blob_id stringlengths 40 40 | directory_id stringlengths 40 40 | path stringlengths 2 247 | content_id stringlengths 40 40 | detected_licenses listlengths 0 57 | license_type stringclasses 2 values | repo_name stringlengths 4 111 | snapshot_id stringlengths 40 40 | revision_id stringlengths 40 40 | branch_name stringlengths 4 58 | visit_date timestamp[ns]date 2015-07-25 18:16:41 2023-09-06 10:45:08 | revision_date timestamp[ns]date 1970-01-14 14:03:36 2023-09-06 06:22:19 | committer_date timestamp[ns]date 1970-01-14 14:03:36 2023-09-06 06:22:19 | github_id int64 3.89k 689M ⌀ | star_events_count int64 0 209k | fork_events_count int64 0 110k | gha_license_id stringclasses 25 values | gha_event_created_at timestamp[ns]date 2012-06-07 00:51:45 2023-09-14 21:58:52 ⌀ | gha_created_at timestamp[ns]date 2008-03-27 23:40:48 2023-08-24 19:49:39 ⌀ | gha_language stringclasses 159 values | src_encoding stringclasses 34 values | language stringclasses 1 value | is_vendor bool 1 class | is_generated bool 2 classes | length_bytes int64 7 10.5M | extension stringclasses 111 values | filename stringlengths 1 195 | text stringlengths 7 10.5M |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
58a07fb3dd82c13f999b9a04321e570d177ae1bb | 5eb5b9c43f0d9eae32d778c37c954f5ac8af81fe | /Assessed Coursework 3/Q1/ODEInterface.cpp | 8fccc42e6e3f60c388536614c6fedbc8c6f3bde4 | [] | no_license | GavinReidJones/Portfolio | 670d65a0b0dc2e877e889f829b348708715e10a4 | f3b21377d4cbeef3bf4f0f9566187ceab7cb21cd | refs/heads/master | 2021-05-10T17:12:23.557754 | 2018-01-28T18:15:01 | 2018-01-28T18:15:01 | 118,603,824 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 27 | cpp | ODEInterface.cpp | #include "ODEInterface.hpp" |
91f2d9ff3d342bb360a083f42f20aa7239b9624a | 011359e589f99ae5fe8271962d447165e9ff7768 | /src/burner/utility.h | 6432a0557ae7e6ec537d9d62bf6e54f5fae0c150 | [] | no_license | PS3emulators/fba-next-slim | 4c753375fd68863c53830bb367c61737393f9777 | d082dea48c378bddd5e2a686fe8c19beb06db8e1 | refs/heads/master | 2021-01-17T23:05:29.479865 | 2011-12-01T18:16:02 | 2011-12-01T18:16:02 | 2,899,840 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 5,624 | h | utility.h | // utility, added by regret
/* changelog:
update 3: add file state check functions
update 2: add some file related functions
update 1: create
*/
#ifndef _UTILITY_H_
#define _UTILITY_H_
#if defined (_XBOX)
#include <xtl.h>
#elif defined (SN_TARGET_PS3)
#include <cell/cell_fs.h>
#else
#include <unistd.h>
#endif
#include "../burn/fbatypes.h"
// macro for getting array size
#define sizearray(a) (sizeof(a) / sizeof((a)[0]))
// functions
inline char strlower(char c)
{
return (c >= 'A' && c <= 'Z') ? c + ('a' - 'A') : c;
}
inline char strupper(char c)
{
return (c >= 'a' && c <= 'z') ? c - ('a' - 'A') : c;
}
template<typename T>
inline void swap(T& x, T& y)
{
T temp(x);
x = y;
y = temp;
}
template<typename T>
inline T* allocate(size_t size, const T& value)
{
T* array = new T[size];
for (size_t i = 0; i < size; i++) {
array[i] = value;
}
return array;
}
// get string until "\r\n"
inline void getLine(char* p)
{
if (!p)
return;
for (size_t i = 0; i < strlen(p); i++)
{
if (p[i] == '\r' || p[i] == '\n')
{
p[i] = '\0';
break;
}
}
}
// path check (add trailing backslash)
inline void pathCheck(char * path)
{
if (!path)
return;
size_t len = strlen(path);
if (len == 0)
return;
if (path[len - 1] != '\\')
{
path[len] = '\\';
path[len + 1] = '\0';
}
}
// "foo/bar.c" -> "bar"
inline char * getBaseName(const char * name)
{
static char filename[256];
#if defined (_XBOX)
const char * p = strrchr(name, '\\');
#else
const char * p = strrchr(name, '/');
#endif
if(p)
strcpy(filename, p + 1);
else
strcpy(filename, name);
for (size_t i = strlen(filename); i > 0; i--)
{
if (filename[i] == '.')
filename[i] = '\0';
}
return filename;
}
inline char* getBaseNameA(const char* name)
{
static char filename[256];
#if defined (_XBOX)
const char * p = strrchr(name, '\\');
#else
const char * p = strrchr(name, '/');
#endif
if (p)
strcpy(filename, p + 1);
else
strcpy(filename, name);
for (size_t i = strlen(filename); i > 0; i--)
{
if (filename[i] == '.')
filename[i] = '\0';
}
return filename;
}
inline char* getFilenameA(char* fullname)
{
size_t len = strlen(fullname);
if (len == 0)
return fullname;
for (size_t i = len - 1; i >= 1; i--)
{
if (fullname[i] == '\\' || fullname[i] == '/')
return fullname + i + 1;
}
return fullname;
}
inline char * getFilenameW(char * fullname)
{
size_t len = strlen(fullname);
if (len == 0)
return fullname;
for (size_t i = len - 1; i >= 1; i--)
{
if (fullname[i] == '\\' || fullname[i] == '/')
return fullname + i + 1;
}
return fullname;
}
inline char * getFileExt(const char * filename)
{
static char ext[32] = "";
const char * p = strrchr(filename, '.');
if (p)
{
strcpy(ext, p + 1);
return ext;
}
return NULL;
}
inline long getFileSize(FILE* file)
{
if (!file)
return 0;
fseek(file, 0, SEEK_END);
long size = ftell(file);
fseek(file, 0, SEEK_SET);
return size;
}
// read file content to buffer, return file size
inline size_t getFileBuffer(const char * filename, void** buffer)
{
//assert(!(*buffer));
FILE* file = fopen(filename, "rt");
if (!file)
return 0;
long size = getFileSize(file);
size_t read_size = 0;
void* temp = NULL;
if (size > 0)
{
temp = (void*)malloc(size);
read_size = fread(temp, 1, size, file);
}
fclose(file);
if (read_size > 0 && temp)
{
*buffer = (void*)malloc(read_size);
memcpy(*buffer, temp, read_size);
}
free(temp);
return read_size;
}
// check file state
inline bool fileExists(const char * filename)
{
#if defined (_XBOX)
// changed to allow running from usb drives
if (GetFileAttributes(filename)!=-1)
return true;
else
return false;
#elif defined (SN_TARGET_PS3)
CellFsStat sb;
if (cellFsStat(filename,&sb) == CELL_FS_SUCCEEDED)
return true;
else
return false;
#else
return true; //
#endif
}
inline bool fileReadable(const char* filename)
{
#if defined (_XBOX)
return true;
#else
return true;
#endif
}
// Macros for parsing text
#define SKIP_WS(s) while (isspace(*s)) { s++; } // Skip whitespace
#define FIND_WS(s) while (*s && !isspace(*s)) { s++; } // Find whitespace
#define FIND_QT(s) while (*s && *s != '\"') { s++; } // Find quote
// config file parsing
#define QUOTE_MAX (128) // Maximum length of "quoted strings"
inline char* labelCheck(char* s, char* label)
{
if (!s || !label)
return NULL;
size_t len = strlen(label);
SKIP_WS(s); // Skip whitespace
if (strncmp(s, label, len)) // Doesn't match
return NULL;
return s + len;
}
// Read a (quoted) string from szSrc and point to the end
inline int quoteRead(char** ppQuote, char** ppEnd, char* src)
{
static char quote[QUOTE_MAX];
char* s = src;
char* e;
// Skip whitespace
SKIP_WS(s);
e = s;
if (*s == '\"')
{ // Quoted string
s++;
e++;
// Find end quote
FIND_QT(e);
strncpy(quote, s, e - s);
// Zero-terminate
quote[e - s] = '\0';
e++;
}
else
{ // Non-quoted string
// Find whitespace
FIND_WS(e);
strncpy(quote, s, e - s);
// Zero-terminate
quote[e - s] = '\0';
}
if (ppQuote)
*ppQuote = quote;
if (ppEnd)
*ppEnd = e;
return 0;
}
inline bool skipComma(char** s)
{
while (**s && **s != ',')
(*s)++;
if (**s == ',')
(*s)++;
if (**s)
return true;
return false;
}
#endif
|
6213446a54f636ea3e52e72c73d4200e4c610d42 | 7c2710639331b874f399c616c10e704d95474496 | /Scanner/src/ScannerImpl.cpp | a435032a6bc1796140238beaf108d10b2ffb7502 | [] | no_license | robthodan/sys_prog2015 | 44831ec3436dcc92a4d51c3e1dde619ed2826072 | 3e47a330e28585d80ced6c6daf5e44f54b821b3f | refs/heads/master | 2016-09-06T04:03:03.464887 | 2015-04-29T10:22:08 | 2015-04-29T10:22:08 | 34,455,179 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,344 | cpp | ScannerImpl.cpp | #include "../../Utility/includes/Token.h"
ScannerImpl::ScannerImpl() {
Automat* automat = new Automat();
Buffer* buffer = new Buffer();
Symboltable* symTab = new Symboltable();
row = 1;
column = 1;
/*
* Symboltabelle vordefinieren mit Schlüsselwörtern
*/
}
ScannerImpl::~ScannerImpl() {
}
Token ScannerImpl::nextToken() {
/*
*currentToken column
*currentToken row
*--> Zwischenspeichern
*/
/*
* currentState = startState;
*/
int currentRow = this->row;
int currentColumn = this->column;
// Nur für RückgabeFehler
Token token = new Token(TokenType::AND);
while(/*Buchstabe aus Buffer ist nicht das Ende*/) {
/*
* pro Buchstabe column plus Eins
* Falls '/n' row plus Eins und Column = 0;
*
*/
/*followingState = AutomatState (automat.readChar(char c)):State*/
/*Ist followingState = STOP --> Buffer.ungetChar(je nach Rückgabe vom Automat)*/
/*currentState mit Buchstabenfolge, row, column als Container weitergeben*/
/*automat.reset()*/
/*Wenn nicht, dann nächster Buchstabe in Automat*/
/*currentState = followingState*/
/*Token bauen --- mkToken()*/
}
return token;
}
void ScannerImpl::freeToken(Token token) {
}
void ScannerImpl::mkToken(TokenType type) {
}
void ScannerImpl::ungetChar(int amount) {
}
void ScannerImpl::stop() {
}
|
ca8fbeffbd15bb2e709ff6205980a9b0855a674a | 03ff55cd882a07df4389c3459e82fa71cfe52158 | /ext/PracRand/src/RNGs/sfc.cpp | 3fd18220557beac737ba9730332d533656bea005 | [
"LicenseRef-scancode-public-domain",
"Apache-2.0"
] | permissive | scripnichenko/gatling-gen | 36e30de906b7a7cfcea47bb2be4c0d365904f60e | 065d59b49aad2689a347f505203220705bbe67ca | refs/heads/master | 2021-05-30T03:20:02.245853 | 2015-12-14T19:45:47 | 2015-12-14T19:45:47 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 4,820 | cpp | sfc.cpp | #include <string>
#include "PractRand/config.h"
#include "PractRand/rng_basics.h"
#include "PractRand/rng_helpers.h"
#include "PractRand/rng_internals.h"
#include "PractRand/RNGs/sfc16.h"
#include "PractRand/RNGs/sfc32.h"
#include "PractRand/RNGs/sfc64.h"
using namespace PractRand;
//polymorphic:
PRACTRAND__POLYMORPHIC_RNG_BASICS_C64(sfc64)
void PractRand::RNGs::Polymorphic::sfc64::seed(Uint64 s) {implementation.seed(s);}
void PractRand::RNGs::Polymorphic::sfc64::seed_fast(Uint64 s) {implementation.seed_fast(s);}
void PractRand::RNGs::Polymorphic::sfc64::seed(Uint64 s1, Uint64 s2, Uint64 s3) {implementation.seed(s1,s2,s3);}
std::string PractRand::RNGs::Polymorphic::sfc64::get_name() const {return "sfc64";}
PRACTRAND__POLYMORPHIC_RNG_BASICS_C32(sfc32)
void PractRand::RNGs::Polymorphic::sfc32::seed(Uint64 s) {implementation.seed(s);}
void PractRand::RNGs::Polymorphic::sfc32::seed_fast(Uint64 s) {implementation.seed_fast(s);}
void PractRand::RNGs::Polymorphic::sfc32::seed(Uint32 s1, Uint32 s2, Uint32 s3) {implementation.seed(s1,s2,s3);}
std::string PractRand::RNGs::Polymorphic::sfc32::get_name() const {return "sfc32";}
PRACTRAND__POLYMORPHIC_RNG_BASICS_C16(sfc16)
void PractRand::RNGs::Polymorphic::sfc16::seed(Uint64 s) {implementation.seed(s);}
void PractRand::RNGs::Polymorphic::sfc16::seed_fast(Uint64 s) {implementation.seed_fast(s);}
void PractRand::RNGs::Polymorphic::sfc16::seed(Uint16 s1, Uint16 s2, Uint16 s3) {implementation.seed(s1,s2,s3);}
std::string PractRand::RNGs::Polymorphic::sfc16::get_name() const {return "sfc16";}
//raw:
Uint16 PractRand::RNGs::Raw::sfc16::raw16() {
enum {BARREL_SHIFT = 7, RSHIFT = 3, LSHIFT = 2};
Uint16 tmp = a + b + counter++;
a = b ^ (b >> RSHIFT);
b = c + (c << LSHIFT);
c = ((c << BARREL_SHIFT) | (c >> (16-BARREL_SHIFT))) + tmp;
return tmp;
}
void PractRand::RNGs::Raw::sfc16::seed(Uint64 s) {
a = Uint16(s);
b = Uint16(s >> 16);
c = Uint16(s >> 32);
counter = Uint16(s >> 48);
for (int i = 0; i < 12; i++) raw16();
}
void PractRand::RNGs::Raw::sfc16::seed_fast(Uint64 s) {
a = Uint16(s);
b = Uint16(s >> 16);
c = Uint16(s >> 32);
counter = Uint16(s >> 48);
for (int i = 0; i < 8; i++) raw16();
}
void PractRand::RNGs::Raw::sfc16::seed(Uint16 s1, Uint16 s2, Uint16 s3) {
a = s1;
b = s2;
c = s3;
counter = 1;
for (int i = 0; i < 12; i++) raw16();
}
void PractRand::RNGs::Raw::sfc16::walk_state(StateWalkingObject *walker) {
walker->handle(a);
walker->handle(b);
walker->handle(c);
walker->handle(counter);
}
Uint32 PractRand::RNGs::Raw::sfc32::raw32() {
enum {BARREL_SHIFT = 25, RSHIFT = 8, LSHIFT = 3};
Uint32 tmp = a + b + counter++;
a = b ^ (b >> RSHIFT);
b = c + (c << LSHIFT);
c = ((c << BARREL_SHIFT) | (c >> (32-BARREL_SHIFT))) + tmp;
return tmp;
}
void PractRand::RNGs::Raw::sfc32::seed(Uint64 s) {
a = Uint32(s >> 0);
b = Uint32(s >> 32);
c = 0;
counter = 1;
for (int i = 0; i < 12; i++) raw32();
/* e0f0 e0f1 e0f2 e1f0 e1f1 e1f2
sfc 32 4 12 12 10 12 12 10
sfc 32 5 19 17 13 17 17 12
sfc 32 6 26 16 16 24 17 16
sfc 32 7 25 25 19 26 22 17
sfc 32 8 >30 >29 >29 >26 ? 25
sfc 32 9 ? ? ? ? ? 32
sfc 16 4 25 14 13 25 14 14
sfc 16 5 27 23 20 27 21 20
sfc 16 6 30? 22 23 30 21 21
jsf 32 3 14 12
jsf 32 4 19 18
jsf 32 5 24 24 23
jsf 32 6 35
*/
}
void PractRand::RNGs::Raw::sfc32::seed_fast(Uint64 s) {
a = Uint32(s >> 0);
b = Uint32(s >> 32);
c = 0;
counter = 1;
for (int i = 0; i < 8; i++) raw32();
}
void PractRand::RNGs::Raw::sfc32::seed(Uint32 s1, Uint32 s2, Uint32 s3) {
a = s1;
b = s2;
c = s3;
counter = 1;
for (int i = 0; i < 12; i++) raw32();
}
void PractRand::RNGs::Raw::sfc32::walk_state(StateWalkingObject *walker) {
walker->handle(a);
walker->handle(b);
walker->handle(c);
walker->handle(counter);
}
Uint64 PractRand::RNGs::Raw::sfc64::raw64() {
enum {BARREL_SHIFT = 25, RSHIFT = 12, LSHIFT = 3};
Uint64 tmp = a + b + counter++;
a = b ^ (b >> RSHIFT);
b = c + (c << LSHIFT);
c = ((c << BARREL_SHIFT) | (c >> (64-BARREL_SHIFT))) + tmp;
return tmp;
}
void PractRand::RNGs::Raw::sfc64::seed(Uint64 s) {
a = b = c = s;
counter = 1;
for (int i = 0; i < 12; i++) raw64();
}
void PractRand::RNGs::Raw::sfc64::seed_fast(Uint64 s) {
a = b = c = s;
counter = 1;
for (int i = 0; i < 8; i++) raw64();
}
void PractRand::RNGs::Raw::sfc64::seed(Uint64 s1, Uint64 s2, Uint64 s3) {
a = s1;
b = s2;
c = s3;
counter = 1;
for (int i = 0; i < 12; i++) raw64();
}
void PractRand::RNGs::Raw::sfc64::walk_state(StateWalkingObject *walker) {
walker->handle(a);
walker->handle(b);
walker->handle(c);
walker->handle(counter);
}
|
50c07c69f30fbd1d991eca05eef6920145c87704 | 947d8cc7b8c180c765810d48704ffc2d06956841 | /src/plugins/opencv/nodes/calibration/findPattern.cpp | 9fa37f293df867581e42cf932cfe62cba91514c8 | [
"MIT"
] | permissive | yangjiang123/possumwood | c82b7a18eabe77aa87f9767336348acf3cf02111 | 91b1844b9fb0e7952a8a9170508ec4c03168b25e | refs/heads/master | 2022-07-01T04:44:35.687225 | 2020-05-10T14:29:22 | 2020-05-10T14:29:22 | 267,554,460 | 1 | 0 | null | 2020-05-28T09:58:17 | 2020-05-28T09:58:16 | null | UTF-8 | C++ | false | false | 3,169 | cpp | findPattern.cpp | #include <possumwood_sdk/node_implementation.h>
#include <possumwood_sdk/datatypes/filename.h>
#include <opencv2/opencv.hpp>
#include <possumwood_sdk/datatypes/enum.h>
#include <actions/traits.h>
#include "frame.h"
#include "calibration_pattern.h"
namespace {
dependency_graph::InAttr<possumwood::opencv::Frame> a_frame;
dependency_graph::InAttr<possumwood::opencv::CalibrationPattern> a_inPattern;
dependency_graph::InAttr<bool> a_clustering, a_adaptiveThreshold, a_normalizeImage, a_filterQuads, a_fastCheck;
dependency_graph::OutAttr<possumwood::opencv::CalibrationPattern> a_outPattern;
dependency_graph::State compute(dependency_graph::Values& data) {
const possumwood::opencv::CalibrationPattern& inPattern = data.get(a_inPattern);
cv::Mat result;
bool success = false;
// chessboard pattern
if(inPattern.type() == possumwood::opencv::CalibrationPattern::kChessboard) {
int flags = 0;
if(data.get(a_adaptiveThreshold))
flags |= cv::CALIB_CB_ADAPTIVE_THRESH;
if(data.get(a_normalizeImage))
flags |= cv::CALIB_CB_NORMALIZE_IMAGE;
if(data.get(a_filterQuads))
flags |= cv::CALIB_CB_FILTER_QUADS;
if(data.get(a_fastCheck))
flags |= cv::CALIB_CB_FAST_CHECK;
success = cv::findChessboardCorners(*data.get(a_frame),
inPattern.size(), result, flags
);
}
// circle patterns, symmetric or asymmetric
else {
int flags = 0;
if(data.get(a_clustering))
flags |= cv::CALIB_CB_CLUSTERING;
if(inPattern.type() == possumwood::opencv::CalibrationPattern::kAsymmetricCirclesGrid)
flags |= cv::CALIB_CB_ASYMMETRIC_GRID;
else
flags |= cv::CALIB_CB_SYMMETRIC_GRID;
success = cv::findCirclesGrid(*data.get(a_frame),
inPattern.size(), result, flags
);
}
dependency_graph::State status;
if(!success)
status.addWarning("Pattern not found in the input image!");
const possumwood::opencv::CalibrationPattern grid(result, inPattern.size(), success, inPattern.type(), data.get(a_frame).size());
data.set(a_outPattern, grid);
return status;
}
void init(possumwood::Metadata& meta) {
meta.addAttribute(a_frame, "frame", possumwood::opencv::Frame(), possumwood::AttrFlags::kVertical);
meta.addAttribute(a_inPattern, "in_pattern", possumwood::opencv::CalibrationPattern(), possumwood::AttrFlags::kVertical);
meta.addAttribute(a_clustering, "circles_grid/clustering");
meta.addAttribute(a_adaptiveThreshold, "chessboard/adaptive_threshold");
meta.addAttribute(a_normalizeImage, "chessboard/normalize_image");
meta.addAttribute(a_filterQuads, "chessboard/filter_quads");
meta.addAttribute(a_fastCheck, "chessboard/fast_check");
meta.addAttribute(a_outPattern, "out_pattern", possumwood::opencv::CalibrationPattern(), possumwood::AttrFlags::kVertical);
meta.addInfluence(a_frame, a_outPattern);
meta.addInfluence(a_inPattern, a_outPattern);
meta.addInfluence(a_clustering, a_outPattern);
meta.addInfluence(a_adaptiveThreshold, a_outPattern);
meta.addInfluence(a_normalizeImage, a_outPattern);
meta.addInfluence(a_filterQuads, a_outPattern);
meta.addInfluence(a_fastCheck, a_outPattern);
meta.setCompute(compute);
}
possumwood::NodeImplementation s_impl("opencv/calibration/find_pattern", init);
}
|
046b37471896c30ae4839fdd3f7d922b8c1bc2b5 | 67f61071deb34c8a521c6ac640d88676e7d99e9a | /Languages/Programming_Languages/c++/Design_Pattens/Creational/facade/Examples/Home_Theater/Code/include/popCornPopper.h | 05df6680221b13f2df4038e070c1065901baa67d | [] | no_license | amitkumar50/Code-examples | 9cb45905013d3ddb013d1fee7017b36a05faa5df | 06e09c9216019d5d031fe9194a75d177088b0c7c | refs/heads/master | 2023-08-18T17:25:53.873638 | 2023-08-18T14:00:23 | 2023-08-18T14:00:23 | 138,966,475 | 37 | 21 | null | 2020-12-23T07:08:05 | 2018-06-28T04:35:50 | C++ | UTF-8 | C++ | false | false | 174 | h | popCornPopper.h | #ifndef POPCORNPOPPER_H
#define POPCORNPOPPER_H
//Abstract class
class popCornPopper{
public:
virtual void on()=0;
virtual void off()=0;
virtual void pop()=0;
};
#endif
|
8970859b53e07f5dfa6dff9318597dd310dad9fa | 1d928c3f90d4a0a9a3919a804597aa0a4aab19a3 | /c++/xbmc/2016/4/PeripheralCecAdapter.h | 2f1aa12b1d61c4a3257e049f692b6b9a090e3255 | [] | no_license | rosoareslv/SED99 | d8b2ff5811e7f0ffc59be066a5a0349a92cbb845 | a062c118f12b93172e31e8ca115ce3f871b64461 | refs/heads/main | 2023-02-22T21:59:02.703005 | 2021-01-28T19:40:51 | 2021-01-28T19:40:51 | 306,497,459 | 1 | 1 | null | 2020-11-24T20:56:18 | 2020-10-23T01:18:07 | null | UTF-8 | C++ | false | false | 7,371 | h | PeripheralCecAdapter.h | #pragma once
/*
* Copyright (C) 2005-2013 Team XBMC
* http://xbmc.org
*
* 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, 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 XBMC; see the file COPYING. If not, see
* <http://www.gnu.org/licenses/>.
