if (c == '=') { NextChar(); tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::DivA)); }
else tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Div));
break;
case '%':NextChar(); if (c == '=') { NextChar(); tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::PercentA)); }
else tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Percent));
break;
case '<':NextChar(); if (c == '=') { NextChar(); tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::LessEqual)); }
else tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Less));
break;
case '=':NextChar(); if (c == '=') { NextChar(); tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Equal)); }
else tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Assign));
break;
case '!':NextChar(); if (c == '=') { NextChar(); tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::NotEqual)); }
else tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Not));
break;
case '>':NextChar(); if (c == '=') { NextChar(); tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::GreaterEqual)); }
else tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::Greater));
break;
case '[':NextChar(); if (c == ']') { NextChar(); tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::GetArrayElement)); }
else tokens.push_back(TToken(TTokenType::LBracket));
break;
case ']':NextChar(); tokens.push_back(TToken(TTokenType::RBracket));
break;
case '(':NextChar(); if (c == ')') { NextChar(); tokens.push_back(TToken(TTokenType::Operator, (short)TOperator::ParamsCall)); }
else tokens.push_back(TToken(TTokenType::LParenth));
break;
case ')':NextChar(); tokens.push_back(TToken(TTokenType::RParenth));
break;
case '{':NextChar(); tokens.push_back(TToken(TTokenType::LBrace));
break;
case '}':NextChar(); tokens.push_back(TToken(TTokenType::RBrace));
break;
case ';':NextChar(); tokens.push_back(TToken(TTokenType::Semicolon));
break;
case ':':NextChar(); tokens.push_back(TToken(TTokenType::Colon));
break;
case '?':NextChar(); tokens.push_back(TToken(TTokenType::Question));
break;
case ',':NextChar(); tokens.push_back(TToken(TTokenType::Comma));
break;
case '.':NextChar(); tokens.push_back(TToken(TTokenType::Dot));
break;
default:
Error("Неизвестный идентификатор!");
}
tokens.back().SetLineCol(token_line, token_col);
}
}
tokens.push_back(TToken(TTokenType::Done));
source = nullptr;
curr_char = nullptr;
}
void TTokenPos::InitPos(ILexer* use_source)
{
assert(source == nullptr);
source = use_source;
token_id = use_source->GetCurrentToken();
}
ILexer* TTokenPos::GetLexer()const
{
return source;
}
void TTokenPos::Error(const char* s, ...)const
{
va_list args;
va_start(args, s);
source->Error(s, token_id, args);
}
ILexer* ILexer::Create()
{
return new TLexerPrivate();
}
} | [
"kop3nha@gmail.com"
] | kop3nha@gmail.com |
83a14ace3cdaa46a1121b0df3ab4b873e9634cf5 | 711e5c8b643dd2a93fbcbada982d7ad489fb0169 | /XPSP1/NT/inetsrv/iis/svcs/nntp/server/server/sortlist.h | 7b876df6041d995ae0162750f9a89454ac167443 | [] | no_license | aurantst/windows-XP-SP1 | 629a7763c082fd04d3b881e0d32a1cfbd523b5ce | d521b6360fcff4294ae6c5651c539f1b9a6cbb49 | refs/heads/master | 2023-03-21T01:08:39.870106 | 2020-09-28T08:10:11 | 2020-09-28T08:10:11 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 5,079 | h | //
// sortlist.h
//
// This file contains stuff for building sorted lists. The classes defined
// here are templated in which the user can specify his own key and
// data element. It is assumed by the templates that an element can
// be copied using CopyMemory() or MoveMemory().
//
// Implementation Schedule for all classed defined by this file :
//
// 0.5 week
//
//
// Unit Test Schedule for all classes defined by this file :
//
// 0.5 week
//
// Unit Testing will consist of the following :
//
// Build a standalone executable that uses these templates to build
// a sorted list. This executable should do the following :
// Create a list and insert elements in sorted order
// Create a list and insert elements in reverse sorted order
// Create a list and insert elements in random order
// Search for every element inserted in each list.
// Search for elements not in the list.
//
//
#ifndef _SORTLIST_H_
#define _SORTLIST_H_
#include "smartptr.h"
/*
The following defines the interface the classes used
with the template must support :
class Data {
public :
Data() ;
Key& GetKey( ) ;
} ;
class Key {
public :
BOOL operator < ( Key& ) ;
BOOL operator== ( Key& ) ;
BOOL operator > ( Key& ) ;
} ;
*/
//----------------------------------------------------------------------
template< class Data, class Key >
class CList : public CRefCount {
//
// Template class CList -
// This template will maintain a sorted array of elements.
// This will be an array of type Data (not Data*).
// We will keep track of three things :
// a pointer to the array.
// The Number of elements in use in the array.
// The total number of elements in the array.
//
// This class is derived from CRefCount and can be used with Smart Pointers.
//
// This Insert function of this class is not Multi-thread safe. All other
// functions are.
//
private :
friend class CListIterator< Data, Key > ;
Data* m_pData ; // Array of Data objects
int m_cData ; // Number of Data objects we are using in the array
int m_cLimit ; // Total Number of Data objects in the array. The
// last m_cLimit-m_cData objects are initialized with the
// default constructor and do not take place in any
// searches.
//
// Private functions used to manage the size of the array.
//
BOOL Grow( int cGrowth ) ;
BOOL Shrink( int cGap ) ;
int Search( Key&, BOOL& ) ;
public :
//
// Because we want to be smart pointer enabled we have very
// simple constructors.
//
CList( ) ;
~CList( ) ;
//
// Initialization functions
//
BOOL Init( int limit ) ; // Specify initial size,
// no elements in the list
BOOL Init( Data *p, int cData ) ; // Specify an initial array
// of elements which we will copy.
BOOL IsValid() ; // Test validity of this class
BOOL Insert( Data& entry ) ;
BOOL Search( Key&, Data& ) ;
BOOL Remove( Key&, Data& ) ;
} ;
#include "sortlist.inl"
//-----------------------------------------------------------------------
template< class Data, class Key >
//
// Template class CListIterator -
//
// This class is used by people who wish to enumerate a sorted list.
//
// We will either enumerate everything in the list, or upon
// Initialization the user will specify a key, and we will enumerate
// everything following that key.
//
// This class is not intended to be multithread safe. If two threads
// wish to enumerate the same list they should create different CListIterator
// objects.
//
//
class CListIterator {
public :
typedef CList< Data, Key > TARGETLIST ;
private :
CRefPtr< TARGETLIST > m_pList ; // Smart pointer to original list
int m_index ; // current position
int m_begin ; // begin of the range we are enuming
int m_end ; // end of the range we are enuming
public :
//
// Simple Constructor and Destructor.
//
CListIterator( ) ;
~CListIterator( ) ;
//
// Initialization functions. User may specify an initial key
// if they wish to enumerate only things larger than the key.
//
BOOL Init( TARGETLIST *p ) ;
BOOL Init( TARGETLIST *p, Key k ) ;
//
// Worker functions.
// These functions use m_index, m_begin and m_end to move through the list.
//
Data Next( ) ;
Data Prev( ) ;
BOOL IsEnd( ) ;
BOOL IsBegin( ) ;
} ;
#include "iterator.inl"
#endif // _SORTLIST_H_ | [
"112426112@qq.com"
] | 112426112@qq.com |
1459ff685f8edfce9d3e6246181a4e28fa689fd7 | 889baec0b031921e7ebf74a46ce7789dcba9826b | /Source/EasyCombatExample/EasyCombatExampleCharacter.cpp | b68373dac47212a4260b2e6fa00a8481c377b526 | [] | no_license | Reetro/Easy-Combat-Text | 307e23647c9651a57c49d819c67e5a290dfabac7 | 8ce2f8b58bdda410b85791ed8fc9a8e9b7bd383a | refs/heads/master | 2021-05-17T04:14:10.539719 | 2021-02-27T23:31:05 | 2021-02-27T23:31:05 | 250,617,022 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 11,212 | cpp | // Copyright 1998-2019 Epic Games, Inc. All Rights Reserved.
#include "EasyCombatExampleCharacter.h"
#include "EasyCombatExampleProjectile.h"
#include "Animation/AnimInstance.h"
#include "Camera/CameraComponent.h"
#include "Components/CapsuleComponent.h"
#include "Components/InputComponent.h"
#include "GameFramework/InputSettings.h"
#include "HeadMountedDisplayFunctionLibrary.h"
#include "Kismet/GameplayStatics.h"
#include "MotionControllerComponent.h"
#include "XRMotionControllerBase.h" // for FXRMotionControllerBase::RightHandSourceId
DEFINE_LOG_CATEGORY_STATIC(LogFPChar, Warning, All);
//////////////////////////////////////////////////////////////////////////
// AEasyCombatExampleCharacter
AEasyCombatExampleCharacter::AEasyCombatExampleCharacter()
{
// Set size for collision capsule
GetCapsuleComponent()->InitCapsuleSize(55.f, 96.0f);
// set our turn rates for input
BaseTurnRate = 45.f;
BaseLookUpRate = 45.f;
// Create a CameraComponent
FirstPersonCameraComponent = CreateDefaultSubobject<UCameraComponent>(TEXT("FirstPersonCamera"));
FirstPersonCameraComponent->SetupAttachment(GetCapsuleComponent());
FirstPersonCameraComponent->SetRelativeLocation(FVector(-39.56f, 1.75f, 64.f)); // Position the camera
FirstPersonCameraComponent->bUsePawnControlRotation = true;
// Create a mesh component that will be used when being viewed from a '1st person' view (when controlling this pawn)
Mesh1P = CreateDefaultSubobject<USkeletalMeshComponent>(TEXT("CharacterMesh1P"));
Mesh1P->SetOnlyOwnerSee(true);
Mesh1P->SetupAttachment(FirstPersonCameraComponent);
Mesh1P->bCastDynamicShadow = false;
Mesh1P->CastShadow = false;
Mesh1P->SetRelativeRotation(FRotator(1.9f, -19.19f, 5.2f));
Mesh1P->SetRelativeLocation(FVector(-0.5f, -4.4f, -155.7f));
// Create a gun mesh component
FP_Gun = CreateDefaultSubobject<USkeletalMeshComponent>(TEXT("FP_Gun"));
FP_Gun->SetOnlyOwnerSee(true); // only the owning player will see this mesh
FP_Gun->bCastDynamicShadow = false;
FP_Gun->CastShadow = false;
// FP_Gun->SetupAttachment(Mesh1P, TEXT("GripPoint"));
FP_Gun->SetupAttachment(RootComponent);
FP_MuzzleLocation = CreateDefaultSubobject<USceneComponent>(TEXT("MuzzleLocation"));
FP_MuzzleLocation->SetupAttachment(FP_Gun);
FP_MuzzleLocation->SetRelativeLocation(FVector(0.2f, 48.4f, -10.6f));
// Default offset from the character location for projectiles to spawn
GunOffset = FVector(100.0f, 0.0f, 10.0f);
// Note: The ProjectileClass and the skeletal mesh/anim blueprints for Mesh1P, FP_Gun, and VR_Gun
// are set in the derived blueprint asset named MyCharacter to avoid direct content references in C++.
// Create VR Controllers.
R_MotionController = CreateDefaultSubobject<UMotionControllerComponent>(TEXT("R_MotionController"));
R_MotionController->MotionSource = FXRMotionControllerBase::RightHandSourceId;
R_MotionController->SetupAttachment(RootComponent);
L_MotionController = CreateDefaultSubobject<UMotionControllerComponent>(TEXT("L_MotionController"));
L_MotionController->SetupAttachment(RootComponent);
// Create a gun and attach it to the right-hand VR controller.
// Create a gun mesh component
VR_Gun = CreateDefaultSubobject<USkeletalMeshComponent>(TEXT("VR_Gun"));
VR_Gun->SetOnlyOwnerSee(true); // only the owning player will see this mesh
VR_Gun->bCastDynamicShadow = false;
VR_Gun->CastShadow = false;
VR_Gun->SetupAttachment(R_MotionController);
VR_Gun->SetRelativeRotation(FRotator(0.0f, -90.0f, 0.0f));
VR_MuzzleLocation = CreateDefaultSubobject<USceneComponent>(TEXT("VR_MuzzleLocation"));
VR_MuzzleLocation->SetupAttachment(VR_Gun);
VR_MuzzleLocation->SetRelativeLocation(FVector(0.000004, 53.999992, 10.000000));
VR_MuzzleLocation->SetRelativeRotation(FRotator(0.0f, 90.0f, 0.0f)); // Counteract the rotation of the VR gun model.
// Uncomment the following line to turn motion controllers on by default:
//bUsingMotionControllers = true;
}
void AEasyCombatExampleCharacter::BeginPlay()
{
// Call the base class
Super::BeginPlay();
//Attach gun mesh component to Skeleton, doing it here because the skeleton is not yet created in the constructor
FP_Gun->AttachToComponent(Mesh1P, FAttachmentTransformRules(EAttachmentRule::SnapToTarget, true), TEXT("GripPoint"));
// Show or hide the two versions of the gun based on whether or not we're using motion controllers.
if (bUsingMotionControllers)
{
VR_Gun->SetHiddenInGame(false, true);
Mesh1P->SetHiddenInGame(true, true);
}
else
{
VR_Gun->SetHiddenInGame(true, true);
Mesh1P->SetHiddenInGame(false, true);
}
}
//////////////////////////////////////////////////////////////////////////
// Input
void AEasyCombatExampleCharacter::SetupPlayerInputComponent(class UInputComponent* PlayerInputComponent)
{
// set up gameplay key bindings
check(PlayerInputComponent);
// Bind jump events
PlayerInputComponent->BindAction("Jump", IE_Pressed, this, &ACharacter::Jump);
PlayerInputComponent->BindAction("Jump", IE_Released, this, &ACharacter::StopJumping);
// Bind fire event
PlayerInputComponent->BindAction("Fire", IE_Pressed, this, &AEasyCombatExampleCharacter::OnFire);
// Enable touchscreen input
EnableTouchscreenMovement(PlayerInputComponent);
PlayerInputComponent->BindAction("ResetVR", IE_Pressed, this, &AEasyCombatExampleCharacter::OnResetVR);
// Bind movement events
PlayerInputComponent->BindAxis("MoveForward", this, &AEasyCombatExampleCharacter::MoveForward);
PlayerInputComponent->BindAxis("MoveRight", this, &AEasyCombatExampleCharacter::MoveRight);
// We have 2 versions of the rotation bindings to handle different kinds of devices differently
// "turn" handles devices that provide an absolute delta, such as a mouse.
// "turnrate" is for devices that we choose to treat as a rate of change, such as an analog joystick
PlayerInputComponent->BindAxis("Turn", this, &APawn::AddControllerYawInput);
PlayerInputComponent->BindAxis("TurnRate", this, &AEasyCombatExampleCharacter::TurnAtRate);
PlayerInputComponent->BindAxis("LookUp", this, &APawn::AddControllerPitchInput);
PlayerInputComponent->BindAxis("LookUpRate", this, &AEasyCombatExampleCharacter::LookUpAtRate);
}
void AEasyCombatExampleCharacter::OnFire()
{
// try and fire a projectile
if (ProjectileClass != NULL)
{
UWorld* const World = GetWorld();
if (World != NULL)
{
if (bUsingMotionControllers)
{
const FRotator SpawnRotation = VR_MuzzleLocation->GetComponentRotation();
const FVector SpawnLocation = VR_MuzzleLocation->GetComponentLocation();
World->SpawnActor<AEasyCombatExampleProjectile>(ProjectileClass, SpawnLocation, SpawnRotation);
}
else
{
const FRotator SpawnRotation = GetControlRotation();
// MuzzleOffset is in camera space, so transform it to world space before offsetting from the character location to find the final muzzle position
const FVector SpawnLocation = ((FP_MuzzleLocation != nullptr) ? FP_MuzzleLocation->GetComponentLocation() : GetActorLocation()) + SpawnRotation.RotateVector(GunOffset);
//Set Spawn Collision Handling Override
FActorSpawnParameters ActorSpawnParams;
ActorSpawnParams.SpawnCollisionHandlingOverride = ESpawnActorCollisionHandlingMethod::AdjustIfPossibleButDontSpawnIfColliding;
// spawn the projectile at the muzzle
World->SpawnActor<AEasyCombatExampleProjectile>(ProjectileClass, SpawnLocation, SpawnRotation, ActorSpawnParams);
}
}
}
// try and play the sound if specified
if (FireSound != NULL)
{
UGameplayStatics::PlaySoundAtLocation(this, FireSound, GetActorLocation());
}
// try and play a firing animation if specified
if (FireAnimation != NULL)
{
// Get the animation object for the arms mesh
UAnimInstance* AnimInstance = Mesh1P->GetAnimInstance();
if (AnimInstance != NULL)
{
AnimInstance->Montage_Play(FireAnimation, 1.f);
}
}
}
void AEasyCombatExampleCharacter::OnResetVR()
{
UHeadMountedDisplayFunctionLibrary::ResetOrientationAndPosition();
}
void AEasyCombatExampleCharacter::BeginTouch(const ETouchIndex::Type FingerIndex, const FVector Location)
{
if (TouchItem.bIsPressed == true)
{
return;
}
if ((FingerIndex == TouchItem.FingerIndex) && (TouchItem.bMoved == false))
{
OnFire();
}
TouchItem.bIsPressed = true;
TouchItem.FingerIndex = FingerIndex;
TouchItem.Location = Location;
TouchItem.bMoved = false;
}
void AEasyCombatExampleCharacter::EndTouch(const ETouchIndex::Type FingerIndex, const FVector Location)
{
if (TouchItem.bIsPressed == false)
{
return;
}
TouchItem.bIsPressed = false;
}
//Commenting this section out to be consistent with FPS BP template.
//This allows the user to turn without using the right virtual joystick
//void AEasyCombatExampleCharacter::TouchUpdate(const ETouchIndex::Type FingerIndex, const FVector Location)
//{
// if ((TouchItem.bIsPressed == true) && (TouchItem.FingerIndex == FingerIndex))
// {
// if (TouchItem.bIsPressed)
// {
// if (GetWorld() != nullptr)
// {
// UGameViewportClient* ViewportClient = GetWorld()->GetGameViewport();
// if (ViewportClient != nullptr)
// {
// FVector MoveDelta = Location - TouchItem.Location;
// FVector2D ScreenSize;
// ViewportClient->GetViewportSize(ScreenSize);
// FVector2D ScaledDelta = FVector2D(MoveDelta.X, MoveDelta.Y) / ScreenSize;
// if (FMath::Abs(ScaledDelta.X) >= 4.0 / ScreenSize.X)
// {
// TouchItem.bMoved = true;
// float Value = ScaledDelta.X * BaseTurnRate;
// AddControllerYawInput(Value);
// }
// if (FMath::Abs(ScaledDelta.Y) >= 4.0 / ScreenSize.Y)
// {
// TouchItem.bMoved = true;
// float Value = ScaledDelta.Y * BaseTurnRate;
// AddControllerPitchInput(Value);
// }
// TouchItem.Location = Location;
// }
// TouchItem.Location = Location;
// }
// }
// }
//}
void AEasyCombatExampleCharacter::MoveForward(float Value)
{
if (Value != 0.0f)
{
// add movement in that direction
AddMovementInput(GetActorForwardVector(), Value);
}
}
void AEasyCombatExampleCharacter::MoveRight(float Value)
{
if (Value != 0.0f)
{
// add movement in that direction
AddMovementInput(GetActorRightVector(), Value);
}
}
void AEasyCombatExampleCharacter::TurnAtRate(float Rate)
{
// calculate delta for this frame from the rate information
AddControllerYawInput(Rate * BaseTurnRate * GetWorld()->GetDeltaSeconds());
}
void AEasyCombatExampleCharacter::LookUpAtRate(float Rate)
{
// calculate delta for this frame from the rate information
AddControllerPitchInput(Rate * BaseLookUpRate * GetWorld()->GetDeltaSeconds());
}
bool AEasyCombatExampleCharacter::EnableTouchscreenMovement(class UInputComponent* PlayerInputComponent)
{
if (FPlatformMisc::SupportsTouchInput() || GetDefault<UInputSettings>()->bUseMouseForTouch)
{
PlayerInputComponent->BindTouch(EInputEvent::IE_Pressed, this, &AEasyCombatExampleCharacter::BeginTouch);
PlayerInputComponent->BindTouch(EInputEvent::IE_Released, this, &AEasyCombatExampleCharacter::EndTouch);
//Commenting this out to be more consistent with FPS BP template.
//PlayerInputComponent->BindTouch(EInputEvent::IE_Repeat, this, &AEasyCombatExampleCharacter::TouchUpdate);
return true;
}
return false;
}
| [
"thegamerboy7@gmail.com"
] | thegamerboy7@gmail.com |
6c425f5e8a7f27c1f045f77d2d08ebaf86c35a9b | 1155db25858bad6393304d299126e7a9c83a265a | /src/where_provenance.cpp | 9dcc77bef8a78d409be916f04d0b927362e2cbe7 | [
"MIT"
] | permissive | PierreSenellart/provsql | 9532161f8e156e431c8c4aad8f9929b33138be4a | ba2bc36acf3c42730dd99db24cd811dc2babd858 | refs/heads/master | 2023-09-01T05:45:33.924955 | 2023-08-28T18:57:34 | 2023-08-28T18:57:34 | 63,842,171 | 38 | 13 | MIT | 2023-07-18T07:13:23 | 2016-07-21T06:15:04 | C++ | UTF-8 | C++ | false | false | 3,891 | cpp | extern "C" {
#include "postgres.h"
#include "fmgr.h"
#include "catalog/pg_type.h"
#include "utils/uuid.h"
#include "executor/spi.h"
#include "utils/builtins.h"
#include "provsql_shmem.h"
#include "provsql_utils.h"
PG_FUNCTION_INFO_V1(where_provenance);
}
#include <algorithm>
#include <utility>
#include <sstream>
#include "WhereCircuit.h"
#include "provsql_utils_cpp.h"
using namespace std;
static vector<pair<int,int> > parse_array(string s)
{
s=s.substr(1,s.size()-2); // Remove initial '{' and final '}'
vector<pair<int,int> > result;
istringstream iss(s);
string p;
while(getline(iss, p, '}'))
{
if(!p.empty() && p[0]==',')
p=p.substr(1);
int k=p.find(",",1);
string s1=p.substr(1,k-1);
int i1;
if(s1=="NULL")
i1=0;
else
i1=stoi(p.substr(1,k-1));
int i2=stoi(p.substr(k+1,p.size()-k));
result.push_back(make_pair(i1,i2));
}
return result;
}
static string where_provenance_internal
(Datum token)
{
Datum arguments[1]={token};
const constants_t constants = initialize_constants(true);
Oid argtypes[1]={constants.OID_TYPE_UUID};
char nulls[1] = {' '};
SPI_connect();
WhereCircuit c;
if(SPI_execute_with_args(
"SELECT * FROM provsql.sub_circuit_for_where($1)", 1, argtypes, arguments, nulls, true, 0)
== SPI_OK_SELECT) {
int proc = SPI_processed;
TupleDesc tupdesc = SPI_tuptable->tupdesc;
SPITupleTable *tuptable = SPI_tuptable;
for (int i = 0; i < proc; i++)
{
HeapTuple tuple = tuptable->vals[i];
string f = SPI_getvalue(tuple, tupdesc, 1);
string type = SPI_getvalue(tuple, tupdesc, 3);
if(type == "input") {
string table = SPI_getvalue(tuple, tupdesc, 4);
int nb_columns = stoi(SPI_getvalue(tuple, tupdesc, 5));
c.setGateInput(f, table, nb_columns);
} else {
auto id=c.getGate(f);
if(type == "times") {
c.setGate(f, WhereGate::TIMES);
} else if(type == "plus") {
c.setGate(f, WhereGate::PLUS);
} else if(type == "project" || type == "eq") {
vector<pair<int,int> > v = parse_array(SPI_getvalue(tuple, tupdesc, 6));
if(type=="eq") {
if(v.size()!=1)
elog(ERROR, "Incorrect extra information on eq gate");
c.setGateEquality(f, v[0].first, v[0].second);
} else {
sort(v.begin(), v.end(), [](auto &left, auto &right) {
return left.second < right.second;
});
vector<int> infos;
for(auto p : v) {
infos.push_back(p.first);
}
c.setGateProjection(f, move(infos));
}
} else if(type == "monusr" || type == "monusl" || type == "monus") {
elog(ERROR, "Where-provenance of non-monotone query not supported");
} else {
elog(ERROR, "Wrong type of gate in circuit");
}
c.addWire(id, c.getGate(SPI_getvalue(tuple, tupdesc, 2)));
}
}
} else {
elog(ERROR, "SPI_execute_with_args failed on provsql.sub_circuit_for_where");
}
SPI_finish();
auto gate = c.getGate(UUIDDatum2string(token));
vector<set<WhereCircuit::Locator> > v = c.evaluate(gate);
ostringstream os;
os << "{";
bool ofirst=true;
for(auto s : v) {
if(!ofirst)
os << ",";
os << "[";
bool ifirst=true;
for(auto l : s) {
if(!ifirst)
os << ";";
os << l.toString();
ifirst=false;
}
os << "]";
ofirst=false;
}
os << "}";
return os.str();
}
Datum where_provenance(PG_FUNCTION_ARGS)
{
try {
Datum token = PG_GETARG_DATUM(0);
PG_RETURN_TEXT_P(cstring_to_text(where_provenance_internal(token).c_str()));
} catch(const std::exception &e) {
elog(ERROR, "where_provenance: %s", e.what());
} catch(...) {
elog(ERROR, "where_provenance: Unknown exception");
}
}
| [
"pierre@senellart.com"
] | pierre@senellart.com |
b716c935686ba71fdb2b51656680bc6564ff3aaf | 8f1c5fc3ff04b78005fb0f797193bd49f5d0721a | /src/code-stubs-hydrogen.cc | dafef522f1cd80d379922a6425e44ca2075f5f7e | [
"BSD-3-Clause",
"bzip2-1.0.6"
] | permissive | btongminh/android_v8 | 91011c50e289a29847683479e71b73e94578e5bf | 92b03b37ca04c6812fe2eaf6df82e9e1ef564c63 | refs/heads/lxss | 2022-10-28T20:56:59.348747 | 2016-12-23T15:18:52 | 2016-12-23T15:18:52 | 77,245,772 | 0 | 2 | NOASSERTION | 2022-10-06T05:33:38 | 2016-12-23T19:12:56 | null | UTF-8 | C++ | false | false | 69,797 | cc | // Copyright 2012 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/v8.h"
#include "src/bailout-reason.h"
#include "src/code-stubs.h"
#include "src/field-index.h"
#include "src/hydrogen.h"
#include "src/lithium.h"
namespace v8 {
namespace internal {
static LChunk* OptimizeGraph(HGraph* graph) {
DisallowHeapAllocation no_allocation;
DisallowHandleAllocation no_handles;
DisallowHandleDereference no_deref;
DCHECK(graph != NULL);
BailoutReason bailout_reason = kNoReason;
if (!graph->Optimize(&bailout_reason)) {
FATAL(GetBailoutReason(bailout_reason));
}
LChunk* chunk = LChunk::NewChunk(graph);
if (chunk == NULL) {
FATAL(GetBailoutReason(graph->info()->bailout_reason()));
}
return chunk;
}
class CodeStubGraphBuilderBase : public HGraphBuilder {
public:
CodeStubGraphBuilderBase(Isolate* isolate, HydrogenCodeStub* stub)
: HGraphBuilder(&info_),
arguments_length_(NULL),
info_(stub, isolate),
descriptor_(stub),
context_(NULL) {
int parameter_count = descriptor_.GetEnvironmentParameterCount();
parameters_.Reset(new HParameter*[parameter_count]);
}
virtual bool BuildGraph();
protected:
virtual HValue* BuildCodeStub() = 0;
HParameter* GetParameter(int parameter) {
DCHECK(parameter < descriptor_.GetEnvironmentParameterCount());
return parameters_[parameter];
}
HValue* GetArgumentsLength() {
// This is initialized in BuildGraph()
DCHECK(arguments_length_ != NULL);
return arguments_length_;
}
CompilationInfo* info() { return &info_; }
HydrogenCodeStub* stub() { return info_.code_stub(); }
HContext* context() { return context_; }
Isolate* isolate() { return info_.isolate(); }
HLoadNamedField* BuildLoadNamedField(HValue* object,
FieldIndex index);
void BuildStoreNamedField(HValue* object, HValue* value, FieldIndex index,
Representation representation);
enum ArgumentClass {
NONE,
SINGLE,
MULTIPLE
};
HValue* UnmappedCase(HValue* elements, HValue* key);
HValue* BuildArrayConstructor(ElementsKind kind,
AllocationSiteOverrideMode override_mode,
ArgumentClass argument_class);
HValue* BuildInternalArrayConstructor(ElementsKind kind,
ArgumentClass argument_class);
// BuildCheckAndInstallOptimizedCode emits code to install the optimized
// function found in the optimized code map at map_index in js_function, if
// the function at map_index matches the given native_context. Builder is
// left in the "Then()" state after the install.
void BuildCheckAndInstallOptimizedCode(HValue* js_function,
HValue* native_context,
IfBuilder* builder,
HValue* optimized_map,
HValue* map_index);
void BuildInstallCode(HValue* js_function, HValue* shared_info);
HInstruction* LoadFromOptimizedCodeMap(HValue* optimized_map,
HValue* iterator,
int field_offset);
void BuildInstallFromOptimizedCodeMap(HValue* js_function,
HValue* shared_info,
HValue* native_context);
private:
HValue* BuildArraySingleArgumentConstructor(JSArrayBuilder* builder);
HValue* BuildArrayNArgumentsConstructor(JSArrayBuilder* builder,
ElementsKind kind);
SmartArrayPointer<HParameter*> parameters_;
HValue* arguments_length_;
CompilationInfoWithZone info_;
CodeStubDescriptor descriptor_;
HContext* context_;
};
bool CodeStubGraphBuilderBase::BuildGraph() {
// Update the static counter each time a new code stub is generated.
isolate()->counters()->code_stubs()->Increment();
if (FLAG_trace_hydrogen_stubs) {
const char* name = CodeStub::MajorName(stub()->MajorKey(), false);
PrintF("-----------------------------------------------------------\n");
PrintF("Compiling stub %s using hydrogen\n", name);
isolate()->GetHTracer()->TraceCompilation(&info_);
}
int param_count = descriptor_.GetEnvironmentParameterCount();
HEnvironment* start_environment = graph()->start_environment();
HBasicBlock* next_block = CreateBasicBlock(start_environment);
Goto(next_block);
next_block->SetJoinId(BailoutId::StubEntry());
set_current_block(next_block);
bool runtime_stack_params = descriptor_.stack_parameter_count().is_valid();
HInstruction* stack_parameter_count = NULL;
for (int i = 0; i < param_count; ++i) {
Representation r = descriptor_.GetEnvironmentParameterRepresentation(i);
HParameter* param = Add<HParameter>(i,
HParameter::REGISTER_PARAMETER, r);
start_environment->Bind(i, param);
parameters_[i] = param;
if (descriptor_.IsEnvironmentParameterCountRegister(i)) {
param->set_type(HType::Smi());
stack_parameter_count = param;
arguments_length_ = stack_parameter_count;
}
}
DCHECK(!runtime_stack_params || arguments_length_ != NULL);
if (!runtime_stack_params) {
stack_parameter_count = graph()->GetConstantMinus1();
arguments_length_ = graph()->GetConstant0();
}
context_ = Add<HContext>();
start_environment->BindContext(context_);
Add<HSimulate>(BailoutId::StubEntry());
NoObservableSideEffectsScope no_effects(this);
HValue* return_value = BuildCodeStub();
// We might have extra expressions to pop from the stack in addition to the
// arguments above.
HInstruction* stack_pop_count = stack_parameter_count;
if (descriptor_.function_mode() == JS_FUNCTION_STUB_MODE) {
if (!stack_parameter_count->IsConstant() &&
descriptor_.hint_stack_parameter_count() < 0) {
HInstruction* constant_one = graph()->GetConstant1();
stack_pop_count = AddUncasted<HAdd>(stack_parameter_count, constant_one);
stack_pop_count->ClearFlag(HValue::kCanOverflow);
// TODO(mvstanton): verify that stack_parameter_count+1 really fits in a
// smi.
} else {
int count = descriptor_.hint_stack_parameter_count();
stack_pop_count = Add<HConstant>(count);
}
}
if (current_block() != NULL) {
HReturn* hreturn_instruction = New<HReturn>(return_value,
stack_pop_count);
FinishCurrentBlock(hreturn_instruction);
}
return true;
}
template <class Stub>
class CodeStubGraphBuilder: public CodeStubGraphBuilderBase {
public:
CodeStubGraphBuilder(Isolate* isolate, Stub* stub)
: CodeStubGraphBuilderBase(isolate, stub) {}
protected:
virtual HValue* BuildCodeStub() {
if (casted_stub()->IsUninitialized()) {
return BuildCodeUninitializedStub();
} else {
return BuildCodeInitializedStub();
}
}
virtual HValue* BuildCodeInitializedStub() {
UNIMPLEMENTED();
return NULL;
}
virtual HValue* BuildCodeUninitializedStub() {
// Force a deopt that falls back to the runtime.
HValue* undefined = graph()->GetConstantUndefined();
IfBuilder builder(this);
builder.IfNot<HCompareObjectEqAndBranch, HValue*>(undefined, undefined);
builder.Then();
builder.ElseDeopt("Forced deopt to runtime");
return undefined;
}
Stub* casted_stub() { return static_cast<Stub*>(stub()); }
};
Handle<Code> HydrogenCodeStub::GenerateLightweightMissCode(
ExternalReference miss) {
Factory* factory = isolate()->factory();
// Generate the new code.
MacroAssembler masm(isolate(), NULL, 256);
{
// Update the static counter each time a new code stub is generated.
isolate()->counters()->code_stubs()->Increment();
// Generate the code for the stub.
masm.set_generating_stub(true);
NoCurrentFrameScope scope(&masm);
GenerateLightweightMiss(&masm, miss);
}
// Create the code object.
CodeDesc desc;
masm.GetCode(&desc);
// Copy the generated code into a heap object.
Code::Flags flags = Code::ComputeFlags(
GetCodeKind(),
GetICState(),
GetExtraICState(),
GetStubType());
Handle<Code> new_object = factory->NewCode(
desc, flags, masm.CodeObject(), NeedsImmovableCode());
return new_object;
}
template <class Stub>
static Handle<Code> DoGenerateCode(Stub* stub) {
Isolate* isolate = stub->isolate();
CodeStubDescriptor descriptor(stub);
// If we are uninitialized we can use a light-weight stub to enter
// the runtime that is significantly faster than using the standard
// stub-failure deopt mechanism.
if (stub->IsUninitialized() && descriptor.has_miss_handler()) {
DCHECK(!descriptor.stack_parameter_count().is_valid());
return stub->GenerateLightweightMissCode(descriptor.miss_handler());
}
base::ElapsedTimer timer;
if (FLAG_profile_hydrogen_code_stub_compilation) {
timer.Start();
}
CodeStubGraphBuilder<Stub> builder(isolate, stub);
LChunk* chunk = OptimizeGraph(builder.CreateGraph());
// TODO(yangguo) remove this once the code serializer handles code stubs.
if (FLAG_serialize_toplevel) chunk->info()->PrepareForSerializing();
Handle<Code> code = chunk->Codegen();
if (FLAG_profile_hydrogen_code_stub_compilation) {
OFStream os(stdout);
os << "[Lazy compilation of " << stub << " took "
<< timer.Elapsed().InMillisecondsF() << " ms]" << endl;
}
return code;
}
template <>
HValue* CodeStubGraphBuilder<ToNumberStub>::BuildCodeStub() {
HValue* value = GetParameter(0);
// Check if the parameter is already a SMI or heap number.