*
*/
#include "system.h"
#if !defined(HAVE_LIBCEC)
#include "Peripheral.h"
// an empty implementation, so CPeripherals can be compiled without a bunch of #ifdef's when libCEC is not available
namespace PERIPHERALS
{
class CPeripheralCecAdapter : public CPeripheral
{
public:
bool HasAudioControl(void) { return false; }
void VolumeUp(void) {}
void VolumeDown(void) {}
bool IsMuted(void) { return false; }
void ToggleMute(void) {}
bool ToggleDeviceState(CecStateChange mode = STATE_SWITCH_TOGGLE, bool forceType = false) { return false; }
int GetButton(void) { return 0; }
unsigned int GetHoldTime(void) { return 0; }
void ResetButton(void) {}
};
}
#else
#include "PeripheralHID.h"
#include "interfaces/AnnouncementManager.h"
#include "threads/Thread.h"
#include "threads/CriticalSection.h"
#include <queue>
// undefine macro isset, it collides with function in cectypes.h
#ifdef isset
#undef isset
#endif
#include <libcec/cectypes.h>
class DllLibCEC;
class CVariant;
namespace CEC
{
class ICECAdapter;
};
namespace PERIPHERALS
{
class CPeripheralCecAdapterUpdateThread;
class CPeripheralCecAdapterReopenJob;
typedef struct
{
int iButton;
unsigned int iDuration;
} CecButtonPress;
typedef enum
{
VOLUME_CHANGE_NONE,
VOLUME_CHANGE_UP,
VOLUME_CHANGE_DOWN,
VOLUME_CHANGE_MUTE
} CecVolumeChange;
class CPeripheralCecAdapter : public CPeripheralHID, public ANNOUNCEMENT::IAnnouncer, private CThread
{
friend class CPeripheralCecAdapterUpdateThread;
friend class CPeripheralCecAdapterReopenJob;
public:
CPeripheralCecAdapter(const PeripheralScanResult& scanResult, CPeripheralBus* bus);
virtual ~CPeripheralCecAdapter(void);
void Announce(ANNOUNCEMENT::AnnouncementFlag flag, const char *sender, const char *message, const CVariant &data);
// audio control
bool HasAudioControl(void);
void VolumeUp(void);
void VolumeDown(void);
void ToggleMute(void);
bool IsMuted(void);
// CPeripheral callbacks
void OnSettingChanged(const std::string &strChangedSetting);
void OnDeviceRemoved(void);
// input
int GetButton(void);
unsigned int GetHoldTime(void);
void ResetButton(void);
// public CEC methods
void ActivateSource(void);
void StandbyDevices(void);
bool ToggleDeviceState(CecStateChange mode = STATE_SWITCH_TOGGLE, bool forceType = false);
private:
bool InitialiseFeature(const PeripheralFeature feature);
void ResetMembers(void);
void Process(void);
bool IsRunning(void) const;
bool OpenConnection(void);
bool ReopenConnection(bool bAsync = false);
void SetConfigurationFromSettings(void);
void SetConfigurationFromLibCEC(const CEC::libcec_configuration &config);
void SetVersionInfo(const CEC::libcec_configuration &configuration);
static void ReadLogicalAddresses(const std::string &strString, CEC::cec_logical_addresses &addresses);
static void ReadLogicalAddresses(int iLocalisedId, CEC::cec_logical_addresses &addresses);
bool WriteLogicalAddresses(const CEC::cec_logical_addresses& addresses, const std::string& strSettingName, const std::string& strAdvancedSettingName);
void ProcessActivateSource(void);
void ProcessStandbyDevices(void);
void ProcessVolumeChange(void);
void PushCecKeypress(const CEC::cec_keypress &key);
void PushCecKeypress(const CecButtonPress &key);
void GetNextKey(void);
void SetAudioSystemConnected(bool bSetTo);
void SetMenuLanguage(const char *strLanguage);
// callbacks from libCEC
static int CecLogMessage(void *cbParam, const CEC::cec_log_message message);
static int CecCommand(void *cbParam, const CEC::cec_command command);
static int CecConfiguration(void *cbParam, const CEC::libcec_configuration config);
static int CecAlert(void *cbParam, const CEC::libcec_alert alert, const CEC::libcec_parameter data);
static void CecSourceActivated(void *param, const CEC::cec_logical_address address, const uint8_t activated);
static int CecKeyPress(void *cbParam, const CEC::cec_keypress key);
DllLibCEC* m_dll;
CEC::ICECAdapter* m_cecAdapter;
bool m_bStarted;
bool m_bHasButton;
bool m_bIsReady;
bool m_bHasConnectedAudioSystem;
std::string m_strMenuLanguage;
CDateTime m_standbySent;
std::vector<CecButtonPress> m_buttonQueue;
CecButtonPress m_currentButton;
std::queue<CecVolumeChange> m_volumeChangeQueue;
unsigned int m_lastKeypress;
CecVolumeChange m_lastChange;
int m_iExitCode;
bool m_bIsMuted;
bool m_bGoingToStandby;
bool m_bIsRunning;
bool m_bDeviceRemoved;
CPeripheralCecAdapterUpdateThread*m_queryThread;
CEC::ICECCallbacks m_callbacks;
CCriticalSection m_critSection;
CEC::libcec_configuration m_configuration;
bool m_bActiveSourcePending;
bool m_bStandbyPending;
CDateTime m_preventActivateSourceOnPlay;
bool m_bActiveSourceBeforeStandby;
bool m_bOnPlayReceived;
bool m_bPlaybackPaused;
std::string m_strComPort;
};
class CPeripheralCecAdapterUpdateThread : public CThread
{
public:
CPeripheralCecAdapterUpdateThread(CPeripheralCecAdapter *adapter, CEC::libcec_configuration *configuration);
virtual ~CPeripheralCecAdapterUpdateThread(void);
void Signal(void);
bool UpdateConfiguration(CEC::libcec_configuration *configuration);
protected:
void UpdateMenuLanguage(void);
std::string UpdateAudioSystemStatus(void);
bool WaitReady(void);
bool SetInitialConfiguration(void);
void Process(void);
CPeripheralCecAdapter * m_adapter;
CEvent m_event;
CCriticalSection m_critSection;
CEC::libcec_configuration m_configuration;
CEC::libcec_configuration m_nextConfiguration;
bool m_bNextConfigurationScheduled;
bool m_bIsUpdating;
};
}
#endif
|
63e7c26cc05cc1741db61ac667e97d9a18313b57 | 81004e236ae84db1feea3a07809cae9865cfa81d | /tests/test_vds_crypto/test_vds_crypto.h | 885f82b231c22b3557804fd3f7c65798411195e7 | [
"MIT"
] | permissive | iv-soft/vds | 4274b4ea08e5ed9a0cf8b904f61bdc52c31322b7 | 8baea0831fe4aff7815d63f8a1df8491d5620678 | refs/heads/master | 2023-06-05T20:16:00.121963 | 2020-12-12T10:18:10 | 2020-12-12T10:18:10 | 376,884,949 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 271 | h | test_vds_crypto.h | #ifndef __VDS_TEST_CRYPTO_TEST_VDS_CRYPTO_H_
#define __VDS_TEST_CRYPTO_TEST_VDS_CRYPTO_H_
/*
Copyright (c) 2017, Vadim Malyshev, lboss75@gmail.com
All rights reserved
*/
namespace vds {
class test_vds_crypto
{
};
}
#endif // __VDS_TEST_CRYPTO_TEST_VDS_CRYPTO_H_
|
bf09bfc8d23084c4685c7b423912c249ce9ea2dd | 0123c4d49c5c782b199ddbb7688ff94803e86b5c | /include/jnc_CallSite.h | 34ff8e0e27bfabd50f4000fc6f5ad42e7356adc3 | [
"MIT"
] | permissive | froexilize/jancy | eca2492a61f0d787b93d1150cf6c9ce7b19bc375 | dfab486547a819f210aafdacb073cd756f48c89a | refs/heads/master | 2020-05-02T05:16:31.151698 | 2018-12-14T10:32:49 | 2018-12-14T10:32:49 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 18,919 | h | jnc_CallSite.h | //..............................................................................
//
// This file is part of the Jancy toolkit.
//
// Jancy is distributed under the MIT license.
// For details see accompanying license.txt file,
// the public copy of which is also available at:
// http://tibbo.com/downloads/archive/jancy/license.txt
//
//..............................................................................
#pragma once
#define _JNC_CALLSITE_H
#include "jnc_Runtime.h"
#include "jnc_Function.h"
#include "jnc_ClassType.h"
/**
\defgroup call-site Call Site
\ingroup runtime-subsystem
\addtogroup call-site
@{
*/
//..............................................................................
#define JNC_BEGIN_CALL_SITE_IMPL(runtime) \
jnc_Runtime* __jncRuntime = (runtime); \
jnc_CallSite __jncCallSite; \
jnc_SjljFrame __jncSjljFrame; \
jnc_SjljFrame* __jncSjljPrevFrame; \
int __jncSjljBranch; \
JNC_ASSERT (runtime); \
jnc_Runtime_initializeCallSite (__jncRuntime, &__jncCallSite); \
__jncSjljPrevFrame = jnc_Runtime_setSjljFrame (__jncRuntime, &__jncSjljFrame); \
__jncSjljBranch = setjmp (__jncSjljFrame.m_jmpBuf); \
if (!__jncSjljBranch) \
{
#define JNC_CALL_SITE_CATCH() \
} \
else \
{ \
{ \
jnc_SjljFrame* prev = jnc_Runtime_setSjljFrame (__jncRuntime, __jncSjljPrevFrame); \
JNC_ASSERT (prev == &__jncSjljFrame); \
}
#define JNC_CALL_SITE_FINALLY() \
} \
{ \
{ \
jnc_SjljFrame* prev = jnc_Runtime_setSjljFrame (__jncRuntime, __jncSjljPrevFrame); \
JNC_ASSERT (prev == &__jncSjljFrame || prev == __jncSjljPrevFrame); \
}
#define JNC_END_CALL_SITE_IMPL() \
} \
{ \
jnc_SjljFrame* prev = jnc_Runtime_setSjljFrame (__jncRuntime, __jncSjljPrevFrame); \
JNC_ASSERT (prev == &__jncSjljFrame || prev == __jncSjljPrevFrame); \
} \
__jncCallSite.m_result = __jncSjljBranch == 0; \
jnc_Runtime_uninitializeCallSite (__jncRuntime, &__jncCallSite);
//. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
#define JNC_BEGIN_CALL_SITE(runtime) \
{ \
JNC_BEGIN_CALL_SITE_IMPL (runtime)
#define JNC_END_CALL_SITE() \
JNC_END_CALL_SITE_IMPL () \
}
#define JNC_END_CALL_SITE_EX(result) \
JNC_END_CALL_SITE_IMPL() \
*(result) = __jncCallSite.m_result != 0; \
}
//::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
#ifdef __cplusplus
namespace jnc {
//..............................................................................
template <typename RetVal>
RetVal
callFunctionImpl_u (void* p)
{
typedef
RetVal
TargetFunc ();
return ((TargetFunc*) p) ();
}
template <
typename RetVal,
typename Arg
>
RetVal
callFunctionImpl_u (
void* p,
Arg arg
)
{
typedef
RetVal
TargetFunc (Arg);
return ((TargetFunc*) p) (arg);
}
template <
typename RetVal,
typename Arg1,
typename Arg2
>
RetVal
callFunctionImpl_u (
void* p,
Arg1 arg1,
Arg2 arg2
)
{
typedef
RetVal
TargetFunc (
Arg1,
Arg2
);
return ((TargetFunc*) p) (arg1, arg2);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3
>
RetVal
callFunctionImpl_u (
void* p,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
typedef
RetVal
TargetFunc (
Arg1,
Arg2,
Arg3
);
return ((TargetFunc*) p) (arg1, arg2, arg3);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
RetVal
callFunctionImpl_u (
void* p,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
typedef
RetVal
TargetFunc (
Arg1,
Arg2,
Arg3,
Arg4
);
return ((TargetFunc*) p) (arg1, arg2, arg3, arg4);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4,
typename Arg5
>
RetVal
callFunctionImpl_u (
void* p,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4,
Arg5 arg5
)
{
typedef
RetVal
TargetFunc (
Arg1,
Arg2,
Arg3,
Arg4,
Arg5
);
return ((TargetFunc*) p) (arg1, arg2, arg3, arg4, arg5);
}
// . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
template <typename RetVal>
bool
callFunctionImpl_s (
Runtime* runtime,
void* p,
RetVal* retVal
)
{
bool result;
JNC_BEGIN_CALL_SITE (runtime)
*retVal = callFunctionImpl_u <RetVal> (p);
JNC_END_CALL_SITE_EX (&result)
return result;
}
template <
typename RetVal,
typename Arg
>
bool
callFunctionImpl_s (
Runtime* runtime,
void* p,
RetVal* retVal,
Arg arg
)
{
bool result;
JNC_BEGIN_CALL_SITE (runtime)
*retVal = callFunctionImpl_u <RetVal> (p, arg);
JNC_END_CALL_SITE_EX (&result)
return result;
}
template <
typename RetVal,
typename Arg1,
typename Arg2
>
bool
callFunctionImpl_s (
Runtime* runtime,
void* p,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2
)
{
bool result;
JNC_BEGIN_CALL_SITE (runtime)
*retVal = callFunctionImpl_u <RetVal> (p, arg1, arg2);
JNC_END_CALL_SITE_EX (&result)
return result;
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3
>
bool
callFunctionImpl_s (
Runtime* runtime,
void* p,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
bool result;
JNC_BEGIN_CALL_SITE (runtime)
*retVal = callFunctionImpl_u <RetVal> (p, arg1, arg2, arg3);
JNC_END_CALL_SITE_EX (&result)
return result;
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
bool
callFunctionImpl_s (
Runtime* runtime,
void* p,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
bool result;
JNC_BEGIN_CALL_SITE (runtime)
*retVal = callFunctionImpl_u <RetVal> (p, arg1, arg2, arg3, arg4);
JNC_END_CALL_SITE_EX (&result)
return result;
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4,
typename Arg5
>
bool
callFunctionImpl_s (
Runtime* runtime,
void* p,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4,
Arg5 arg5
)
{
bool result;
JNC_BEGIN_CALL_SITE (runtime)
*retVal = callFunctionImpl_u <RetVal> (p, arg1, arg2, arg3, arg4, arg5);
JNC_END_CALL_SITE_EX (&result)
return result;
}
//..............................................................................
template <typename RetVal>
bool
callFunction (
Runtime* runtime,
Function* function,
RetVal* retVal
)
{
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, retVal);
}
template <
typename RetVal,
typename Arg
>
bool
callFunction (
Runtime* runtime,
Function* function,
RetVal* retVal,
Arg arg
)
{
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, retVal, arg);
}
template <
typename RetVal,
typename Arg1,
typename Arg2
>
bool
callFunction (
Runtime* runtime,
Function* function,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2
)
{
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, retVal, arg1, arg2);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3
>
bool
callFunction (
Runtime* runtime,
Function* function,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, retVal, arg1, arg2, arg3);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
bool
callFunction (
Runtime* runtime,
Function* function,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, retVal, arg1, arg2, arg3, arg4);
}
// . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
template <typename RetVal>
RetVal
callFunction (Function* function)
{
void* p = function->getMachineCode ();
return callFunctionImpl_u <RetVal> (p);
}
template <
typename RetVal,
typename Arg
>
RetVal
callFunction (
Function* function,
Arg arg
)
{
void* p = function->getMachineCode ();
return callFunctionImpl_u <RetVal> (p, arg);
}
template <
typename RetVal,
typename Arg1,
typename Arg2
>
RetVal
callFunction (
Function* function,
Arg1 arg1,
Arg2 arg2
)
{
void* p = function->getMachineCode ();
return callFunctionImpl_u <RetVal> (p, arg1, arg2);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3
>
RetVal
callFunction (
Function* function,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
void* p = function->getMachineCode ();
return callFunctionImpl_u <RetVal> (p, arg1, arg2, arg3);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
RetVal
callFunction (
Function* function,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
void* p = function->getMachineCode ();
return callFunctionImpl_u <RetVal> (p, arg1, arg2, arg3, arg4);
}
//..............................................................................
inline
bool
callVoidFunction (
Runtime* runtime,
Function* function
)
{
int retVal;
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, &retVal);
}
template <typename Arg>
bool
callVoidFunction (
Runtime* runtime,
Function* function,
Arg arg
)
{
int retVal;
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, &retVal, arg);
}
template <
typename Arg1,
typename Arg2
>
bool
callVoidFunction (
Runtime* runtime,
Function* function,
Arg1 arg1,
Arg2 arg2
)
{
int retVal;
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, &retVal, arg1, arg2);
}
template <
typename Arg1,
typename Arg2,
typename Arg3
>
bool
callVoidFunction (
Runtime* runtime,
Function* function,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
int retVal;
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, &retVal, arg1, arg2, arg3);
}
template <
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
bool
callVoidFunction (
Runtime* runtime,
Function* function,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
int retVal;
void* p = function->getMachineCode ();
return callFunctionImpl_s (runtime, p, &retVal, arg1, arg2, arg3, arg4);
}
// . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
inline
void
callVoidFunction (Function* function)
{
void* p = function->getMachineCode ();
callFunctionImpl_u <void> (p);
}
template <typename Arg>
void
callVoidFunction (
Function* function,
Arg arg
)
{
void* p = function->getMachineCode ();
callFunctionImpl_u <void> (p, arg);
}
template <
typename Arg1,
typename Arg2
>
void
callVoidFunction (
Function* function,
Arg1 arg1,
Arg2 arg2
)
{
void* p = function->getMachineCode ();
callFunctionImpl_u <void> (p, arg1, arg2);
}
template <
typename Arg1,
typename Arg2,
typename Arg3
>
void
callVoidFunction (
Function* function,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
void* p = function->getMachineCode ();
callFunctionImpl_u <void> (p, arg1, arg2, arg3);
}
template <
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
void
callVoidFunction (
Function* function,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
void* p = function->getMachineCode ();
callFunctionImpl_u <void> (p, arg1, arg2, arg3, arg4);
}
//..............................................................................
template <typename RetVal>
bool
callFunctionPtr (
Runtime* runtime,
FunctionPtr ptr,
RetVal* retVal
)
{
return callFunctionImpl_s (runtime, ptr.m_p, retVal, ptr.m_closure);
}
template <
typename RetVal,
typename Arg
>
bool
callFunctionPtr (
Runtime* runtime,
FunctionPtr ptr,
RetVal* retVal,
Arg arg
)
{
return callFunctionImpl_s (runtime, ptr.m_p, retVal, ptr.m_closure, arg);
}
template <
typename RetVal,
typename Arg1,
typename Arg2
>
bool
callFunctionPtr (
Runtime* runtime,
FunctionPtr ptr,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2
)
{
return callFunctionImpl_s (runtime, ptr.m_p, retVal, ptr.m_closure, arg1, arg2);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3
>
bool
callFunctionPtr (
Runtime* runtime,
FunctionPtr ptr,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
return callFunctionImpl_s (runtime, ptr.m_p, retVal, ptr.m_closure, arg1, arg2, arg3);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
bool
callFunctionPtr (
Runtime* runtime,
FunctionPtr ptr,
RetVal* retVal,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
return callFunctionImpl_s (runtime, ptr.m_p, retVal, ptr.m_closure, arg1, arg2, arg3, arg4);
}
// . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
template <typename RetVal>
RetVal
callFunctionPtr (FunctionPtr ptr)
{
return callFunctionImpl_u <RetVal> (ptr.m_p, ptr.m_closure);
}
template <
typename RetVal,
typename Arg
>
RetVal
callFunctionPtr (
FunctionPtr ptr,
RetVal* retVal,
Arg arg
)
{
return callFunctionImpl_u <RetVal> (ptr.m_p, ptr.m_closure, arg);
}
template <
typename RetVal,
typename Arg1,
typename Arg2
>
RetVal
callFunctionPtr (
FunctionPtr ptr,
Arg1 arg1,
Arg2 arg2
)
{
return callFunctionImpl_u <RetVal> (ptr.m_p, ptr.m_closure, arg1, arg2);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3
>
RetVal
callFunctionPtr (
FunctionPtr ptr,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
return callFunctionImpl_u <RetVal> (ptr.m_p, ptr.m_closure, arg1, arg2, arg3);
}
template <
typename RetVal,
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
RetVal
callFunctionPtr (
FunctionPtr ptr,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
return callFunctionImpl_u <RetVal> (ptr.m_p, ptr.m_closure, arg1, arg2, arg3, arg4);
}
//..............................................................................
inline
bool
callVoidFunctionPtr (
Runtime* runtime,
FunctionPtr ptr
)
{
int retVal;
return callFunctionImpl_s (runtime, ptr.m_p, &retVal, ptr.m_closure);
}
template <typename Arg>
bool
callVoidFunctionPtr (
Runtime* runtime,
FunctionPtr ptr,
Arg arg
)
{
int retVal;
return callFunctionImpl_s (runtime, ptr.m_p, &retVal, ptr.m_closure, arg);
}
template <
typename Arg1,
typename Arg2
>
bool
callVoidFunctionPtr (
Runtime* runtime,
FunctionPtr ptr,
Arg1 arg1,
Arg2 arg2
)
{
int retVal;
return callFunctionImpl_s (runtime, ptr.m_p, &retVal, ptr.m_closure, arg1, arg2);
}
template <
typename Arg1,
typename Arg2,
typename Arg3
>
bool
callVoidFunctionPtr (
Runtime* runtime,
FunctionPtr ptr,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
int retVal;
return callFunctionImpl_s (runtime, ptr.m_p, &retVal, ptr.m_closure, arg1, arg2, arg3);
}
template <
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
bool
callVoidFunctionPtr (
Runtime* runtime,
FunctionPtr ptr,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
int retVal;
return callFunctionImpl_s (runtime, ptr.m_p, &retVal, ptr.m_closure, arg1, arg2, arg3, arg4);
}
// . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
inline
void
callVoidFunctionPtr (FunctionPtr ptr)
{
callFunctionImpl_u <void> (ptr.m_p, ptr.m_closure);
}
template <typename Arg>
void
callVoidFunctionPtr (
FunctionPtr ptr,
Arg arg
)
{
callFunctionImpl_u <void> (ptr.m_p, ptr.m_closure, arg);
}
template <
typename Arg1,
typename Arg2
>
void
callVoidFunctionPtr (
FunctionPtr ptr,
Arg1 arg1,
Arg2 arg2
)
{
callFunctionImpl_u <void> (ptr.m_p, ptr.m_closure, arg1, arg2);
}
template <
typename Arg1,
typename Arg2,
typename Arg3
>
void
callVoidFunctionPtr (
FunctionPtr ptr,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
callFunctionImpl_u <void> (ptr.m_p, ptr.m_closure, arg1, arg2, arg3);
}
template <
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
void
callVoidFunctionPtr (
FunctionPtr ptr,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
callFunctionImpl_u <void> (ptr.m_p, ptr.m_closure, arg1, arg2, arg3, arg4);
}
//..............................................................................
inline
bool
callMulticast (
Runtime* runtime,
Multicast* multicast
)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
return callVoidFunctionPtr (runtime, ptr);
}
template <typename Arg>
bool
callMulticast (
Runtime* runtime,
Multicast* multicast,
Arg arg
)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
return callVoidFunctionPtr (runtime, ptr, arg);
}
template <
typename Arg1,
typename Arg2
>
bool
callMulticast (
Runtime* runtime,
Multicast* multicast,
Arg1 arg1,
Arg2 arg2
)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
return callVoidFunctionPtr (runtime, ptr, arg1, arg2);
}
template <
typename Arg1,
typename Arg2,
typename Arg3
>
bool
callMulticast (
Runtime* runtime,
Multicast* multicast,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
return callVoidFunctionPtr (runtime, ptr, arg1, arg2, arg3);
}
template <
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
bool
callMulticast (
Runtime* runtime,
Multicast* multicast,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
return callVoidFunctionPtr (runtime, ptr, arg1, arg2, arg3, arg4);
}
// . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
inline
void
callMulticast (Multicast* multicast)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
callVoidFunctionPtr (ptr);
}
template <typename Arg>
void
callMulticast (
Multicast* multicast,
Arg arg
)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
callVoidFunctionPtr (ptr, arg);
}
template <
typename Arg1,
typename Arg2
>
void
callMulticast (
Multicast* multicast,
Arg1 arg1,
Arg2 arg2
)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
callVoidFunctionPtr (ptr, arg1, arg2);
}
template <
typename Arg1,
typename Arg2,
typename Arg3
>
void
callMulticast (
Multicast* multicast,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3
)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
callVoidFunctionPtr (ptr, arg1, arg2, arg3);
}
template <
typename Arg1,
typename Arg2,
typename Arg3,
typename Arg4
>
void
callMulticast (
Multicast* multicast,
Arg1 arg1,
Arg2 arg2,
Arg3 arg3,
Arg4 arg4
)
{
void* p = getMulticastCallMethodMachineCode (multicast);
FunctionPtr ptr = { p, &multicast->m_ifaceHdr };
callVoidFunctionPtr (ptr, arg1, arg2, arg3, arg4);
}
//..............................................................................
} // namespace jnc
#endif // __cplusplus
/// @}
|
b230fe29f2f0f1176b068159ead1411d36d882b7 | d5200712c2e5485fc122b608161eac50d8abedff | /BZOJ/BZOJ2434.cpp | 2ae1c8c6e1912dd097e972af38f30e7578bc2438 | [] | no_license | CSHwang4869/Online-Judge-Solutions | 0f416b219616d7eb2d1e979b4690491c17230597 | f5e6e3f9722b660955b97e147e14817270c169c4 | refs/heads/master | 2021-09-26T08:01:39.141055 | 2021-09-17T06:09:18 | 2021-09-17T06:09:18 | 150,004,099 | 4 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 2,828 | cpp | BZOJ2434.cpp | #include <queue>
#include <vector>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#define idx(x) (x - root)
#define DEBUG printf("Passing [%s] in Line %d\n" , __FUNCTION__ , __LINE__) ;
const int MAX_N = 1e5 + 10 ;
struct data {int idx , x ;} ;
struct Link {
int num ;
Link *next ;
}list[MAX_N] ;
struct Node {
std::vector<int> wd ;
Node *ch[26] , *fail ;
void init() {
fail = NULL ;
for (int i = 0 ; i < 26 ; ++i) ch[i] = NULL ;
}
}acam[MAX_N] ;
std::queue<Node*> que ;
std::vector<data> qry[MAX_N] ;
char s[MAX_N] ;
Link *head[MAX_N] ;
Node *root , *pt[MAX_N] , *fa[MAX_N] ;
int dfn[MAX_N] , ed[MAX_N] , BIT[MAX_N] ;
int n , ti , len , tot , cur , cnt , ans[MAX_N] ;
void ins(int x , int y) {
list[cur].num = y ;
list[cur].next = head[x] ;
head[x] = &list[cur++] ;
}
void insert(Node *rt , int p) {
if (p == len) return ;
char c = s[p] ;
if (c == 'P') {
pt[++cnt] = rt ;
rt->wd.push_back(cnt) ;
insert(rt , p + 1) ;
}
else if (c == 'B') insert(fa[idx(rt)] , p + 1) ;
else {
int to = c - 'a' ;
if (!rt->ch[to]) {
(rt->ch[to] = &acam[tot++])->init() ;
fa[idx(rt->ch[to])] = rt ;
}
insert(rt->ch[to] , p + 1) ;
}
}
void build() {
que.push(root) ;
for (; !que.empty() ;) {
Node *x = que.front() ; que.pop() ;
for (int i = 0 ; i < 26 ; ++i) {
Node *nx = x->ch[i] ;
if (!nx) continue ;
Node *p = x->fail ;
for (; p && !p->ch[i] ; p = p->fail) ;
if (p) nx->fail = p->ch[i] ;
else nx->fail = root ;
que.push(nx) ;
}
}
for (Node *x = acam + 1 ; x != acam + tot ; ++x)
ins(idx(x->fail) , idx(x)) ;
}
void dfs(int x) {
dfn[x] = ++ti ;
for (Link *h = head[x] ; h ; h = h->next) {
int nx = h->num ;
dfs(nx) ;
}
ed[x] = ti ;
}
int lowbit(int x) {return x & (-x) ;}
void modify(int x , int a) {
for (; x <= tot ; x += lowbit(x)) BIT[x] += a ;
}
int getsum(int x) {
int s = 0 ;
for (; x ; x -= lowbit(x)) s += BIT[x] ;
return s ;
}
int main() {
scanf("%s" , s) ; len = strlen(s) ;
scanf("%d" , &n) ;
for (int i = 0 ; i < n ; ++i) {
int x , y ; scanf("%d %d" , &x , &y) ;
qry[y].push_back((data){i , x}) ;
}
///
fa[0] = NULL ; (root = &acam[tot++])->init() ;
insert(root , 0) ; build() ;
dfs(idx(root)) ;
///
Node *rt = root ;
for (int i = 0 ; i < len ; ++i) {
char c = s[i] ;
if (c == 'B') {
modify(dfn[idx(rt)] , -1) ;
rt = fa[idx(rt)] ;
}
else if (c == 'P') {
int m = rt->wd.size() ;
for (int i = 0 ; i < m ; ++i) {
int y = rt->wd[i] ;
int ql = qry[y].size() ;
for (int j = 0 ; j < ql ; ++j) {
data tmp = qry[y][j] ;
int x = idx(pt[tmp.x]) ;
ans[tmp.idx] = getsum(ed[x]) - getsum(dfn[x] - 1) ;
}
}
}
else {
rt = rt->ch[c - 'a'] ;
modify(dfn[idx(rt)] , 1) ;
}
}
for (int i = 0 ; i < n ; ++i) printf("%d\n" , ans[i]) ;
return 0 ;
} |
669f54c224319e37f78409815a8bf405e5e2ce8a | 75c787ede8ac812db349307e4421882bd925fc73 | /src/huffman_decode_tree.cpp | 7b769975c5a0047d541c1d9492817a6fcc0de9b8 | [] | no_license | jshaker000/huffman_coding | 61d80c7ca8ccec47561b9374deee39ef1170c2f9 | 2e1d3632113b5521e95c5c26e581bfbe5bad5e5b | refs/heads/master | 2021-07-25T19:58:34.137114 | 2020-04-20T12:58:44 | 2020-04-20T12:58:44 | 154,360,535 | 2 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,488 | cpp | huffman_decode_tree.cpp | #include <algorithm>
#include <iostream>
#include "huffman_decode_tree.h"
// takes in a list of nodes with their symbol, depth, and position and maps into a tree
// create new nodes as needed
// right now, no error checking
huffman::decode_tree::decode_tree(const std::vector<struct huffman::decode_tree::symbol_len_encode> &nodes)
{
root_node.reset(new huffman::decode_tree::huffman_node);
std::for_each(nodes.begin(), nodes.end(),
[this] (const auto &n)
{
struct huffman::decode_tree::huffman_node *tmp_ptr = root_node.get();
for (std::uint8_t i = 0; i < n.length; i++)
{
std::uint8_t bit = (n.encoding >> (n.length-1-i)) & 0x01;
if (bit == 0x00)
{
if (tmp_ptr->left == nullptr)
{
tmp_ptr->left.reset(new huffman::decode_tree::huffman_node);
}
tmp_ptr = tmp_ptr->left.get();
}
else
{
if(tmp_ptr->right == nullptr)
{
tmp_ptr->right.reset(new huffman::decode_tree::huffman_node);
}
tmp_ptr = tmp_ptr->right.get();
}
if (i == n.length - 1)
{
tmp_ptr->data = n.symbol;
}
}
});
working_ptr = root_node.get();
}
// moving working_ptr in direction d and return if the new position is valid (non nullptr),
// is a leaf, and the data under it.