IfBuilder if_number(this);
if_number.If<HIsSmiAndBranch>(value);
if_number.OrIf<HCompareMap>(value, isolate()->factory()->heap_number_map());
if_number.Then();
// Return the number.
Push(value);
if_number.Else();
// Convert the parameter to number using the builtin.
HValue* function = AddLoadJSBuiltin(Builtins::TO_NUMBER);
Add<HPushArguments>(value);
Push(Add<HInvokeFunction>(function, 1));
if_number.End();
return Pop();
}
Handle<Code> ToNumberStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<NumberToStringStub>::BuildCodeStub() {
info()->MarkAsSavesCallerDoubles();
HValue* number = GetParameter(NumberToStringStub::kNumber);
return BuildNumberToString(number, Type::Number(zone()));
}
Handle<Code> NumberToStringStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<FastCloneShallowArrayStub>::BuildCodeStub() {
Factory* factory = isolate()->factory();
HValue* undefined = graph()->GetConstantUndefined();
AllocationSiteMode alloc_site_mode = casted_stub()->allocation_site_mode();
// This stub is very performance sensitive, the generated code must be tuned
// so that it doesn't build and eager frame.
info()->MarkMustNotHaveEagerFrame();
HInstruction* allocation_site = Add<HLoadKeyed>(GetParameter(0),
GetParameter(1),
static_cast<HValue*>(NULL),
FAST_ELEMENTS);
IfBuilder checker(this);
checker.IfNot<HCompareObjectEqAndBranch, HValue*>(allocation_site,
undefined);
checker.Then();
HObjectAccess access = HObjectAccess::ForAllocationSiteOffset(
AllocationSite::kTransitionInfoOffset);
HInstruction* boilerplate = Add<HLoadNamedField>(
allocation_site, static_cast<HValue*>(NULL), access);
HValue* elements = AddLoadElements(boilerplate);
HValue* capacity = AddLoadFixedArrayLength(elements);
IfBuilder zero_capacity(this);
zero_capacity.If<HCompareNumericAndBranch>(capacity, graph()->GetConstant0(),
Token::EQ);
zero_capacity.Then();
Push(BuildCloneShallowArrayEmpty(boilerplate,
allocation_site,
alloc_site_mode));
zero_capacity.Else();
IfBuilder if_fixed_cow(this);
if_fixed_cow.If<HCompareMap>(elements, factory->fixed_cow_array_map());
if_fixed_cow.Then();
Push(BuildCloneShallowArrayCow(boilerplate,
allocation_site,
alloc_site_mode,
FAST_ELEMENTS));
if_fixed_cow.Else();
IfBuilder if_fixed(this);
if_fixed.If<HCompareMap>(elements, factory->fixed_array_map());
if_fixed.Then();
Push(BuildCloneShallowArrayNonEmpty(boilerplate,
allocation_site,
alloc_site_mode,
FAST_ELEMENTS));
if_fixed.Else();
Push(BuildCloneShallowArrayNonEmpty(boilerplate,
allocation_site,
alloc_site_mode,
FAST_DOUBLE_ELEMENTS));
if_fixed.End();
if_fixed_cow.End();
zero_capacity.End();
checker.ElseDeopt("Uninitialized boilerplate literals");
checker.End();
return environment()->Pop();
}
Handle<Code> FastCloneShallowArrayStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<FastCloneShallowObjectStub>::BuildCodeStub() {
HValue* undefined = graph()->GetConstantUndefined();
HInstruction* allocation_site = Add<HLoadKeyed>(GetParameter(0),
GetParameter(1),
static_cast<HValue*>(NULL),
FAST_ELEMENTS);
IfBuilder checker(this);
checker.IfNot<HCompareObjectEqAndBranch, HValue*>(allocation_site,
undefined);
checker.And();
HObjectAccess access = HObjectAccess::ForAllocationSiteOffset(
AllocationSite::kTransitionInfoOffset);
HInstruction* boilerplate = Add<HLoadNamedField>(
allocation_site, static_cast<HValue*>(NULL), access);
int size = JSObject::kHeaderSize + casted_stub()->length() * kPointerSize;
int object_size = size;
if (FLAG_allocation_site_pretenuring) {
size += AllocationMemento::kSize;
}
HValue* boilerplate_map = Add<HLoadNamedField>(
boilerplate, static_cast<HValue*>(NULL),
HObjectAccess::ForMap());
HValue* boilerplate_size = Add<HLoadNamedField>(
boilerplate_map, static_cast<HValue*>(NULL),
HObjectAccess::ForMapInstanceSize());
HValue* size_in_words = Add<HConstant>(object_size >> kPointerSizeLog2);
checker.If<HCompareNumericAndBranch>(boilerplate_size,
size_in_words, Token::EQ);
checker.Then();
HValue* size_in_bytes = Add<HConstant>(size);
HInstruction* object = Add<HAllocate>(size_in_bytes, HType::JSObject(),
NOT_TENURED, JS_OBJECT_TYPE);
for (int i = 0; i < object_size; i += kPointerSize) {
HObjectAccess access = HObjectAccess::ForObservableJSObjectOffset(i);
Add<HStoreNamedField>(
object, access, Add<HLoadNamedField>(
boilerplate, static_cast<HValue*>(NULL), access));
}
DCHECK(FLAG_allocation_site_pretenuring || (size == object_size));
if (FLAG_allocation_site_pretenuring) {
BuildCreateAllocationMemento(
object, Add<HConstant>(object_size), allocation_site);
}
environment()->Push(object);
checker.ElseDeopt("Uninitialized boilerplate in fast clone");
checker.End();
return environment()->Pop();
}
Handle<Code> FastCloneShallowObjectStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<CreateAllocationSiteStub>::BuildCodeStub() {
HValue* size = Add<HConstant>(AllocationSite::kSize);
HInstruction* object = Add<HAllocate>(size, HType::JSObject(), TENURED,
JS_OBJECT_TYPE);
// Store the map
Handle<Map> allocation_site_map = isolate()->factory()->allocation_site_map();
AddStoreMapConstant(object, allocation_site_map);
// Store the payload (smi elements kind)
HValue* initial_elements_kind = Add<HConstant>(GetInitialFastElementsKind());
Add<HStoreNamedField>(object,
HObjectAccess::ForAllocationSiteOffset(
AllocationSite::kTransitionInfoOffset),
initial_elements_kind);
// Unlike literals, constructed arrays don't have nested sites
Add<HStoreNamedField>(object,
HObjectAccess::ForAllocationSiteOffset(
AllocationSite::kNestedSiteOffset),
graph()->GetConstant0());
// Pretenuring calculation field.
Add<HStoreNamedField>(object,
HObjectAccess::ForAllocationSiteOffset(
AllocationSite::kPretenureDataOffset),
graph()->GetConstant0());
// Pretenuring memento creation count field.
Add<HStoreNamedField>(object,
HObjectAccess::ForAllocationSiteOffset(
AllocationSite::kPretenureCreateCountOffset),
graph()->GetConstant0());
// Store an empty fixed array for the code dependency.
HConstant* empty_fixed_array =
Add<HConstant>(isolate()->factory()->empty_fixed_array());
Add<HStoreNamedField>(
object,
HObjectAccess::ForAllocationSiteOffset(
AllocationSite::kDependentCodeOffset),
empty_fixed_array);
// Link the object to the allocation site list
HValue* site_list = Add<HConstant>(
ExternalReference::allocation_sites_list_address(isolate()));
HValue* site = Add<HLoadNamedField>(
site_list, static_cast<HValue*>(NULL),
HObjectAccess::ForAllocationSiteList());
// TODO(mvstanton): This is a store to a weak pointer, which we may want to
// mark as such in order to skip the write barrier, once we have a unified
// system for weakness. For now we decided to keep it like this because having
// an initial write barrier backed store makes this pointer strong until the
// next GC, and allocation sites are designed to survive several GCs anyway.
Add<HStoreNamedField>(
object,
HObjectAccess::ForAllocationSiteOffset(AllocationSite::kWeakNextOffset),
site);
Add<HStoreNamedField>(site_list, HObjectAccess::ForAllocationSiteList(),
object);
HInstruction* feedback_vector = GetParameter(0);
HInstruction* slot = GetParameter(1);
Add<HStoreKeyed>(feedback_vector, slot, object, FAST_ELEMENTS,
INITIALIZING_STORE);
return feedback_vector;
}
Handle<Code> CreateAllocationSiteStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<LoadFastElementStub>::BuildCodeStub() {
HInstruction* load = BuildUncheckedMonomorphicElementAccess(
GetParameter(LoadDescriptor::kReceiverIndex),
GetParameter(LoadDescriptor::kNameIndex), NULL,
casted_stub()->is_js_array(), casted_stub()->elements_kind(), LOAD,
NEVER_RETURN_HOLE, STANDARD_STORE);
return load;
}
Handle<Code> LoadFastElementStub::GenerateCode() {
return DoGenerateCode(this);
}
HLoadNamedField* CodeStubGraphBuilderBase::BuildLoadNamedField(
HValue* object, FieldIndex index) {
Representation representation = index.is_double()
? Representation::Double()
: Representation::Tagged();
int offset = index.offset();
HObjectAccess access = index.is_inobject()
? HObjectAccess::ForObservableJSObjectOffset(offset, representation)
: HObjectAccess::ForBackingStoreOffset(offset, representation);
if (index.is_double()) {
// Load the heap number.
object = Add<HLoadNamedField>(
object, static_cast<HValue*>(NULL),
access.WithRepresentation(Representation::Tagged()));
// Load the double value from it.
access = HObjectAccess::ForHeapNumberValue();
}
return Add<HLoadNamedField>(object, static_cast<HValue*>(NULL), access);
}
template<>
HValue* CodeStubGraphBuilder<LoadFieldStub>::BuildCodeStub() {
return BuildLoadNamedField(GetParameter(0), casted_stub()->index());
}
Handle<Code> LoadFieldStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<LoadConstantStub>::BuildCodeStub() {
HValue* map = AddLoadMap(GetParameter(0), NULL);
HObjectAccess descriptors_access = HObjectAccess::ForObservableJSObjectOffset(
Map::kDescriptorsOffset, Representation::Tagged());
HValue* descriptors =
Add<HLoadNamedField>(map, static_cast<HValue*>(NULL), descriptors_access);
HObjectAccess value_access = HObjectAccess::ForObservableJSObjectOffset(
DescriptorArray::GetValueOffset(casted_stub()->constant_index()));
return Add<HLoadNamedField>(descriptors, static_cast<HValue*>(NULL),
value_access);
}
Handle<Code> LoadConstantStub::GenerateCode() { return DoGenerateCode(this); }
HValue* CodeStubGraphBuilderBase::UnmappedCase(HValue* elements, HValue* key) {
HValue* result;
HInstruction* backing_store = Add<HLoadKeyed>(
elements, graph()->GetConstant1(), static_cast<HValue*>(NULL),
FAST_ELEMENTS, ALLOW_RETURN_HOLE);
Add<HCheckMaps>(backing_store, isolate()->factory()->fixed_array_map());
HValue* backing_store_length =
Add<HLoadNamedField>(backing_store, static_cast<HValue*>(NULL),
HObjectAccess::ForFixedArrayLength());
IfBuilder in_unmapped_range(this);
in_unmapped_range.If<HCompareNumericAndBranch>(key, backing_store_length,
Token::LT);
in_unmapped_range.Then();
{
result = Add<HLoadKeyed>(backing_store, key, static_cast<HValue*>(NULL),
FAST_HOLEY_ELEMENTS, NEVER_RETURN_HOLE);
}
in_unmapped_range.ElseDeopt("Outside of range");
in_unmapped_range.End();
return result;
}
template <>
HValue* CodeStubGraphBuilder<KeyedLoadSloppyArgumentsStub>::BuildCodeStub() {
HValue* receiver = GetParameter(LoadDescriptor::kReceiverIndex);
HValue* key = GetParameter(LoadDescriptor::kNameIndex);
// Mapped arguments are actual arguments. Unmapped arguments are values added
// to the arguments object after it was created for the call. Mapped arguments
// are stored in the context at indexes given by elements[key + 2]. Unmapped
// arguments are stored as regular indexed properties in the arguments array,
// held at elements[1]. See NewSloppyArguments() in runtime.cc for a detailed
// look at argument object construction.
//
// The sloppy arguments elements array has a special format:
//
// 0: context
// 1: unmapped arguments array
// 2: mapped_index0,
// 3: mapped_index1,
// ...
//
// length is 2 + min(number_of_actual_arguments, number_of_formal_arguments).
// If key + 2 >= elements.length then attempt to look in the unmapped
// arguments array (given by elements[1]) and return the value at key, missing
// to the runtime if the unmapped arguments array is not a fixed array or if
// key >= unmapped_arguments_array.length.
//
// Otherwise, t = elements[key + 2]. If t is the hole, then look up the value
// in the unmapped arguments array, as described above. Otherwise, t is a Smi
// index into the context array given at elements[0]. Return the value at
// context[t].
key = AddUncasted<HForceRepresentation>(key, Representation::Smi());
IfBuilder positive_smi(this);
positive_smi.If<HCompareNumericAndBranch>(key, graph()->GetConstant0(),
Token::LT);
positive_smi.ThenDeopt("key is negative");
positive_smi.End();
HValue* constant_two = Add<HConstant>(2);
HValue* elements = AddLoadElements(receiver, static_cast<HValue*>(NULL));
HValue* elements_length =
Add<HLoadNamedField>(elements, static_cast<HValue*>(NULL),
HObjectAccess::ForFixedArrayLength());
HValue* adjusted_length = AddUncasted<HSub>(elements_length, constant_two);
IfBuilder in_range(this);
in_range.If<HCompareNumericAndBranch>(key, adjusted_length, Token::LT);
in_range.Then();
{
HValue* index = AddUncasted<HAdd>(key, constant_two);
HInstruction* mapped_index =
Add<HLoadKeyed>(elements, index, static_cast<HValue*>(NULL),
FAST_HOLEY_ELEMENTS, ALLOW_RETURN_HOLE);
IfBuilder is_valid(this);
is_valid.IfNot<HCompareObjectEqAndBranch>(mapped_index,
graph()->GetConstantHole());
is_valid.Then();
{
// TODO(mvstanton): I'd like to assert from this point, that if the
// mapped_index is not the hole that it is indeed, a smi. An unnecessary
// smi check is being emitted.
HValue* the_context =
Add<HLoadKeyed>(elements, graph()->GetConstant0(),
static_cast<HValue*>(NULL), FAST_ELEMENTS);
DCHECK(Context::kHeaderSize == FixedArray::kHeaderSize);
HValue* result =
Add<HLoadKeyed>(the_context, mapped_index, static_cast<HValue*>(NULL),
FAST_ELEMENTS, ALLOW_RETURN_HOLE);
environment()->Push(result);
}
is_valid.Else();
{
HValue* result = UnmappedCase(elements, key);
environment()->Push(result);
}
is_valid.End();
}
in_range.Else();
{
HValue* result = UnmappedCase(elements, key);
environment()->Push(result);
}
in_range.End();
return environment()->Pop();
}
Handle<Code> KeyedLoadSloppyArgumentsStub::GenerateCode() {
return DoGenerateCode(this);
}
void CodeStubGraphBuilderBase::BuildStoreNamedField(
HValue* object, HValue* value, FieldIndex index,
Representation representation) {
DCHECK(!index.is_double() || representation.IsDouble());
int offset = index.offset();
HObjectAccess access =
index.is_inobject()
? HObjectAccess::ForObservableJSObjectOffset(offset, representation)
: HObjectAccess::ForBackingStoreOffset(offset, representation);
if (representation.IsDouble()) {
// Load the heap number.
object = Add<HLoadNamedField>(
object, static_cast<HValue*>(NULL),
access.WithRepresentation(Representation::Tagged()));
// Store the double value into it.
access = HObjectAccess::ForHeapNumberValue();
} else if (representation.IsHeapObject()) {
BuildCheckHeapObject(value);
}
Add<HStoreNamedField>(object, access, value, INITIALIZING_STORE);
}
template <>
HValue* CodeStubGraphBuilder<StoreFieldStub>::BuildCodeStub() {
BuildStoreNamedField(GetParameter(0), GetParameter(2), casted_stub()->index(),
casted_stub()->representation());
return GetParameter(2);
}
Handle<Code> StoreFieldStub::GenerateCode() { return DoGenerateCode(this); }
template <>
HValue* CodeStubGraphBuilder<StringLengthStub>::BuildCodeStub() {
HValue* string = BuildLoadNamedField(GetParameter(0),
FieldIndex::ForInObjectOffset(JSValue::kValueOffset));
return BuildLoadNamedField(string,
FieldIndex::ForInObjectOffset(String::kLengthOffset));
}
Handle<Code> StringLengthStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<StoreFastElementStub>::BuildCodeStub() {
BuildUncheckedMonomorphicElementAccess(
GetParameter(StoreDescriptor::kReceiverIndex),
GetParameter(StoreDescriptor::kNameIndex),
GetParameter(StoreDescriptor::kValueIndex), casted_stub()->is_js_array(),
casted_stub()->elements_kind(), STORE, NEVER_RETURN_HOLE,
casted_stub()->store_mode());
return GetParameter(2);
}
Handle<Code> StoreFastElementStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<TransitionElementsKindStub>::BuildCodeStub() {
info()->MarkAsSavesCallerDoubles();
BuildTransitionElementsKind(GetParameter(0),
GetParameter(1),
casted_stub()->from_kind(),
casted_stub()->to_kind(),
casted_stub()->is_js_array());
return GetParameter(0);
}
Handle<Code> TransitionElementsKindStub::GenerateCode() {
return DoGenerateCode(this);
}
HValue* CodeStubGraphBuilderBase::BuildArrayConstructor(
ElementsKind kind,
AllocationSiteOverrideMode override_mode,
ArgumentClass argument_class) {
HValue* constructor = GetParameter(ArrayConstructorStubBase::kConstructor);
HValue* alloc_site = GetParameter(ArrayConstructorStubBase::kAllocationSite);
JSArrayBuilder array_builder(this, kind, alloc_site, constructor,
override_mode);
HValue* result = NULL;
switch (argument_class) {
case NONE:
// This stub is very performance sensitive, the generated code must be
// tuned so that it doesn't build and eager frame.
info()->MarkMustNotHaveEagerFrame();
result = array_builder.AllocateEmptyArray();
break;
case SINGLE:
result = BuildArraySingleArgumentConstructor(&array_builder);
break;
case MULTIPLE:
result = BuildArrayNArgumentsConstructor(&array_builder, kind);
break;
}
return result;
}
HValue* CodeStubGraphBuilderBase::BuildInternalArrayConstructor(
ElementsKind kind, ArgumentClass argument_class) {
HValue* constructor = GetParameter(
InternalArrayConstructorStubBase::kConstructor);
JSArrayBuilder array_builder(this, kind, constructor);
HValue* result = NULL;
switch (argument_class) {
case NONE:
// This stub is very performance sensitive, the generated code must be
// tuned so that it doesn't build and eager frame.
info()->MarkMustNotHaveEagerFrame();
result = array_builder.AllocateEmptyArray();
break;
case SINGLE:
result = BuildArraySingleArgumentConstructor(&array_builder);
break;
case MULTIPLE:
result = BuildArrayNArgumentsConstructor(&array_builder, kind);
break;
}
return result;
}
HValue* CodeStubGraphBuilderBase::BuildArraySingleArgumentConstructor(
JSArrayBuilder* array_builder) {
// Smi check and range check on the input arg.
HValue* constant_one = graph()->GetConstant1();
HValue* constant_zero = graph()->GetConstant0();
HInstruction* elements = Add<HArgumentsElements>(false);
HInstruction* argument = Add<HAccessArgumentsAt>(
elements, constant_one, constant_zero);
return BuildAllocateArrayFromLength(array_builder, argument);
}
HValue* CodeStubGraphBuilderBase::BuildArrayNArgumentsConstructor(
JSArrayBuilder* array_builder, ElementsKind kind) {
// Insert a bounds check because the number of arguments might exceed
// the kInitialMaxFastElementArray limit. This cannot happen for code
// that was parsed, but calling via Array.apply(thisArg, [...]) might
// trigger it.
HValue* length = GetArgumentsLength();
HConstant* max_alloc_length =
Add<HConstant>(JSObject::kInitialMaxFastElementArray);
HValue* checked_length = Add<HBoundsCheck>(length, max_alloc_length);
// We need to fill with the hole if it's a smi array in the multi-argument
// case because we might have to bail out while copying arguments into
// the array because they aren't compatible with a smi array.
// If it's a double array, no problem, and if it's fast then no
// problem either because doubles are boxed.
//
// TODO(mvstanton): consider an instruction to memset fill the array
// with zero in this case instead.
JSArrayBuilder::FillMode fill_mode = IsFastSmiElementsKind(kind)
? JSArrayBuilder::FILL_WITH_HOLE
: JSArrayBuilder::DONT_FILL_WITH_HOLE;
HValue* new_object = array_builder->AllocateArray(checked_length,
max_alloc_length,
checked_length,
fill_mode);
HValue* elements = array_builder->GetElementsLocation();
DCHECK(elements != NULL);
// Now populate the elements correctly.
LoopBuilder builder(this,
context(),
LoopBuilder::kPostIncrement);
HValue* start = graph()->GetConstant0();
HValue* key = builder.BeginBody(start, checked_length, Token::LT);
HInstruction* argument_elements = Add<HArgumentsElements>(false);
HInstruction* argument = Add<HAccessArgumentsAt>(
argument_elements, checked_length, key);
Add<HStoreKeyed>(elements, key, argument, kind);
builder.EndBody();
return new_object;
}
template <>
HValue* CodeStubGraphBuilder<ArrayNoArgumentConstructorStub>::BuildCodeStub() {
ElementsKind kind = casted_stub()->elements_kind();
AllocationSiteOverrideMode override_mode = casted_stub()->override_mode();
return BuildArrayConstructor(kind, override_mode, NONE);
}
Handle<Code> ArrayNoArgumentConstructorStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<ArraySingleArgumentConstructorStub>::
BuildCodeStub() {
ElementsKind kind = casted_stub()->elements_kind();
AllocationSiteOverrideMode override_mode = casted_stub()->override_mode();
return BuildArrayConstructor(kind, override_mode, SINGLE);
}
Handle<Code> ArraySingleArgumentConstructorStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<ArrayNArgumentsConstructorStub>::BuildCodeStub() {
ElementsKind kind = casted_stub()->elements_kind();
AllocationSiteOverrideMode override_mode = casted_stub()->override_mode();
return BuildArrayConstructor(kind, override_mode, MULTIPLE);
}
Handle<Code> ArrayNArgumentsConstructorStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<InternalArrayNoArgumentConstructorStub>::
BuildCodeStub() {
ElementsKind kind = casted_stub()->elements_kind();
return BuildInternalArrayConstructor(kind, NONE);
}
Handle<Code> InternalArrayNoArgumentConstructorStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<InternalArraySingleArgumentConstructorStub>::
BuildCodeStub() {
ElementsKind kind = casted_stub()->elements_kind();
return BuildInternalArrayConstructor(kind, SINGLE);
}
Handle<Code> InternalArraySingleArgumentConstructorStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<InternalArrayNArgumentsConstructorStub>::
BuildCodeStub() {
ElementsKind kind = casted_stub()->elements_kind();
return BuildInternalArrayConstructor(kind, MULTIPLE);
}
Handle<Code> InternalArrayNArgumentsConstructorStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<CompareNilICStub>::BuildCodeInitializedStub() {
Isolate* isolate = graph()->isolate();
CompareNilICStub* stub = casted_stub();
HIfContinuation continuation;
Handle<Map> sentinel_map(isolate->heap()->meta_map());
Type* type = stub->GetType(zone(), sentinel_map);
BuildCompareNil(GetParameter(0), type, &continuation);
IfBuilder if_nil(this, &continuation);
if_nil.Then();
if (continuation.IsFalseReachable()) {
if_nil.Else();
if_nil.Return(graph()->GetConstant0());
}
if_nil.End();
return continuation.IsTrueReachable()
? graph()->GetConstant1()
: graph()->GetConstantUndefined();
}
Handle<Code> CompareNilICStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<BinaryOpICStub>::BuildCodeInitializedStub() {
BinaryOpICState state = casted_stub()->state();
HValue* left = GetParameter(BinaryOpICStub::kLeft);
HValue* right = GetParameter(BinaryOpICStub::kRight);
Type* left_type = state.GetLeftType(zone());
Type* right_type = state.GetRightType(zone());
Type* result_type = state.GetResultType(zone());
DCHECK(!left_type->Is(Type::None()) && !right_type->Is(Type::None()) &&
(state.HasSideEffects() || !result_type->Is(Type::None())));
HValue* result = NULL;
HAllocationMode allocation_mode(NOT_TENURED);
if (state.op() == Token::ADD &&
(left_type->Maybe(Type::String()) || right_type->Maybe(Type::String())) &&
!left_type->Is(Type::String()) && !right_type->Is(Type::String())) {
// For the generic add stub a fast case for string addition is performance
// critical.
if (left_type->Maybe(Type::String())) {
IfBuilder if_leftisstring(this);
if_leftisstring.If<HIsStringAndBranch>(left);
if_leftisstring.Then();
{
Push(BuildBinaryOperation(
state.op(), left, right,
Type::String(zone()), right_type,
result_type, state.fixed_right_arg(),
allocation_mode));
}
if_leftisstring.Else();
{
Push(BuildBinaryOperation(
state.op(), left, right,
left_type, right_type, result_type,
state.fixed_right_arg(), allocation_mode));
}
if_leftisstring.End();
result = Pop();
} else {
IfBuilder if_rightisstring(this);
if_rightisstring.If<HIsStringAndBranch>(right);
if_rightisstring.Then();
{
Push(BuildBinaryOperation(
state.op(), left, right,
left_type, Type::String(zone()),
result_type, state.fixed_right_arg(),
allocation_mode));
}
if_rightisstring.Else();
{
Push(BuildBinaryOperation(
state.op(), left, right,
left_type, right_type, result_type,
state.fixed_right_arg(), allocation_mode));
}
if_rightisstring.End();
result = Pop();
}
} else {
result = BuildBinaryOperation(
state.op(), left, right,
left_type, right_type, result_type,
state.fixed_right_arg(), allocation_mode);
}
// If we encounter a generic argument, the number conversion is
// observable, thus we cannot afford to bail out after the fact.
if (!state.HasSideEffects()) {
result = EnforceNumberType(result, result_type);
}
// Reuse the double box of one of the operands if we are allowed to (i.e.
// chained binops).
if (state.CanReuseDoubleBox()) {
HValue* operand = (state.mode() == OVERWRITE_LEFT) ? left : right;
IfBuilder if_heap_number(this);
if_heap_number.If<HHasInstanceTypeAndBranch>(operand, HEAP_NUMBER_TYPE);
if_heap_number.Then();
Add<HStoreNamedField>(operand, HObjectAccess::ForHeapNumberValue(), result);
Push(operand);
if_heap_number.Else();
Push(result);
if_heap_number.End();
result = Pop();
}
return result;
}
Handle<Code> BinaryOpICStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<BinaryOpWithAllocationSiteStub>::BuildCodeStub() {
BinaryOpICState state = casted_stub()->state();
HValue* allocation_site = GetParameter(
BinaryOpWithAllocationSiteStub::kAllocationSite);
HValue* left = GetParameter(BinaryOpWithAllocationSiteStub::kLeft);
HValue* right = GetParameter(BinaryOpWithAllocationSiteStub::kRight);
Type* left_type = state.GetLeftType(zone());
Type* right_type = state.GetRightType(zone());
Type* result_type = state.GetResultType(zone());
HAllocationMode allocation_mode(allocation_site);
return BuildBinaryOperation(state.op(), left, right,
left_type, right_type, result_type,
state.fixed_right_arg(), allocation_mode);
}
Handle<Code> BinaryOpWithAllocationSiteStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<StringAddStub>::BuildCodeInitializedStub() {
StringAddStub* stub = casted_stub();
StringAddFlags flags = stub->flags();
PretenureFlag pretenure_flag = stub->pretenure_flag();
HValue* left = GetParameter(StringAddStub::kLeft);
HValue* right = GetParameter(StringAddStub::kRight);
// Make sure that both arguments are strings if not known in advance.
if ((flags & STRING_ADD_CHECK_LEFT) == STRING_ADD_CHECK_LEFT) {
left = BuildCheckString(left);
}
if ((flags & STRING_ADD_CHECK_RIGHT) == STRING_ADD_CHECK_RIGHT) {
right = BuildCheckString(right);
}
return BuildStringAdd(left, right, HAllocationMode(pretenure_flag));
}
Handle<Code> StringAddStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<ToBooleanStub>::BuildCodeInitializedStub() {
ToBooleanStub* stub = casted_stub();
HValue* true_value = NULL;
HValue* false_value = NULL;
switch (stub->mode()) {
case ToBooleanStub::RESULT_AS_SMI:
true_value = graph()->GetConstant1();
false_value = graph()->GetConstant0();
break;
case ToBooleanStub::RESULT_AS_ODDBALL:
true_value = graph()->GetConstantTrue();
false_value = graph()->GetConstantFalse();
break;
case ToBooleanStub::RESULT_AS_INVERSE_ODDBALL:
true_value = graph()->GetConstantFalse();
false_value = graph()->GetConstantTrue();
break;
}
IfBuilder if_true(this);
if_true.If<HBranch>(GetParameter(0), stub->types());
if_true.Then();
if_true.Return(true_value);
if_true.Else();
if_true.End();
return false_value;
}
Handle<Code> ToBooleanStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<StoreGlobalStub>::BuildCodeInitializedStub() {
StoreGlobalStub* stub = casted_stub();
Handle<Object> placeholer_value(Smi::FromInt(0), isolate());
Handle<PropertyCell> placeholder_cell =
isolate()->factory()->NewPropertyCell(placeholer_value);
HParameter* value = GetParameter(StoreDescriptor::kValueIndex);
if (stub->check_global()) {
// Check that the map of the global has not changed: use a placeholder map
// that will be replaced later with the global object's map.
Handle<Map> placeholder_map = isolate()->factory()->meta_map();
HValue* global = Add<HConstant>(
StoreGlobalStub::global_placeholder(isolate()));
Add<HCheckMaps>(global, placeholder_map);
}
HValue* cell = Add<HConstant>(placeholder_cell);
HObjectAccess access(HObjectAccess::ForCellPayload(isolate()));
HValue* cell_contents = Add<HLoadNamedField>(
cell, static_cast<HValue*>(NULL), access);
if (stub->is_constant()) {
IfBuilder builder(this);
builder.If<HCompareObjectEqAndBranch>(cell_contents, value);
builder.Then();
builder.ElseDeopt("Unexpected cell contents in constant global store");
builder.End();
} else {
// Load the payload of the global parameter cell. A hole indicates that the
// property has been deleted and that the store must be handled by the
// runtime.
IfBuilder builder(this);
HValue* hole_value = graph()->GetConstantHole();
builder.If<HCompareObjectEqAndBranch>(cell_contents, hole_value);
builder.Then();
builder.Deopt("Unexpected cell contents in global store");
builder.Else();
Add<HStoreNamedField>(cell, access, value);
builder.End();
}
return value;
}
Handle<Code> StoreGlobalStub::GenerateCode() {
return DoGenerateCode(this);
}
template<>
HValue* CodeStubGraphBuilder<ElementsTransitionAndStoreStub>::BuildCodeStub() {
HValue* value = GetParameter(ElementsTransitionAndStoreStub::kValueIndex);
HValue* map = GetParameter(ElementsTransitionAndStoreStub::kMapIndex);
HValue* key = GetParameter(ElementsTransitionAndStoreStub::kKeyIndex);
HValue* object = GetParameter(ElementsTransitionAndStoreStub::kObjectIndex);
if (FLAG_trace_elements_transitions) {
// Tracing elements transitions is the job of the runtime.
Add<HDeoptimize>("Tracing elements transitions", Deoptimizer::EAGER);
} else {
info()->MarkAsSavesCallerDoubles();
BuildTransitionElementsKind(object, map,
casted_stub()->from_kind(),
casted_stub()->to_kind(),
casted_stub()->is_jsarray());
BuildUncheckedMonomorphicElementAccess(object, key, value,
casted_stub()->is_jsarray(),
casted_stub()->to_kind(),
STORE, ALLOW_RETURN_HOLE,
casted_stub()->store_mode());
}
return value;
}
Handle<Code> ElementsTransitionAndStoreStub::GenerateCode() {
return DoGenerateCode(this);
}
void CodeStubGraphBuilderBase::BuildCheckAndInstallOptimizedCode(
HValue* js_function,
HValue* native_context,
IfBuilder* builder,
HValue* optimized_map,
HValue* map_index) {
HValue* osr_ast_id_none = Add<HConstant>(BailoutId::None().ToInt());
HValue* context_slot = LoadFromOptimizedCodeMap(
optimized_map, map_index, SharedFunctionInfo::kContextOffset);
HValue* osr_ast_slot = LoadFromOptimizedCodeMap(
optimized_map, map_index, SharedFunctionInfo::kOsrAstIdOffset);
builder->If<HCompareObjectEqAndBranch>(native_context,
context_slot);
builder->AndIf<HCompareObjectEqAndBranch>(osr_ast_slot, osr_ast_id_none);
builder->Then();
HValue* code_object = LoadFromOptimizedCodeMap(optimized_map,
map_index, SharedFunctionInfo::kCachedCodeOffset);
// and the literals
HValue* literals = LoadFromOptimizedCodeMap(optimized_map,
map_index, SharedFunctionInfo::kLiteralsOffset);
Counters* counters = isolate()->counters();
AddIncrementCounter(counters->fast_new_closure_install_optimized());
// TODO(fschneider): Idea: store proper code pointers in the optimized code
// map and either unmangle them on marking or do nothing as the whole map is
// discarded on major GC anyway.
Add<HStoreCodeEntry>(js_function, code_object);
Add<HStoreNamedField>(js_function, HObjectAccess::ForLiteralsPointer(),
literals);
// Now link a function into a list of optimized functions.
HValue* optimized_functions_list = Add<HLoadNamedField>(
native_context, static_cast<HValue*>(NULL),
HObjectAccess::ForContextSlot(Context::OPTIMIZED_FUNCTIONS_LIST));
Add<HStoreNamedField>(js_function,
HObjectAccess::ForNextFunctionLinkPointer(),
optimized_functions_list);
// This store is the only one that should have a write barrier.