// Used so you to can traverse the tree, find data, reset, etc to decode huffman encoded file
// you can go in Direction::NONE to reobserve the current state
struct huffman::decode_tree::decode_status huffman::decode_tree::move_direction(huffman::decode_tree::Direction d)
{
if (d == huffman::decode_tree::Direction::RESET)
{
working_ptr = root_node.get();
}
else if (d == huffman::decode_tree::Direction::LEFT)
{
working_ptr = (working_ptr->left).get();
}
else if (d == huffman::decode_tree::Direction::RIGHT)
{
working_ptr = (working_ptr->right).get();
}
else // d == huffman::decode_tree::Direction::NONE
{
;
}
bool is_valid = working_ptr != nullptr;
bool is_leaf = is_valid && working_ptr->left == nullptr && working_ptr->right == nullptr;
char symbol = is_leaf ? working_ptr->data : 0x00;
struct huffman::decode_tree::decode_status ds{ is_valid, is_leaf, symbol };
return ds;
}
|
487e7cde94f2a8c7f11d89b3c9eb18e4859186bc | aae79375bee5bbcaff765fc319a799f843b75bac | /srm_6xx/srm_636/SortishDiv2.cpp | d36658344009aa40b4ffca248b3e66516a27addc | [] | no_license | firewood/topcoder | b50b6a709ea0f5d521c2c8870012940f7adc6b19 | 4ad02fc500bd63bc4b29750f97d4642eeab36079 | refs/heads/master | 2023-08-17T18:50:01.575463 | 2023-08-11T10:28:59 | 2023-08-11T10:28:59 | 1,628,606 | 21 | 6 | null | null | null | null | UTF-8 | C++ | false | false | 3,190 | cpp | SortishDiv2.cpp | // BEGIN CUT HERE
/*
SRM 636 Div2 Medium (500)
問題
-配列が与えられる
-いくつかの値は未知である
-任意の2つの値について昇順なものがsortedness個あるとき、配列の組み合わせの総数を求める
*/
// END CUT HERE
#include <algorithm>
#include <numeric>
#include <string>
#include <set>
#include <vector>
#include <iostream>
#include <sstream>
using namespace std;
typedef set<int> IntSet;
typedef vector<int> IntVec;
class BIT {
std::vector<int> bit;
int size;
public:
BIT() { }
BIT(int sz) { init(sz); }
void init(int sz) {
bit = std::vector<int>((size = sz) + 1);
}
int sum(int i) {
// ++i;
int s = 0;
while (i > 0) {
s += bit[i];
i -= i & -i;
}
return s;
}
void add(int i, int x) {
// ++i;
while (i <= size) {
bit[i] += x;
i += i & -i;
}
}
};
class SortishDiv2 {
public:
int ways(int sortedness, vector <int> seq) {
int ans = 0;
int N = (int)seq.size();
int zi[128] = {};
int zc = 0;
IntSet r;
for (int i = 1; i <= N; ++i) {
r.insert(i);
}
for (int i = 0; i < N; ++i) {
r.erase(seq[i]);
if (!seq[i]) {
zi[zc++] = i;
}
}
IntVec v(r.begin(), r.end());
do {
BIT b(128);
for (int i = 0; i < zc; ++i) {
seq[zi[i]] = v[i];
}
int cnt = 0;
for (int i = 0; i < N; ++i) {
cnt += b.sum(seq[i]);
b.add(seq[i], 1);
}
ans += cnt == sortedness;
} while (zc && next_permutation(v.begin(), v.end()));
return ans;
}
// BEGIN CUT HERE
private:
template <typename T> string print_array(const vector<T> &V) { ostringstream os; os << "{ "; for (typename vector<T>::const_iterator iter = V.begin(); iter != V.end(); ++iter) os << '\"' << *iter << "\","; os << " }"; return os.str(); }
void verify_case(int Case, const int &Expected, const int &Received) { cerr << "Test Case #" << Case << "..."; if (Expected == Received) cerr << "PASSED" << endl; else { cerr << "FAILED" << endl; cerr << "\tExpected: \"" << Expected << '\"' << endl; cerr << "\tReceived: \"" << Received << '\"' << endl; } }
public:
void run_test(int Case) {
int n = 0;
// test_case_0
if ((Case == -1) || (Case == n)){
int Arg0 = 5;
int Arr1[] = {4, 0, 0, 2, 0};
int Arg2 = 2;
vector <int> Arg1(Arr1, Arr1 + (sizeof(Arr1) / sizeof(Arr1[0])));
verify_case(n, Arg2, ways(Arg0, Arg1));
}
n++;
// test_case_1
if ((Case == -1) || (Case == n)){
int Arg0 = 4;
int Arr1[] = {0, 0, 0, 0};
int Arg2 = 5;
vector <int> Arg1(Arr1, Arr1 + (sizeof(Arr1) / sizeof(Arr1[0])));
verify_case(n, Arg2, ways(Arg0, Arg1));
}
n++;
// test_case_2
if ((Case == -1) || (Case == n)){
int Arg0 = 2;
int Arr1[] = {1, 3, 2};
int Arg2 = 1;
vector <int> Arg1(Arr1, Arr1 + (sizeof(Arr1) / sizeof(Arr1[0])));
verify_case(n, Arg2, ways(Arg0, Arg1));
}
n++;
// test_case_3
if ((Case == -1) || (Case == n)){
int Arg0 = 2;
int Arr1[] = {1, 2, 0, 5, 0, 0};
int Arg2 = 0;
vector <int> Arg1(Arr1, Arr1 + (sizeof(Arr1) / sizeof(Arr1[0])));
verify_case(n, Arg2, ways(Arg0, Arg1));
}
n++;
}
// END CUT HERE
};
// BEGIN CUT HERE
int main() {
SortishDiv2 ___test;
___test.run_test(-1);
}
// END CUT HERE
|
6d7678e6d30159e93e3b70a61f8eb479d5f5fdb8 | fbce2176449c957e9128fc0f4b1f9ab83c4249df | /DP/LC62_UniquePaths.cpp | d4f5d9abfce18cb5d1acaeee8fe64d35bdadfe80 | [] | no_license | zhengzhe42/LC | d44d057f9414f5d93752925579326c32d32c27df | 47fff2f8580481bd785b4834f64c70f875d7758d | refs/heads/master | 2020-12-03T02:18:08.472896 | 2017-07-07T18:41:20 | 2017-07-07T18:41:20 | 95,924,555 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,520 | cpp | LC62_UniquePaths.cpp | // my solution
class Solution {
public:
int uniquePaths(int m, int n) {
vector<vector<int>> dp(m, vector<int>(n));
for(int i=0; i<m; i++){
for(int j=0; j<n; j++){
if(i==0 || j==0) dp[i][j] = 1;
else dp[i][j] = dp[i-1][j] + dp[i][j-1];
}
}
return dp[m-1][n-1];
}
};
// another way to solve
class Solution {
int uniquePaths(int m, int n) {
vector<vector<int> > path(m, vector<int> (n, 1));
for (int i = 1; i < m; i++)
for (int j = 1; j < n; j++)
path[i][j] = path[i - 1][j] + path[i][j - 1];
return path[m - 1][n - 1];
}
};
// swap(vector, vector)
class Solution {
int uniquePaths(int m, int n) {
if (m > n) return uniquePaths(n, m);
vector<int> pre(m, 1);
vector<int> cur(m, 1);
for (int j = 1; j < n; j++) {
for (int i = 1; i < m; i++)
cur[i] = cur[i - 1] + pre[i];
swap(pre, cur);
}
return pre[m - 1];
}
};
class Solution {
int uniquePaths(int m, int n) {
if (m > n) return uniquePaths(n, m);
vector<int> cur(m, 1);
for (int j = 1; j < n; j++)
for (int i = 1; i < m; i++)
cur[i] += cur[i - 1];
return cur[m - 1];
}
};
// Java Math
class Solution {
public:
int uniquePaths(int m, int n) {
int N = n + m - 2;// how much steps we need to do
int k = m - 1; // number of steps that need to go down
double res = 1;
// here we calculate the total possible path number
// Combination(N, k) = n! / (k!(n - k)!)
// reduce the numerator and denominator and get
// C = ( (n - k + 1) * (n - k + 2) * ... * n ) / k!
for (int i = 1; i <= k; i++)
res = res * (N - k + i) / i;
return (int)res;
}
};
// Java math
public class Solution {
public int uniquePaths(int m, int n) {
if(m == 1 || n == 1)
return 1;
m--;
n--;
if(m < n) { // Swap, so that m is the bigger number
m = m + n;
n = m - n;
m = m - n;
}
long res = 1;
int j = 1;
for(int i = m+1; i <= m+n; i++, j++){ // Instead of taking factorial, keep on multiply & divide
res *= i;
res /= j;
}
return (int)res;
}
} |
b48939c64d8f36b1adf6d7b6a56c84bdd9fa37dc | aba5eab6e928676e125cf5bbd5059c5a861c087e | /Logical Circuits/Logical Circuits/And.h | d38980ca2746c0459527b932bbc320d5ec501705 | [] | no_license | Nickvdmade/OOPA | 5c75d96a686a688ad4624f3dcd9ab42855fb06fa | 5af4f8385ecb91860a15b5ec0727f08c014fd88c | refs/heads/master | 2021-05-08T10:32:53.973037 | 2018-03-09T13:07:10 | 2018-03-09T13:07:10 | 119,845,350 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 247 | h | And.h | #pragma once
#include "Port.h"
class And :
public Port
{
private:
And(const std::string&);
public:
int calculateOutput(std::vector<int> input) override;
bool isInput() override;
bool isProbe() override;
private:
static And _instance;
};
|
0fcb7a9e5be2b32e1494061aa6e9d70a704b2850 | 39361e5d6328c7c7b28b3e161e2747c36d2e3d62 | /src/Options/options.cpp | fe5d7b96f8b4fa4625dbf5e10b9765eb56480b4a | [] | no_license | SlayerWx/Arkanoid | e0c7667bf5ff8f924ddbaed53960f44b5ec5b7a3 | 43548a738728c3aaae1b333057073ce059ad3ddd | refs/heads/master | 2020-07-23T23:12:07.107449 | 2019-10-22T16:35:14 | 2019-10-22T16:35:14 | 207,734,686 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 5,620 | cpp | options.cpp | #include "options.h"
namespace options
{
int distanceOfTheLeftEdgePlay = 20;
int distanceOfTheUpEdgeTitle = 50;
int distanceOfRGB = 200;
int distanceOfYRGB = 70;
int selectorRGB = 20;
int selectorPercentRGB = -1;
bool rgbOptionSwitchBool = false;
Options::Options(Texture2D newPlayTexture, Texture2D newBackTexture,Texture2D _RGB[], Texture2D newRGBPorcentTexture[],Texture2D newRGBtexture)
{
playTexture = newPlayTexture;
BackTexture = newBackTexture;
IsPressedToGameplay = false;
IsPressedToBack = false;
playTexture.width = static_cast<int>(playTexture.width / 2.5f);
playTexture.height = static_cast<int>(playTexture.height / 2);
BackTexture.width = static_cast<int>(BackTexture.width / 2.5);
BackTexture.height = static_cast<int>(BackTexture.height / 2);
RGBtexture = newRGBtexture;
RGBtexture.width = playTexture.width;
RGBtexture.height = playTexture.height;
for (int i = 0; i < countLetterRGB; i++)
{
RGB[i] = _RGB[i];
}
for (int i = 0; i < countPercentRGB; i++)
{
RGBPorcentTexture[i] = newRGBPorcentTexture[i];
RGBPorcentTexture[i].width = static_cast<int>(RGBPorcentTexture[i].width /2.9f);
RGBPorcentTexture[i].height = static_cast<int>(RGBPorcentTexture[i].width / 2);
}
customisedColor = RED;
RGBPercentTurn = false;
rgbOptionSwitchBool = false;
}
GameScreen Options::update(Player* player, Ball* ball)
{
player->move();
ball->ShotingMe(player->isShotBalls());
colisionWithTexture(ball);
ball->moveInMenu(player);
player->customColor(RGBpercentSelector(player->getCustomColor()));
if (IsPressedToGameplay)
{
IsPressedToGameplay = false;
return GAMEPLAY;
}
if (IsPressedToBack)
{
IsPressedToBack = false;
return MENU;
}
return OPTIONS;
}
void Options::draw(Player* player, Ball* ball)
{
DrawTexture(playTexture, distanceOfTheLeftEdgePlay, GetScreenHeight() / 2, WHITE);
switch (rgbOptionSwitchBool)
{
case false:
DrawTexture(BackTexture, GetScreenWidth() - playTexture.width - distanceOfTheLeftEdgePlay, GetScreenHeight() / 2, WHITE);
break;
case true:
DrawTexture(RGBtexture,GetScreenWidth() - RGBtexture.width- distanceOfTheLeftEdgePlay,GetScreenHeight()/2, RAYWHITE);
break;
}
player->drawMe();
ball->drawMe();
for (int i = 0; i < countLetterRGB; i++)
{
DrawTexture(RGB[i], static_cast<int>((GetScreenWidth()/2 - distanceOfRGB * 1.20f)) + (distanceOfRGB * i), distanceOfYRGB,RAYWHITE);
}
if (RGBPercentTurn)
{
for (int i = 0; i < countPercentRGB; i++)
{
DrawTexture(RGBPorcentTexture[i], (distanceOfTheLeftEdgePlay + playTexture.width) +
(RGBPorcentTexture[0].width * i), GetScreenHeight() / 2, RAYWHITE);
}
}
}
void Options::colisionWithTexture(Ball* ball)
{
//play
if (ball->getPosition().x > distanceOfTheLeftEdgePlay && ball->getPosition().x < distanceOfTheLeftEdgePlay + playTexture.width &&
ball->getPosition().y < (GetScreenHeight() / 2) + playTexture.height)
{
ball->setStatus(STAY);
IsPressedToGameplay = true;
}
switch (rgbOptionSwitchBool)
{
case false:
//Back
if (ball->getPosition().x > GetScreenWidth() - BackTexture.width - distanceOfTheLeftEdgePlay - 3 &&
ball->getPosition().x < GetScreenWidth() - distanceOfTheLeftEdgePlay &&
ball->getPosition().y < (GetScreenHeight() / 2) + BackTexture.height)
{
ball->setStatus(STAY);
IsPressedToBack = true;
}
break;
case true:
//RGBoptionBack
if (ball->getPosition().x > GetScreenWidth() - RGBtexture.width - distanceOfTheLeftEdgePlay - 3 &&
ball->getPosition().x < GetScreenWidth() - distanceOfTheLeftEdgePlay &&
ball->getPosition().y < (GetScreenHeight() / 2) + RGBtexture.height)
{
ball->setStatus(STAY);
RGBPercentTurn = false;
selectorRGB = -1;
rgbOptionSwitchBool = false;
}
break;
}
//RGB
for (int i = 0; i < countLetterRGB; i++)
{
if (ball->getPosition().x > (GetScreenWidth() / 2 - distanceOfRGB * 1.20) + (distanceOfRGB * i)
&& ball->getPosition().x < (GetScreenWidth() / 2 - distanceOfRGB * 1.20) + (distanceOfRGB * i) + RGB[i].width &&
ball->getPosition().y < distanceOfYRGB + RGB[i].height)
{
ball->setStatus(STAY);
selectorRGB = i;
RGBPercentTurn = true;
rgbOptionSwitchBool = true;
}
}
//percentRGB
if (RGBPercentTurn)
{
for (int i = 0; i < countPercentRGB; i++)
{
if (ball->getPosition().x > (distanceOfTheLeftEdgePlay + playTexture.width) + (RGBPorcentTexture[0].width * i)
&& ball->getPosition().x < (distanceOfTheLeftEdgePlay * 1.9f + playTexture.width) + (RGBPorcentTexture[0].width * i) +
RGBPorcentTexture[i].width && ball->getPosition().y < GetScreenHeight() / 2 + RGBPorcentTexture[i].height
&& ball->getPosition().y > GetScreenHeight() / 2)
{
ball->setStatus(STAY);
selectorPercentRGB = i * 10;
}
}
}
//nothing
if (ball->getPosition().y < ball->getRadius() *-1.2)
{
ball->setStatus(STAY);
}
}
Color Options::RGBpercentSelector(Color actualPlayerColor)
{
switch (selectorRGB)
{
case RGBisR:
if (selectorPercentRGB > -1)
{
actualPlayerColor.r = GetpercentRGB();
}
break;
case RGBisG:
if (selectorPercentRGB > -1)
{
actualPlayerColor.g = GetpercentRGB();
}
break;
case RGBisB:
if (selectorPercentRGB > -1)
{
actualPlayerColor.b = GetpercentRGB();
}
break;
default:
break;
}
return actualPlayerColor;
}
int Options::GetpercentRGB()
{
int aux = selectorPercentRGB;
selectorPercentRGB = -1;
return static_cast<int>(255 * (aux * 0.01f));
}
Options::~Options()
{
}
} |
c7ff7e9fbf9882d72cfc25d7815f2617ae8c6b16 | babe2a67db96780e56fa73f30350b79c49905f72 | /anms/TickMeter.cpp | ced5e848e89a7a0a3dd1870b18a9a5e7aeb98b3c | [] | no_license | cvidkal/OpenCV-complement | ddfb7c58bb1f3bede93877b88e61e1d7760dd10b | 5848042b200db224888673baa5fabd5d83859c93 | refs/heads/master | 2021-01-01T19:34:28.037084 | 2015-06-29T06:52:26 | 2015-06-29T06:52:26 | 37,460,461 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 698 | cpp | TickMeter.cpp | #include "TickMeter.h"
TickMeter::TickMeter() { reset(); }
__int64 TickMeter::getTimeTicks() const { return sumTime; }
double TickMeter::getTimeMicro() const { return (double)getTimeTicks() / cvGetTickFrequency(); }
double TickMeter::getTimeMilli() const { return getTimeMicro()*1e-3; }
double TickMeter::getTimeSec() const { return getTimeMilli()*1e-3; }
__int64 TickMeter::getCounter() const { return counter; }
void TickMeter::reset() { startTime = 0; sumTime = 0; counter = 0; }
void TickMeter::start(){ startTime = cvGetTickCount(); }
void TickMeter::stop()
{
__int64 time = cvGetTickCount();
if (startTime == 0)
return;
++counter;
sumTime += (time - startTime);
startTime = 0;
} |
5cafd141b3ab133e4de0272ed13a5b2d7349a501 | dc0c9ea3fa7498b0552b5f0cdd121489404cb07a | /tcarg/1/L_.cpp | d71381dd8e5904957bcccc5dfbfc6885e2453f7f | [] | no_license | alaneos777/club | 226e7e86983da7f87d87efbfd47d42326872dd25 | 47da01e884d6324aa1c9f701d6f70b8b978a0e18 | refs/heads/master | 2023-08-05T02:43:33.428365 | 2023-07-29T02:43:58 | 2023-07-29T02:43:58 | 143,675,419 | 2 | 2 | null | null | null | null | UTF-8 | C++ | false | false | 2,517 | cpp | L_.cpp | #include <bits/stdc++.h>
using namespace std;
using lli = long long int;
template<typename T>
struct flowEdge{
int dest;
T flow, capacity, cost;
flowEdge *res;
flowEdge(): dest(0), flow(0), capacity(0), cost(0), res(NULL){}
flowEdge(int dest, T flow, T capacity, T cost = 0): dest(dest), flow(flow), capacity(capacity), cost(cost), res(NULL){}
void addFlow(T flow){
this->flow += flow;
this->res->flow -= flow;
}
};
template<typename T>
struct flowGraph{
T inf = numeric_limits<T>::max();
vector<vector<flowEdge<T>*>> adjList;
vector<int> dist, pos;
int V;
flowGraph(int V): V(V), adjList(V), dist(V), pos(V){}
~flowGraph(){
for(int i = 0; i < V; ++i)
for(int j = 0; j < adjList[i].size(); ++j)
delete adjList[i][j];
}
void addEdge(int u, int v, T capacity, T cost = 0){
flowEdge<T> *uv = new flowEdge<T>(v, 0, capacity, cost);
flowEdge<T> *vu = new flowEdge<T>(u, capacity, capacity, -cost);
uv->res = vu;
vu->res = uv;
adjList[u].push_back(uv);
adjList[v].push_back(vu);
}
//Max Flow Min Cost
pair<T, T> maxFlowMinCost(int s, int t){
vector<bool> inQueue(V);
vector<T> distance(V), cap(V);
vector<flowEdge<T>*> parent(V);
T maxFlow = 0, minCost = 0;
while(true){
fill(distance.begin(), distance.end(), inf);
fill(parent.begin(), parent.end(), nullptr);
fill(cap.begin(), cap.end(), 0);
distance[s] = 0;
cap[s] = inf;
queue<int> Q;
Q.push(s);
while(!Q.empty()){
int u = Q.front(); Q.pop(); inQueue[u] = 0;
for(flowEdge<T> *v : adjList[u]){
if(v->capacity > v->flow && distance[v->dest] > distance[u] + v->cost){
distance[v->dest] = distance[u] + v->cost;
parent[v->dest] = v;
cap[v->dest] = min(cap[u], v->capacity - v->flow);
if(!inQueue[v->dest]){
Q.push(v->dest);
inQueue[v->dest] = true;
}
}
}
}
if(!parent[t]) break;
maxFlow += cap[t];
minCost += cap[t] * distance[t];
for(int u = t; u != s; u = parent[u]->res->dest)
parent[u]->addFlow(cap[t]);
}
return {maxFlow, minCost};
}
};
int main(){
ios_base::sync_with_stdio(0), cin.tie(0), cout.tie(0);
int n, k;
cin >> n >> k;
vector<lli> a(n), b(n);
for(lli& ai : a){
cin >> ai;
}
for(lli& bi : b){
cin >> bi;
}
flowGraph<lli> g(n+3);
int s = n, t = n+1, t2 = n+2;
for(int i = 0; i < n; ++i){
g.addEdge(s, i, 1, a[i]);
g.addEdge(i, t, 1, b[i]);
if(i+1 < n) g.addEdge(i, i+1, k, 0);
}
g.addEdge(t, t2, k, 0);
cout << g.maxFlowMinCost(s, t2).second << "\n";
return 0;
} |
5a99019f4b6fcfb3df5806bb6cfd88b63a13eb76 | 51a6ade65cf47e4df4b292d801d4e26adcc5fc10 | /basic/1045.cpp | f4f82c4d8043cff7d7d6978b397d788e245d6661 | [] | no_license | yuhaim/PTA | 108dfd3c958ed91966497b8186b07f17166e8a06 | 8dffbd6f24a33e5ae8f1c609f850b2c745c4a347 | refs/heads/master | 2020-03-29T20:09:08.781914 | 2019-02-26T01:50:07 | 2019-02-26T01:50:07 | 150,298,095 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 715 | cpp | 1045.cpp | #include <cstdio>
#include <iostream>
#include <algorithm>
#include <vector>
using namespace std;
int main()
{
int N;
cin >> N;
vector<int> v(N), w(N), u;
for(int i=0; i<N; i++) {
int x;
scanf("%d", &x);
w[i] = v[i] = x;
}
sort(v.begin(), v.end());
int max_value = 0;
for(int i=0; i<N; i++) {
if(v[i]==w[i] && v[i]>max_value){
u.push_back(v[i]);
}
if(w[i]>max_value)
max_value = w[i];
}
cout << u.size() << endl;
bool init = true;
for(auto x:u) {
if(init)
init = false;
else
cout << ' ';
cout << x;
}
cout << endl;
return 0;
}
|
282cc17ca286180b939f8640e8fa679ebc4bfd49 | ad273708d98b1f73b3855cc4317bca2e56456d15 | /aws-cpp-sdk-dms/source/model/ReplicationTaskAssessmentResult.cpp | 5f7d5398cc299c9aee19368e7cc4733f8885e3a6 | [
"MIT",
"Apache-2.0",
"JSON"
] | permissive | novaquark/aws-sdk-cpp | b390f2e29f86f629f9efcf41c4990169b91f4f47 | a0969508545bec9ae2864c9e1e2bb9aff109f90c | refs/heads/master | 2022-08-28T18:28:12.742810 | 2020-05-27T15:46:18 | 2020-05-27T15:46:18 | 267,351,721 | 1 | 0 | Apache-2.0 | 2020-05-27T15:08:16 | 2020-05-27T15:08:15 | null | UTF-8 | C++ | false | false | 4,098 | cpp | ReplicationTaskAssessmentResult.cpp | /*
* Copyright 2010-2017 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.