Add<HStoreNamedField>(native_context,
HObjectAccess::ForContextSlot(Context::OPTIMIZED_FUNCTIONS_LIST),
js_function);
// The builder continues in the "then" after this function.
}
void CodeStubGraphBuilderBase::BuildInstallCode(HValue* js_function,
HValue* shared_info) {
Add<HStoreNamedField>(js_function,
HObjectAccess::ForNextFunctionLinkPointer(),
graph()->GetConstantUndefined());
HValue* code_object = Add<HLoadNamedField>(
shared_info, static_cast<HValue*>(NULL), HObjectAccess::ForCodeOffset());
Add<HStoreCodeEntry>(js_function, code_object);
}
HInstruction* CodeStubGraphBuilderBase::LoadFromOptimizedCodeMap(
HValue* optimized_map,
HValue* iterator,
int field_offset) {
// By making sure to express these loads in the form [<hvalue> + constant]
// the keyed load can be hoisted.
DCHECK(field_offset >= 0 && field_offset < SharedFunctionInfo::kEntryLength);
HValue* field_slot = iterator;
if (field_offset > 0) {
HValue* field_offset_value = Add<HConstant>(field_offset);
field_slot = AddUncasted<HAdd>(iterator, field_offset_value);
}
HInstruction* field_entry = Add<HLoadKeyed>(optimized_map, field_slot,
static_cast<HValue*>(NULL), FAST_ELEMENTS);
return field_entry;
}
void CodeStubGraphBuilderBase::BuildInstallFromOptimizedCodeMap(
HValue* js_function,
HValue* shared_info,
HValue* native_context) {
Counters* counters = isolate()->counters();
IfBuilder is_optimized(this);
HInstruction* optimized_map = Add<HLoadNamedField>(
shared_info, static_cast<HValue*>(NULL),
HObjectAccess::ForOptimizedCodeMap());
HValue* null_constant = Add<HConstant>(0);
is_optimized.If<HCompareObjectEqAndBranch>(optimized_map, null_constant);
is_optimized.Then();
{
BuildInstallCode(js_function, shared_info);
}
is_optimized.Else();
{
AddIncrementCounter(counters->fast_new_closure_try_optimized());
// optimized_map points to fixed array of 3-element entries
// (native context, optimized code, literals).
// Map must never be empty, so check the first elements.
HValue* first_entry_index =
Add<HConstant>(SharedFunctionInfo::kEntriesStart);
IfBuilder already_in(this);
BuildCheckAndInstallOptimizedCode(js_function, native_context, &already_in,
optimized_map, first_entry_index);
already_in.Else();
{
// Iterate through the rest of map backwards. Do not double check first
// entry. After the loop, if no matching optimized code was found,
// install unoptimized code.
// for(i = map.length() - SharedFunctionInfo::kEntryLength;
// i > SharedFunctionInfo::kEntriesStart;
// i -= SharedFunctionInfo::kEntryLength) { .. }
HValue* shared_function_entry_length =
Add<HConstant>(SharedFunctionInfo::kEntryLength);
LoopBuilder loop_builder(this,
context(),
LoopBuilder::kPostDecrement,
shared_function_entry_length);
HValue* array_length = Add<HLoadNamedField>(
optimized_map, static_cast<HValue*>(NULL),
HObjectAccess::ForFixedArrayLength());
HValue* start_pos = AddUncasted<HSub>(array_length,
shared_function_entry_length);
HValue* slot_iterator = loop_builder.BeginBody(start_pos,
first_entry_index,
Token::GT);
{
IfBuilder done_check(this);
BuildCheckAndInstallOptimizedCode(js_function, native_context,
&done_check,
optimized_map,
slot_iterator);
// Fall out of the loop
loop_builder.Break();
}
loop_builder.EndBody();
// If slot_iterator equals first entry index, then we failed to find and
// install optimized code
IfBuilder no_optimized_code_check(this);
no_optimized_code_check.If<HCompareNumericAndBranch>(
slot_iterator, first_entry_index, Token::EQ);
no_optimized_code_check.Then();
{
// Store the unoptimized code
BuildInstallCode(js_function, shared_info);
}
}
}
}
template<>
HValue* CodeStubGraphBuilder<FastNewClosureStub>::BuildCodeStub() {
Counters* counters = isolate()->counters();
Factory* factory = isolate()->factory();
HInstruction* empty_fixed_array =
Add<HConstant>(factory->empty_fixed_array());
HValue* shared_info = GetParameter(0);
AddIncrementCounter(counters->fast_new_closure_total());
// Create a new closure from the given function info in new space
HValue* size = Add<HConstant>(JSFunction::kSize);
HInstruction* js_function = Add<HAllocate>(size, HType::JSObject(),
NOT_TENURED, JS_FUNCTION_TYPE);
int map_index = Context::FunctionMapIndex(casted_stub()->strict_mode(),
casted_stub()->kind());
// Compute the function map in the current native context and set that
// as the map of the allocated object.
HInstruction* native_context = BuildGetNativeContext();
HInstruction* map_slot_value = Add<HLoadNamedField>(
native_context, static_cast<HValue*>(NULL),
HObjectAccess::ForContextSlot(map_index));
Add<HStoreNamedField>(js_function, HObjectAccess::ForMap(), map_slot_value);
// Initialize the rest of the function.
Add<HStoreNamedField>(js_function, HObjectAccess::ForPropertiesPointer(),
empty_fixed_array);
Add<HStoreNamedField>(js_function, HObjectAccess::ForElementsPointer(),
empty_fixed_array);
Add<HStoreNamedField>(js_function, HObjectAccess::ForLiteralsPointer(),
empty_fixed_array);
Add<HStoreNamedField>(js_function, HObjectAccess::ForPrototypeOrInitialMap(),
graph()->GetConstantHole());
Add<HStoreNamedField>(js_function,
HObjectAccess::ForSharedFunctionInfoPointer(),
shared_info);
Add<HStoreNamedField>(js_function, HObjectAccess::ForFunctionContextPointer(),
context());
// Initialize the code pointer in the function to be the one
// found in the shared function info object.
// But first check if there is an optimized version for our context.
if (FLAG_cache_optimized_code) {
BuildInstallFromOptimizedCodeMap(js_function, shared_info, native_context);
} else {
BuildInstallCode(js_function, shared_info);
}
return js_function;
}
Handle<Code> FastNewClosureStub::GenerateCode() {
return DoGenerateCode(this);
}
template<>
HValue* CodeStubGraphBuilder<FastNewContextStub>::BuildCodeStub() {
int length = casted_stub()->slots() + Context::MIN_CONTEXT_SLOTS;
// Get the function.
HParameter* function = GetParameter(FastNewContextStub::kFunction);
// Allocate the context in new space.
HAllocate* function_context = Add<HAllocate>(
Add<HConstant>(length * kPointerSize + FixedArray::kHeaderSize),
HType::HeapObject(), NOT_TENURED, FIXED_ARRAY_TYPE);
// Set up the object header.
AddStoreMapConstant(function_context,
isolate()->factory()->function_context_map());
Add<HStoreNamedField>(function_context,
HObjectAccess::ForFixedArrayLength(),
Add<HConstant>(length));
// Set up the fixed slots.
Add<HStoreNamedField>(function_context,
HObjectAccess::ForContextSlot(Context::CLOSURE_INDEX),
function);
Add<HStoreNamedField>(function_context,
HObjectAccess::ForContextSlot(Context::PREVIOUS_INDEX),
context());
Add<HStoreNamedField>(function_context,
HObjectAccess::ForContextSlot(Context::EXTENSION_INDEX),
graph()->GetConstant0());
// Copy the global object from the previous context.
HValue* global_object = Add<HLoadNamedField>(
context(), static_cast<HValue*>(NULL),
HObjectAccess::ForContextSlot(Context::GLOBAL_OBJECT_INDEX));
Add<HStoreNamedField>(function_context,
HObjectAccess::ForContextSlot(
Context::GLOBAL_OBJECT_INDEX),
global_object);
// Initialize the rest of the slots to undefined.
for (int i = Context::MIN_CONTEXT_SLOTS; i < length; ++i) {
Add<HStoreNamedField>(function_context,
HObjectAccess::ForContextSlot(i),
graph()->GetConstantUndefined());
}
return function_context;
}
Handle<Code> FastNewContextStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<LoadDictionaryElementStub>::BuildCodeStub() {
HValue* receiver = GetParameter(LoadDescriptor::kReceiverIndex);
HValue* key = GetParameter(LoadDescriptor::kNameIndex);
Add<HCheckSmi>(key);
HValue* elements = AddLoadElements(receiver);
HValue* hash = BuildElementIndexHash(key);
return BuildUncheckedDictionaryElementLoad(receiver, elements, key, hash);
}
Handle<Code> LoadDictionaryElementStub::GenerateCode() {
return DoGenerateCode(this);
}
template<>
HValue* CodeStubGraphBuilder<RegExpConstructResultStub>::BuildCodeStub() {
// Determine the parameters.
HValue* length = GetParameter(RegExpConstructResultStub::kLength);
HValue* index = GetParameter(RegExpConstructResultStub::kIndex);
HValue* input = GetParameter(RegExpConstructResultStub::kInput);
info()->MarkMustNotHaveEagerFrame();
return BuildRegExpConstructResult(length, index, input);
}
Handle<Code> RegExpConstructResultStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
class CodeStubGraphBuilder<KeyedLoadGenericStub>
: public CodeStubGraphBuilderBase {
public:
CodeStubGraphBuilder(Isolate* isolate, KeyedLoadGenericStub* stub)
: CodeStubGraphBuilderBase(isolate, stub) {}
protected:
virtual HValue* BuildCodeStub();
void BuildElementsKindLimitCheck(HGraphBuilder::IfBuilder* if_builder,
HValue* bit_field2,
ElementsKind kind);
void BuildFastElementLoad(HGraphBuilder::IfBuilder* if_builder,
HValue* receiver,
HValue* key,
HValue* instance_type,
HValue* bit_field2,
ElementsKind kind);
void BuildExternalElementLoad(HGraphBuilder::IfBuilder* if_builder,
HValue* receiver,
HValue* key,
HValue* instance_type,
HValue* bit_field2,
ElementsKind kind);
KeyedLoadGenericStub* casted_stub() {
return static_cast<KeyedLoadGenericStub*>(stub());
}
};
void CodeStubGraphBuilder<KeyedLoadGenericStub>::BuildElementsKindLimitCheck(
HGraphBuilder::IfBuilder* if_builder, HValue* bit_field2,
ElementsKind kind) {
ElementsKind next_kind = static_cast<ElementsKind>(kind + 1);
HValue* kind_limit = Add<HConstant>(
static_cast<int>(Map::ElementsKindBits::encode(next_kind)));
if_builder->If<HCompareNumericAndBranch>(bit_field2, kind_limit, Token::LT);
if_builder->Then();
}
void CodeStubGraphBuilder<KeyedLoadGenericStub>::BuildFastElementLoad(
HGraphBuilder::IfBuilder* if_builder, HValue* receiver, HValue* key,
HValue* instance_type, HValue* bit_field2, ElementsKind kind) {
DCHECK(!IsExternalArrayElementsKind(kind));
BuildElementsKindLimitCheck(if_builder, bit_field2, kind);
IfBuilder js_array_check(this);
js_array_check.If<HCompareNumericAndBranch>(
instance_type, Add<HConstant>(JS_ARRAY_TYPE), Token::EQ);
js_array_check.Then();
Push(BuildUncheckedMonomorphicElementAccess(receiver, key, NULL,
true, kind,
LOAD, NEVER_RETURN_HOLE,
STANDARD_STORE));
js_array_check.Else();
Push(BuildUncheckedMonomorphicElementAccess(receiver, key, NULL,
false, kind,
LOAD, NEVER_RETURN_HOLE,
STANDARD_STORE));
js_array_check.End();
}
void CodeStubGraphBuilder<KeyedLoadGenericStub>::BuildExternalElementLoad(
HGraphBuilder::IfBuilder* if_builder, HValue* receiver, HValue* key,
HValue* instance_type, HValue* bit_field2, ElementsKind kind) {
DCHECK(IsExternalArrayElementsKind(kind));
BuildElementsKindLimitCheck(if_builder, bit_field2, kind);
Push(BuildUncheckedMonomorphicElementAccess(receiver, key, NULL,
false, kind,
LOAD, NEVER_RETURN_HOLE,
STANDARD_STORE));
}
HValue* CodeStubGraphBuilder<KeyedLoadGenericStub>::BuildCodeStub() {
HValue* receiver = GetParameter(LoadDescriptor::kReceiverIndex);
HValue* key = GetParameter(LoadDescriptor::kNameIndex);
// Split into a smi/integer case and unique string case.
HIfContinuation index_name_split_continuation(graph()->CreateBasicBlock(),
graph()->CreateBasicBlock());
BuildKeyedIndexCheck(key, &index_name_split_continuation);
IfBuilder index_name_split(this, &index_name_split_continuation);
index_name_split.Then();
{
// Key is an index (number)
key = Pop();
int bit_field_mask = (1 << Map::kIsAccessCheckNeeded) |
(1 << Map::kHasIndexedInterceptor);
BuildJSObjectCheck(receiver, bit_field_mask);
HValue* map = Add<HLoadNamedField>(receiver, static_cast<HValue*>(NULL),
HObjectAccess::ForMap());
HValue* instance_type =
Add<HLoadNamedField>(map, static_cast<HValue*>(NULL),
HObjectAccess::ForMapInstanceType());
HValue* bit_field2 = Add<HLoadNamedField>(map,
static_cast<HValue*>(NULL),
HObjectAccess::ForMapBitField2());
IfBuilder kind_if(this);
BuildFastElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
FAST_HOLEY_ELEMENTS);
kind_if.Else();
{
BuildFastElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
FAST_HOLEY_DOUBLE_ELEMENTS);
}
kind_if.Else();
// The DICTIONARY_ELEMENTS check generates a "kind_if.Then"
BuildElementsKindLimitCheck(&kind_if, bit_field2, DICTIONARY_ELEMENTS);
{
HValue* elements = AddLoadElements(receiver);
HValue* hash = BuildElementIndexHash(key);
Push(BuildUncheckedDictionaryElementLoad(receiver, elements, key, hash));
}
kind_if.Else();
// The SLOPPY_ARGUMENTS_ELEMENTS check generates a "kind_if.Then"
BuildElementsKindLimitCheck(&kind_if, bit_field2,
SLOPPY_ARGUMENTS_ELEMENTS);
// Non-strict elements are not handled.
Add<HDeoptimize>("non-strict elements in KeyedLoadGenericStub",
Deoptimizer::EAGER);
Push(graph()->GetConstant0());
kind_if.Else();
BuildExternalElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
EXTERNAL_INT8_ELEMENTS);
kind_if.Else();
BuildExternalElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
EXTERNAL_UINT8_ELEMENTS);
kind_if.Else();
BuildExternalElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
EXTERNAL_INT16_ELEMENTS);
kind_if.Else();
BuildExternalElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
EXTERNAL_UINT16_ELEMENTS);
kind_if.Else();
BuildExternalElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
EXTERNAL_INT32_ELEMENTS);
kind_if.Else();
BuildExternalElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
EXTERNAL_UINT32_ELEMENTS);
kind_if.Else();
BuildExternalElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
EXTERNAL_FLOAT32_ELEMENTS);
kind_if.Else();
BuildExternalElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
EXTERNAL_FLOAT64_ELEMENTS);
kind_if.Else();
BuildExternalElementLoad(&kind_if, receiver, key, instance_type, bit_field2,
EXTERNAL_UINT8_CLAMPED_ELEMENTS);
kind_if.ElseDeopt("ElementsKind unhandled in KeyedLoadGenericStub");
kind_if.End();
}
index_name_split.Else();
{
// Key is a unique string.
key = Pop();
int bit_field_mask = (1 << Map::kIsAccessCheckNeeded) |
(1 << Map::kHasNamedInterceptor);
BuildJSObjectCheck(receiver, bit_field_mask);
HIfContinuation continuation;
BuildTestForDictionaryProperties(receiver, &continuation);
IfBuilder if_dict_properties(this, &continuation);
if_dict_properties.Then();
{
// Key is string, properties are dictionary mode
BuildNonGlobalObjectCheck(receiver);
HValue* properties = Add<HLoadNamedField>(
receiver, static_cast<HValue*>(NULL),
HObjectAccess::ForPropertiesPointer());
HValue* hash =
Add<HLoadNamedField>(key, static_cast<HValue*>(NULL),
HObjectAccess::ForNameHashField());
hash = AddUncasted<HShr>(hash, Add<HConstant>(Name::kHashShift));
HValue* value = BuildUncheckedDictionaryElementLoad(receiver,
properties,
key,
hash);
Push(value);
}
if_dict_properties.Else();
{
// Key is string, properties are fast mode
HValue* hash = BuildKeyedLookupCacheHash(receiver, key);
ExternalReference cache_keys_ref =
ExternalReference::keyed_lookup_cache_keys(isolate());
HValue* cache_keys = Add<HConstant>(cache_keys_ref);
HValue* map = Add<HLoadNamedField>(receiver, static_cast<HValue*>(NULL),
HObjectAccess::ForMap());
HValue* base_index = AddUncasted<HMul>(hash, Add<HConstant>(2));
base_index->ClearFlag(HValue::kCanOverflow);
HIfContinuation inline_or_runtime_continuation(
graph()->CreateBasicBlock(), graph()->CreateBasicBlock());
{
IfBuilder lookup_ifs[KeyedLookupCache::kEntriesPerBucket];
for (int probe = 0; probe < KeyedLookupCache::kEntriesPerBucket;
++probe) {
IfBuilder* lookup_if = &lookup_ifs[probe];
lookup_if->Initialize(this);
int probe_base = probe * KeyedLookupCache::kEntryLength;
HValue* map_index = AddUncasted<HAdd>(
base_index,
Add<HConstant>(probe_base + KeyedLookupCache::kMapIndex));
map_index->ClearFlag(HValue::kCanOverflow);
HValue* key_index = AddUncasted<HAdd>(
base_index,
Add<HConstant>(probe_base + KeyedLookupCache::kKeyIndex));
key_index->ClearFlag(HValue::kCanOverflow);
HValue* map_to_check =
Add<HLoadKeyed>(cache_keys, map_index, static_cast<HValue*>(NULL),
FAST_ELEMENTS, NEVER_RETURN_HOLE, 0);
lookup_if->If<HCompareObjectEqAndBranch>(map_to_check, map);
lookup_if->And();
HValue* key_to_check =
Add<HLoadKeyed>(cache_keys, key_index, static_cast<HValue*>(NULL),
FAST_ELEMENTS, NEVER_RETURN_HOLE, 0);
lookup_if->If<HCompareObjectEqAndBranch>(key_to_check, key);
lookup_if->Then();
{
ExternalReference cache_field_offsets_ref =
ExternalReference::keyed_lookup_cache_field_offsets(isolate());
HValue* cache_field_offsets =
Add<HConstant>(cache_field_offsets_ref);
HValue* index = AddUncasted<HAdd>(hash, Add<HConstant>(probe));
index->ClearFlag(HValue::kCanOverflow);
HValue* property_index = Add<HLoadKeyed>(
cache_field_offsets, index, static_cast<HValue*>(NULL),
EXTERNAL_INT32_ELEMENTS, NEVER_RETURN_HOLE, 0);
Push(property_index);
}
lookup_if->Else();
}
for (int i = 0; i < KeyedLookupCache::kEntriesPerBucket; ++i) {
lookup_ifs[i].JoinContinuation(&inline_or_runtime_continuation);
}
}
IfBuilder inline_or_runtime(this, &inline_or_runtime_continuation);
inline_or_runtime.Then();
{
// Found a cached index, load property inline.