*/
#include <aws/dms/model/ReplicationTaskAssessmentResult.h>
#include <aws/core/utils/json/JsonSerializer.h>
#include <utility>
using namespace Aws::Utils::Json;
using namespace Aws::Utils;
namespace Aws
{
namespace DatabaseMigrationService
{
namespace Model
{
ReplicationTaskAssessmentResult::ReplicationTaskAssessmentResult() :
m_replicationTaskIdentifierHasBeenSet(false),
m_replicationTaskArnHasBeenSet(false),
m_replicationTaskLastAssessmentDateHasBeenSet(false),
m_assessmentStatusHasBeenSet(false),
m_assessmentResultsFileHasBeenSet(false),
m_assessmentResultsHasBeenSet(false),
m_s3ObjectUrlHasBeenSet(false)
{
}
ReplicationTaskAssessmentResult::ReplicationTaskAssessmentResult(JsonView jsonValue) :
m_replicationTaskIdentifierHasBeenSet(false),
m_replicationTaskArnHasBeenSet(false),
m_replicationTaskLastAssessmentDateHasBeenSet(false),
m_assessmentStatusHasBeenSet(false),
m_assessmentResultsFileHasBeenSet(false),
m_assessmentResultsHasBeenSet(false),
m_s3ObjectUrlHasBeenSet(false)
{
*this = jsonValue;
}
ReplicationTaskAssessmentResult& ReplicationTaskAssessmentResult::operator =(JsonView jsonValue)
{
if(jsonValue.ValueExists("ReplicationTaskIdentifier"))
{
m_replicationTaskIdentifier = jsonValue.GetString("ReplicationTaskIdentifier");
m_replicationTaskIdentifierHasBeenSet = true;
}
if(jsonValue.ValueExists("ReplicationTaskArn"))
{
m_replicationTaskArn = jsonValue.GetString("ReplicationTaskArn");
m_replicationTaskArnHasBeenSet = true;
}
if(jsonValue.ValueExists("ReplicationTaskLastAssessmentDate"))
{
m_replicationTaskLastAssessmentDate = jsonValue.GetDouble("ReplicationTaskLastAssessmentDate");
m_replicationTaskLastAssessmentDateHasBeenSet = true;
}
if(jsonValue.ValueExists("AssessmentStatus"))
{
m_assessmentStatus = jsonValue.GetString("AssessmentStatus");
m_assessmentStatusHasBeenSet = true;
}
if(jsonValue.ValueExists("AssessmentResultsFile"))
{
m_assessmentResultsFile = jsonValue.GetString("AssessmentResultsFile");
m_assessmentResultsFileHasBeenSet = true;
}
if(jsonValue.ValueExists("AssessmentResults"))
{
m_assessmentResults = jsonValue.GetString("AssessmentResults");
m_assessmentResultsHasBeenSet = true;
}
if(jsonValue.ValueExists("S3ObjectUrl"))
{
m_s3ObjectUrl = jsonValue.GetString("S3ObjectUrl");
m_s3ObjectUrlHasBeenSet = true;
}
return *this;
}
JsonValue ReplicationTaskAssessmentResult::Jsonize() const
{
JsonValue payload;
if(m_replicationTaskIdentifierHasBeenSet)
{
payload.WithString("ReplicationTaskIdentifier", m_replicationTaskIdentifier);
}
if(m_replicationTaskArnHasBeenSet)
{
payload.WithString("ReplicationTaskArn", m_replicationTaskArn);
}
if(m_replicationTaskLastAssessmentDateHasBeenSet)
{
payload.WithDouble("ReplicationTaskLastAssessmentDate", m_replicationTaskLastAssessmentDate.SecondsWithMSPrecision());
}
if(m_assessmentStatusHasBeenSet)
{
payload.WithString("AssessmentStatus", m_assessmentStatus);
}
if(m_assessmentResultsFileHasBeenSet)
{
payload.WithString("AssessmentResultsFile", m_assessmentResultsFile);
}
if(m_assessmentResultsHasBeenSet)
{
payload.WithString("AssessmentResults", m_assessmentResults);
}
if(m_s3ObjectUrlHasBeenSet)
{
payload.WithString("S3ObjectUrl", m_s3ObjectUrl);
}
return payload;
}
} // namespace Model
} // namespace DatabaseMigrationService
} // namespace Aws
|
cdc1811945679e9e72d09f280c8fb5f1f958d7f7 | 5851b269f831f1ff2194f5bba739e179fcee75ea | /ugolkimodel.cpp | 3eea5dc60d6ac0247bc287d42a88b84c1064d952 | [] | no_license | Starburst24/ugolki | 948e960e7f0707a7d38d7e4df54b1a140472cb78 | 2160605c5f6fbd76bb0b9b32da9c97b2ca90f6d5 | refs/heads/master | 2021-01-13T01:30:53.649035 | 2012-12-25T16:58:20 | 2012-12-25T16:58:20 | 37,124,935 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 10,023 | cpp | ugolkimodel.cpp | #include "ugolkimodel.h"
#include <stdio.h>
UgolkiModel::UgolkiModel(UgolkiNetwork *networkRef, UgolkiAI *aiRef, QObject *parent) :
QObject(parent)
{
network = networkRef;
ai = aiRef;
connect(¤tFrame, SIGNAL(frameChanged(UgolkiFrame*)),
SLOT(calculatePossibleMoves(UgolkiFrame*)));
connect(ai, SIGNAL(calculatePossibleMovesTask(UgolkiFrame*)),
SLOT(calculatePossibleMoves(UgolkiFrame*)));
connect(ai, SIGNAL(botTurnReady(int,int,int,int)),
SLOT(turnHandler(int,int,int,int)));
}
void UgolkiModel::gameOverHandler()
{
// камень в своём доме
bool selfHousePunishment[UGOLKI_MAXPLAYERS];
// количество камней в чужом доме
int piecesInHouse[UGOLKI_MAXPLAYERS];
// сначало камни все в своём доме, штрафа нет
for (int i = 0; i < UGOLKI_MAXPLAYERS; i++) {
piecesInHouse[i] = 0;
selfHousePunishment[i] = false;
}
// обходим доску
for (int i = 0; i < DESK_SIZE; i++)
for (int j = 0; j < DESK_SIZE; j++) {
int playerId = currentFrame.matrix[i][j];
if (playerId != UGOLKI_PLAYER_EMPTY) {
// для камня проверяем, находится ли он в доме противника
if (currentFrame.isInHouse(i, j, currentFrame.playerOpponent(playerId)))
piecesInHouse[playerId]++;
// если он в своём доме и ходов прошло больше допустимого
if (currentFrame.isInHouse(i, j, playerId)
&& currentFrame.turnCount >= UGOLKI_MAXIMUM_TURNS_IN_HOUSE)
selfHousePunishment[playerId] = true;
}
}
// всего камней в доме противника
int piecesInHouseTotal = 0;
// какой-либо камень в своём доме
bool selfHousePunishmentAll = false;
for (int i = 0; i < UGOLKI_MAXPLAYERS; i++) {
piecesInHouseTotal += piecesInHouse[i];
selfHousePunishmentAll &= selfHousePunishment[i];
}
// ничья: все камни в домах противника
if (piecesInHouseTotal == UGOLKI_HOUSE_HEIGHT * UGOLKI_HOUSE_WIDTH * UGOLKI_MAXPLAYERS
|| selfHousePunishmentAll) {
emit gameOver(STRING_DRAW);
return;
}
for (int i = 0; i < UGOLKI_MAXPLAYERS; i++) {
// возможность ничьи исключена, у кого все камни в доме - победитель, посылаем соотв. сигнал
if (piecesInHouse[i] == UGOLKI_HOUSE_HEIGHT * UGOLKI_HOUSE_WIDTH) {
if (gameMode == UGOLKI_MODE_MULTIPLAYER)
emit gameOver(QString(STRING_PLAYER " " + tr("%1").arg(i + 1) + " " STRING_WON));
if (gameMode == UGOLKI_MODE_AI){
if (i == UGOLKI_PLAYER_1)
emit gameOver(STRING_YOU_WON);
if (i == UGOLKI_BOT)
emit gameOver(STRING_YOU_LOST);
}
// победитель найден - выход из цикла
break;
}
// камень до сих пор в своём доме, оппонент такого игрока выигрывает
if (selfHousePunishment[i] == true){
if (gameMode == UGOLKI_MODE_AI)
if (i != UGOLKI_BOT)
emit gameOver(STRING_YOU_LOST);
else
emit gameOver(STRING_YOU_WON);
if (gameMode == UGOLKI_MODE_MULTIPLAYER){
emit gameOver(QString(STRING_PLAYER " " + tr("%1").arg(currentFrame.playerOpponent(i) + 1) + " " STRING_WON));
}
break;
}
}
}
void UgolkiModel::turnHandler(int oldPosRow, int oldPosColumn,
int newPosRow, int newPosColumn)
{
// некорректный ход - закрываем приложение
if (!currentFrame.validateMove(oldPosRow, oldPosColumn, newPosRow, newPosColumn)) {
emit gameOver(STRING_ERROR_DATA_PROTOCOL);
}
// двигаем камень
currentFrame.movePiece(oldPosRow, oldPosColumn, newPosRow, newPosColumn);
// только что сделал ход второй игрок, проверяем, не завершилась ли партия
if (currentFrame.currentPlayersTurnId == UGOLKI_PLAYER_1)
gameOverHandler();
// игра против ии: ходит бот, считаем лучший ход для него
if (gameMode == UGOLKI_MODE_AI && currentFrame.currentPlayersTurnId == UGOLKI_PLAYER_2){
ai->calculateBestMove(&this->currentFrame);
}
}
bool UgolkiModel::checkBoundsOfSquare(int currentRow, int currentColumn)
{
// проверяем, может ли клетка иметь такие координаты
if (currentRow < 0 || currentRow > DESK_SIZE - 1)
return false;
if (currentColumn < 0 || currentColumn > DESK_SIZE - 1)
return false;
return true;
}
// просмотр соседних клеток в поисках хода на них
void UgolkiModel::watchNeighboringSquares(int i, int j, UgolkiFrame *frame)
{
QPair<int,int> turn;
// смотрим вверх, если клетка сверху существует
if (checkBoundsOfSquare(i - 1, j))
// она пуста
if (frame->matrix[i - 1][j] == UGOLKI_PLAYER_EMPTY)
{
// сделать ход можно, добавляем в список
turn = qMakePair(i - 1, j);
frame->possibleMoves[i][j].append(turn);
}
// смотрим вправо
if (checkBoundsOfSquare(i, j + 1))
if (frame->matrix[i][j + 1] == UGOLKI_PLAYER_EMPTY)
{
turn = qMakePair(i, j + 1);
frame->possibleMoves[i][j].append(turn);
}
// смотрим вниз
if (checkBoundsOfSquare(i + 1, j))
if (frame->matrix[i + 1][j] == UGOLKI_PLAYER_EMPTY)
{
turn = qMakePair(i + 1, j);
frame->possibleMoves[i][j].append(turn);
}
// смотрим влево
if (checkBoundsOfSquare(i, j - 1))
if (frame->matrix[i][j - 1] == UGOLKI_PLAYER_EMPTY)
{
turn = qMakePair(i, j - 1);
frame->possibleMoves[i][j].append(turn);
}
}
// просмотр возможных прыжков через камни
void UgolkiModel::searchForJumps(int i, int j,
UgolkiFrame *frame,
bool visitedSquares[DESK_SIZE][DESK_SIZE],
int *firstSquare)
{
QPair<int,int> turn;
// текущая клетка уже просмотрена
visitedSquares[i][j] = true;
// прыжки вверх, если клетка через одну вверху существует
if (checkBoundsOfSquare(i - 2, j))
// соседняя клетка вверху занята и следующая за ней не просмотрена
if (frame->matrix[i - 1][j] != UGOLKI_PLAYER_EMPTY && visitedSquares[i - 2][j] != true)
// клетка через одну вверху пуста, продолжаем поиск, начиная с неё
if (frame->matrix[i - 2][j] == UGOLKI_PLAYER_EMPTY) {
searchForJumps(i - 2, j, frame, visitedSquares, firstSquare);
}
// прыжки вниз
if (checkBoundsOfSquare(i + 2, j))
if (frame->matrix[i + 1][j] != UGOLKI_PLAYER_EMPTY && visitedSquares[i + 2][j] != true)
if (frame->matrix[i + 2][j] == UGOLKI_PLAYER_EMPTY) {
searchForJumps(i + 2, j, frame, visitedSquares, firstSquare);
}
// прыжки вправо
if (checkBoundsOfSquare(i, j + 2))
if (frame->matrix[i][j + 1] != UGOLKI_PLAYER_EMPTY && visitedSquares[i][j + 2] != true)
if (frame->matrix[i][j + 2] == UGOLKI_PLAYER_EMPTY) {
searchForJumps(i, j + 2, frame, visitedSquares, firstSquare);
}
// прыжки влево
if (checkBoundsOfSquare(i, j - 2))
if (frame->matrix[i][j - 1] != UGOLKI_PLAYER_EMPTY && visitedSquares[i][j -2 ] != true)
if (frame->matrix[i][j - 2] == UGOLKI_PLAYER_EMPTY) {
searchForJumps(i, j - 2, frame, visitedSquares, firstSquare);
}
// добавляем ход с начальной клетки поиска до каждой новой достигнутой
if (i * DESK_SIZE + j != *firstSquare) {
turn = qMakePair(i, j);
frame->possibleMoves[*firstSquare / DESK_SIZE][*firstSquare % DESK_SIZE].append(turn);
}
}
void UgolkiModel::calculatePossibleMoves(UgolkiFrame *frame)
{
// просмотренные клетки для поиска
bool visitedSquares[DESK_SIZE][DESK_SIZE];
// очистка старого списка
for (int i = 0; i < DESK_SIZE; i++)
for (int j = 0; j < DESK_SIZE; j++) {
frame->possibleMoves[i][j].clear();
}
for (int i = 0; i < DESK_SIZE; i++)
for (int j = 0; j < DESK_SIZE; j++) {
// выбераем камни игрока, который сейчас должен сходить
if (frame->matrix[i][j] == frame->currentPlayersTurnId) {
// указываем начальную клетку для поиска прыжков
int firstSquare = i * DESK_SIZE + j;
for(int k = 0; k < DESK_SIZE; k++)
for(int l = 0; l < DESK_SIZE; l++)
visitedSquares[k][l] = false;
watchNeighboringSquares(i, j, frame);
searchForJumps(i, j, frame, visitedSquares, &firstSquare);
}
}
}
|
08a29160592afad3531f416e0373fd61216b59de | ed9112a70ca93f749788d668174781c778fb9171 | /Discrete Math/KOMB/partition.cpp | 5a7e6b6d8f74c83c75723045f92c9d230e50eb91 | [] | no_license | mikeTerentev/Labs | abd012c4339240130101b305926bfcee71b0fa45 | 0fc9daa6eec3ff162f11ee9a99a3972a282f1a87 | refs/heads/master | 2020-04-08T02:08:13.666549 | 2018-11-24T10:08:20 | 2018-11-24T10:08:20 | 158,923,956 | 0 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 2,146 | cpp | partition.cpp | #include <iostream>
#include <vector>
using namespace std;
void out(vector<int> a, int n, int last) {
cout << n << "=";
if (last > 0) {
cout << a[0];
for (auto i = 1; i < last; i++) {
cout << a[i] << "+";
}
}
}
void plas() {
cout << "+";
}
void fall() {
cout << "No solution";
}
bool check(vector<int> a) {
if (a.size() == 1) {
return true;
} else {
return false;
}
}
void nextPartition(vector<int> &part,vector<int> &final) {
final.reserve(50);
/////
if (check(part)) {
return;
}
int maxk = part.size() - 1;
int prek = maxk - 1;
part[maxk]--;
part[prek]++;
if (part[maxk] + 1 != 1 && part[prek] > part[maxk]) {
for (int i = 0; i < part.size() - 2; i++) {
cout << part[i] << "+";
final.push_back(part[i]);
}
cout << part[maxk] + part[prek];
final.push_back(part[maxk] + part[prek]);
///
///
} else {
for (int i = 0; i < part.size() - 2; i++) {
cout << part[i];
final.push_back(part[i]);
plas();
}
cout << part[part.size() - 2];
final.push_back(part[part.size() - 2]);
if (part[maxk] != 0) {
plas();
while (part[maxk] + 1 > 2 * part[prek]) {
cout << part[prek];
final.push_back(part[prek]);
plas();
part[maxk] -= part[prek];
}
cout << part[maxk];
final.push_back(part[maxk]);
}
}
cout << endl;
part.clear();
nextPartition(final,part);
}
int main() {
ios_base::sync_with_stdio(false);
cin.tie(NULL);
freopen("partition.in", "r", stdin);
freopen("partition.out", "w", stdout);
vector<int> part(0);
part.reserve(50);
int n, tmp, m = 0;
char tmp_char;
cin >> n;
part.reserve(n);
vector<int> final(0);
for(int i=0;i<n-1;i++){
part.push_back(1);
cout<<1<<"+";
}
part.push_back(1);
cout<<1<<endl;
nextPartition(part,final);
return 0;
}
|
ebdaf02719473c78a58d4231bcb52aa0ffd42d62 | 2fa03f173b76d8bdfd3cc04326b059bc98d14ef7 | /src/red_v2_utility/file_util.cpp | 9dc4079002144aebe524ed61d016508092975582 | [] | no_license | suliaron/red_v2 | 377577746dbe3a13e274a5ce537a889ef68f274e | 1995e0998c4e95fe12bbafb4034c49c18161c7dd | refs/heads/master | 2020-05-23T03:08:32.997188 | 2017-08-22T09:29:23 | 2017-08-22T09:29:23 | 52,595,072 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 22,712 | cpp | file_util.cpp | #include <algorithm>
#include <cstring>
#include <iomanip>
#include <iostream>
#include <ostream>
#include <fstream>
#include "file_util.h"
#include "tools.h"
#include "util.h"
#include "constants.h"
#include "macro.h"
#include "type.h"
using namespace std;
namespace redutil2
{
namespace file
{
string combine_path(const string& dir, const string& filename)
{
if (0 < dir.size())
{
if (*(dir.end() - 1) != '/' && *(dir.end() - 1) != '\\')
{
return dir + '/' + filename;
}
else
{
return dir + filename;
}
}
else
{
return filename;
}
}
string get_filename(const string& path)
{
string result;
if (path.size() > 0)
{
size_t pos = path.find_last_of("/\\");
result = path.substr(pos + 1);
}
return result;
}
string get_filename_without_ext(const string& path)
{
string result;
if (path.size() > 0)
{
size_t pos = path.find_last_of("/\\");
result = path.substr(pos + 1);
pos = result.find_last_of('.');
result = result.substr(0, pos);
}
return result;
}
string get_directory(const string& path)
{
string result;
if (0 < path.size())
{
size_t pos = path.find_last_of("/\\");
// If path does not contain / or \ than path does not contain any directory so return an empty string
if (pos == string::npos)
{
return result;
}
// Copy the directory part of path into result
result = path.substr(0, pos);
}
return result;
}
string get_extension(const string& path)
{
string result;
if (path.size() > 0)
{
size_t pos = path.find_last_of('.');
result = path.substr(pos + 1);
}
return result;
}
data_rep_t get_data_repres(const string& path)
{
data_rep_t repres;
string ext = file::get_extension(path);
if ( "txt" == ext)
{
repres = DATA_REPRESENTATION_ASCII;
}
else if ("dat" == ext)
{
repres = DATA_REPRESENTATION_BINARY;
}
else
{
throw string("The extension of the path must be either 'txt' or 'dat'.");
}
return repres;
}
uint32_t load_ascii_file(const string& path, string& result)
{
uint32_t n_line = 0;
ifstream file(path.c_str(), ifstream::in);
if (file)
{
string str;
while (getline(file, str))
{
// delete everything after the comment '#' character and the '#'
str = tools::trim_comment(str);
str = tools::trim(str);
if (0 == str.length())
{
continue;
}
result += str;
result.push_back('\n');
n_line++;
}
file.close();
}
else
{
throw string("Cannot open " + path + ".");
}
return n_line;
}
void load_binary_file(const string& path, size_t n_data, var_t* data)
{
ifstream file(path.c_str(), ios::in | ios::binary);
if (file)
{
file.seekg(0, file.end); //N is the size of file in byte
size_t N = file.tellg();
file.seekg(0, file.beg);
size_t size = n_data * sizeof(var_t);
if (size != N)
{
throw string("The file " + path + " has different number of data than expected.");
}
file.read(reinterpret_cast<char*>(data), size);
file.close();
}
else
{
throw string("Cannot open " + path + ".");
}
file.close();
}
void log_start(ostream& sout, int argc, const char** argv, const char** env, string params)
{
sout << tools::get_time_stamp() << " starting " << argv[0] << endl;
sout << "Command line arguments: " << endl;
for (int i = 1; i < argc; i++)
{
sout << argv[i] << SEP;
}
sout << endl << endl;
while (*env)
{
string s = *env;
#ifdef __GNUC__
// TODO
if( s.find("HOSTNAME=") < s.length())
{
sout << s << endl;
}
else if (s.find("USER=") < s.length())
{
sout << s << endl;
}
else if (s.find("OSTYPE=") < s.length())
{
sout << s << endl;
}
#else
if( s.find("COMPUTERNAME=") < s.length())
{
sout << s << endl;
}
else if (s.find("USERNAME=") < s.length())
{
sout << s << endl;
}
else if (s.find("OS=") < s.length())
{
sout << s << endl;
}
#endif
env++;
}
sout << endl;
sout << "Parameters:" << endl << params << endl;
}
void log_start(ostream& sout, int argc, const char** argv, const char** env, string params, bool print_to_screen)
{
log_start(sout, argc, argv, env, params);
if (print_to_screen)
{
log_start(cout, argc, argv, env, params);
}
}
void log_message(ostream& sout, string msg, bool print_to_screen)
{
sout << tools::get_time_stamp() << SEP << msg << endl;
//if (print_to_screen && sout != cout)
//{
// cout << tools::get_time_stamp(false) << SEP << msg << endl;
//}
}
void print_data_info_record_ascii_RED(ofstream& sout, var_t t, var_t dt, n_objects_t* n_bodies)
{
static uint32_t int_t_w = 8;
static uint32_t var_t_w = 25;
sout.precision(16);
sout.setf(ios::right);
sout.setf(ios::scientific);
sout << setw(var_t_w) << t << SEP
<< setw(var_t_w) << dt << SEP;
for (uint32_t type = 0; type < BODY_TYPE_N; type++)
{
sout << setw(int_t_w) << n_bodies->get_n_active_by((body_type_t)type) << SEP;
}
}
void print_data_info_record_binary_RED(ofstream& sout, var_t t, var_t dt, n_objects_t* n_bodies)
{
sout.write((char*)&(t), sizeof(var_t));
sout.write((char*)&(dt), sizeof(var_t));
for (uint32_t type = 0; type < BODY_TYPE_N; type++)
{
uint32_t n = n_bodies->get_n_active_by((body_type_t)type);
sout.write((char*)&n, sizeof(n));
}
}
void print_body_record_ascii_RED(ofstream &sout, string name, pp_disk_t::param_t *p, pp_disk_t::body_metadata_t *bmd, var4_t *r, var4_t *v)
{
static int int_t_w = 8;
static int var_t_w = 25;
sout.precision(16);
sout.setf(ios::right);
sout.setf(ios::scientific);
sout << setw( 30) << name << SEP
<< setw(int_t_w) << bmd->id << SEP
<< setw( 2) << bmd->body_type << SEP
<< setw( 2) << bmd->mig_type << SEP
<< setw(var_t_w) << bmd->mig_stop_at << SEP
<< setw(var_t_w) << p->mass << SEP
<< setw(var_t_w) << p->radius << SEP
<< setw(var_t_w) << p->density << SEP
<< setw(var_t_w) << p->cd << SEP
<< setw(var_t_w) << r->x << SEP
<< setw(var_t_w) << r->y << SEP
<< setw(var_t_w) << r->z << SEP
<< setw(var_t_w) << v->x << SEP
<< setw(var_t_w) << v->y << SEP
<< setw(var_t_w) << v->z << endl;
sout.flush();
}
void print_body_record_binary_RED(ofstream &sout, string name, pp_disk_t::param_t *p, pp_disk_t::body_metadata_t *bmd, var4_t *r, var4_t *v)
{
sout.write((char*)name.c_str(), 30*sizeof(char));
sout.write((char*)bmd, sizeof(pp_disk_t::body_metadata_t));
sout.write((char*)p, sizeof(pp_disk_t::param_t));
sout.write((char*)r, 3*sizeof(var_t));
sout.write((char*)v, 3*sizeof(var_t));
}
void print_body_record_HIPERION(ofstream &sout, string name, var_t epoch, pp_disk_t::param_t *p, pp_disk_t::body_metadata_t *body_md, var4_t *r, var4_t *v)
{
static int ids[4] = {0, 10, 20, 10000000};
static int int_t_w = 8;
static int var_t_w = 25;
sout.precision(16);
sout.setf(ios::right);
sout.setf(ios::scientific);
int id = 0;
// NOTE: this is not the beta parameter but derived from it
var_t _beta = 0.0;
switch (body_md->body_type)
{
case BODY_TYPE_STAR:
id = ids[0];
ids[0]++;
_beta = 0.0;
break;
case BODY_TYPE_GIANTPLANET:
id = ids[1];
ids[1]++;
_beta = 0.0;
break;
case BODY_TYPE_ROCKYPLANET:
id = ids[1];
ids[1]++;
_beta = 0.0;
break;
case BODY_TYPE_PROTOPLANET:
id = ids[2];
ids[2]++;
_beta = p->density;
break;
case BODY_TYPE_SUPERPLANETESIMAL:
break;
case BODY_TYPE_PLANETESIMAL:
id = ids[2];
ids[2]++;
_beta = p->density;
break;
case BODY_TYPE_TESTPARTICLE:
id = ids[3];
ids[3]++;
_beta = 1.0;
break;
default:
throw string("Parameter 'body_type' is out of range.");
}
var_t eps = 0.0;
sout << setw(int_t_w) << id << SEP
<< setw(var_t_w) << p->mass << SEP
<< setw(var_t_w) << r->x << SEP
<< setw(var_t_w) << r->y << SEP
<< setw(var_t_w) << r->z << SEP
<< setw(var_t_w) << v->x / constants::Gauss << SEP
<< setw(var_t_w) << v->y / constants::Gauss << SEP
<< setw(var_t_w) << v->z / constants::Gauss << SEP
<< setw(var_t_w) << eps << SEP
<< setw(var_t_w) << _beta << endl;
sout.flush();
}
void print_body_record_Emese(ofstream &sout, string name, var_t epoch, pp_disk_t::param_t *p, pp_disk_t::body_metadata_t *body_md, var4_t *r, var4_t *v)
{
const char* body_type_name[] =
{
"STAR",
"GIANTPLANET",
"ROCKYPLANET",
"PROTOPLANET",
"SUPERPLANETESIMAL",
"PLANETESIMAL",
"TESTPARTICLE",
};
static int int_t_w = 25;
static int var_t_w = 25;
sout.precision(16);
sout.setf(ios::left);
sout.setf(ios::scientific);
// NOTE: Emese start the ids from 0, red starts from 1.
sout << setw(int_t_w) << noshowpos << body_md->id - 1
<< setw( 25) << name
<< setw( 25) << noshowpos << body_type_name[body_md->body_type]
<< setw(var_t_w) << showpos << r->x
<< setw(var_t_w) << showpos << r->y
<< setw(var_t_w) << showpos << r->z
<< setw(var_t_w) << showpos << v->x
<< setw(var_t_w) << showpos << v->y
<< setw(var_t_w) << showpos << v->z
<< setw(var_t_w) << showpos << p->mass
<< setw(var_t_w) << showpos << p->radius << endl;
sout.flush();
}
namespace tbp
{
void print_solution_info(std::ofstream& sout, var_t t, var_t dt, data_rep_t repres)
{
switch (repres)
{
case DATA_REPRESENTATION_ASCII:
sout.precision(16);
sout.setf(ios::right);
sout.setf(ios::scientific);
sout << setw(VAR_T_W) << t << SEP /* time of the record [day] (double) */
<< setw(VAR_T_W) << dt << endl; /* next timestep [day] (double) */
sout.flush();
break;
case DATA_REPRESENTATION_BINARY:
sout.write((char*)&(t), sizeof(var_t)); /* time of the record [day] (double) */
sout.write((char*)&(dt), sizeof(var_t)); /* next timestep [day] (double) */
break;
default:
throw string("Parameter 'repres' is out of range.");
}
}
void print_solution_data(std::ofstream& sout, uint32_t n_obj, uint16_t n_ppo, uint16_t n_vpo, tbp_t::metadata_t* md, var_t* p, var_t* y, data_rep_t repres)
{
switch (repres)
{
case DATA_REPRESENTATION_ASCII:
sout.precision(16);
sout.setf(ios::right);
sout.setf(ios::scientific);
for (uint32_t i = 0; i < n_obj; i++)
{
sout << setw(INT_T_W) << md[i].id << SEP;
// Print the parameters for each object
for (uint16_t j = 0; j < n_ppo; j++)
{
uint32_t param_idx = i * n_ppo + j;
sout << setw(VAR_T_W) << p[param_idx] << SEP;
}
// Print the variables for each object
for (uint16_t j = 0; j < n_vpo; j++)
{
uint32_t var_idx = i * n_vpo + j;
sout << setw(VAR_T_W) << y[var_idx];
if (j < n_vpo - 1)
{
sout << SEP;
}
else
{
sout << endl;
}
}
}
sout.flush();
break;
case DATA_REPRESENTATION_BINARY:
throw string("The print_result_binary() is not implemented.");
break;
default:
throw string("Parameter 'repres' is out of range.");
}
}
} /* namespace tbp */
namespace rtbp
{
void print_solution_data(std::ofstream& sout, uint32_t n_obj, uint16_t n_ppo, uint16_t n_vpo, tbp_t::metadata_t* md, var_t* p, var_t* y, uint16_t n_dim, data_rep_t repres)
{
switch (repres)
{
case DATA_REPRESENTATION_ASCII:
sout.precision(16);
sout.setf(ios::right);
sout.setf(ios::scientific);
var_t x1, xd1; // 1D variables
var2_t x2, xd2; // 2D variables
switch (n_dim)
{
case 1:
tools::rtbp1D::transform_u2x(y[0], y[1], x1, xd1);
break;
case 2:
{
var2_t u = {y[0], y[1]};
var2_t up = {y[2], y[3]};
tools::rtbp2D::transform_u2x(u, x2);
tools::rtbp2D::transform_up2xd(u, up, xd2);
break;
}
case 3:
throw string("Parameter 'n_dim = 3' is not implemented.");
break;
default:
throw string("Parameter 'n_dim' is out of range.");
}
for (uint32_t i = 0; i < n_obj; i++)
{
sout << setw(INT_T_W) << md[i].id << SEP; // 1 id of the object
// Print the parameters for each object
for (uint16_t j = 0; j < n_ppo; j++) // 2 parameter of the problem
{
uint32_t param_idx = i * n_ppo + j;
sout << setw(VAR_T_W) << p[param_idx] << SEP;
}
// Print the variables for each object
for (uint16_t j = 0; j < n_vpo; j++) // 3, 4 u1, u2 coordinate of the object
{ // 5, 6 u1', u2' velocity of the object
uint32_t var_idx = i * n_vpo + j;
sout << setw(VAR_T_W) << y[var_idx] << SEP;
}
switch (n_dim)
{
case 1:
sout << setw(VAR_T_W) << y[2] << SEP // 5 t physical time
<< setw(VAR_T_W) << x1 << SEP // 6 x physical coordinate of the object
<< setw(VAR_T_W) << xd1 << endl; // 7 x physical velocity of the object
break;
case 2:
sout << setw(VAR_T_W) << y[4] << SEP // 7 t physical time
<< setw(VAR_T_W) << x2.x << SEP // 8 x physical coordinate of the object
<< setw(VAR_T_W) << x2.y << SEP // 9 y physical coordinate of the object
<< setw(VAR_T_W) << xd2.x << SEP //10 vx physical velocity of the object
<< setw(VAR_T_W) << xd2.y << endl; //11 vy physical velocity of the object
break;
case 3:
throw string("Parameter 'n_dim = 3' is not implemented.");
break;
default:
throw string("Parameter 'n_dim' is out of range.");
}
}
sout.flush();
break;
case DATA_REPRESENTATION_BINARY:
throw string("The print_result_binary() is not implemented.");
break;
default:
throw string("Parameter 'repres' is out of range.");
}
}
} /* namespace rtbp */
namespace nbp
{
void print_solution_info(ofstream& sout, var_t t, var_t dt, var_t dt_wc, uint32_t n_obj, data_rep_t repres)
{
switch (repres)
{
case DATA_REPRESENTATION_ASCII:
sout.precision(16);
sout.setf(ios::right);
sout.setf(ios::scientific);
sout << setw(VAR_T_W) << t << SEP /* time of the record [day] (double) */
<< setw(VAR_T_W) << dt << SEP /* next timestep [day] (double) */
<< setw(VAR_T_W) << dt_wc << SEP /* the ellapsed time since the begining of the integration [sec] (double) */
<< setw(INT_T_W) << n_obj << endl; /* number of bodies (uint32) */
sout.flush();
break;
case DATA_REPRESENTATION_BINARY:
sout.write((char*)&t, sizeof(var_t)); /* time of the record [day] (double) */
sout.write((char*)&dt, sizeof(var_t)); /* next timestep [day] (double) */
sout.write((char*)&dt_wc, sizeof(var_t)); /* the ellapsed time since the begining of the integration [sec] (double) */
sout.write((char*)&n_obj, sizeof(uint32_t)); /* number of bodies (uint32) */
break;
default:
throw string("Parameter 'repres' is out of range.");
}
}
void print_solution_data(std::ofstream& sout, uint32_t n_obj, uint16_t n_ppo, uint16_t n_vpo, nbp_t::metadata_t* md, nbp_t::param_t* p, var_t* y, data_rep_t repres)
{
switch (repres)
{
case DATA_REPRESENTATION_ASCII:
{
sout.setf(ios::right);
sout.setf(ios::scientific);
uint32_t offset = 3 * n_obj;
for (uint32_t i = 0; i < n_obj; i++)
{
sout << setw(INT_T_W) << md[i].id << SEP
<< setw(2) << (int)md[i].body_type << SEP
<< setw(2) << md[i].active << SEP
<< setw(2) << (int)md[i].mig_type << SEP
<< setprecision(6) << setw(FLT_T_W) << md[i].mig_stop_at << SEP
<< setw(2) << md[i].unused1 << SEP
<< setw(2) << md[i].unused2 << SEP
<< setw(2) << md[i].unused3 << SEP;
// Print the parameters for each object
sout << setprecision(16) << setw(VAR_T_W) << p[i].density << SEP
<< setw(VAR_T_W) << p[i].mass << SEP
<< setw(VAR_T_W) << p[i].radius << SEP;
// Print the variables for each object
uint32_t j = 3 * i;
sout << setw(VAR_T_W) << y[j ] << SEP /* x-coordinate */
<< setw(VAR_T_W) << y[j+1] << SEP /* y-coordinate */
<< setw(VAR_T_W) << y[j+2] << SEP /* z-coordinate */
<< setw(VAR_T_W) << y[offset + j ] << SEP /* vx-velocity */
<< setw(VAR_T_W) << y[offset + j+1] << SEP /* vy-velocity */
<< setw(VAR_T_W) << y[offset + j+2] << endl; /* vz-velocity */
}
}
sout.flush();
break;
case DATA_REPRESENTATION_BINARY:
sout.write((char*)md, n_obj * sizeof(nbp_t::metadata_t));
sout.write((char*)p, n_obj * sizeof(nbp_t::param_t));
sout.write((char*)y, 6 * n_obj * sizeof(var_t));
break;
default:
throw string("Parameter 'repres' is out of range.");
}
}
void print_oe_record(ofstream &sout, var_t epoch, const orbelem_t& oe, const nbp_t::param_t& p, const nbp_t::metadata_t& md)
{
static int var_t_w = 15;
static int int_t_w = 7;
sout.setf(ios::right);
sout.setf(ios::scientific);
sout << setw(VAR_T_W) << epoch << SEP
<< setw(int_t_w) << md.id << SEP
<< setw(2) << md.body_type << SEP
<< setw(VAR_T_W) << p.mass << SEP
<< setw(VAR_T_W) << p.radius << SEP
<< setw(VAR_T_W) << p.density << SEP
<< setw(VAR_T_W) << oe.sma << SEP
<< setw(VAR_T_W) << oe.ecc << SEP
<< setw(VAR_T_W) << oe.inc << SEP
<< setw(VAR_T_W) << oe.peri << SEP
<< setw(VAR_T_W) << oe.node << SEP
<< setw(VAR_T_W) << oe.mean << endl;
sout.flush();
}
} /* nbp */
} /* file */
} /* redutil2 */
|
48853458726f788cb41fd8bd10e6bea9645be4ff | e140c1c7087d6a4e130ebde2ce7962c40ee7fd0c | /codeforces/1365/D.cpp | f951332ccfd732e456c52168ccaf543b9b335298 | [] | no_license | diptayan2k/CP-Submissions | 543ccf94b4d43b6f040f975ccce834e883a5efc7 | dc32f1dd474cf250f71795f991132f3d52cc1771 | refs/heads/master | 2023-02-05T15:26:51.480986 | 2018-07-03T14:25:00 | 2020-12-21T10:20:15 | 323,290,119 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,267 | cpp | D.cpp | #include <iostream>
#include<bits/stdc++.h>
#define ll long long int
#define lld long double
#define F first
#define S second
#define f(i,a,b) for(int i=a;i<=b;i++)
#define g(i,a,b) for(int i=a;i>=b;i--)
#define mp make_pair
#define pb push_back
#define mh make_heap
#define ph push_heap
#define pq priority_queue
#define bits(x) __builtin_popcountll(x)
#define op(x) cout<<"Case #"<<x<<": "
#define op1(x) cout<<"Scenario #"<<x<<": "
using namespace std;
const ll mod = 1000000007;
const ll INF = 1e18;
const int N = 21;
void solve(int t)
{
ll n, m;
cin >> n >> m;
string s[n];
for (int i = 0; i < n; i++) cin >> s[i];
for (int i = 0; i < n; i++)
{
for (int j = 0; j < m; j++)
{
if (s[i][j] == 'B')
{
if (j < m - 1 and s[i][j + 1] == '.')
{
s[i][j + 1] = '#';
}
if (i < n - 1 and s[i + 1][j] == '.')
{
s[i + 1][j] = '#';
}
if (j > 0 and s[i][j - 1] == '.')
{
s[i][j - 1] = '#';
}
if (i > 0 and s[i - 1][j] == '.')
{
s[i - 1][j] = '#';
}
}
}
}
ll a[n][m];
memset(a, 0, sizeof(a));
queue<pair<ll, ll>> q;
if (s[n - 1][m - 1] != '#')
{
q.push({n - 1, m - 1});
a[n - 1][m - 1] = 1;
}
while (!q.empty())
{
pair<ll, ll> p = q.front();
q.pop();
ll x = p.F;
ll y = p.S;
if (x < n - 1 and a[x + 1][y] == 0 and s[x + 1][y] != '#')
{
a[x + 1][y] = 1;
q.push({x + 1, y});
}
if (y < m - 1 and a[x][y + 1] == 0 and s[x][y + 1] != '#')
{
a[x][y + 1] = 1;
q.push({x, y + 1});
}
if (x > 0 and a[x - 1][y] == 0 and s[x - 1][y] != '#')
{
a[x - 1][y] = 1;
q.push({x - 1, y});
}
if (y > 0 and a[x][y - 1] == 0 and s[x][y - 1] != '#')
{
a[x][y - 1] = 1;
q.push({x, y - 1});
}
}
for (int i = 0; i < n; i++)
{
for (int j = 0; j < m; j++)
{
if (s[i][j] == 'B' and a[i][j] == 1)
{
cout << "No" << endl;
return;
}
if (s[i][j] == 'G' and a[i][j] == 0)
{
cout << "No" << endl;
return;
}
}
}
cout << "Yes" << endl;
}
int main()
{
ios_base::sync_with_stdio(false);
cin.tie(NULL);
cout.tie(NULL);
#ifndef ONLINE_JUDGE
freopen("input.txt", "r", stdin);
freopen("output.txt", "w", stdout);
#endif
int t = 1;
cin >> t;
for (int i = 1; i <= t; i++)
{
solve(i);
}
} |
0174929166020e9f3564845f5bdcfc3d32e7de28 | bf7c1e5ff8c992e7cd3b45761a44e444f4300ab1 | /libMaze/mazesearcher.cpp | 944458e36c235f4c9e507aace258d93188b0642e | [
"MIT"
] | permissive | Peque/micromouse-maze | cd6f0df6c4605586f700b9b88dcf5ef7059bf6e7 | 68785533b325a8e6267f5b710307b73a730f2a5c | refs/heads/master | 2021-05-10T00:23:23.778422 | 2018-01-27T23:31:05 | 2018-01-27T23:31:05 | 118,834,336 | 0 | 0 | null | 2018-01-24T23:16:26 | 2018-01-24T23:16:25 | null | UTF-8 | C++ | false | false | 5,512 | cpp | mazesearcher.cpp | /************************************************************************
*
* Copyright (C) 2017 by Peter Harrison. www.micromouseonline.com
*
* 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 l> imitation 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 <cassert>
#include "maze.h"
#include "mazesearcher.h"
#include "mazeprinter.h"
MazeSearcher::MazeSearcher() :
mLocation(0),
mHeading(NORTH),
mMap(nullptr),
mRealMaze(nullptr),
mVerbose(false),
mSearchMethod(SEARCH_NORMAL) {
mMap = new Maze(16);
mMap->setFloodType(Maze::MANHATTAN_FLOOD);
}
MazeSearcher::~MazeSearcher() {
delete mMap;
}
bool MazeSearcher::isVerbose() const {
return mVerbose;
}
void MazeSearcher::setVerbose(bool mVerbose) {
MazeSearcher::mVerbose = mVerbose;
}
uint16_t MazeSearcher::location() const {
return mLocation;
}
void MazeSearcher::setLocation(uint16_t location) {
MazeSearcher::mLocation = location;
}
uint8_t MazeSearcher::heading() const {
return mHeading;
}
void MazeSearcher::setHeading(uint8_t heading) {
MazeSearcher::mHeading = heading;
}
void MazeSearcher::move() {
mLocation = mMap->neighbour(mLocation, mHeading);
}
void MazeSearcher::setMapFromFileData(const uint8_t *mazeWalls, uint16_t cellCount) {
mMap->copyMazeFromFileData(mazeWalls, cellCount);
}
Maze *MazeSearcher::map() {
return mMap;
}
const Maze *MazeSearcher::realMaze() const {
return mRealMaze;
}
void MazeSearcher::setRealMaze(const Maze *maze) {
mRealMaze = maze;
}
int MazeSearcher::runTo(uint16_t target) {
int steps = 0;
mMap->flood(target);
while (mLocation != target) {
uint8_t heading = mMap->direction(mLocation);
if (heading == INVALID_DIRECTION) {
steps = -1;
break;
}
setHeading(heading);
move();
steps++;
if (steps > 256) {
steps = -2;
break;
}
if (isVerbose()) {
MazePrinter::printVisitedDirs(mMap);
}
}
return steps;
}
// TODO: this needs looking at.
// the returned number of steps may be inconsistent
int MazeSearcher::searchTo(uint16_t target) {
int stepCount = 0;
while (mLocation != target) {
mMap->updateMap(mLocation, mRealMaze->walls(mLocation));
uint8_t newHeading;
switch (mSearchMethod) {
case SEARCH_LEFT_WALL:
newHeading = followLeftWall();
break;
case SEARCH_RIGHT_WALL:
newHeading = followRightWall();
break;
case SEARCH_ALTERNATE:
newHeading = followAlternateWall();
break;
case SEARCH_NORMAL:
mMap->flood(target);
newHeading = mMap->direction(mLocation);
break;
default:
newHeading = INVALID_DIRECTION;
break;
}
if (newHeading == INVALID_DIRECTION) {
stepCount = E_NO_ROUTE;
break;
}
setHeading(newHeading);
stepCount++;
if (stepCount > mMap->numCells()) {
stepCount = E_ROUTE_TOO_LONG;
break;
}
move();
if (isVerbose()) {
MazePrinter::printVisitedDirs(mMap);
}
}
return stepCount;
}
uint8_t MazeSearcher::followLeftWall() const {
uint8_t newHeading;
if (mMap->hasExit(mLocation, Maze::leftOf(mHeading))) {
newHeading = Maze::leftOf(mHeading);
} else if (mMap->hasExit(mLocation, Maze::ahead(mHeading))) {
newHeading = Maze::ahead(mHeading);
} else if (mMap->hasExit(mLocation, Maze::rightOf(mHeading))) {
newHeading = Maze::rightOf(mHeading);
} else {
newHeading = Maze::behind(mHeading);
}
return newHeading;
}
uint8_t MazeSearcher::followRightWall() const {
uint8_t newHeading;
if (mMap->hasExit(mLocation, Maze::rightOf(mHeading))) {
newHeading = Maze::rightOf(mHeading);
} else if (mMap->hasExit(mLocation, Maze::ahead(mHeading))) {
newHeading = Maze::ahead(mHeading);
} else if (mMap->hasExit(mLocation, Maze::leftOf(mHeading))) {
newHeading = Maze::leftOf(mHeading);
} else {
newHeading = Maze::behind(mHeading);
}
return newHeading;
}
uint8_t MazeSearcher::followAlternateWall() const {
static bool useLeft = true;
uint8_t newHeading;
newHeading = useLeft ? followLeftWall() : followRightWall();
useLeft = !useLeft;
return newHeading;
}
void MazeSearcher::setSearchMethod(int mSearchMethod) {
MazeSearcher::mSearchMethod = mSearchMethod;
}
void MazeSearcher::turnRight() {
mHeading = Maze::rightOf(mHeading);
}
void MazeSearcher::turnLeft() {
mHeading = Maze::leftOf(mHeading);
}
void MazeSearcher::turnAround() {
mHeading = Maze::behind(mHeading);
}
|
71df267b60226c9fc9af20c7168bb550c0f5c443 | a907f5cb4fdcbcacc9a8fbacbd15c74b71e46891 | /uix/uix/uixwindow.h | f7911a60bf83579269519012a32f5f402cf4acd5 | [] | no_license | selmentdev/uix-framework | 618a12d0b3b97615f8823d111d196710965e514e | 2233c306803d865fc7f003b6fee6d9ef0972f03f | refs/heads/master | 2021-01-12T09:51:07.185291 | 2016-12-12T17:33:04 | 2016-12-12T17:33:04 | 76,279,877 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 68,460 | h | uixwindow.h | /*
* This file is part of User Interface Framework
*
* User Interface Framework is free software: you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation, either version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#ifndef _UIX_WINDOW_H__
#define _UIX_WINDOW_H__
//----------------------------------------------------------------------------//
#include "uixobject.h"
#include "uixtypes.h"
#include "uixmessagemap.h"
//----------------------------------------------------------------------------//
namespace UIX
{
enum uixWindowRelativePos
{
uixWindowRelativePos_Parent,
uixWindowRelativePos_Desktop,
uixWindowRelativePos_Monitor,
uixWindowRelativePos_Default,
};
//! Scroll bar ID
enum uixScrollBarID
{
//! Horizontal scrollbar
uixScrollBarID_Horizontal = SB_HORZ,
//! Vertical scrollbar
uixScrollBarID_Vertical = SB_VERT,
//! Control scrollbar
uixScrollBarID_Control = SB_CTL,
//! Both vertical and horizontal scrollbars
uixScrollBarID_Both = SB_BOTH,
};
//! System command
enum uixSysCommand
{
//! Close
uixSysCommand_Close = SC_CLOSE,
//! Context help
uixSysCommand_ContextHelp = SC_CONTEXTHELP,
//! Default
uixSysCommand_Default = SC_DEFAULT,
//! Hot key
uixSysCommand_HotKey = SC_HOTKEY,
//! Horizontal scroll
uixSysCommand_HScroll = SC_HSCROLL,
//! Is secure
uixSysCommand_IsSecure = SCF_ISSECURE,
//! Key menu
uixSysCommand_KeyMenu = SC_KEYMENU,
//! Maximize
uixSysCommand_Maximize = SC_MAXIMIZE,
//! Minimize
uixSysCommand_Minimize = SC_MINIMIZE,
//! Monitor power
uixSysCommand_MonitorPower = SC_MONITORPOWER,
//! Mouse menu
uixSysCommand_MouseMenu = SC_MOUSEMENU,
//! Move
uixSysCommand_Move = SC_MOVE,
//! Next window
uixSysCommand_NextWindow = SC_NEXTWINDOW,
//! Previous window
uixSysCommand_PrevWindow = SC_PREVWINDOW,
//! Restore
uixSysCommand_Restore = SC_RESTORE,
//! Screen save
uixSysCommand_ScreenSave = SC_SCREENSAVE,
//! Size
uixSysCommand_Size = SC_SIZE,
//! Task list
uixSysCommand_TaskList = SC_TASKLIST,
//! Vertical scroll
uixSysCommand_VScroll = SC_VSCROLL,
};
//! Common Controls styles
enum uixControlStyle
{
//! Control is adjustable
uixControlStyle_Adjustable = CCS_ADJUSTABLE,
//! Control is aligned bottom
uixControlStyle_Bottom = CCS_BOTTOM,
//! Control is aligned left
uixControlStyle_Left = CCS_LEFT,
//! Control has not top 2 px margin
uixControlStyle_NoDivider = CCS_NODIVIDER,
//! Control don't move itself horizontally
uixControlStyle_NoMoveX = CCS_NOMOVEX,
//! Control don't move itself vertically
uixControlStyle_NoMoveY = CCS_NOMOVEY,
//! Control isn't aligned to parent window
uixControlStyle_NoParentAlign = CCS_NOPARENTALIGN,
//! Control don't resize
uixControlStyle_NoResize = CCS_NORESIZE,
//! Control is aligned to right
uixControlStyle_Right = CCS_RIGHT,
//! Control is aligned to top
uixControlStyle_Top = CCS_TOP,
//! Control is aligned vertically
uixControlStyle_Vertical = CCS_VERT,
};
//! Window styles
enum uixWindowStyle
{
//! Window is overlapped
uixWindowStyle_Overlapped = WS_OVERLAPPED,
//! Popup window
uixWindowStyle_Popup = WS_POPUP,
//! Child window
uixWindowStyle_Child = WS_CHILD,
//! Minimized
uixWindowStyle_Minimize = WS_MINIMIZE,
//! Visible
uixWindowStyle_Visible = WS_VISIBLE,
//! Disabled
uixWindowStyle_Disabled = WS_DISABLED,
//! Clip siblings
uixWindowStyle_ClipSiblings = WS_CLIPSIBLINGS,
//! Clip children
uixWindowStyle_ClipChildren = WS_CLIPCHILDREN,
//! Maximized
uixWindowStyle_Maximize = WS_MAXIMIZE,
//! Caption
uixWindowStyle_Caption = WS_CAPTION,
//! Border
uixWindowStyle_Border = WS_BORDER,
//! Dialog frame
uixWindowStyle_DialogFrame = WS_DLGFRAME,
//! Vertical scroll
uixWindowStyle_VScroll = WS_VSCROLL,
//! Horizontal scroll
uixWindowStyle_HScroll = WS_HSCROLL,
//! System menu
uixWindowStyle_SystemMenu = WS_SYSMENU,
//! Thick frame
uixWindowStyle_ThickFrame = WS_THICKFRAME,
//! Starts group
uixWindowStyle_Group = WS_GROUP,
//! Tab stop
uixWindowStyle_TabStop = WS_TABSTOP,
//! Minimize box
uixWindowStyle_MinimizeBox = WS_MINIMIZEBOX,
//! Maximize box
uixWindowStyle_MaximizeBox = WS_MAXIMIZEBOX,
//! Overlapped window
uixWindowStyle_OverlappedWindow = WS_OVERLAPPEDWINDOW,
//! Popup window
uixWindowStyle_PopupWindow = WS_POPUPWINDOW,
};
enum uixWindowStyleEx
{
//! Dialog modal frame
uixWindowStyleEx_DlgModalFrame = WS_EX_DLGMODALFRAME,
//! No parent notify
uixWindowStyleEx_NoParentNotify = WS_EX_NOPARENTNOTIFY,
//! Top most window
uixWindowStyleEx_TopMost = WS_EX_TOPMOST,
//! Accept files
uixWindowStyleEx_AcceptFiles = WS_EX_ACCEPTFILES,
//! Transparent window
uixWindowStyleEx_Transparent = WS_EX_TRANSPARENT,
//! Mdi child
uixWindowStyleEx_MdiChild = WS_EX_MDICHILD,
//! Tool window
uixWindowStyleEx_ToolWindow = WS_EX_TOOLWINDOW,
//! Window edge
uixWindowStyleEx_WindowEdge = WS_EX_WINDOWEDGE,
//! Client edge
uixWindowStyleEx_ClientEdge = WS_EX_CLIENTEDGE,
//! Context help
uixWindowStyleEx_ContextHelp = WS_EX_CONTEXTHELP,
//! Right
uixWindowStyleEx_Right = WS_EX_RIGHT,
//! Left
uixWindowStyleEx_Left = WS_EX_LEFT,
//! LTR reading
uixWindowStyleEx_LtrReading = WS_EX_LTRREADING,
//! RTL reading
uixWindowStyleEx_RtlReading = WS_EX_RTLREADING,
//! Left Scrollbar
uixWindowStyleEx_LeftScrollBar = WS_EX_LEFTSCROLLBAR,
//! Right scrollbar
uixWindowStyleEx_RightScrollBar = WS_EX_RIGHTSCROLLBAR,
//! Control parent
uixWindowStyleEx_ControlParent = WS_EX_CONTROLPARENT,
//! Static edge
uixWindowStyleEx_StaticEdge = WS_EX_STATICEDGE,
//! Application window
uixWindowStyleEx_AppWindow = WS_EX_APPWINDOW,
//! Overlapped window
uixWindowStyleEx_OverlappedWindow = WS_EX_OVERLAPPEDWINDOW,
//! Palette window
uixWindowStyleEx_PaletteWindow = WS_EX_PALETTEWINDOW,
//! Layered window
uixWindowStyleEx_Layered = WS_EX_LAYERED,
//! No inherit layout
uixWindowStyleEx_NoInheritLayout = WS_EX_NOINHERITLAYOUT,
//! Layout RTL
uixWindowStyleEx_LayoutRtl = WS_EX_LAYOUTRTL,
//! Composited
uixWindowStyleEx_Composited = WS_EX_COMPOSITED,
//! No activate
uixWindowStyleEx_NoActivate = WS_EX_NOACTIVATE,
};
enum enumUixLayeredWindowAttribute
{
uixLayeredWindowAttribute_ColorKey = LWA_COLORKEY,
uixLayeredWindowAttribute_Alpha = LWA_ALPHA,
};
typedef UINT uixLayeredWindowAttribute;
//! Window object
//! @brief
//! This class allows you to implement new controls and subclass existing
//! ones using set of implemented methods.
//! @note
//! This class all
class UIXAPI uixWindow : public uixObject
{
uixDECLARE_DYNAMIC_CLASS(uixWindow);
protected:
HWND m_Handle; //< Window handle
WNDPROC m_SuperWndProc; //< Window's super window procedure
public:
//! Constructor
uixWindow();
//! Destructor
virtual ~uixWindow();
public:
//! Constructor
//! @param[in] handle
//! Handle to set
//! @note
//! Note that this constructor <b>don't</b> attach window proc to
//! window handle. It's may be used only to perform operations,
//! not to subclassing
uixWindow(HWND handle);
#pragma region Window Create and Destroy
public:
//! Gets window attached to handle
//! @param[in] handle
//! Window handle
//! @return
//! Instance of window if attached, NULLPTR otherwise
static uixWindow* FromHandle(HWND handle);
//! Creates window
//! @param[in] parent
//! Parent window object
//! @param[in] text
//! Text
//! @param[in] position
//! Window position
//! @param[in] size
//! Window size
//! @param[in] id
//! Window ID
//! @param[in] style
//! Style flags
//! @param[in] exStyle
//! Extended style
//! @return
//! True when successful
virtual BOOL Create(
uixWindow* parent,
const uixChar* text,
const uixPoint& position,
const uixSize& size,
uixWindowID id = uixID_ANY,
DWORD style = 0,
DWORD exStyle = 0);
//! Creates window
//! @param[in] parent
//! Parent window object
//! @param[in] position
//! Window position
//! @param[in] size
//! Window size
//! @param[in] id
//! Window ID
//! @param[in] style
//! Style flags
//! @param[in] exStyle
//! Extended style
//! @return
//! True when successful
virtual BOOL Create(
uixWindow* parent,
const uixPoint& position,
const uixSize& size,
uixWindowID id = uixID_ANY,
DWORD style = 0,
DWORD exStyle = 0);
//! Creates window
//! @param[in] parent
//! Parent window object
//! @param[in] id
//! Window ID
//! @param[in] style
//! Style flags
//! @param[in] exStyle
//! Extended style
//! @return
//! True when successful
virtual BOOL Create(
uixWindow* parent,
uixWindowID id = uixID_ANY,
DWORD style = 0,
DWORD exStyle = 0);
//! Creates window
//! @param[in] text
//! Text
//! @param[in] position
//! Window position
//! @param[in] size
//! Window size
//! @param[in] menu
//! Window menu handle
//! @param[in] style
//! Style flags
//! @param[in] exStyle
//! Extended style
//! @return
//! True when successful
virtual BOOL Create(
const uixChar* text,
const uixPoint& position,
const uixSize& size,
HMENU menu = 0,
DWORD style = 0,
DWORD exStyle = 0);
//! Calls windows CreateWindowEx
//! @param[in] styleEx
//! Extended style
//! @param[in] className
//! Class name
//! @param[in] windowName
//! Window name
//! @param[in] style
//! Style
//! @param[in] left
//! Left position
//! @param[in] top
//! Top position
//! @param[in] width
//! Window width
//! @param[in] height
//! Window height
//! @param[in] parent
//! Parent window handle
//! @param[in] menu
//! Menu handle
//! @param[in] param
//! Param pointer, unused
//! @return
//! True when successful
virtual BOOL CreateEx(
DWORD styleEx,
const uixChar* className,
const uixChar* windowName,
DWORD style,
INT left,
INT top,
INT width,
INT height,
HWND parent,
HMENU menu,
void* param = NULLPTR);
//! Destroy window
//! @return
//! True when successful
virtual BOOL DestroyWindow();
//! Called before window create
//! @param[in] cs
//! Create Struct
//! @return
//! True when successful
virtual BOOL BeforeWindowCreate(CREATESTRUCT& cs);
//! Attach this instance of uixWindow to this handle
//! @param[in] handle
//! Handle to attach
//! @return
//! true when successful
BOOL Attach(HWND handle);
//! Detach handle from instance
//! @return
//! Handle of attached window
HWND Detach();
//! Subclass window handle using this object
//! @param[in] handle
//! Handle of window to subclass
//! @return
//! true when successful
BOOL Subclass(HWND handle);
//! Unsubclass window
//! @return
//! Handle of subclassed window
HWND Unsubclass();
//! Checks if window is created
//! @return
//! True when created
BOOL IsCreated() const;
#if defined UIX_DEBUG
//! @copydoc uixObject::ValidateObject
virtual void ValidateObject() const;
//! @copydoc uixObject::DumpObject
virtual void DumpObject(uixDumpContext& ctx) const;
#endif
#pragma endregion
#pragma region Window Tree
public:
//! Gets window handle
//! @note
//! This method will fail, if this == NULLPTR
//! @return
//! Window handle
HWND GetHandle() const;
//! Gets window handle
//! @note
//! This method returns NULLPTR when window isn't created or this == NULLPTR
HWND GetHandleSafe() const;
//! Sets parent window handle
//! @param[in] newParent
//! New parent window handle
//! @return
//! Previous parent window handle
HWND SetParent(HWND newParent);
//! Gets parent window handle
//! @return
//! Parent window handle
HWND GetParent() const;
//! Gets window ID
//! @return
//! Window ID
uixWindowID GetID() const;
//! Sets window ID
//! @param[in] id
//! New ID
//! @return
//! Previous ID
uixWindowID SetID(uixWindowID id);
//! Gets ancestor window
//! @param[in] flags
//! - GA_PARENT - gets parent window
//! - GA_ROOT - gets root
//! - GA_ROOTOWNER - gets root owner
//! @return
//! Handle to proper ancestor
HWND GetAncestor(UINT flags) const;
//! Gets active window handle
//! @return
//! Active window handle
static HWND GetActiveWindow();
//! Sets active window handle
//! @param[in] handle
//! Window handle to activate
//! @return
//! Handle to previous active window
static HWND SetActiveWindow(HWND handle);
//! Sets to active window
//! @return
//! Handle to previous active window
HWND SetActiveWindow();
//! Gets foreground window
//! @return
//! Handle to foreground window
static HWND GetForegroundWindow();
//! Sets foreground window
//! @param[in] handle
//! Window handle to be foreground window
//! @return
//! True when successful
static BOOL SetForegroundWindow(HWND handle);
//! Sets foreground window
//! @remarks
//! Makes this window foreground window
//! @return
//! True when sucessful
BOOL SetForegroundWindow();
//! Gets currently captured window
//! @return
//! Handle to captured window
static HWND GetCapture();
//! Sets currently captured window
//! @param[in] handle
//! Handle to window to capture
//! @return
//! Handle to previously captured window
static HWND SetCapture(HWND handle);
//! Sets currently captured window
//! @remarks
//! Makes this window captured
//! @return
//! Handle to previously captured window
HWND SetCapture();
//! Releases capture
//! @return
//!