Push(Add<HLoadFieldByIndex>(receiver, Pop()));
}
inline_or_runtime.Else();
{
// KeyedLookupCache miss; call runtime.
Add<HPushArguments>(receiver, key);
Push(Add<HCallRuntime>(
isolate()->factory()->empty_string(),
Runtime::FunctionForId(Runtime::kKeyedGetProperty), 2));
}
inline_or_runtime.End();
}
if_dict_properties.End();
}
index_name_split.End();
return Pop();
}
Handle<Code> KeyedLoadGenericStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<VectorLoadStub>::BuildCodeStub() {
HValue* receiver = GetParameter(VectorLoadICDescriptor::kReceiverIndex);
Add<HDeoptimize>("Always deopt", Deoptimizer::EAGER);
return receiver;
}
Handle<Code> VectorLoadStub::GenerateCode() { return DoGenerateCode(this); }
template <>
HValue* CodeStubGraphBuilder<VectorKeyedLoadStub>::BuildCodeStub() {
HValue* receiver = GetParameter(VectorLoadICDescriptor::kReceiverIndex);
Add<HDeoptimize>("Always deopt", Deoptimizer::EAGER);
return receiver;
}
Handle<Code> VectorKeyedLoadStub::GenerateCode() {
return DoGenerateCode(this);
}
Handle<Code> MegamorphicLoadStub::GenerateCode() {
return DoGenerateCode(this);
}
template <>
HValue* CodeStubGraphBuilder<MegamorphicLoadStub>::BuildCodeStub() {
// The return address is on the stack.
HValue* receiver = GetParameter(LoadDescriptor::kReceiverIndex);
HValue* name = GetParameter(LoadDescriptor::kNameIndex);
// Probe the stub cache.
Code::Flags flags = Code::RemoveTypeAndHolderFromFlags(
Code::ComputeHandlerFlags(Code::LOAD_IC));
Add<HTailCallThroughMegamorphicCache>(receiver, name, flags);
// We never continue.
return graph()->GetConstant0();
}
} } // namespace v8::internal
| [
"benm@google.com"
] | benm@google.com |
b26036b2a83a9e9741a16afa144d36e4dd783f5d | 00d66b0743d2a44e3b1173f2c8eda18479f9b0da | /svt/system/src/svt_window.cpp | e8df3d2d9c9b44a4bf6a1ed7c526f1b5dd11fb22 | [] | no_license | biomachina-lab/Sculptor | f72c8c924423194da847b407d33da1e6be6fd51c | 3276b6cf55b681bb8c03ed464727d4f3f576b7f8 | refs/heads/master | 2021-01-23T18:56:39.440776 | 2015-01-17T05:05:18 | 2015-01-17T05:05:18 | 29,320,420 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 16,724 | cpp | /***************************************************************************
svt_window.cpp
--------------
begin : 02.02.2001
author : Stefan Birmanns
email : sculptor@biomachina.org
***************************************************************************/
#include <svt_system.h>
#include <svt_window.h>
#include <svt_threads.h>
#include <svt_window_int.h>
#include <svt_time.h>
#include <svt_opengl.h>
#include <stdlib.h>
#include <stdio.h>
///////////////////////////////////////////////////////////////////////////////
// Structures and variables
///////////////////////////////////////////////////////////////////////////////
// array w/ the data for all windows
svt_win* active_windows = NULL;
// how many windows are there?
int active_windows_count = 0;
// how many threads are there?
int thread_count = 0;
// should we create threads?
bool __svt_threads = false;
// window title
const char* current_name = "SVT";
// window display
const char* current_display = NULL;
// window in stereo?
bool current_stereo = false;
// should the window do doublebuffering?
bool current_doublebuf = true;
// depth buffer bits
int current_depth = 24;
// rgba or rgb?
bool current_rgba = false;
// swap buffers sync?
bool swap_sync = false;
// number of samples (if 0, multisample extension is not being used)
int current_samples = 0;
// how many canvas
static int g_iCanvasNum=0;
// idle function
void (*idle)();
// the drawing semaphore
extern svt_semaphore g_cDrawingSema;
///////////////////////////////////////////////////////////////////////////////
// Helper functions
///////////////////////////////////////////////////////////////////////////////
void __svt_swapAllBuffers()
{
int i;
for (i = 0; i< active_windows_count ; i++)
if (active_windows[i].swap_buf)
__svt_swapBuffers(i+1);
}
bool __svt_checkWinParam(svt_win_handle win)
{
if (win > active_windows_count)
return false;
if (win < 1)
return false;
if (active_windows[win-1].active != true)
return false;
return true;
}
void __svt_dragMouse(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].drag != NULL)
{
//printf("svt_system: win %i mouse draggin pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].drag)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y, active_windows[win-1].button);
}
};
void __svt_moveMouse(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].move != NULL)
{
//printf("svt_system: win %i mouse move pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].move)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_lmb_down(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].lmb_down != NULL)
{
//printf("svt_system: win %i lmb pressed pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].lmb_down)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_rmb_down(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].rmb_down != NULL)
{
//printf("svt_system: win %i rmb pressed pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].rmb_down)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_mmb_down(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].mmb_down != NULL)
{
//printf("svt_system: win %i mmb pressed pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].mmb_down)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_umb_down(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].umb_down != NULL)
{
//printf("svt_system: win %i mmb pressed pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].umb_down)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_dmb_down(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].dmb_down != NULL)
{
//printf("svt_system: win %i mmb pressed pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].dmb_down)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_lmb_up(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].lmb_up != NULL)
{
//printf("svt_system: win %i lmb released pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].lmb_up)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_rmb_up(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].rmb_up != NULL)
{
//printf("svt_system: win %i rmb released pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].rmb_up)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_mmb_up(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].mmb_up != NULL)
{
//printf("svt_system: win %i mmb released pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].mmb_up)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_umb_up(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].umb_up != NULL)
{
//printf("svt_system: win %i mmb released pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].umb_up)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_dmb_up(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].dmb_up != NULL)
{
//printf("svt_system: win %i mmb released pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].dmb_up)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
}
};
void __svt_key_pressed(svt_win_handle win, char key)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].key_pressed != NULL)
{
//printf("svt_system: win %i key pressed pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].key_pressed)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y, key);
}
};
void __svt_key_released(svt_win_handle win, char key)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].key_released != NULL)
{
//printf("svt_system: win %i key released pos %i,%i\n", win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y);
(active_windows[win-1].key_released)(win,active_windows[win-1].mouse_x, active_windows[win-1].mouse_y, key);
}
};
void __svt_resizeWindow(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
if (active_windows[win-1].resize != NULL)
{
//printf("svt_system: win %i resized to %i,%i\n", win,active_windows[win-1].size_x, active_windows[win-1].size_y);
(active_windows[win-1].resize)(win,active_windows[win-1].size_x, active_windows[win-1].size_y);
}
};
void __svt_idle()
{
if (idle != NULL)
(idle)();
};
void __svt_redrawWindow(svt_win_handle win)
{
if(!__svt_checkWinParam(win))
return;
if (active_windows[win-1].func != NULL)
{
active_windows[win-1].sema->P();
g_cDrawingSema.P();
(active_windows[win-1].func)(win,active_windows[win-1].size_x, active_windows[win-1].size_y);
g_cDrawingSema.V();
active_windows[win-1].swap_buf = true;
active_windows[win-1].redraw = false;
active_windows[win-1].sema->V();
}
};
void __svt_idleTest()
{
int i;
if (__svt_threads)
{
for (i = 0; i< active_windows_count ; i++)
{
while(active_windows[i].redraw)
{
active_windows[i].sema->P();
active_windows[i].sema->V();
}
}
}
if (swap_sync)
__svt_swapAllBuffers();
__svt_idle();
};
///////////////////////////////////////////////////////////////////////////////
// Public funtctions
///////////////////////////////////////////////////////////////////////////////
////// window creation
svt_win_handle svt_createWindow(int _tx, int _ty, int _tsx, int _tsy)
{
return __svt_createWindow(_tx,_ty,_tsx,_tsy,false,current_display);
};
svt_win_handle svt_createFullScreenWindow(int _tsx, int _tsy)
{
return __svt_createWindow(0,0,_tsx,_tsy,true,current_display);
};
////// window destruction
void svt_destroyAllWindows()
{
int i;
for (i = 0; i< active_windows_count ; i++)
__svt_destroyWindow(i+1);
}
////// window properties
void svt_setDoublebuffer(bool val)
{
current_doublebuf = val;
};
void svt_setDepthBufferBits(int bits)
{
current_depth = bits;
};
void svt_setStereo(bool st)
{
current_stereo = st;
};
void svt_setRGBA(bool r)
{
current_rgba = r;
};
bool svt_isWindowStereo(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return false;
return active_windows[win-1].stereo;
}
int svt_getWindowWidth(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return -1;
return active_windows[win-1].size_x;
};
int svt_getWindowHeight(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return -1;
return active_windows[win-1].size_y;
};
void svt_setWindowTitle(const char* name)
{
current_name = name;
};
void svt_setDisplay(const char* name)
{
current_display = name;
};
void svt_setSamples(int iSamples)
{
current_samples = iSamples;
};
int svt_getSamples(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return -1;
return active_windows[win-1].samples;
};
////// callback funcs
void svt_setDrawingFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].func = func;
};
void svt_setIdleFunc(void (*func)())
{
idle = func;
};
void svt_setLMBDownFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].lmb_down = func;
};
void svt_setRMBDownFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].rmb_down = func;
};
void svt_setMMBDownFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].mmb_down = func;
};
void svt_setUMBDownFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].umb_down = func;
};
void svt_setDMBDownFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].dmb_down = func;
};
void svt_setLMBUpFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].lmb_up = func;
};
void svt_setRMBUpFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].rmb_up = func;
};
void svt_setMMBUpFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].mmb_up = func;
};
void svt_setUMBUpFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].umb_up = func;
};
void svt_setDMBUpFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].dmb_up = func;
};
void svt_setKeyDownFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int,char))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].key_pressed = func;
};
void svt_setKeyUpFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int,char))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].key_released = func;
};
void svt_setSpecialKeyDownFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].special_key_pressed = func;
};
void svt_setSpecialKeyUpFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].special_key_released = func;
};
void svt_setResizeWindowFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].resize = func;
};
void svt_setMouseDragFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].drag = func;
};
void svt_setMouseMotionFunc(svt_win_handle win, void (*func)(svt_win_handle,int,int))
{
if(!__svt_checkWinParam(win)) return;
active_windows[win-1].move = func;
};
////// threads
void svt_createThreads(bool tf)
{
__svt_threads = tf;
};
bool svt_creatingThreads()
{
return __svt_threads;
};
////// redrawing
void svt_redrawWindow(svt_win_handle win)
{
if(!__svt_checkWinParam(win)) return;
// the window is already drawn, but the buffers are not swapped. Then wait until they are swapped, before we draw another picture
if (active_windows[win-1].swap_buf)
return;
// if threads are active, the redrawing is done in svt_redrawThread, otherwise it is done here!
if (__svt_threads)
{
active_windows[win-1].redraw = true;
}
else
{
svt_switchWindow(win);
__svt_redrawWindow(win);
if (!swap_sync)
__svt_swapBuffers(win);
}
#ifdef WIN32
//InvalidateRect(active_windows[win-1].win,NULL,TRUE);
//UpdateWindow(active_windows[win-1].win);
#endif
};
void svt_redrawAllWindows( void )
{
int i;
for (i = 1; i<= active_windows_count ; i++)
svt_redrawWindow(i);
}
void* svt_redrawThread(void* null)
{
int thread = *(int*)null;
int i;
printf("svt_system: starting redraw thread %i\n", thread);
while(true)
{
for(i=0;i<active_windows_count;i++)
{
if (active_windows[i].thread == thread && active_windows[i].active && active_windows[i].redraw && !active_windows[i].swap_buf)
{
svt_switchWindow(i+1);
__svt_redrawWindow(i+1);
if (!swap_sync)
__svt_swapBuffers(i+1);
}
}
}
return NULL;
};
////// misc
int svt_getWindowsNum()
{
return active_windows_count;
}
DLLEXPORT void svt_setSwapSync(bool ss)
{
swap_sync = ss;
};
bool svt_getSwapSync()
{
return swap_sync;
}
int svt_getCanvasNum() {return g_iCanvasNum;}
void svt_setCanvasNum(int i) {g_iCanvasNum =i;}
int svt_getCurrentCanvas()
{
int iWin=svt_getCurrentWindow()-1;
if (iWin>=0)
return active_windows[iWin].current_canvas;
return -1;
}
void svt_setCurrentCanvas(int iNum)
{
int iWin=svt_getCurrentWindow()-1;
if (iWin>=0)
active_windows[iWin].current_canvas=iNum;
}
void svt_swapCurrentWindow()
{
int iWin=svt_getCurrentWindow();
if (iWin>=0)
__svt_swapBuffers(iWin);
}
/**
* Wake-up windows - the windows typically wait for a new event from the window-manager and only react when one arrives. Sometimes one would like to enforce an update, and therefore this function can be called.
*/
DLLEXPORT void svt_forceUpdateWindows()
{
int i;
for (i = 1; i<= active_windows_count ; i++)
svt_wakeupWindow(i);
}
// gui callback function
void (*guiCallback)() = NULL;
DLLEXPORT void svt_setGUICallback( void (*func)())
{
guiCallback = func;
};
/**
* Wake-up gui windows - the gui windows typically wait for a new event from the window-manager and only react when one arrives. Sometimes one would like to enforce an update, and therefore this function can be called.
*/
DLLEXPORT void svt_forceUpdateGUIWindows()
{
if (guiCallback != NULL)
(guiCallback)();
};
| [
"wriggers@biomachina.org"
] | wriggers@biomachina.org |
1b32e3c8095ea5a0bdbf8394866cf1bf9dc148bc | 85e34bda861b94bb613eaa547bd1db7bac27691d | /include/libflatarray/detail/destroy_functor.hpp | 522746db7875e859713d235379be51822547bbb1 | [
"BSL-1.0"
] | permissive | Haider-BA/libflatarray | d37d327ea988bd3b2ce1d80c2cd9f75bf3dc8d29 | 51bdc3ee6389881512185e4c81606705e0525750 | refs/heads/master | 2020-12-24T10:59:22.374479 | 2016-11-01T22:03:30 | 2016-11-01T22:03:30 | 73,205,431 | 1 | 0 | null | 2016-11-08T16:31:06 | 2016-11-08T16:31:05 | null | UTF-8 | C++ | false | false | 2,996 | hpp | /**
* Copyright 2016 Andreas Schäfer
*
* Distributed under the Boost Software License, Version 1.0. (See accompanying
* file LICENSE or copy at http://www.boost.org/LICENSE_1_0.txt)
*/
#ifndef FLAT_ARRAY_DETAIL_DESTROY_FUNCTOR_HPP
#define FLAT_ARRAY_DETAIL_DESTROY_FUNCTOR_HPP
#include <libflatarray/config.h>
#include <libflatarray/detail/generate_cuda_launch_config.hpp>
namespace LibFlatArray {
namespace detail {
namespace flat_array {
/**
* Will call the destructor on all grid cells, relies on the SoA
* (Struct of Arrays) accessor to destroy a cell's members
* individually.