static BOOL ReleaseCapture();
//! Gets focused window handle
//! @return
//! Handle to focused window
static HWND GetFocus();
//! Sets focused window
//! @param[in] handle
//! Handle to focused window
//! @return
//! Handle to previously focused window
static HWND SetFocus(HWND handle);
//! Sets focused window
//! @brief
//! Makes this window focused
//! @return
//! Handle to previously focused window
HWND SetFocus();
//! Gets desktop window
//! @return
//! Handle to desktop window
static HWND GetDesktopWindow();
//! Gets child window from point
//! @param[in] point
//! Child window hit test point
//! @return
//! Handle to child window
HWND ChildWindowFromPoint(POINT point) const;
//! Gets child window from point
//! @param[in] point
//! Child window hit test point
//! @param[in] flags
//! - CWP_ALL - retrieve all windows
//! - CWP_SKIPDISABLED - skips disabled windows
//! - CWP_SKIPINVISIBLE - skips invisible windows
//! - CWP_SKIPTRANSPARENT - skips transparent windows
//! @return
//! Handle to child window
HWND ChildWindowFromPoint(POINT point, UINT flags) const;
//! Finds window
//! @param[in] className
//! Window class name
//! @param[in] windowName
//! Window name
//! @return
//! Handle to window
static HWND FindWindow(const uixChar* className, const uixChar* windowName);
//! Finds window
//! @param[in] parent
//! Window root
//! @param[in] after
//! Handle to first search window
//! @param[in] className
//! Window class name
//! @param[in] windowName
//! Window name
//! @return
//! Handle to window
static HWND FindWindow(HWND parent, HWND after, const uixChar* className,
const uixChar* windowName);
//! Gets next window handle in windows tree
//! @return
//! Next window at tree level
HWND GetNext() const;
//! Gets previous window handle in windows tree
//! @return
//! Previous window at tree level
HWND GetPrev() const;
//! Gets first window handle in windows tree
//! @return
//! First window at tree level
HWND GetFirst() const;
//! Gets last window handle in windows tree
//! @return
//! Last window at tree level
HWND GetLast() const;
//! Gets window owner
//! @return
//! Handle to owner window
HWND GetOwner() const;
//! Gets window child
//! @return
//! Handle to first child window
//! @remarks
//! Use GetNext, GetPrev, GetFist, GetLast to traverse trough window tree
HWND GetChild() const;
//! Gets popup enabled window handle
//! @return
//! Handle to popup window
HWND GetEnabledPopup() const;
//! Gets top window
//! @return
//! Handle to top window
HWND GetTopWindow() const;
//! Gets window by command
//! @param[in] cmd
//! - GW_CHILD - child window
//! - GW_ENABELDPOPUP - enabled popup
//! - GW_HWNDFIRST - first window
//! - GW_HWNDLAST - last window
//! - GW_HWNDNEXT - next window
//! - GW_HWNDPREV - previous window
//! - GW_OWNER - owner window
//! @return
//! Window handle
HWND GetWindow(UINT cmd) const;
//! Gets last active popup window
//! @return
//! Handle to popup window
HWND GetLastActivePopup() const;
//! Checks if window is child of this window
//! @param[in] child
//! Child window
//! @return
//! True when successful
BOOL IsChild(HWND child) const;
//! Gets window from point
//! @param[in] point
//! Point
//! @return
//! Window handle at point
static HWND WindowFromPoint(POINT point);
//! Flash window
//! @param[in] invert
//! Invert flag
//! @return
//! True when successful
BOOL FlashWindow(BOOL invert);
//! Flash window
//! @param[in] flags
//! - FLASHW_ALL - caption & tray
//! - FLASHW_CAPTION - caption
//! - FLASHW_STOP - stop flashing
//! - FLASHW_TIMER - use timer
//! - FLASHW_TIMERNOFG - flash until window comes foreground
//! - FLASHW_TRAY - flash taskbar button
//! @param[in] count
//! Number of flashes
//! @param[in] timeout
//! Timeout in ms
//! @return
//! True when sucecssful
BOOL FlashWindow(DWORD flags, UINT count, DWORD timeout);
//! Gets control by ID
//! @param[in] id
//! Control ID
//! @return
//! Control handle
HWND GetChildByID(uixWindowID id)
{
uixASSERT(this != NULLPTR);
uixASSERT(::IsWindow(m_Handle));
return ::GetDlgItem(GetHandle(), (INT)id);
}
#pragma endregion
#pragma region Scrolling
//! Gets scroll position
//! @param[in] barID
//! Bar ID
//! @return
//! Scroll position
INT GetScrollPosition(uixScrollBarID barID) const;
//! Gets scroll range
//! @param[in] barID
//! Bar ID
//! @param[out] min
//! Min range
//! @param[out] max
//! Max range
//! @return
//! True when successful
BOOL GetScrollRange(uixScrollBarID barID, INT& min, INT& max) const;
//! Scrolls window
//! @param[in] dx
//! Delta X
//! @param[in] dy
//! Delta y
//! @param[in] rect
//! Rect
//! @param[in] clip
//! Clip rect
//! @return
//! True when successful
BOOL ScrollWindow(INT dx, INT dy, const RECT* rect = NULLPTR, const RECT* clip = NULLPTR);
//! Sets scroll position
//! @param[in] barID
//! Bar ID
//! @param[in] position
//! Position
//! @param[in] redraw
//! Redraw flag
//! @return
//! Previous position
INT SetScrollPosition(uixScrollBarID barID, INT position, BOOL redraw = TRUE);
//! Sets scroll range
//! @param[in] barID
//! Bar ID
//! @param[in] min
//! Min range
//! @param[in] max
//! Max range
//! @param[in] redraw
//! Redraw flag
//! @return
//! True when successful
BOOL SetScrollRange(uixScrollBarID barID, INT min, INT max, BOOL redraw = TRUE);
//! Shows scroll bar
//! @param[in] barID
//! Bar ID
//! @param[in] show
//! Show flag
//! @return
//! True when sucessful
BOOL ShowScrollBar(uixScrollBarID barID, BOOL show = TRUE);
//! Scrolls window
//! @param[in] dx
//! Delta X
//! @param[in] dy
//! Delta y
//! @param[in] scroll
//! Scroll rect
//! @param[in] clip
//! Clip rect
//! @param[in] updateRegion
//! Update region
//! @param[in] update
//! Update rect
//! @param[in] flags
//! Flags
//! @return
//! ??
//! @todo Describe flags and result value
INT ScrollWindow(INT dx, INT dy, const RECT* scroll, const RECT* clip, HRGN updateRegion,
RECT* update, UINT flags);
//! Sets scroll info
//! @param[in] barID
//! Bar ID
//! @param[in] info
//! Scroll info
//! @param[in] redraw
//! Redraw flag
//! @return
//! True when successful
BOOL SetScrollInfo(uixScrollBarID barID, const SCROLLINFO& info, BOOL redraw = TRUE);
//! Gets scroll info
//! @param[in] barID
//! Bar ID
//! @param[out] info
//! Scroll info
//! @return
//! True when successful
BOOL GetScrollInfo(uixScrollBarID barID, SCROLLINFO& info) const;
//! Gets scrollbar info
//! @param[in] objectID
//! ID of object
//! @param[out] info
//! Scroll bar info
//! @return
//! True when successful
BOOL GetScrollBarInfo(LONG objectID, SCROLLBARINFO& info) const;
#pragma endregion
#pragma region Dialog Box methods
/*
Note that not all dialog box methods are need in uixDialog class only! Some of them use
dialog resource, but not necessarily them must be dialog boxes
*/
#pragma endregion
#pragma region Style Manipulation
public:
//! Gets window style
//! @return
//! Style
DWORD GetStyle() const;
//! Gets window extended style
//! @return
//! Extended style
DWORD GetStyleEx() const;
//! Sets window style
//! @param[in] style
//! New style
//! @return
//! Previous style
DWORD SetStyle(DWORD style);
//! Sets window extended style
//! @param[in] style
//! New extended style
//! @return
//! Previous extended style
DWORD SetStyleEx(DWORD style);
//! Updates style
//! @param[in] remove
//! Styles to remove
//! @param[in] add
//! Styles to add
//! @param[in] flags
//! Update flags
//! @return
//! True when successful
BOOL UpdateStyle(DWORD remove, DWORD add, UINT flags = 0);
//! Updates extended style
//! @param[in] remove
//! Styles to remove
//! @param[in] add
//! Styles to add
//! @param[in] flags
//! Update flags
//! @return
//! True when successful
BOOL UpdateStyleEx(DWORD remove, DWORD add, UINT flags = 0);
//! Enables scroll bar
//! @param[in] flags
//! @todo describe flags
//! @param[in] arrows
//! @todo arrows flags
//! @return
//! True when successful
BOOL EnableScrollBar(UINT flags, UINT arrows = ESB_ENABLE_BOTH);
#pragma endregion
#pragma region Window State
public:
//! Checks if window is enabled
//! @return
//! True when enabled
BOOL IsWindowEnabled() const;
//! Enables window
//! @param[in] value
//! Enable flag
//! @return
//! True when successful
BOOL EnableWindow(BOOL value = TRUE);
//! Shows window
//! @param[in] command
//! Show command
//! @return
//! True when successful
BOOL Show(UINT command = SW_SHOWNORMAL);
//! Update window
//! @return
//! True when successful
BOOL Update();
//! Checks if window is visible
//! @return
//! True when visible
BOOL IsVisible() const;
//! Gets window info
//! @param[out] info
//! Window info
//! @return
//! True when successful
BOOL GetWindowInfo(WINDOWINFO& info) const;
//! Gets title bar info
//! @param[out] info
//! Title bar info
//! @return
//! True when successful
BOOL GetTitleBarInfo(TITLEBARINFO& info) const;
//! Gets window menu handle
//! @return
//! Menu handle
HMENU GetMenu() const;
//! @todo Document this
BOOL Close();
//! Sets window menu handle
//! @param[in] menu
//! Menu handle
//! @return
//! True when successful
BOOL SetMenu(HMENU menu);
//! Draws menu bar
void DrawMenuBar();
//! Gets system menu
//! @param[in] revert
//! Set true to revert original menu
//! @return
//! System menu handle
HMENU GetSystemMenu(BOOL revert = FALSE) const;
//! Checks if window is iconic
//! @return
//! True when window is iconic
BOOL IsIconic() const;
//! Checks if window is zoomed
//! @return
//! True when window is zoomed
BOOL IsZoomed() const;
//! Arrange iconic windows
//! @return
//! Flags
UINT ArrangeIconicWindows();
//! Bring window to top
BOOL BringToTop();
//! Locks window update
//! @return
//! True when successful
BOOL LockWindowUpdate();
//! Unlocks window update
//! @return
//! True when successful
BOOL UnlockWindowUpdate();
//! Sets timer
//! @param[in] eventID
//! Event ID
//! @param[in] interval
//! Interval, in milliseconds
//! @param[in] proc
//! Timer procedure
//! @return
//! Timer ID
UINT_PTR SetTimer(UINT_PTR eventID, UINT interval, TIMERPROC proc = NULLPTR);
//! Kills timer
//! @param[in] eventID
//! ID of timer to kill
//! @return
//! True when successful
BOOL KillTimer(UINT_PTR eventID);
//! Sets icon
//! @param[in] icon
//! Icon handle
//! @param[in] bigIcon
//! True to big icon, false to small
//! @return
//! Handle to previuos icon
HICON SetIcon(HICON icon, BOOL bigIcon);
//! Gets icon
//! @param[in] bigIcon
//! True to big icon, false to small
//! @return
//! Handle to previuos icon
HICON GetIcon(BOOL bigIcon) const;
//! Sets window context help ID
//! @param[in] helpID
//! Context help ID
//! @return
//! True when successful
//! @todo
//! New Type: uixContextHelpID
BOOL SetWindowContextHelpId(DWORD helpID);
//! Gets window context help ID
//! @return
//! Context help ID
DWORD GetWindowContextHelpId() const;
//! Updates window layout
virtual BOOL UpdateLayout()
{
return TRUE;
}
#pragma endregion
#pragma region Object Comparison
public:
//! Compare two objects
//! @param[in] window
//! Window to compare
//! @return
//! True when objects are equals
BOOL Equals(const uixWindow& window) const;
//! Equality operator
//! @param[in] window
//! Window
//! @return
//! True when equals
BOOL operator == (const uixWindow& window) const;
//! Inequality operator
//! @param[in] window
//! Window
//! @return
//! True when not equals
BOOL operator != (const uixWindow& window) const;
#pragma endregion
#pragma region Painting
//! Invalidate rectangle
//! @param[in] rect
//! Rect to invalidate
//! @param[in] erase
//! True to erase
//! @return
//! True when successful
BOOL InvalidateRect(const uixRect& rect, BOOL erase = FALSE);
//! Invalidate whole window
//! @param[in] erase
//! True to erase
//! @return
//! True when successful
BOOL Invalidate(BOOL erase = FALSE);
//! Invalidate region
//! @param[in] region
//! Region to invalidate
//! @param[in] erase
//! True to erase
//! @return
//! True when successful
BOOL InvalidateRgn(HRGN region, BOOL erase = TRUE);
//! Validate rect
//! @param[in] rect
//! Rect to validate
//! @return
//! True when sucessful
BOOL ValidateRect(const RECT& rect);
//! Validate region
//! @param[in] region
//! Region to validate
//! @return
//! True when successful
BOOL ValidateRgn(HRGN region);
//! Begins painting process
//! @param[out] ps
//! Paint data
//! @return
//! DC to window
HDC BeginPaint(PAINTSTRUCT& ps);
//! Ends painting process
//! @param[in] ps
//! Paint data
//! @return
//! True when successful
BOOL EndPaint(const PAINTSTRUCT& ps);
//! Gets client area Device Context
//! @return
//! Client area DC
HDC GetDC() const;
//! Gets window area Device Context
//! @return
//! Window area DC
HDC GetWindowDC() const;
//! Releases acquired DC
//! @param[in] dc
//! DC to release
//! @return
//! Operation result
INT ReleaseDC(HDC dc);
//! Sets redraw flag
//! @param[in] redraw
//! Redraw flag
void SetRedraw(BOOL redraw = TRUE);
//! Gets update rect
//! @param[out] rect
//! Rect with update area
//! @param[in] erase
//! True to erase
//! @return
//! True when successful
BOOL GetUpdateRect(RECT& rect, BOOL erase = TRUE) const;
//! Gets update region
//! @param[out] region
//! Region with udpate area
//! @param[in] erase
//! True to erase
//! @return
//! True when successful
INT GetUpdateRgn(HRGN region, BOOL erase = TRUE) const;
//! Redraws window
//! @param[in] update
//! Update rect
//! @param[in] region
//! Region
//! @param[in] flags
//! - RDW_INVALIDATE
//! - RDW_INTERNALPAINT
//! - RDW_ERASE
//! - RDW_VALIDATE
//! - RDW_NOINTERNALPAINT
//! - RDW_NOERASE
//! - RDW_NOCHILDREN
//! - RDW_ALLCHILDREN
//! - RDW_UPDATENOW
//! - RDW_ERASENOW
//! - RDW_FRAME
//! - RDW_NOFRAME
//! @return
//! True when sucessful
BOOL RedrawWindow(
const RECT* update = NULLPTR,
HRGN region = 0,
UINT flags = RDW_INVALIDATE | RDW_UPDATENOW | RDW_ERASE);
//! Draws animated rectangles
//! @param[in] animation
//! Type of animation, must be IDANI_CAPTION
//! @param[in] from
//! Starting rectangle
//! @param[in] to
//! Ending rectangle
//! @return
//! True when successful
BOOL DrawAnimatedRects(INT animation, const RECT& from, const RECT& to);
//! Draws caption
//! @param[in] dc
//! DC to draw
//! @param[in] rect
//! Rect area
//! @param[in] flags
//! Flags
//! @return
//! True when successful
BOOL DrawCaption(HDC dc, const RECT& rect, UINT flags);
//! Animates window
//! @param[in] time
//! Time of animation
//! @param[in] flags
//! @todo Flags
//! @return
//! True when sucessful
BOOL AnimateWindow(DWORD time, DWORD flags);
//! Prints window
//! @param[in] dc
//! Target DC
//! @param[in] flags
//! @todo Flags
//! @return
//! True when successful
BOOL PrintWindow(HDC dc, UINT flags);
//! @todo Document this
BOOL SetLayeredAttributes(uixColor colorkey, BYTE alpha, uixLayeredWindowAttribute flags);
#pragma endregion
#pragma region Message Manipulation
public:
//! Checks if message is dialog message
//! @param[in] m
//! Message
//! @return
//! True when successful
BOOL IsDialogMessage(MSG* m);
//! Sends message to window
//! @param[in] message
//! Message
//! @param[in] wParam
//! wparam
//! @param[in] lParam
//! lparam
//! @return
//! Message result value
LRESULT SendMessage(UINT message, WPARAM wParam, LPARAM lParam) const;
//! Posts message to message queue
//! @param[in] message
//! Message
//! @param[in] wParam
//! wparam
//! @param[in] lParam
//! lparam
//! @return
//! True when successful
BOOL PostMessage(UINT message, WPARAM wParam, LPARAM lParam) const;
#pragma endregion
#pragma region Window Text
public:
//! Sets window text
//! @param[in] text
//! Text
void SetText(const uixChar* text);
//! Sets window text
//! @param[in] text
//! Text
void SetText(const uixString& text);
//! Gets window text
//! @param[in] text
//! Text
//! @param[in] maxLength
//! Max length
//! @return
//! Length of text
INT GetText(uixChar* text, INT maxLength) const;
//! Gets window text
//! @param[in] text
//! Text
//! @param[in] maxLength
//! Max length
//! @return
//! Length of text
INT GetText(uixString& text, INT maxLength) const;
//! Gets window text
//! @param[in] text
//! Text
//! @return
//! Length of text
INT GetText(uixString& text) const;
//! Gets window text length
//! @return
//! Length of text
INT GetTextLength() const;
#pragma endregion
#pragma region Size and position management
public:
//! Gets window rect area
//! @param[out] rect
//! Window area
//! @return
//! True when successful
BOOL GetWindowRect(RECT& rect) const;
//! Gets client rect area
//! @param[out] rect
//! Client area
//! @return
//! True when successful
BOOL GetClientRect(RECT& rect) const;
//! @todo Document this
BOOL SetWindowRect(const RECT& rect);
//! @todo Document this
BOOL SetClientSize(const SIZE& size);
//! @todo Document this
BOOL SetClientSize(UINT width, UINT height);
//! Centers window
//! @return
//! True when successful
BOOL CenterWindow();
//! @todo document this
BOOL CenterWindow(uixWindowRelativePos relative);
//! Sets window position
//! @param[in] x
//! Left position
//! @param[in] y
//! Top positon
//! @param[in] width
//! Width
//! @param[in] height
//! Height
//! @param[in] flags
//! @todo flags
//! @return
//! True when successful
BOOL SetWindowPos(INT x, INT y, INT width, INT height, UINT flags = SWP_NOZORDER);
//! Sets window position
//! @param[in] position
//! Position
//! @param[in] size
//! Size
//! @param[in] flags
//! @todo flags
//! @return
//! True when successful
BOOL SetWindowPos(const uixPoint& position, const uixSize& size, UINT flags = SWP_NOZORDER);
//! Sets window position
//! @param[in] rect
//! Window rect
//! @param[in] flags
//! @todo flags
//! @return
//! True when successful
BOOL SetWindowPos(const uixRect& rect, UINT flags = SWP_NOZORDER);
//! Sets window position
//! @param[in] insertAfter
//! Handle to window
//! @param[in] x
//! Left position
//! @param[in] y
//! Top positon
//! @param[in] width
//! Width
//! @param[in] height
//! Height
//! @param[in] flags
//! @todo flags
//! @return
//! True when successful
BOOL SetWindowPosZ(HWND insertAfter, INT x, INT y, INT width, INT height,
UINT flags = SWP_NOZORDER);
//! Sets window position
//! @param[in] insertAfter
//! Handle to window
//! @param[in] position
//! Position
//! @param[in] size
//! Size
//! @param[in] flags
//! @todo flags
//! @return
//! True when successful
BOOL SetWindowPosZ(HWND insertAfter, const uixPoint& position, const uixSize& size,
UINT flags = SWP_NOZORDER);
//! Sets window position
//! @param[in] insertAfter
//! Handle to window
//! @param[in] rect
//! Window rect
//! @param[in] flags
//! @todo flags
//! @return
//! True when successful
BOOL SetWindowPosZ(HWND insertAfter, const uixRect& rect, UINT flags = SWP_NOZORDER);
//! Maps screen point to client
//! @param[in] point
//! Point
//! @return
//! True when successful
BOOL ScreenToClient(POINT& point) const;
//! Maps screen rect to client
//! @param[in] rect
//! Rect
//! @return
//! True when successful
BOOL ScreenToClient(RECT& rect) const;
//! Maps client point to screen
//! @param[in] point
//! Point
//! @return
//! True when successful
BOOL ClientToScreen(POINT& point) const;
//! Maps client rect to screen
//! @param[in] rect
//! Rect
//! @return
//! True when successful
BOOL ClientToScreen(RECT& rect) const;
//! Maps points to another window
//! @param[in] target
//! Target window handle
//! @param[in] points
//! Array of points
//! @param[in] count
//! Number of elements in points array
//! @return
//! Number of converted points
INT MapPoints(HWND target, POINT points[], UINT count) const;
//! Maps points to another window
//! @param[in] target
//! Target window handle
//! @param[in] points
//! Array of points
//! @param[in] count
//! Number of elements in points array
//! @return
//! Number of converted points
INT MapPoints(HWND target, uixPoint points[], UINT count) const;
//! Maps rects to another window
//! @param[in] target
//! Target window handle
//! @param[in] rects
//! Array of rects
//! @param[in] count
//! Number of elements in rects array
//! @return
//! Number of converted rects
INT MapPoints(HWND target, RECT rects[], UINT count) const;
//! Maps rects to another window
//! @param[in] target
//! Target window handle
//! @param[in] rects
//! Array of rects
//! @param[in] count
//! Number of elements in rects array
//! @return
//! Number of converted rects
INT MapPoints(HWND target, uixRect rects[], UINT count) const;
//! Moves window
//! @param[in] left
//! Left position
//! @param[in] top
//! Top position
//! @param[in] width
//! Width
//! @param[in] height
//! Height
//! @param[in] repaint
//! True to repaint window
//! @return
//! True when successful
BOOL MoveWindow(INT left, INT top, INT width, INT height, BOOL repaint = TRUE);
//! Moves window
//! @param[in] position
//! Position
//! @param[in] size
//! Window size
//! @param[in] repaint
//! True to repaint window
//! @return
//! True when successful
BOOL MoveWindow(const POINT& position, const SIZE& size, BOOL repaint = TRUE);
//! Moves window
//! @param[in] rect
//! Rect of window
//! @param[in] repaint
//! True to repaint window
//! @return
//! True when successful
BOOL MoveWindow(const RECT& rect, BOOL repaint = TRUE);
//! Gets window placement
//! @param[out] params
//! Window placement
//! @return
//! True when succecssful
BOOL GetWindowPlacement(WINDOWPLACEMENT& params) const;
//! Sets window placement
//! @param[in] params
//! Window placement
//! @return
//! True when successful
BOOL SetWindowPlacement(const WINDOWPLACEMENT& params);
//! Sets window region
//! @param[in] region
//! New window region
//! @param[in] redraw
//! True to redraw
//! @return
//! @todo check
INT SetWindowRgn(HRGN region, BOOL redraw = TRUE);
//! Gets window region
//! @param[out] region
//! Window region
//! @return
//! @todo check
INT GetWindowRgn(HRGN region) const;
#pragma endregion
#pragma region Message Handling
public:
//! Called before message queue translate message
//! @param[in] m
//! Message
//! @return
//! True to eat message
virtual BOOL BeforeTranslateMessage(MSG* m);
//! Window procedure
//! @param[in] message
//! Message
//! @param[in] wParam
//! wparam
//! @param[in] lParam
//! lparam
//! @return
//! Message result
virtual LRESULT WindowProc(UINT message, WPARAM wParam, LPARAM lParam);
//! Default window procedure handler
//! @param[in] message
//! Message
//! @param[in] wParam
//! wparam
//! @param[in] lParam
//! lparam
//! @return
//! Message result
virtual LRESULT DefaultWindowProc(UINT message, WPARAM wParam, LPARAM lParam);
//! Window message handler
//! @param[in] message
//! Message
//! @param[in] wParam
//! wparam
//! @param[in] lParam
//! lparam
//! @param[out] result
//! Result value
//! @return
//! True when message was processed
virtual BOOL OnWindowMessage(UINT message, WPARAM wParam, LPARAM lParam, LRESULT* result);
//! @todo DOcument this
BOOL ReflectMessage(UINT message, WPARAM wParam, LPARAM lParam, LRESULT* result);
//! Calls default procecure
//! @remarks
//! This method must be called when you want to manually process
//! message
//! @return
//! Default window procedure result
LRESULT CallDefaultProc();
public:
//! Static window callback
//! @remarks
//! This method is used to subclassing and calling proper window message handler procedure
//! @param[in] handle
//! Window handle
//! @param[in] message
//! Message
//! @param[in] wParam
//! wparam
//! @param[in] lParam
//! lparam
//! @return
//! Processed message result value
static LRESULT CALLBACK UixWindowProc(HWND handle, UINT message, WPARAM wParam, LPARAM lParam);
//!@bug remove //static LRESULT CALLBACK UixCallWindowProc(uixWindow* window, HWND handle, UINT message, WPARAM wParam, LPARAM lParam);
#pragma endregion
#pragma region Event Handler methods
public:
//! @note
//! Handles:
//! - WM_ACTIVATE
//!
//! Use uixEVT_ACTIVATE
void OnActivate(uixActivateEventArgs& e);
//! @note
//! Handles:
//! - WM_ACTIVATEAPP
//!
//! Use uixEVT_ACTIVATEAPP
void OnActivateApp(uixActivateAppEventArgs& e);
//! @note
//! Handles:
//! - WM_APPCOMMAND
//!
//! Use uixEVT_APPCOMMAND
void OnAppCommand(uixAppCommandEventArgs& e);
//! @note
//! Handles:
//! - WM_ASKCBFORMATNAME
//!
//! Use uixEVT_ASKCLIPBOARDFORMATNAME
void OnAskClipboardFormatName(uixClipboardFormatNameEventArgs& e);
//! @note
//! Handles:
//! - WM_CANCELJOURNAL
//!
//! Use uixEVT_CANCELJOURNAL
void OnCancelJournal(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_CANCELMODE
//!
//! Use uixEVT_CANCELMODE
void OnCancelMode(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_CAPTURECHANGED
//!
//! Use uixEVT_CAPTURECHANGED
void OnCaptureChanged(uixCaptureChangedEventArgs& e);
//! @note
//! Handles:
//! - WM_CHANGECBCHAIN
//!
//! Use uixEVT_CHANGECLIPBOARDCHAIN
void OnChangeClipboardChain(uixChangeClipboardChainEventArgs& e);
//! @note
//! Handles:
//! - WM_CHANGEUISTATE
//!
//! Use uixEVT_CHANGEUISTATE
void OnChangeUIState(uixChangeUiStateEventArgs& e);
//! @note
//! Handles:
//! - WM_CHAR
//!
//! Use uixEVT_CHAR
void OnChar(uixKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_CHARTOITEM
//!