*/
template<typename CELL, bool USE_CUDA_FUNCTORS = false>
class destroy_functor
{
public:
destroy_functor(
std::size_t dim_x,
std::size_t dim_y,
std::size_t dim_z) :
dim_x(dim_x),
dim_y(dim_y),
dim_z(dim_z)
{}
template<long DIM_X, long DIM_Y, long DIM_Z, long INDEX>
void operator()(soa_accessor<CELL, DIM_X, DIM_Y, DIM_Z, INDEX>& accessor) const
{
for (std::size_t z = 0; z < dim_z; ++z) {
for (std::size_t y = 0; y < dim_y; ++y) {
accessor.index() = soa_accessor<CELL, DIM_X, DIM_Y, DIM_Z, INDEX>::gen_index(0, y, z);
for (std::size_t x = 0; x < dim_x; ++x) {
accessor.destroy_members();
++accessor;
}
}
}
}
private:
std::size_t dim_x;
std::size_t dim_y;
std::size_t dim_z;
};
#ifdef LIBFLATARRAY_WITH_CUDA
#ifdef __CUDACC__
template<typename CELL, long DIM_X, long DIM_Y, long DIM_Z, long INDEX>
__global__
void destroy_kernel(char *data, long dim_x, long dim_y, long dim_z)
{
long x = blockDim.x * blockIdx.x + threadIdx.x;
long y = blockDim.y * blockIdx.y + threadIdx.y;
long z = blockDim.z * blockIdx.z + threadIdx.z;
if (x >= dim_x) {
return;
}
if (y >= dim_y) {
return;
}
if (z >= dim_z) {
return;
}
typedef soa_accessor_light<CELL, DIM_X, DIM_Y, DIM_Z, INDEX> accessor_type;
long index = accessor_type::gen_index(x, y, z);
accessor_type accessor(data, index);
accessor.destroy_members();
}
/**
* Specialization for CUDA
*/
template<typename CELL>
class destroy_functor<CELL, true>
{
public:
destroy_functor(
std::size_t dim_x,
std::size_t dim_y,
std::size_t dim_z) :
dim_x(dim_x),
dim_y(dim_y),
dim_z(dim_z)
{}
template<long DIM_X, long DIM_Y, long DIM_Z, long INDEX>
void operator()(soa_accessor<CELL, DIM_X, DIM_Y, DIM_Z, INDEX>& accessor) const
{
dim3 grid_dim;
dim3 block_dim;
generate_launch_config()(&grid_dim, &block_dim, dim_x, dim_y, dim_z);
destroy_kernel<CELL, DIM_X, DIM_Y, DIM_Z, INDEX><<<grid_dim, block_dim>>>(accessor.data(), dim_x, dim_y, dim_z);
}
private:
std::size_t dim_x;
std::size_t dim_y;
std::size_t dim_z;
};
#endif
#endif
}
}
}
#endif
| [
"gentryx@gmx.de"
] | gentryx@gmx.de |
42fb42347d47e79bbdd647ed6729a2b5cf5b0535 | 1942a0d16bd48962e72aa21fad8d034fa9521a6c | /aws-cpp-sdk-organizations/include/aws/organizations/model/ListAccountsForParentResult.h | 7de4e07b34aa7d0d6be213ba7b1d3dac133f526f | [
"Apache-2.0",
"JSON",
"MIT"
] | permissive | yecol/aws-sdk-cpp | 1aff09a21cfe618e272c2c06d358cfa0fb07cecf | 0b1ea31e593d23b5db49ee39d0a11e5b98ab991e | refs/heads/master | 2021-01-20T02:53:53.557861 | 2018-02-11T11:14:58 | 2018-02-11T11:14:58 | 83,822,910 | 0 | 1 | null | 2017-03-03T17:17:00 | 2017-03-03T17:17:00 | null | UTF-8 | C++ | false | false | 6,327 | h | /*
* Copyright 2010-2016 Amazon.com, Inc. or its affiliates. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License").
* You may not use this file except in compliance with the License.
* A copy of the License is located at
*
* http://aws.amazon.com/apache2.0
*
* or in the "license" file accompanying this file. This file is distributed
* on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
* express or implied. See the License for the specific language governing
* permissions and limitations under the License.
*/
#pragma once
#include <aws/organizations/Organizations_EXPORTS.h>
#include <aws/core/utils/memory/stl/AWSVector.h>
#include <aws/core/utils/memory/stl/AWSString.h>
#include <aws/organizations/model/Account.h>
namespace Aws
{
template<typename RESULT_TYPE>
class AmazonWebServiceResult;
namespace Utils
{
namespace Json
{
class JsonValue;
} // namespace Json
} // namespace Utils
namespace Organizations
{
namespace Model
{
class AWS_ORGANIZATIONS_API ListAccountsForParentResult
{
public:
ListAccountsForParentResult();
ListAccountsForParentResult(const AmazonWebServiceResult<Aws::Utils::Json::JsonValue>& result);
ListAccountsForParentResult& operator=(const AmazonWebServiceResult<Aws::Utils::Json::JsonValue>& result);
/**
* <p>A list of the accounts in the specified root or OU.</p>
*/
inline const Aws::Vector<Account>& GetAccounts() const{ return m_accounts; }
/**
* <p>A list of the accounts in the specified root or OU.</p>
*/
inline void SetAccounts(const Aws::Vector<Account>& value) { m_accounts = value; }
/**
* <p>A list of the accounts in the specified root or OU.</p>
*/
inline void SetAccounts(Aws::Vector<Account>&& value) { m_accounts = value; }
/**
* <p>A list of the accounts in the specified root or OU.</p>
*/
inline ListAccountsForParentResult& WithAccounts(const Aws::Vector<Account>& value) { SetAccounts(value); return *this;}
/**
* <p>A list of the accounts in the specified root or OU.</p>
*/
inline ListAccountsForParentResult& WithAccounts(Aws::Vector<Account>&& value) { SetAccounts(value); return *this;}
/**
* <p>A list of the accounts in the specified root or OU.</p>
*/
inline ListAccountsForParentResult& AddAccounts(const Account& value) { m_accounts.push_back(value); return *this; }
/**
* <p>A list of the accounts in the specified root or OU.</p>
*/
inline ListAccountsForParentResult& AddAccounts(Account&& value) { m_accounts.push_back(value); return *this; }
/**
* <p>If present, this value indicates that there is more output available than is
* included in the current response. Use this value in the <code>NextToken</code>
* request parameter in a subsequent call to the operation to get the next part of
* the output. You should repeat this until the <code>NextToken</code> response
* element comes back as <code>null</code>.</p>
*/
inline const Aws::String& GetNextToken() const{ return m_nextToken; }
/**
* <p>If present, this value indicates that there is more output available than is
* included in the current response. Use this value in the <code>NextToken</code>
* request parameter in a subsequent call to the operation to get the next part of
* the output. You should repeat this until the <code>NextToken</code> response
* element comes back as <code>null</code>.</p>
*/
inline void SetNextToken(const Aws::String& value) { m_nextToken = value; }
/**
* <p>If present, this value indicates that there is more output available than is
* included in the current response. Use this value in the <code>NextToken</code>
* request parameter in a subsequent call to the operation to get the next part of
* the output. You should repeat this until the <code>NextToken</code> response
* element comes back as <code>null</code>.</p>
*/
inline void SetNextToken(Aws::String&& value) { m_nextToken = value; }
/**
* <p>If present, this value indicates that there is more output available than is
* included in the current response. Use this value in the <code>NextToken</code>
* request parameter in a subsequent call to the operation to get the next part of
* the output. You should repeat this until the <code>NextToken</code> response
* element comes back as <code>null</code>.</p>
*/
inline void SetNextToken(const char* value) { m_nextToken.assign(value); }
/**
* <p>If present, this value indicates that there is more output available than is
* included in the current response. Use this value in the <code>NextToken</code>
* request parameter in a subsequent call to the operation to get the next part of
* the output. You should repeat this until the <code>NextToken</code> response
* element comes back as <code>null</code>.</p>
*/
inline ListAccountsForParentResult& WithNextToken(const Aws::String& value) { SetNextToken(value); return *this;}
/**
* <p>If present, this value indicates that there is more output available than is
* included in the current response. Use this value in the <code>NextToken</code>
* request parameter in a subsequent call to the operation to get the next part of
* the output. You should repeat this until the <code>NextToken</code> response
* element comes back as <code>null</code>.</p>
*/
inline ListAccountsForParentResult& WithNextToken(Aws::String&& value) { SetNextToken(value); return *this;}
/**
* <p>If present, this value indicates that there is more output available than is
* included in the current response. Use this value in the <code>NextToken</code>
* request parameter in a subsequent call to the operation to get the next part of
* the output. You should repeat this until the <code>NextToken</code> response
* element comes back as <code>null</code>.</p>
*/
inline ListAccountsForParentResult& WithNextToken(const char* value) { SetNextToken(value); return *this;}
private:
Aws::Vector<Account> m_accounts;
Aws::String m_nextToken;
};
} // namespace Model
} // namespace Organizations
} // namespace Aws
| [
"henso@amazon.com"
] | henso@amazon.com |
e5f93c75d312729e0b8f2e6d9d3bfe0cdcd33294 | 01da296e834ef6d292c132d2633d8b05f35d3bb2 | /code/finaly/code/Lyndon.cpp | 1e77b1210bd2b55c2c26351595cc3fc9a4ca08bf | [] | no_license | cuber2460/acmlib07 | 07732ddc210912fbd6a112aaad39171f457f2e18 | 954ed6e8471c62d40c3f0ee6a42c125af1ccd77e | refs/heads/master | 2021-06-20T00:34:07.923798 | 2019-11-24T19:11:07 | 2019-11-24T19:11:07 | 154,525,341 | 6 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,327 | cpp | // 1) Przyjmuje słowo s (wypełnione na pozycjach 0, 1, ..., n-1).
// Dzieli słowo s na pewną liczbę słów Lyndona p_1, ... p_k tak, że:
// p_1 >= p_2 >= ... >= p_k (leksykograficznie)
// Podział jest zapisywany w tablicy b - na i-tej pozycji jest true,
// jeśli nastąpiło cięcie przed i-tą literką.
// 2) Znajduje minimalne leksykograficznie przesunięcie cykliczne słowa.
// 3) Znajduje minimalny leksykograficznie sufiks słowa.
void lyndon(char * s, // Słowo zaczynające się na pozycji 0:
// 2) s powinno być sklejone: xx.
int n, // Długość słowa s (licząc ew. podwojenie).
int& suf, // 3) pozycja minimalnego leksykograficznie sufiksu.
int& cyk, // 2) pozycja minimalnego leksykograficznie przes. cykl.
bool* b) { // Tablica cięcia b.
for (int i = 0; i < n; i++) b[i] = false; // wykomentuj, jeśli nie 1)
int p = 0, k = 0, m = 1;
while (p < n) {
if (m == n or s[m] < s[k]) {
if (p < n / 2) cyk = p; // wykomentuj, jeśli nie 2)
while (p <= k) {
p += m - k;
if (p < n) {
suf = p; // wykomentuj, jeśli nie 3)
b[p] = true; // wykomentuj, jeśli nie 1)
}
}
m = (k = p) + 1;
} else if (s[m++] != s[k++]) k = p;
}
}
| [
"mtszrdck@gmail.com"
] | mtszrdck@gmail.com |
d26219d20a22e64383d84a7917109afd2bc6aea2 | e4b45b9b2c5dcc5e4f59f62c42f8e41748cdfe44 | /problem-solving/acmicpc.net/11652.cpp | 98179c5887e9bcd1c740e1765a7e701742493116 | [] | no_license | ILyoan/MySnippets | 82f8db83e8cb5e5e0e51992dc58573067efe21e2 | f0d9f4daf01241ccaa108e158e972b70eb5a3369 | refs/heads/master | 2020-04-06T06:57:23.413203 | 2016-09-11T14:05:45 | 2016-09-11T14:05:45 | 48,019,845 | 0 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 1,502 | cpp | // baekjoon online judge 11652 (www.acmicpc.net/problem/11652)
#include <cstdio>
typedef long long i64;
const int MAXN = 1000000;
i64 A[MAXN + 1];
i64 B[MAXN + 1];
void merge(int begin, int end) {
int mid = (begin + end) / 2;
int p = begin;
int q = mid;
int r = begin;
while (p < mid && q < end) {
if (A[p] < A[q]) {
B[r++] = A[p++];
} else {
B[r++] = A[q++];
}
}
while (p < mid) {
B[r++] = A[p++];
}
while (q < end) {
B[r++] = A[q++];
}
for (int i = begin; i < end; ++i) {
A[i] = B[i];
}
}
void mergeSort(int begin, int end) {
if (begin >= end - 1) {
return;
}
int mid = (begin + end) / 2;
mergeSort(begin, mid);
mergeSort(mid, end);
merge(begin, end);
}
int main() {
int n;
scanf("%d", &n);
for (int i = 0; i < n; ++i) {
scanf("%lld", &A[i]);
}
mergeSort(0, n);
i64 most_appear = A[0];
i64 most_appear_count = 1;
i64 current_count = 1;
for (int i = 1; i < n; ++i) {
if (A[i] == A[i - 1]) {
current_count += 1;
} else {
if (most_appear_count < current_count) {
most_appear_count = current_count;
most_appear = A[i - 1];
}
current_count = 1;
}
}
if (most_appear_count < current_count) {
most_appear = A[n - 1];
}
printf("%lld\n", most_appear);
return 0;
}
| [
"ily.cho@samsung.com"
] | ily.cho@samsung.com |
d23b25da917014b668efcc128e4d623a81f558c2 | 4dff3a685a382d86f3e9677d7902c6d8af046776 | /src/intersection.cpp | dda29717f6915f332b6e89d9905ecd1d7180baa3 | [] | no_license | zachng1/Go | cfa348a244ca34aef43142544330a785cc305c7b | f8f39f971d7e6ff138975224472c2fb24867cb83 | refs/heads/master | 2021-04-12T16:32:15.781099 | 2020-06-07T04:16:31 | 2020-06-07T04:16:31 | 249,092,124 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,119 | cpp | #include "intersection.h"
#include "board.h"
#include <QtWidgets>
Intersection::Intersection(Qt::GlobalColor colour, qreal x, qreal y, qreal width, qreal height, QGraphicsItem * parent) :
QGraphicsEllipseItem(x, y, width, height, parent),
stone(nullptr),
state(EMPTY),
hoverstate(false)
{
pen.setStyle(Qt::SolidLine);
pen.setBrush(Qt::transparent);
pen.setWidth(2);
setPen(pen);
brush.setStyle(Qt::SolidPattern);
brush.setColor(colour);
setBrush(brush);
}
int Intersection::status() {
return state;
}
bool Intersection::permanent() {
return hoverstate;
}
void Intersection::setStatus(int COLOUR, bool permanent) {
if (stone != nullptr) delete stone;
hoverstate = permanent;
if (COLOUR != EMPTY && permanent) {
state = COLOUR;
stone = new Stone(true, COLOUR, -25, -25, 50, 50, this); //make_updateable
}
else if (COLOUR != EMPTY && !permanent) {
stone = new Stone(false, COLOUR, -25, -25, 50, 50, this); //make_updateable
}
else if (COLOUR == EMPTY) {
state = COLOUR;
stone = nullptr;
}
}
| [
"zachng1@gmail.com"
] | zachng1@gmail.com |
84e693acaebddf4f33cce73f6b9de621ce593dae | 6828ad8cf7a52461c96a8dabff45a3dbfe1223fb | /src/VescFOC.h | 4284c5e91de5df1798084743997ef03163eabe87 | [] | no_license | szf2020/vesc-utils | 7514c87bbb088b809bc42230e051a51c2a84c0e1 | 51d3a7825afe20eeed6c893ff75be059d00460ff | refs/heads/master | 2023-04-09T15:14:30.629252 | 2021-04-18T18:19:05 | 2021-04-18T18:19:05 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 364 | h | #pragma once
#include <Arduino.h>
#include <SimpleFOC.h>
class VescFOC {
public:
VescFOC(int pole_pairs = 15);
void begin();
void move(float target);
void loop();
void print(Stream& printer);
HallSensor* sensor;
BLDCDriver6PWM* driver;
BLDCMotor* motor;
uint8_t reverse; // 0 = no, 1 = reversed
private:
int pole_pairs;
};
| [
"williams.owen@gmail.com"
] | williams.owen@gmail.com |
e293b7fdd1ca1f2e5371debb0a501afbaeb62495 | 69d7df4a74e3bfbc900a466ce4915951020699db | /Div 2 B Practice/16.cpp | 661518c78ea17e73134c3ca0eee6fa6179858c64 | [] | no_license | Jyotics038/Coding-Practice-by-solving-a2oj | ee93259fa479eb121d8b47b3adbab1776ae834b7 | 1b753e29c6477b761065d617bd02b46f3937d928 | refs/heads/main | 2023-08-01T18:51:53.992212 | 2021-09-18T04:14:29 | 2021-09-18T04:14:29 | 393,016,347 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 882 | cpp | //Suffix Structures
#include <bits/stdc++.h>
typedef long long ll;
#define int long long int
using namespace std;
int32_t main(){
ios_base::sync_with_stdio(false);
cin.tie(NULL);
string s,t;
cin>>s>>t;
map<char,int>m1,m2;
for(char i:s){
m1[i]++;
}
for(char i:t){
m2[i]++;
}
for(int i=0;i<26;i++){
m1[char('a'+i)]+=0;
}
bool flag=true;
for(auto i:m1){
if(i.second<m2[i.first]){
cout<<"need tree\n";
return 0;
}
else if(i.second>m2[i.first]){
flag=false;
}
}
int pos=0;
bool f2=true;
for(int i=0;i<s.length();i++){
if(s[i]==t[pos]){
pos++;
}
if(pos==t.length()){
break;
}
}
if(pos!=t.length()){
f2=false;
}
if(!f2 && !flag){
cout<<"both\n";
}else if(!f2){
cout<<"array\n";
}else{
cout<<"automaton\n";
}
return 0;
}
| [
"jyotibansal9466@gmail.com"
] | jyotibansal9466@gmail.com |
ac78a020ea0108cf5a86b7e746d0478fa1bb30ee | 33035c05aad9bca0b0cefd67529bdd70399a9e04 | /src/boost_regex_v4_sub_match.hpp | 99ef73dec3fdde5511e766f99ab736ef4e536943 | [
"LicenseRef-scancode-unknown-license-reference",
"BSL-1.0"
] | permissive | elvisbugs/BoostForArduino | 7e2427ded5fd030231918524f6a91554085a8e64 | b8c912bf671868e2182aa703ed34076c59acf474 | refs/heads/master | 2023-03-25T13:11:58.527671 | 2021-03-27T02:37:29 | 2021-03-27T02:37:29 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 40 | hpp | #include <boost/regex/v4/sub_match.hpp>
| [
"k@kekyo.net"
] | k@kekyo.net |
bd3abdb2fc9071298e6ea22de2029c3f020865cc | 3644e0da44f3cf478c28a6d4f2973056b8d82a69 | /Raspberry/Robocup/Vision/include/Position.h | 03093dd4f05e4eedda17db4d92547e8f65bacab6 | [] | no_license | s991116/robot-projects | 4e69c89f23d7e71422c47965d18e83b61c6fcb9b | 31f92ffbd9a15df3bd0a7771e2f5b2e2e854de39 | refs/heads/master | 2023-03-06T07:03:57.331954 | 2022-11-11T20:29:50 | 2022-11-11T20:29:50 | 32,548,921 | 4 | 0 | null | 2023-03-01T20:36:05 | 2015-03-19T22:11:28 | C++ | UTF-8 | C++ | false | false | 646 | h | #ifndef POSITION_H
#define POSITION_H
#include <string>
class Position {
public:
bool Detected;
void SetImagePosition(int imageX, int imageY, int width, int height);
void SetNormalizedPosition(float x, float y, int width, int height);
int GetImageX();
int GetImageY();
int GetLimitedImageX();
int GetLimitedImageY();
float GetNormalizedX();
float GetNormalizedY();
int GetHeight();
void SetHeight(int height);
int GetWidth();
void SetWidth(int width);
bool WithinImage();
std::string Print(void);
private:
int LimitPoint(int value, int maxValue);
float _X;
float _Y;
int _Width;
int _Height;
};
#endif /* POSITION_H */
| [
"philip.juhl@gmail.com"
] | philip.juhl@gmail.com |
4757aa84714fe7b229429b9c2ac4abd815543a00 | 0b5c062bd56eb3d93d8e7c3494c697cd67f63dd4 | /CustomDriverBoard_v0.6/CustomDriverBoard_v0.6.ino | a1d52d3e42631e4695fad90001662b1822968a49 | [] | no_license | FRC3620/FRC3620_CustomDriverBoard-1 | 50a60b7f40607e03f7c9d8a160c978ee04fe3d90 | 761a462b0313d77e0ab07169d06b38b8c238a580 | refs/heads/master | 2021-05-31T00:48:11.605159 | 2016-04-12T22:23:26 | 2016-04-12T22:23:26 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 6,867 | ino | // Test version 0.6
//
// Run our custom driver board
// as an emulated joystick with buttons.