//! Use uixEVT_CHARTOITEM
//! @remarks
//! This event returns value, see @see uixCharToItemEventArgs
void OnCharToItem(uixCharToItemEventArgs& e);
//! @note
//! Handles:
//! - WM_CHILDACTIVATE
//!
//! Use uixEVT_CHILDACTIVATE
void OnChildActivate(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_CLEAR
//!
//! Use uixEVT_CLEAR
void OnClear(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_CLIPBOARDUPDATE
//!
//! Use uixEVT_CLIPBOARDUPDATE
void OnClipboardUpdate(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_CLOSE
//!
//! Use uixEVT_CLOSE
void OnClose(uixCloseEventArgs& e);
//! @note
//! Handles:
//! - WM_COMPACTING
//!
//! Use uixEVT_COMPACTING
void OnCompacting(uixCompactingEventArgs& e);
//! @note
//! Handles:
//! - WM_COMPAREITEM
//!
//! Use uixEVT_COMPAREITEM
//! @remarks
//! This event returns value, see @see uixCompareItemEventArgs
void OnCompareItem(uixCompareItemEventArgs& e);
//! @note
//! Handles:
//! - WM_CONTEXTMENU
//!
//! Use uixEVT_CONTEXTMENU
void OnContextMenu(uixContextMenuEventArgs& e);
//! @note
//! Handles:
//! - WM_COPY
//!
//! Use uixEVT_COPY
void OnCopy(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_COPYDATA
//!
//! Use uixEVT_COPYDATA
//! @remarks
//! Returns true when processed
void OnCopyData(uixCopyDataEventArgs& e);
//! @note
//! Handles:
//! - WM_CREATE
//!
//! Use uixEVT_CREATE
//! @remarks
//! Returns 0 when success, -1 otherwise
void OnCreate(uixCreateEventArgs& e);
//! @note
//! Handles:
//! - WM_CTLCOLORMSGBOX
//! - WM_CTLCOLOREDIT
//! - WM_CTLCOLORLISTBOX
//! - WM_CTLCOLORBTN
//! - WM_CTLCOLORDLG
//! - WM_CTLCOLORSCROLLBAR
//! - WM_CTLCOLORSTATIC
//!
//! Use uixEVT_CTRLCOLOR
//! @note
//! Handles:
//! - WM_CUT
//!
//! Use uixEVT_CUT
void OnCut(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_DEADCHAR
//!
//! Use uixEVT_DEADCHAR
void OnDeadChar(uixKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_DELETEITEM
//!
//! Use uixEVT_DELETEITEM
//! @remarks
//! Returns true when processed
void OnDeleteItem(uixDeleteItemEventArgs& e);
//! @note
//! Handles:
//! - WM_DESTROY
//!
//! Use uixEVT_DESTROY
void OnDestroy(uixDestroyEventArgs& e);
//! @note
//! Handles:
//! - WM_DESTROYCLIPBOARD
//!
//! Use uixEVT_DESTROYCLIPBOARD
void OnDestroyClipboard(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_DEVICECHANGE
//!
//! Use uixEVT_DEVICECHANGE
void OnDeviceChange(uixDeviceChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_DEVMODECHANGE
//!
//! Use uixEVT_DEVMODECHANGE
void OnDevModeChange(uixDevModeChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_DISPLAYCHANGE
//!
//! Use uixEVT_DISPLAYCHANGE
void OnDisplayChange(uixDisplayChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_DRAWCLIPBOARD
//!
//! Use uixEVT_DRAWCLIPBOARD
void OnDrawClipboard(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_DRAWITEM
//!
//! Use uixEVT_DRAWITEM
//! @remarks
//! Returns true when processed
void OnDrawItem(uixDrawItemEventArgs& e);
//! @note
//! Handles:
//! - WM_DROPFILES
//!
//! Use uixEVT_DROPFILES
void OnDropFiles(uixDropFilesEventArgs& e);
//! @note
//! Handles:
//! - WM_DWMCOLORIZATIONCOLORCHANGED
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_DWMCOMPOSITIONCHANGED
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_DWMNCRENDERINGCHANGED
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_DWMSENDICONICLIVEPREVIEVBITMAP
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_DWMSENDICONICTHUMBNAIL
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_DWMWINDOWMAXIMIZECHANGE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_ENABLE
//!
//! Use uixEVT_ENABLE
void OnEnable(uixEnableEventArgs& e);
//! @note
//! Handles:
//! - WM_ENDSESSION
//!
//! Use uixEVT_ENDSESSION
void OnEndSession(uixEndSessionEventArgs& e);
//! @note
//! Handles:
//! - WM_ENTERIDLE
//!
//! Use uixEVT_ENTERIDLE
void OnEnterIdle(uixEnterIdleEventArgs& e);
//! @note
//! Handles:
//! - WM_ENTERMENULOOP
//!
//! Use uixEVT_ENTERMENULOOP
void OnEnterMenuLoop(uixMenuLoopEventArgs& e);
//! @note
//! Handles:
//! - WM_ENTERSIZEMOVE
//!
//! Use uixEVT_ENTERSIZEMOVE
void OnEnterSizeMove(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_ERASEBACKGROUND
//!
//! Use uixEVT_ERASEBACKGROUND
//! @remarks
//! Returns true when processed
void OnEraseBackground(uixEraseBackgroundEventArgs& e);
//! @note
//! Handles:
//! - WM_
//!
//! Use uixEVT_EXITMENULOOP
void OnExitMenuLoop(uixMenuLoopEventArgs& e);
//! @note
//! Handles:
//! - WM_EXITSIZEMOVE
//!
//! Use uixEVT_EXITSIZEMOVE
void OnExitSizeMove(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_FONTCHANGE
//!
//! Use uixEVT_FONTCHANGE
void OnFontChange(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_GESTURE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_GESTURENOTIFY
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_GETDLGCODE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_GETOBJECT
//! @todo in newer releases
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_HELP
//!
//! Use uixEVT_HELP
//! @remarks
//! Returns true when processed
void OnHelp(uixHelpEventArgs& e);
//! @note
//! Handles:
//! - WM_HOTKEY
//!
//! Use uixEVT_HOTKEY
void OnHotKey(uixHotKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_HSCROLL
//!
//! Use uixEVT_HSCROLL
void OnHScroll(uixScrollEventArgs& e);
//! @note
//! Handles:
//! - WM_HSCROLLCLIPBOARD
//!
//! Use uixEVT_HSCROLLCLIPBOARD
void OnHScrollClipboard(uixScrollClipboardEventArgs& e);
//! @note
//! Handles:
//! - WM_INITDIALOG
//!
//! Use uixEVT_INITDIALOG
void OnInitDialog(uixInitDialogEventArgs& e);
//! @note
//! Handles:
//! - WM_INITMENU
//!
//! Use uixEVT_INITMENU
void OnInitMenu(uixInitMenuEventArgs& e);
//! @note
//! Handles:
//! - WM_INITMENUPOPUP
//!
//! Use uixEVT_
void OnInitMenuPopup(uixInitMenuPopupEventArgs& e);
//! @note
//! Handles:
//! - WM_INPUT
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_INPUTDEVICECHANGE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_INPUTLANGCHANGE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_INPUTANCHANGEREQUEST
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_KEYDOWN
//!
//! Use uixEVT_KEYDOWN
void OnKeyDown(uixKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_KEYUP
//!
//! Use uixEVT_KEYUP
void OnKeyUp(uixKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_KILLFOCUS
//!
//! Use uixEVT_KILLFOCUS
void OnKillFocus(uixFocusChangeEventArgs& e);
////////////////////
// MDI MESSAGES - uixMdiChild, uixMdiFrame
////////////////////
//! @note
//! Handles:
//! - WM_MEASUREITEM
//!
//! Use uixEVT_MEASUREITEM
void OnMeasureItem(uixMeasureItemEventArgs& e);
//! @note
//! Handles:
//! - WM_MENUCHAR
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_MENUCOMMAND
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_MENUDRAG
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_MENUGETOBJECT
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_MENURBUTTONUP
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_MENUSELECT
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_
//!
//! Use uixEVT_MOUSEACTIVATE
//! @remarks
//! Returns activation cue flag
void OnMouseActivate(uixMouseActivateEventArgs& e);
//! @note
//! Handles:
//! - WM_LBUTTONDBLCLK
//! - WM_MBUTTONDBLCLK
//! - WM_RBUTTONDBLCLK
//! - WM_XBUTTONDBLCLK
//!
//! Use uixEVT_LMOUSEDOUBLECLICK, uixEVT_MMOUSEDOUBLECLICK,
//! uixEVT_RMOUSEDOUBLECLICK or uixEVT_XMOUSEDOUBLECLICK
void OnMouseDoubleClick(uixMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_LBUTTONDOWN
//! - WM_MBUTTONDOWN
//! - WM_RBUTTONDOWN
//! - WM_XBUTTONDOWN
//!
//! Use uixEVT_LMOUSEDOWN, uixEVT_MMOUSEDOWN, uixEVT_RMOUSEDOWN or
//! uixEVT_XMOUSEDOWN
void OnMouseDown(uixMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_LBUTTONUP
//! - WM_MBUTTONUP
//! - WM_RBUTTONUP
//! - WM_XBUTTONUP
//!
//! Use uixEVT_LMOUSEUP, uixEVT_MMOUSEUP, uixEVT_RMOUSEUP or
//! uixEVT_XMOUSEUP
void OnMouseUp(uixMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_MOUSEHOVER
//!
//! Use uixEVT_MOUSEHOVER
void OnMouseHover(uixMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_MOUSEMOVE
//!
//! Use uixEVT_MOUSEHMOVE
void OnMouseMove(uixMouseEventArgs& e);
//! @todo Document this
void OnMouseLeave(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_MOUSEWHEEL
//!
//! Use uixEVT_MOUSEWHEEL
void OnMouseWheel(uixMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_MOUSEHWHEEL
//!
//! Use uixEVT_MOUSEHWHEEL
void OnMouseHWheel(uixMouseEventArgs& e);
//! @note
//! Handles:
//! - uixEVT_MOVE
//!
//! Use uixEVT_MOVE
void OnMove(uixMoveEventArgs& e);
//! @note
//! Handles:
//! - WM_MOVING
//!
//! Use uixEVT_MOVING
//! @remarks
//! Returns true when processed
void OnMoving(uixBorderChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_NCACTIVATE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_NCCALCSIZE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_NCCREATE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_NCDESTROY
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_NCHITTEST
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_NCPAINT
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_MOUSELEAVE
//!
//! Use uixEVT_MOUSELEAVE
void OnNcMouseLeave(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_NCMOUSEHOVER
//!
//! Use uixEVT_NCMOUSEHOVER
void OnNcMouseHover(uixNcMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_NCMOUSEMOVE
//!
//! Use uixEVT_NCMOUSEMOVE
void OnNcMouseMove(uixNcMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_NCLBUTTONDBLCLK
//! - WM_NCMBUTTONDBLCLK
//! - WM_NCRBUTTONDBLCLK
//! - WM_NCXBUTTONDBLCLK
//!
//! Use uixEVT_LNCMOUSEDOUBLECLICK, uixEVT_MNCMOUSEDOUBLECLICK, uixEVT_RNCMOUSEDOUBLECLICK or
//! uixEVT_XNCMOUSEDOUBLECLICK
void OnNcMouseDoubleClick(uixNcMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_NCLBUTTONDOWN
//! - WM_NCMBUTTONDOWN
//! - WM_NCRBUTTONDOWN
//! - WM_NCXBUTTONDOWN
//!
//! Use uixEVT_LNCMOUSEDOWN, uixEVT_MNCMOUSEDOWN, uixEVT_RNCMOUSEDOWN or
//! uixEVT_XNCMOUSEDOWN
void OnNcMouseDown(uixNcMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_NCLBUTTONUP
//! - WM_NCMBUTTONUP
//! - WM_NCRBUTTONUP
//! - WM_NCXBUTTONUP
//!
//! Use uixEVT_LNCMOUSEUP, uixEVT_MNCMOUSEUP, uixEVT_RNCMOUSEUP or
//! uixEVT_XNCMOUSEUP
void OnNcMouseUp(uixNcMouseEventArgs& e);
//! @note
//! Handles:
//! - WM_NEXTDLGCTRL
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_NEXTMENU
//!
//! Use uixEVT_
//void OnNotify(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_NOTIFYFORMAT
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_PAINT
//!
//! Use uixEVT_PAINT
void OnPaint(uixPaintEventArgs& e);
//! @note
//! Handles:
//! - WM_PAINTCLIPBOARD
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_PAINTICON
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_PALETTECHANGED
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_PALETTEISCHANGING
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_PARENTNOTIFY
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_PASTE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_POWER
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_POWERBROADCAST
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_PRINT
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_PRINTCLIENT
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_QUERYDRAGICON
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_QUERYENDSESSION
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_QUERYNEWPALETTE
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_QUERYOPEN
//!
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_QUERYUISTATE
//!
//! Use uixEVT_QUERYUISTATE
void OnQueryUiState(uixQueryUiStateEventArgs& e);
//! @note
//! Handles:
//! - WM_QUEUESYNC
//!
//! Use uixEVT_
void OnQueueSync(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_QUIT
//!
//! Use uixEVT_QUIT
void OnQuit(uixQuitEventArgs& e);
//! @note
//! Handles:
//! - WM_RENDERALLFORMATS
//!
//! Use uixEVT_RENDERALLFORMATS
void OnRenderAllFormats(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_RENDERFORMAT
//!
//! Use uixEVT_RENDERFORMAT
void OnRenderFormat(uixRenderFormatEventArgs& e);
//! @note
//! Handles:
//! - WM_SETFOCUS
//!
//! Use uixEVT_SETFOCUS
void OnSetFocus(uixFocusChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_SETTINGCHANGE
//!
//! Use uixEVT_SETTINGCHANGE
void OnSettingChange(uixSettingChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_SHOWWINDOW
//!
//! Use uixEVT_SHOWWINDOW
void OnShowWindow(uixShowWindowEventArgs& e);
//! @note
//! Handles:
//! - WM_SIZE
//!
//! Use uixEVT_SIZE
void OnSize(uixSizeEventArgs& e);
//! @note
//! Handles:
//! - WM_SIZECLIPBOARD
//!
//! Use uixEVT_SIZECLIPBOARD
void OnSizeClipboard(uixSizeClipboardEventArgs& e);
//! @note
//! Handles:
//! - WM_GETMINMAXINFO
//!
//! Use uixEVT_SIZINGCONSTRAINTS
void OnSizeConstraints(uixSizeConstraintsEventArgs& e);
//! @note
//! Handles:
//! - WM_SIZING
//!
//! Use uixEVT_SIZING
//! @remarks
//! Returns true when processed
void OnSizing(uixBorderChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_SPOOLERSTATUS
//!
//! Use uixEVT_SPOOLERSTATUS
void OnSpoolerStatus(uixSpoolerStatusEventArgs& e);
//! @note
//! Handles:
//! - WM_STYLECHANGED
//!
//! Use uixEVT_STYLECHANGED
void OnStyleChanged(uixStyleChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_STYLECHANGING
//!
//! Use uixEVT_STYLECHANGING
void OnStyleChanging(uixStyleChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_SYNCPAINT
//!
//! Use uixEVT_
void OnSyncPaint(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_SYSCHAR
//!
//! Use uixEVT_
void OnSysChar(uixKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_SYSCOLORCHANGE
//!
//! Use uixEVT_SYSCOLORCHANGE
void OnSysColorChange(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_SYSDEADCHAR
//!
//! Use uixEVT_SYSDEADCHAR
void OnSysDeadChar(uixKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_SYSKEYDOWN
//!
//! Use uixEVT_SYSKEYDOWN
void OnSysKeyDown(uixKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_SYSKEYUP
//!
//! Use uixEVT_SYSKEYUP
void OnSysKeyUp(uixKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_TCARD
//! @todo Implement in newer versions
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_THEMECHANGED
//!
//! Use uixEVT_THEMECHANGED
void OnThemeChanged(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_TIMECHANGE
//!
//! Use uixEVT_TIMECHANGE
void OnTimeChange(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_TIMER
//!
//! Use uixEVT_TIMER
void OnTimer(uixTimerEventArgs& e);
//! @note
//! Handles:
//! - WM_TOUCH
//! @todo Implement in newer versions
//! Use uixEVT_
//! @note
//! Handles:
//! - WM_UNDO
//!
//! Use uixEVT_UNDO
void OnUndo(uixUndoEventArgs& e);
//! @note
//! Handles:
//! - WM_UNICHAR
//!
//! Use uixEVT_UNICHAR
void OnUniChar(uixKeyEventArgs& e);
//! @note
//! Handles:
//! - WM_UNINITPOPUPMENU
//!
//! Use uixEVT_UNINITPOPUPMENU
void OnUnInitMenuPopup(uixUnInitMenuPopupEventArgs& e);
//! @note
//! Handles:
//! - WM_UPDATEUISTATE
//!
//! Use uixEVT_UPDATEUISTATE
void OnUpdateUIState(uixUpdateUiState& e);
//! @note
//! Handles:
//! - WM_USERCHANGED
//!
//! Use uixEVT_USERCHANGED
void OnUserChanged(uixEventArgs& e);
//! @note
//! Handles:
//! - WM_VKEYTOITEM
//!
//! Use uixEVT_VKEYTOITEM
void OnVKeyToItem(uixVKeyToItem& e);
//! @note
//! Handles:
//! - WM_VSCROLL
//!
//! Use uixEVT_VSCROLL
void OnVScroll(uixScrollEventArgs& e);
//! @note
//! Handles:
//! - WM_VSCROLLCLIPBOARD
//!
//! Use uixEVT_VSCROLLCLIPBOARD
void OnVScrollClipboard(uixScrollClipboardEventArgs& e);
//! @note
//! Handles:
//! - WM_WINDOWPOSCHANGED
//!
//! Use uixEVT_WINDOWPOSCHANGED
void OnWindowPosChanged(uixWindowPosChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_WINDOWPOSCHANGING
//!
//! Use uixEVT_WINDOWPOSCHANGING
void OnWindowPosChanging(uixWindowPosChangeEventArgs& e);
//! @note
//! Handles:
//! - WM_WTSESSIONCHANGE
//!
//! Use uixEVT_
void OnWtsSessionChange(uixWtsSessionChangeEventArgs& e);
#pragma endregion
};
//! Window creation hook
//! @brief
//! This class is used to hook window creation process. By hooking
//! CreateWindow call, we can subclass newly created window and attach
//! object's pointer to handle.
class UIXAPI uixCreateWindowHook
{
public:
//! Callback filter method
//! @param[in] code
//! Hook code
//! @param[in] wParam
//! Message wParam
//! @param[in] lParam
//! Message lParam
//! @return
//! Result value
static LRESULT CALLBACK Filter(INT code, WPARAM wParam, LPARAM lParam);
//! Begins hook process
//! @remarks
//! By calling this method, we set new hook and pointer to attach
//! to this handle. This method assume that pointer passed by window
//! is meant to be attached to handle
//! @param[in] window
//! Pointer to window
static void Begin(uixWindow* window);
//! Ends hook process
//! @return
//! True when successful, false otherwise
static BOOL End();
};
}
//----------------------------------------------------------------------------//
#include "uixwindow.inl"
//----------------------------------------------------------------------------//
#endif /* _UIX_WINDOW_H__ */ |
4823d48631285cd18ed3e9b1d213a8ca8ba31cb8 | 35bf89c3af8d0616d79e4acfb15ffefaa6dfafd8 | /eau2/src/dataframe/columns/column.cpp | fa176f6454ec0e1f043a86ceb453a912b908bb20 | [] | no_license | alexey-petrusevich/Milestone_1 | 708849bdd234e752f790c4e8fda173f9db882626 | b8fa8d38b3285910ced95137b8887b392c19fc4a | refs/heads/master | 2022-04-22T22:13:38.002600 | 2020-04-24T02:31:54 | 2020-04-24T02:31:54 | 246,398,665 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,695 | cpp | column.cpp | #include "../../../include/eau2/dataframe/columns/column.h"
#include <cassert>
#include "../../../include/eau2/dataframe/visitors/visitor.h"
Column::Column(ColType colType) : Object() {
this->colType = colType;
this->numElements = 0;
}
void Column::push_back(int val) { assert(false); }
void Column::push_back(double val) { assert(false); }
void Column::push_back(bool val) { assert(false); }
void Column::push_back(String* val) { assert(false); }
void Column::push_back(char* val) { assert(false); }
void Column::push_nullptr() { assert(false); }
size_t Column::size() { return this->numElements; }
void Column::set_int(size_t index, int value) { assert(false); }
void Column::set_double(size_t index, double value) { assert(false); }
void Column::set_bool(size_t index, bool value) { assert(false); }
void Column::set_string(size_t index, String* value) { assert(false); }
int Column::get_int(size_t index) { assert(false); }
double Column::get_double(size_t index) { assert(false); }
bool Column::get_bool(size_t index) { assert(false); }
String* Column::get_string(size_t index) { assert(false); }
bool Column::can_add(char* c) {
if (c == nullptr || *c == '\0') {
return true;
}
return infer_type(c) <= get_type();
}
char Column::get_type_char() { return static_cast<char>(this->colType); }
ColType Column::get_type() { return this->colType; }
char* Column::get_char(size_t i) { return nullptr; }
IntColumn* Column::as_int() {
assert(false);
}
DoubleColumn* Column::as_double() {
assert(false);
}
BoolColumn* Column::as_bool() {
assert(false);
}
StringColumn* Column::as_string() {
assert(false);
}
Column::~Column() {}
|
79a752df282c2ed44909017ccacf55538e7cce40 | fb11fed7773fd03bcce7cf2c140641c572d252b4 | /include/Fox.h | 4e347dc532483d051fbc2baa6e61e2d0f8d5fa35 | [] | no_license | bensuperpc/Minecraft_clone | 49b03b41439905c1fe3c614042420ef9f9aef454 | 7040187a175b9bf4923aa093fcf8b6a9fb93106e | refs/heads/master | 2023-06-17T19:47:21.721810 | 2021-07-12T12:31:31 | 2021-07-12T12:31:31 | null | 0 | 0 | null | null | null | null | ISO-8859-1 | C++ | false | false | 1,052 | h | Fox.h | #ifndef FOX_H
#define FOX_H
#include "Mob.h"
// Classe définissant un renard
class Fox : public Mob
{
private:
Part muzzle; // Museau
Part ear_1; // Oreille gauche
Part ear_2; // Oreille droite
Part head; // Tête
Part tail; // Queue
Part leg; // Jambe
Part tailbase; // Base de la queue
Part shoulder_1; // Epaule gauche
Part shoulder_2; // Epaule droite
Part hips_1; // Hanche gauche
Part hips_2; // Hanche droite
glm::mat4 shoulder_1_initial; // Matrice initiale de l'épaule gauche
glm::mat4 shoulder_2_initial; // Matrice initiale de l'épaule droite
glm::mat4 hips_1_initial; // Matrice initiale de la hanche gauche
glm::mat4 hips_2_initial; // Matrice initiale de la hanche droite
glm::mat4 head_initial; // Matrice initiale de la tête
glm::mat4 tail_initial; // Matrice initiale de la queue
public:
Fox();
Fox(const Fox& other);
Fox(const glm::vec3& position);
Fox& operator=(const Fox& other);
void animate(float time);
};
#endif |
6c6620294a8818ff4913a1aba6023b7738b1bb3d | 0ea8c406024935f249105e8a53e909a09b553c77 | /zend/state.h | 36223f5f06d288d14a05c2a41713515c7ce84808 | [
"Apache-2.0"
] | permissive | NobletSolutions/PHP-CPP | 23e732dbc78a0dadaf4ce937b275e3bcdaab61cf | 0cbd0a66242c0a8bb1e59496ad1f2b26490e8dac | refs/heads/master | 2023-01-11T15:41:38.557460 | 2022-07-08T06:47:04 | 2022-07-08T06:47:04 | 146,005,532 | 5 | 11 | Apache-2.0 | 2022-10-08T13:25:24 | 2018-08-24T15:00:21 | C++ | UTF-8 | C++ | false | false | 2,810 | h | state.h | /**
* State.h
*
* Class that is used to store the state of current callstack and
* whether an exception is now active. We use this before we make
* a call to PHP userspace to see if the state has changed afterwards,
* which means that an exception has bubbled up that should be handled
* first.
*
* @author Emiel Bruijntjes <emiel.bruijntjes@copernica.com>
* @copyright 2019 Copernica BV
*/
/**
* Begin of namespace
*/
namespace Php {
/**
* Class definition
*/
class State
{
private:
/**
* The current exception that was active when state was registered
* @var zend_object
*/
zend_object *_exception;
/**
* Helper method to check if a zend-class is an instance of a certain class
* @param entry the class entry to check
* @param required the required class entry
* @return bool
*/
static bool instanceof(const zend_class_entry *entry, const zend_class_entry *required)
{
// check the class name
if (entry == required) return true;
// is there a base class?
if (entry->parent == nullptr) return false;
// check the parent
return instanceof(entry->parent, required);
}
/**
* Helper method to check if a zend-object is an instance of a certain class
* @param object the object to check
* @param required required class entry
* @return bool
*/
static bool instanceof(const zend_object *object, zend_class_entry *required)
{
return instanceof(object->ce, required);
}
public:
/**
* Constructor
*/
State() : _exception(EG(exception)) {}
/**
* Destructor
*/
virtual ~State() = default;
/**
* Rethrow the exception so that it ends up in the extension
*
* When this method returns, it means that no exception occured,
* and the call to PHP space was a success. Otherwise it throws
* an exception. Note that this is not exactly in line with our
* coding convention that says that methods are not supposed to
* throw exceptions.