//
// Arcade buttons are joystick 0-7
// Encoder binaries are 8-10
//
// Pins in use:
// -Encoder pins D0 and D1
// -LCD I2C Pins D2 and D3 (SDA. SCL)
// -Arcade buttons on pins D4-D11
//
//
// by Kai Borah (Team 3620)
//----------------------------------------------
// TODO:
// -Add global variable for # of buttons.
// -Seperate auto and teleop LCD modes.
// -Show auto modes in names, not numbers?
// Joystick Library
#include <Joystick.h>
// LCD Libraries
#include <Wire.h>
#include <Adafruit_LiquidCrystal.h>
// Encoder Library
#include <Encoder.h>
// Enable or disable button toggling.
int toggleMode = false;
Encoder myEnc(0, 1);
int encoderPush = !digitalRead(12);
//i2c LCD connection
Adafruit_LiquidCrystal lcd(0);
void setup() {
// Button pins connected on 4-11
pinMode(4, INPUT_PULLUP);
pinMode(5, INPUT_PULLUP);
pinMode(6, INPUT_PULLUP);
pinMode(7, INPUT_PULLUP);
pinMode(8, INPUT_PULLUP);
pinMode(9, INPUT_PULLUP);
pinMode(10, INPUT_PULLUP);
pinMode(11, INPUT_PULLUP);
// Start reading joystick.
Joystick.begin(true);
delay(1000);
// Starts with button 0 set true.
for (int j = 0; j < 8; j++) {
Joystick.setButton(j, false);
}
Joystick.setButton(0, true);
Joystick.setZAxis(127);
// Encoder knob push button
pinMode(12, INPUT_PULLUP);
Serial.begin(300);
// LCD initiate.
lcd.begin(16, 2);
lcd.print(" Auto Mode: NONE ");
lcd.setCursor(6, 1);
lcd.print("Lane: ");
delay(500);
}
// Constant that maps the phyical pin to the joystick button.
// Put the first pin number here.
const int pinToButtonMap = 4;
// Put number of buttons and last state for each one here.
int lastButtonState[8] = {false, false, false, false, false, false, false, false};
// For the encoder.
long oldPosition = -999;
int encoderLast = false;
int encoderToggle = false;
int encoderToggleLast = false;
int whichAuto = 0;
int whichLane = 0;
void loop() {
// Read button pin values.
for (int index = 0; index < 8; index++) {
int currentButtonState = !digitalRead(index + pinToButtonMap);
if (currentButtonState != lastButtonState[index]) {
// Physical button state changed.
if (toggleMode) {
if (currentButtonState) {
// Physical button is depressed.
for (int j = 0; j < 8; j++) {
Joystick.setButton(j, false);
}
Joystick.setButton(index, true);
}
}
else {
Joystick.setButton(index, currentButtonState);
}
lastButtonState[index] = currentButtonState;
}
}
int encoderCurrent = !digitalRead(12);
int encoderJustPressed = false;
// Read the encoder button.
if (encoderCurrent != encoderLast) {
// Encoder button state changed.
if (encoderCurrent) {
// Encoder button is depressed.
encoderJustPressed = true;
}
}
//Serial.println(!digitalRead(12));
// Serial.print("Current is ");
// Serial.println(encoderCurrent);
// Serial.print("Last is ");
// Serial.println(encoderLast);
// Serial.print("Toggle is ");
// Serial.println(encoderToggle);
encoderLast = encoderCurrent;
if (encoderJustPressed) {
encoderToggle = !encoderToggle;
if (encoderToggle) {
// Picking lane
myEnc.write(whichLane * 4);
oldPosition = whichLane * 4;
lcd.setCursor(15, 1);
lcd.print("*");
lcd.setCursor(15, 0);
lcd.print(" ");
}
else {
myEnc.write(whichAuto * 4);
oldPosition = whichAuto * 4;
lcd.setCursor(15, 0);
lcd.print("*");
lcd.setCursor(15, 1);
lcd.print(" ");
}
}
long newPosition = myEnc.read();
if (newPosition != oldPosition) {
Serial.print("Old position is ");
Serial.println(oldPosition);
Serial.print("New position is ");
Serial.println(newPosition);
oldPosition = newPosition;
if (encoderToggle) {
// Picking lane.
whichLane = (newPosition / 4) % 6;
if (whichLane < 0) {
whichLane = whichLane + 6;
}
if (whichLane == 0 && encoderToggle == true) {
lcd.setCursor(12, 1);
lcd.print("0 ");
}
if (whichLane == 1 && encoderToggle == true) {
lcd.setCursor(12, 1);
lcd.print("1 ");
}
if (whichLane == 2 && encoderToggle == true) {
lcd.setCursor(12, 1);
lcd.print("2 ");
}
if (whichLane == 3 && encoderToggle == true) {
lcd.setCursor(12, 1);
lcd.print("3 ");
}
if (whichLane == 4 && encoderToggle == true) {
lcd.setCursor(12, 1);
lcd.print("4 ");
}
if (whichLane == 5 && encoderToggle == true) {
lcd.setCursor(12, 1);
lcd.print("5 ");
}
}
else {
// Picking auto.
whichAuto = (newPosition / 4) % 8;
if (whichAuto < 0) {
whichAuto = whichAuto + 8;
}
if (whichAuto == 0 && encoderToggle == false) {
Joystick.setButton(8, false);
Joystick.setButton(9, false);
Joystick.setButton(10, false);
lcd.setCursor(12, 0);
lcd.print("0 ");
}
if (whichAuto == 1 && encoderToggle == false) {
Joystick.setButton(8, true);
Joystick.setButton(9, false);
Joystick.setButton(10, false);
lcd.setCursor(12, 0);
lcd.print("1 ");
}
if (whichAuto == 2 && encoderToggle == false) {
Joystick.setButton(8, false);
Joystick.setButton(9, true);
Joystick.setButton(10, false);
lcd.setCursor(12, 0);
lcd.print("2 ");
}
if (whichAuto == 3 && encoderToggle == false) {
Joystick.setButton(8, true);
Joystick.setButton(9, true);
Joystick.setButton(10, false);
lcd.setCursor(12, 0);
lcd.print("3 ");
}
if (whichAuto == 4 && encoderToggle == false) {
Joystick.setButton(8, false);
Joystick.setButton(9, false);
Joystick.setButton(10, true);
lcd.setCursor(12, 0);
lcd.print("4 ");
}
if (whichAuto == 5 && encoderToggle == false) {
Joystick.setButton(8, true);
Joystick.setButton(9, false);
Joystick.setButton(10, true);
lcd.setCursor(12, 0);
lcd.print("5 ");
}
if (whichAuto == 6 && encoderToggle == false) {
Joystick.setButton(8, false);
Joystick.setButton(9, true);
Joystick.setButton(10, true);
lcd.setCursor(12, 0);
lcd.print("6 ");
}
if (whichAuto == 7 && encoderToggle == false) {
Joystick.setButton(8, true);
Joystick.setButton(9, true);
Joystick.setButton(10, true);
lcd.setCursor(12, 0);
lcd.print("7 ");
}
}
delay(50);
}
}
| [
"kaiborah@yahoo.com"
] | kaiborah@yahoo.com |
8fb79ef52fdf95d919cc34152e19de2db6740cf7 | 3630134d727c4422fb4414fd4be148154c60b7f7 | /commandline/argparcer.h | cbf48eb0bae9638586616ce89ef3e5bc026880ab | [] | no_license | bensoer/CUL | 3f558ab92a4d7369d2f967481ae26b3a8b29ed04 | 8a4b41677a3fb679b75e30e9cc67fe2a0e68993d | refs/heads/master | 2016-08-11T21:35:27.871016 | 2014-12-08T23:40:28 | 2014-12-08T23:40:28 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,149 | h | #ifndef ARGPARCER_H_
#define ARGPARCER_H_
#include <string>
#include <cstdlib>
#include <iostream>
#include <sstream>
using namespace std;
/**
* ArgParser makes retrieving commandline arguments easy. Pass the appropriate method the tag before the item you would
* like to retrieve from the command line args, and pass the argv array along with argc.
*/
class ArgParcer{
public:
//finds param passed tag then gets associated value and returns it as a string
//returns "-1" on failure to find tag
string GetTagData(string preTag, char *argArray[], int length)
{
for(int i = 1; i < length; ++i)
{
if(preTag.compare(argArray[i])==0)
{
int t = i +1;
return argArray[t];
}
}
return "-1";
}
//finds param passed tag then gets associated value and returns it as an int
//returns -1 on failure to find tag
int GetTagVal(string preTag, char *argArray[], int length)
{
for(int i = 1; i < length; ++i)
{
if(preTag.compare(argArray[i])==0)
{
int t = i+1;
string number = (argArray[t]);
int num;
istringstream( number) >> num;
return num;
}
}
return -1;
}
private:
};
#endif | [
"ben.soer@cirius.com"
] | ben.soer@cirius.com |
29133ac20b2edbedb80c636844ebf2ad0f77851c | 682a576b5bfde9cf914436ea1b3d6ec7e879630a | /components/spug/SPugContext.h | 7c0c3b3ab9b91b1b562f98156c9a5504ce57e9af | [
"MIT",
"BSD-3-Clause"
] | permissive | SBKarr/stappler | 6dc914eb4ce45dc8b1071a5822a0f0ba63623ae5 | 4392852d6a92dd26569d9dc1a31e65c3e47c2e6a | refs/heads/master | 2023-04-09T08:38:28.505085 | 2023-03-25T15:37:47 | 2023-03-25T15:37:47 | 42,354,380 | 10 | 3 | null | 2017-04-14T10:53:27 | 2015-09-12T11:16:09 | C++ | UTF-8 | C++ | false | false | 3,628 | h | /**
Copyright (c) 2018-2019 Roman Katuntsev <sbkarr@stappler.org>
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
**/
#ifndef SPUG_SPUGCONTEXT_H_
#define SPUG_SPUGCONTEXT_H_
#include "SPugExpression.h"
#include "SPugVariable.h"
#include "SPugTemplate.h"
NS_SP_EXT_BEGIN(pug)
class Context : public memory::AllocPool {
public:
static constexpr size_t StackSize = 256;
using Callback = VarClass::Callback;
using IncludeCallback = Function<bool(const StringView &, Context &, std::ostream &, const Template *)>;
struct Mixin {
const Template::Chunk *chunk;
Vector<Pair<StringView, Expression *>> args;
size_t required = 0;
};
struct VarScope : memory::AllocPool {
memory::dict<String, VarStorage> namedVars;
memory::dict<String, Mixin> mixins;
VarScope *prev = nullptr;
};
struct VarList : memory::AllocPool {
static constexpr size_t MinStaticVars = 8;
size_t staticCount = 0;
std::array<Var, MinStaticVars> staticList;
Vector<Var> dynamicList;
void emplace(Var &&);
size_t size() const;
Var * data();
};
static bool isConstExpression(const Expression &);
static bool printConstExpr(const Expression &, std::ostream &, bool escapeOutput = false);
static bool printAttrVar(const StringView &, const Expression &, std::ostream &, bool escapeOutput = false);
static bool printAttrExpr(const Expression &, std::ostream &);
Context();
void setErrorStream(std::ostream &);
bool print(const Expression &, std::ostream &, bool escapeOutput = false);
bool printAttr(const StringView &name, const Expression &, std::ostream &, bool escapeOutput = false);
bool printAttrExprList(const Expression &, std::ostream &);
Var exec(const Expression &, std::ostream &, bool allowUndefined = false);
void set(const StringView &name, const Value &, VarClass * = nullptr);
void set(const StringView &name, Value &&, VarClass * = nullptr);
void set(const StringView &name, bool isConst, const Value *, VarClass * = nullptr);
void set(const StringView &name, Callback &&);
bool setMixin(const StringView &name, const Template::Chunk *);
const Mixin *getMixin(const StringView &name) const;
const VarStorage *getVar(const StringView &name) const;
VarClass * set(const StringView &name, VarClass &&);
bool runInclude(const StringView &, std::ostream &, const Template *);
void setIncludeCallback(IncludeCallback &&);
void pushVarScope(VarScope &);
void popVarScope();
void loadDefaults();
protected:
IncludeCallback _includeCallback;
VarScope *currentScope = nullptr;
VarScope globalScope;
Map<String, VarClass> classes;
};
NS_SP_EXT_END(pug)
#endif /* SRC_SPUGCONTEXT_H_ */
| [
"sbkarr@stappler.org"
] | sbkarr@stappler.org |
592dfbc89352730d9ef3e40a3f2c5dfe64ad4e65 | 88dddaa1fe3e73d377c2d93fbb7a4d35ef27b1e2 | /src/core/IRECore.cpp | c4b2139f04e85d94f4069e64556c5bcc1a33b3c8 | [
"MIT"
] | permissive | Sopel97/IdleRomanEmpire | 468eee933a9cd318df9035559ebe9e195479bcf8 | 30bdc2d73b82785a1a5d4db5390a42d9eb16eba9 | refs/heads/master | 2023-02-08T23:09:24.369604 | 2020-10-19T19:11:20 | 2020-10-19T19:11:20 | 305,492,674 | 0 | 0 | null | 2020-10-19T19:30:40 | 2020-10-19T19:30:39 | null | UTF-8 | C++ | false | false | 233 | cpp | #include <iostream>
#include "IRECore.h"
namespace ire {
void InitCore()
{
std::cout << "Test Init Core\n";
}
unsigned int Factorial(unsigned int number)
{
return number <= 1 ? number : Factorial(number - 1) * number;
}
}
| [
"jd.kuba96@gmail.com"
] | jd.kuba96@gmail.com |
74b26649a56a9882f8110719dbb6825232a54569 | 14c2d3193d39e973e00df21351ed5d0186526dd2 | /ch2/RefPtr.cpp | 8fa3e1a62f7fb5fb0fc06da647db4255e2584c09 | [] | no_license | younnggsuk/cpp | f914b8deb6436b527615bf30ee0b040526648ca8 | 2b99d9e447ad7c91f49bbd38b4b18b74c0a98dac | refs/heads/master | 2020-05-19T08:43:58.955580 | 2019-05-04T17:58:53 | 2019-05-04T17:58:53 | 184,927,631 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 279 | cpp | #include <iostream>
using std::endl;
using std::cin;
using std::cout;
int main(void)
{
int num=10;
int *ptr = #
int **dptr = &ptr;
int &ref = num;
int *(&pref) = ptr;
int **(&dpref) = dptr;
cout<<ref<<endl;
cout<<*pref<<endl;
cout<<**dpref<<endl;
return 0;
}
| [
"younnggsuk@naver.com"
] | younnggsuk@naver.com |
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