*
* @throw Throwable
*/
void rethrow()
{
// is an exception now active
zend_object *current = EG(exception);
// if no exception is active
if (current == nullptr) return;
// or if the exception did not change
if (current == _exception) return;
// an exception occured, this can be a PHP error or a PHP exception
if (instanceof(current, zend_ce_error)) throw RethrowableError(current);
// otherwise we wrap the exception
throw RethrowableException(current);
}
};
/**
* End of namespace
*/
}
|
007036780ee6cf66ac76a62a47fb22966df9bf06 | 81b93a8bc16023e31171ce68da0751b3a428696f | /src/perception/perception_camera/src/utils/calculate_velocity.cpp | 38b2d4c72ae9e66cb5fb39a29ed70dd68f2190b7 | [] | no_license | github188/agv | 3373b9b86203b0b2b98019abfc1058112eb394e2 | 3577ea7f0b561eb791241327a4c05e325d76808c | refs/heads/master | 2022-04-03T20:29:43.938463 | 2019-12-19T10:22:05 | 2019-12-19T10:22:05 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,079 | cpp | calculate_velocity.cpp | #include "utils/calculate_velocity.h"
pair<float, float> sensor_camera::calculateMeanVxVy(vector<float>& sx_list, vector<float>& sy_list, vector<float>& detal_t_list)
{
float total_t = accumulate(detal_t_list.begin(), detal_t_list.end(), 0.0);
float mean_vx = float(accumulate(sx_list.begin(), sx_list.end(), 0.0)) / total_t;
float mean_vy = float(accumulate(sy_list.begin(), sy_list.end(), 0.0)) / total_t;
#ifdef DEBUG_FUSIONOBJECT
cout << "mean_vx: " << mean_vx << " mean_vy: " << mean_vy << endl;
#endif
return pair<float, float>(mean_vx, mean_vy);
}
float sensor_camera::calculateVariance(vector<float>& resultSet)
{
float variance = 0.0;
if(resultSet.size() >= 2)
{
float sum = accumulate(begin(resultSet), end(resultSet), 0);
float mean = sum / resultSet.size(); //均值
float accum = 0.0;
for_each(begin(resultSet), end(resultSet), [&](const float d) {
accum += (d - mean) * (d - mean);
});
variance = accum/(resultSet.size()-1);
}
return variance;
}
|
0fd693cf86570f06a32a75f5c2ee900945400c05 | 067c63d1f35b30eec86c1d52babe9733c3a82ba9 | /src/a-lockers.cpp | 899d72e15f8090f04bd79c79932446fa882a09ae | [
"CC0-1.0"
] | permissive | ma-ka-ko/examples | 484a8d8af2d6ee7eb7dc51478de9a1ddeffd001f | 798ff4bc44de1a6b8901455e6fcec21884fa7e9c | refs/heads/master | 2021-01-10T07:46:41.620479 | 2016-04-06T23:20:27 | 2016-04-06T23:20:27 | 52,386,917 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,467 | cpp | a-lockers.cpp | /*
* a-lockers.cpp
*
* Created on: Feb 24, 2016
* Author: oagomez
*/
#include <map>
#include <set>
#include <list>
#include <cmath>
#include <ctime>
#include <deque>
#include <queue>
#include <stack>
#include <string>
#include <bitset>
#include <cstdio>
#include <limits>
#include <vector>
#include <climits>
#include <cstring>
#include <cstdlib>
#include <fstream>
#include <numeric>
#include <sstream>
#include <iostream>
#include <algorithm>
using namespace std;
#define INF 10
void display(int cityLength, int cityWidth, const vector<vector<int> >& v)
{
for (int i = 0; i < cityLength; i++)
{
for (int j = 0; j < cityWidth; j++)
{
cout << v[i][j] << " ";
}
cout << endl;
}
}
vector < vector < int > > getLockerDistanceGrid(int cityLength, int cityWidth, vector < int > lockerXCoordinates, vector < int > lockerYCoordinates)
{
cout << cityLength << " x " << cityWidth << endl;
vector<int>::iterator itx = lockerXCoordinates.begin();
vector<int>::iterator ity = lockerYCoordinates.begin();
while (itx != lockerXCoordinates.end() && ity != lockerYCoordinates.end())
{
cout << *itx << "," << *ity << endl;
itx++; ity++;
}
vector < vector < int > > v(cityLength,vector<int>(cityWidth));
for(int i=0; i< cityLength; i++)
for (int j=0;j<cityWidth; j++)
{
v[i][j] = INF;
}
itx = lockerXCoordinates.begin();
ity = lockerYCoordinates.begin();
while (itx != lockerXCoordinates.end() && ity != lockerYCoordinates.end())
{
v[*itx-1][*ity-1] = 0;
itx++;
ity++;
}
display(cityLength, cityWidth, v);
bool changed = true;
while(changed)
{
changed = false;
cout << " ------------------------ " <<endl;
for(int i=0; i< cityLength; i++)
{
for (int j=0;j<cityWidth; j++)
if (v[i][j] != 0)
{
int left = INF;
int right= INF;
int up = INF;
int down = INF;
if (i>0) left = v[i-1][j];
if (i<cityLength-1) right= v[i+1][j];
if (j>0) up = v[i][j-1];
if (j<cityWidth-1) down = v[i][j+1];
int mymin =min(min(left,right),min(up,down));
if (v[i][j] != mymin +1) changed = true;
v[i][j] = mymin +1;
}
}
display(cityLength, cityWidth, v);
}
return v;
}
int main ()
{
int cityLength = 3;
int cityWidth = 5;
vector < int > lockerXCoordinates = {2};
vector < int > lockerYCoordinates = {3};
vector < vector < int > > v = getLockerDistanceGrid(cityLength,cityWidth,lockerXCoordinates,lockerYCoordinates);
}
|
903f3c97bd5937b498417a508a1fc3ab407acc25 | 0b04ec2590e6f69c5b720448464a6e25fc66541a | /src/bmp.imageio/bmp_pvt.h | 317420a07e2c7ca50832ecfbba93615f001ec9f4 | [
"Apache-2.0",
"CC-BY-4.0",
"BSD-3-Clause"
] | permissive | mikaelsundell/oiio | b0a4529dfb716508fb2ece60c86e28a97b0e2a65 | 56c734a6752d2a03af3455c50967e1f7a3835d92 | refs/heads/master | 2023-08-31T01:57:31.865436 | 2023-08-23T20:33:02 | 2023-08-23T20:33:02 | 469,147,159 | 1 | 0 | BSD-3-Clause | 2022-03-12T17:06:05 | 2022-03-12T17:06:04 | null | UTF-8 | C++ | false | false | 3,659 | h | bmp_pvt.h | // Copyright Contributors to the OpenImageIO project.
// SPDX-License-Identifier: Apache-2.0
// https://github.com/OpenImageIO/oiio
#pragma once
OIIO_PLUGIN_NAMESPACE_BEGIN
// Docs reminders:
// https://en.wikipedia.org/wiki/BMP_file_format
// https://web.archive.org/web/20150127132443/https://forums.adobe.com/message/3272950
namespace bmp_pvt {
// size of the BMP file header (the first header that occur in BMP file)
const int BMP_HEADER_SIZE = 14;
// sizes of various DIB headers
const int OS2_V1 = 12;
const int WINDOWS_V3 = 40;
const int UNDOCHEADER52 = 52; // 0x34
const int UNDOCHEADER56 = 56; // 0x38
const int WINDOWS_V4 = 108;
const int WINDOWS_V5 = 124;
// bmp magic numbers
const int16_t MAGIC_BM = 0x4D42;
const int16_t MAGIC_BA = 0x4142;
const int16_t MAGIC_CI = 0x4943;
const int16_t MAGIC_CP = 0x5043;
const int16_t MAGIC_PT = 0x5450;
const int32_t NO_COMPRESSION = 0; // BI_RGB
const int32_t RLE8_COMPRESSION = 1; // BI_RLE8
const int32_t RLE4_COMPRESSION = 2; // BI_RLE4
enum class CSType {
CalibratedRGB = 0,
DeviceDependentRGB = 1,
DeviceDependentCMYK = 2
};
// store information about BMP file
class BmpFileHeader {
public:
// reads information about BMP file
bool read_header(Filesystem::IOProxy* fd);
// writes information about bmp file to given file
bool write_header(Filesystem::IOProxy* fd);
// return true if given file is BMP file
bool isBmp() const;
int16_t magic; // used to identify BMP file
int32_t fsize; // size of the BMP file
int16_t res1; // reserved
int16_t res2; // reserved
int32_t offset; // offset of image data (pixels)
private:
void swap_endian(void);
};
// stores information about bitmap
class DibInformationHeader {
public:
// reads information about bitmap
bool read_header(Filesystem::IOProxy* fd);
// writes information about bitmap
bool write_header(Filesystem::IOProxy* fd);
int32_t size; // size of the header
int32_t width; // bitmap width in pixels
int32_t height; // bitmap height in pixels
int16_t cplanes; // number of color planes - always 1
int16_t bpp; // number of bits per pixel, image color depth
// Added after Version 1 of the format
int32_t compression = 0; // compression used in file
int32_t isize = 0; // size of the raw image data
int32_t hres = 0; // horizontal resolution in pixels per meter
int32_t vres = 0; // vertical resolutions in pixels per meter
int32_t cpalete = 0; // number of entries in the color palette
int32_t important = 0; // number of important color used,
// 0 - all colors are important,
// in most cases ignored
// added in Version 4 of the format
int32_t red_mask = 0;
int32_t blue_mask = 0;
int32_t green_mask = 0;
int32_t alpha_mask = 0;
int32_t cs_type = 0; // color space type
int32_t red_x = 0;
int32_t red_y = 0;
int32_t red_z = 0;
int32_t green_x = 0;
int32_t green_y = 0;
int32_t green_z = 0;
int32_t blue_x = 0;
int32_t blue_y = 0;
int32_t blue_z = 0;
int32_t gamma_x = 0;
int32_t gamma_y = 0;
int32_t gamma_z = 0;
// added in Version 5 of the format
int32_t intent;
int32_t profile_data;
int32_t profile_size;
int32_t reserved;
private:
void swap_endian(void);
};
struct color_table {
uint8_t b;
uint8_t g;
uint8_t r;
uint8_t unused;
};
} //namespace bmp_pvt
OIIO_PLUGIN_NAMESPACE_END
|
53bf10e1a337b89c9d7954455d5623066bb61717 | b713663a5a6d6a98e6844aa070f0a926eddf6bd9 | /Zombies/City.h | d61fe741831f888887d6c6e6803df0ad7d6d67c8 | [
"MIT"
] | permissive | Ryan-Amaral/NSCC-PROG2100-HumansVsZombies | 974f7f616a360eba45addd79f53e4e1da00194a2 | 22ce48dcf5cad38c7c6feff9d4705454bedb92d8 | refs/heads/master | 2021-01-20T06:27:51.382143 | 2017-04-30T22:29:03 | 2017-04-30T22:29:03 | 89,881,145 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 694 | h | City.h | #ifndef _CITY_H
#define _CITY_H
#include <iostream>
using namespace std;
class Organism;
const int GRID_WIDTH = 20;
const int GRID_HEIGHT = 20;
class City
{
private:
void initializeGrid();
protected:
Organism*** grid; // the 2d organism array
int gridWidth;
int gridHeight;
public:
City(); // create city with grid of default size
City(int width, int height); // create city with grid of custom size
virtual ~City();
Organism* getOrganism(int x, int y);
void setOrganism(Organism *organism, int x, int y);
int getWidth();
int getHeight();
void move();
void swapZombieForHuman(Organism* newHuman);
friend ostream& operator<<(ostream &output, City &city);
};
#endif
|
1a733beb87f55be5c961957d07102f9845561c18 | 3a77f7a35636f433bd96d8abe338e581136a8dfa | /headers/NamePicker.h | dbd2a9f3b60dee3d7bd0a17769cc981e4f4e1bfb | [] | no_license | IvoTod/tetrisPi | e4390950b9443d23f622c3cc7055b3497b2b531d | aba84a243e93ace41651170af1de774fb7db2ea4 | refs/heads/master | 2020-03-11T06:45:57.817826 | 2018-04-17T03:10:01 | 2018-04-17T03:10:01 | 129,839,068 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 543 | h | NamePicker.h | #ifndef __NAME_PICKER_H__
#define __NAME_PICKER_H__
#include <GameObject.h>
#include <Input.h>
#include <string>
class TFT_ST7735;
class NamePicker : public GameObject {
public:
NamePicker(int score);
virtual void update(int ms);
virtual void draw(TFT_ST7735& tft);
private:
void saveScore();
void scrollLetterUp();
void scrollLetterDown();
void nextLetter();
void previousLetter();
std::string getCurrentName();
int scoreToSave;
Input* input;
int letters[3];
int selectedLetter;
bool canDraw = true;
};
#endif
|
b801d5c5f41534680576ad4243497044de749d29 | f6a2f7ebba83ed4e2b3a11b9e4583de3188434b2 | /main.cpp | 723cea921cb5c01180659af4fe943976382217d2 | [] | no_license | hdu-520/imbang | ae61b65c58359cfb21da9d856a20614331f633a8 | 27b16c092b2f37cd9c8eedf37f61e68ee11f5570 | refs/heads/master | 2021-01-20T02:46:44.742023 | 2017-05-03T08:27:55 | 2017-05-03T08:27:55 | 89,451,621 | 3 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,586 | cpp | main.cpp | #include <iostream>
#include "imbang.h"
using namespace cv;
int main() {
// imbang 示例数据集增强流程
imbang bang;
//可选步骤 可以将没用的没标的图片根据xml剔除掉 不执行也没关系
string src = "/home/lunaticf/dataset";
string dst = "/home/lunaticf/datasetxml";
bang.ClearNotUsedImgByXML(src,dst);
// src 图像目录
// dst 生成的图像要保存的目录
src = "/home/lunaticf/dataset";
dst = "/home/lunaticf/newDataset/lapa4.0"; // 表示经过lapalace参数4.0的变换
// 91为生成的图片前缀 3.5为算子参数
bang.enhancePicByLapa(src, dst , 3.5, "91");
// 将xml复制一份
// 此时已生成图片 我们需要处理xml 先将原xml复制一份到下面的src
src = "/home/lunaticf/newdataset/lapa4.0xml";
bang.batchAlterXMLName(src,"91");
// 修改xml的filename节点
bang.batchAlterXMLNode(src,"91");
// 此时lapa4.0变换已经完成,可以更改路径和函数进行其他变换
// 最后所有操作完成后 可以将newDataSet下所有文件夹下的xml和图像合并到新路径
src = "/home/lunaticf/newDataset";
dst = "/home/lunaticf/finalNewDataset";
bang.mergeFolders(src,dst);
// 手动将xml和图片分离开 终端mv path/*.xml path即可
// 可以根据这些xml生成测试集验证集训练集的txt
// 假设xml路径为下
src = "/home/lunaticf/newDatasetxml";
// 设置训练验证集数量5000,训练集4000
bang.generateImageSets(src,5000, 4000);
// over.
return 0;
}
|
04333c8ba88fdd4227ebd1fa10c4b51f2f1c5046 | 685bc2b2ddad4c70c813e16a4bc65c8e24283cba | /vcard/vcard.h | 8c14de9fd24b58773485be990fa9ee4153bc25cd | [] | no_license | psi-im/neatstuff | 4cb88d3aaa0c1e47dafd6154bbe0a743dcf8ae38 | 9713c0ddaad207db8277fd63b4770dcca6f864b3 | refs/heads/master | 2021-01-10T19:09:38.140298 | 2006-02-21T05:15:40 | 2006-02-21T05:15:40 | 2,824,493 | 0 | 2 | null | null | null | null | UTF-8 | C++ | false | false | 5,351 | h | vcard.h | /****************************************************************************
** vcard.h - class for handling vCards
** Copyright (C) 2003 Michail Pishchagin
**
** 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307,USA.
**
****************************************************************************/
#ifndef VCARD_H
#define VCARD_H
#include <qstring.h>
#include <qstringlist.h>
#include <qcstring.h>
#include <qvaluelist.h>
class QDomDocument;
class QDomElement;
class QDate;
class VCard
{
public:
VCard();
~VCard();
QDomElement toXml(QDomDocument *) const;
bool fromXml(const QDomElement &);
bool isEmpty() const;
VCard &operator=(const VCard &);
const QString &version() const;
void setVersion(const QString &);
const QString &fullName() const;
void setFullName(const QString &);
const QString &familyName() const;
void setFamilyName(const QString &);
const QString &givenName() const;
void setGivenName(const QString &);
const QString &middleName() const;
void setMiddleName(const QString &);
const QString &prefixName() const;
void setPrefixName(const QString &);
const QString &suffixName() const;
void setSuffixName(const QString &);
const QString &nickName() const;
void setNickName(const QString &);
const QByteArray &photo() const;
void setPhoto(const QByteArray &);
const QString &photoURI() const;
void setPhotoURI(const QString &);
const QDate bday() const;
void setBday(const QDate &);
const QString &bdayStr() const;
void setBdayStr(const QString &);
class Address {
public:
Address();
bool home;
bool work;
bool postal;
bool parcel;
bool dom;
bool intl;
bool pref;
QString pobox;
QString extaddr;
QString street;
QString locality;
QString region;
QString pcode;
QString country;
};
typedef QValueList<Address> AddressList;
const AddressList &addressList() const;
void setAddressList(const AddressList &);
class Label {
public:
Label();
bool home;
bool work;
bool postal;
bool parcel;
bool dom;
bool intl;
bool pref;
QStringList lines;
};
typedef QValueList<Label> LabelList;
const LabelList &labelList() const;
void setLabelList(const LabelList &);
class Phone {
public:
Phone();
bool home;
bool work;
bool voice;
bool fax;
bool pager;
bool msg;
bool cell;
bool video;
bool bbs;
bool modem;
bool isdn;
bool pcs;
bool pref;
QString number;
};
typedef QValueList<Phone> PhoneList;
const PhoneList &phoneList() const;
void setPhoneList(const PhoneList &);
class Email {
public:
Email();
bool home;
bool work;
bool internet;
bool x400;
QString userid;
};
typedef QValueList<Email> EmailList;
const EmailList &emailList() const;
void setEmailList(const EmailList &);
const QString &jid() const;
void setJid(const QString &);
const QString &mailer() const;
void setMailer(const QString &);
const QString &timezone() const;
void setTimezone(const QString &);
class Geo {
public:
Geo();
QString lat;
QString lon;
};
const Geo &geo() const;
void setGeo(const Geo &);
const QString &title() const;
void setTitle(const QString &);
const QString &role() const;
void setRole(const QString &);
const QByteArray &logo() const;
void setLogo(const QByteArray &);
const QString &logoURI() const;
void setLogoURI(const QString &);
const VCard *agent() const;
void setAgent(const VCard &);
const QString agentURI() const;
void setAgentURI(const QString &);
class Org {
public:
Org();
QString name;
QStringList unit;
};
const Org &org() const;
void setOrg(const Org &);
const QStringList &categories() const;
void setCategories(const QStringList &);
const QString ¬e() const;
void setNote(const QString &);
const QString &prodId() const; // it must equal to "Psi" ;-)
void setProdId(const QString &);
const QString &rev() const;
void setRev(const QString &);
const QString &sortString() const;
void setSortString(const QString &);
const QByteArray &sound() const;
void setSound(const QByteArray &);
const QString &soundURI() const;
void setSoundURI(const QString &);
const QString &soundPhonetic() const;
void setSoundPhonetic(const QString &);
const QString &uid() const;
void setUid(const QString &);
const QString &url() const;
void setUrl(const QString &);
const QString &desc() const;
void setDesc(const QString &);
enum PrivacyClass {
pcNone = 0,
pcPublic = 1,
pcPrivate,
pcConfidential
};
const PrivacyClass &privacyClass() const;
void setPrivacyClass(const PrivacyClass &);
const QByteArray &key() const;
void setKey(const QByteArray &);
private:
class Private;
Private *d;
};
#endif
|
70b0ded8fa3a38d262c7e42e1a8735d0f37ec0f0 | 3192154b3faee2dac2cba2001e7cf75e29cf2890 | /EXPANSION/Data/Characters/Armbands/config.cpp | 8ab03bdffff4ec1c6faa1f302fe1dfdfb0fa603f | [] | no_license | miguelgargallo/Unpacked-DayZ-Mods | 48b133e6f7528029ae122e45181d3a6acc51eb74 | ed6fb8c0a003f1ed9c3d4e3e3fe752af15e65ddd | refs/heads/main | 2023-04-02T07:49:23.930694 | 2021-04-11T09:58:01 | 2021-04-11T09:58:01 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,098 | cpp | config.cpp | #define _ARMA_
class CfgPatches
{
class Expansion_Armbands
{
units[] = {"ExpansionArmbandBandit","ExpansionArmbandHero"};
weapons[] = {};
requiredVersion = 0.1;
requiredAddons[] = {"DZ_Characters_Tops"};
};
};
class CfgVehicles
{
class Armband_ColorBase;
class ExpansionArmbandBandit: Armband_ColorBase
{
scope = 2;
color = "Black";
hiddenSelectionsTextures[] = {"\dz\characters\tops\data\armbend_blue_g_co.paa","\dz\characters\tops\data\armbend_small_blue_co.paa","\dz\characters\tops\data\armbend_small_blue_co.paa","\DayZExpansion\Data\Characters\Armbands\Data\armband_Bandit_co.paa","\DayZExpansion\Data\Characters\Armbands\Data\armband_Bandit_co.paa"};
};
class ExpansionArmbandHero: Armband_ColorBase
{
scope = 2;
color = "White";
hiddenSelectionsTextures[] = {"\dz\characters\tops\data\armbend_white_g_co.paa","\dz\characters\tops\data\armbend_small_white_co.paa","\dz\characters\tops\data\armbend_small_white_co.paa","\DayZExpansion\Data\Characters\Armbands\Data\armband_Hero_co.paa","\DayZExpansion\Data\Characters\Armbands\Data\armband_Hero_co.paa"};
};
};
|
1b346e09fbbf16aa7af9e5167d1275d21eb06eee | b75214e7bf82d4cf285ea5ef5d59e844ca7e88aa | /Stream/Process/Dialog.cpp | cf39f043f7ed112d42c4b29a29cbe262c4a878b4 | [
"MIT"
] | permissive | BigWhiteCat/Qt-QML | 5f7d15a29ea8637890aacf0637413d4fa173465a | 7d601721db535167ea257e8baffc1de83cc0aa15 | refs/heads/master | 2020-04-16T05:07:42.148802 | 2019-04-14T21:55:55 | 2019-04-14T21:55:55 | 165,293,795 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,763 | cpp | Dialog.cpp | #include <QDir>
#include <QFileDialog>
#include <QPlainTextEdit>
#include <QPushButton>
#include "Dialog.h"
#include "ui_Dialog.h"
Dialog::Dialog(QWidget *parent) : QDialog(parent), ui(new Ui::Dialog) {
ui->setupUi(this);
ui->convertPushButton->setEnabled(false);
connect(ui->browseButton, &QPushButton::clicked, this, &Dialog::browse);
connect(ui->convertPushButton, &QPushButton::clicked, this, &Dialog::convertImage);
connect(ui->cancelPushButton, &QPushButton::clicked, this, &Dialog::reject);
connect(&process, &QProcess::readyReadStandardError, this, &Dialog::updateOutputTextPlaintEdit);
connect(&process, SIGNAL(finished(int, QProcess::ExitStatus)), this, SLOT(processFinished(int, QProcess::ExitStatus)));
connect(&process, SIGNAL(QProcess::error(QProcessError)), this, SLOT(processError(QProcessError)));
}
Dialog::~Dialog() {
delete ui;
}
void Dialog::browse() {
QString initialName = ui->sourceFileLineEdit->text();
if (initialName.isEmpty()) {
initialName = QDir::currentPath();
}
QString fileName = QFileDialog::getOpenFileName(this, tr("Choose File"), initialName);
fileName = QDir::toNativeSeparators(fileName);
if (!fileName.isEmpty()) {
ui->sourceFileLineEdit->setText(fileName);
ui->convertPushButton->setEnabled(true);
}
}
void Dialog::convertImage() {
QString sourceFile = ui->sourceFileLineEdit->text();
QString targetFile =
QFileInfo(sourceFile).path() + QDir::separator() + QFileInfo(sourceFile).baseName() + "." + ui->comboBox->currentText().toLower();
ui->convertPushButton->setEnabled(false);
ui->plainTextEdit->clear();
QStringList args;
if (ui->enhanceCheckBox->isChecked()) {
args << "-enhance";
}
if (ui->monochromeCheckBox->isChecked()) {
args << "-monochrome";
}
process.start("convert", args);
}
void Dialog::updateOutputTextPlaintEdit() {
QByteArray newData = process.readAllStandardError();
ui->plainTextEdit->setPlainText(QString::fromLocal8Bit(newData));
}
void Dialog::processFinished(int exitCode, QProcess::ExitStatus exitStatus) {
if (exitStatus == QProcess::CrashExit) {
ui->plainTextEdit->appendPlainText(tr("Conversion program crashed"));
} else if (exitCode != 0) {
ui->plainTextEdit->appendPlainText(tr("Conversion failed"));
} else {
ui->plainTextEdit->appendPlainText(tr("File %1 created").arg(targetFile));
}
ui->convertPushButton->setEnabled(true);
}
void Dialog::processError(QProcess::ProcessError error) {
if (error == QProcess::FailedToStart) {
ui->plainTextEdit->appendPlainText(tr("Conversion program not found"));
ui->convertPushButton->setEnabled(true);
}
}
|
66f6a2fe007fe646cb2ec5a9d800b76a4bd774f8 | 1bd4bb22e6cdf39283ad8888fce2209811ce03a6 | /5.everyday/2020-01/01/P2142_高精度减法.cpp | c191a4c9d369b5421295ca91a97e18abcfc7f5b3 | [] | no_license | Ronnie-Git/Starting-point | 65ca00333100e4955c58316605206afe10c5bcc8 | ba37e93c0b3efcd930dccb57e18b4106c2d1ad53 | refs/heads/master | 2021-07-04T02:52:23.024831 | 2020-08-15T03:50:35 | 2020-08-15T03:50:35 | 144,253,130 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,344 | cpp | P2142_高精度减法.cpp | /*************************************************************************
> File Name: P2142_高精度减法.cpp
> Author:
> Mail:
> Created Time: Thu 02 Jan 2020 06:38:34 PM CST
************************************************************************/
#include <iostream>
#include <cstring>
using namespace std;
#define max(a, b) (a > b ? a : b)
#define MAXN 20005
int ans[MAXN];
char stra[MAXN], strb[MAXN];
int flag = 1; // 记录答案的正负,1为正,-1为负
void init(int *a, int *b) {
int lena = strlen(stra), lenb = strlen(strb);
for (int i = lena - 1; i >= 0 && stra[i] != '-'; i--) a[++a[0]] = stra[i] - 48;
for (int i = lenb - 1; i >= 0 && strb[i] != '-'; i--) b[++b[0]] = strb[i] - 48;
return ;
}
// 比较 a 和 b 的大小
bool cmp(int *a, int *b) {
if (a[0] > b[0]) return true;
if (a[0] < b[0]) return false;
for (int i = a[0]; i > 0; i--) if (a[0] < b[0]) return false;
return true;
}
// a + b
void add(int *a, int *b) {
int len = max(a[0], b[0]);
ans[0] = len;
for (int i = 1; i <= len; i++) ans[i] = a[i] + b[i];
for (int i = 1; i <= ans[0]; i++) {
if (ans[i] < 10) continue;
ans[i + 1] += ans[i] / 10;
ans[i] %= 10;
ans[0] += (i == ans[0]);
}
return ;
}
// a - b
void sub(int *a, int *b) {
int len = max(a[0], b[0]);
ans[0] = len;
for (int i = 1; i <= len; i++) ;
for (int i = 1; i <= ans[0]; i++) {
if (a[i] < b[i]) {
a[i + 1] -= 1;
a[i] += 10;
}
ans[i] = a[i] - b[i];
}
while (ans[0] > 1 && ans[ans[0]] == 0) --ans[0];
return ;
}
// 输出答案
void output() {
if (flag == -1) cout << '-';
for (int i = ans[0]; i >= 1; i--) cout << ans[i];
cout << endl;
return ;
}
void solve() {
int a[MAXN] = {0}, b[MAXN] = {0};
init(a, b);
if (stra[0] == '-' && strb[0] == '-') { // -a - (-b) = b - a
if (cmp(b, a)) sub(b, a);
else flag *= -1, sub(a, b);
} else if (stra[0] == '-') { // -a - b = -(a + b)
flag *= -1;
add(a, b);
} else if(strb[0] == '-') { // a - (-b) = a + b
add(a, b);
} else {
if (cmp(a, b)) sub(a, b);
else flag *= -1, sub(b, a);
}
output();
return ;
}
int main() {
cin >> stra >> strb;
solve();
return 0;
}
|
7e440e0ab9c876f2f3ef5f344ddf320856868a94 | 7255e579c2b001265a602306ba9cee8c73b436f6 | /RayTracing/lighting.cpp | 96beed72678f0ac4710d149a57182d0dfb91c1dc | [] | no_license | t0nyt93/RayTraceEngine | 072558723530fd28331aee24856f5203a7fa2ac9 | fa69e8b1fc3befbca265af195092ee19f58e10c2 | refs/heads/master | 2021-01-11T23:35:11.584593 | 2017-01-11T05:28:50 | 2017-01-11T05:28:50 | 78,604,831 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,077 | cpp | lighting.cpp | //Anthony Tyrrell
//Oregon State University CS 551
//Final Project -> RayTrace engine
//5/21/2016
#include "lighting.h"
Light::Light() {
this->type = DIR_LIGHT;
this->direction = Vector(0.0f, 0.0, 1.0f, 1.0f);
this->intensity = 1.0f;
this->origin = Point();
this->color = Color(255.0f, 255.0f, 255.0f, 255.0f);
this->specularColor = Color(255.0f, 255.0f, 255.0f, 255.0f);
this->specularIntensity = 0.0f;
this->specularPower = 500.0f;
}
Light::Light(LightType type, Point origin, Vector direction, Color color) {
this->type = type;
this->direction = direction;
this->intensity = 1.0f;
this->origin = origin;
this->color = color;
this->specularColor = Color(255.0f, 255.0f, 255.0f, 255.0f);
this->specularIntensity = 0.0f;
this->specularPower = 500.0f;
}
void Light::SetIntensity(float f) {
this->intensity = f;
if(this->intensity > 1.0f) this->intensity = 1.0f;
if(this->intensity < 0.0f) this->intensity = 0.0f;
}
void Light::SetSpecularAttributes(float specPower, Color specColor) {
this->specularPower = specPower;
this->specularColor = specColor;
} |
3f1aa106fb04fd334bb4805d24a5b5cc4722042f | 07e66c5cb46d3b76da4af3fa39a1ec7b01f8418e | /src/assignment/SnakeTrail.cpp | c43504ce0e545578cc83640352627a2738e02b39 | [] | no_license | martinradev/Cornell-vox-demo | 25cc965cd9bbb9c2b9f121025493e2fe56d5413e | cb352479c473d9a4b30fa442655c9cccce98c3ab | refs/heads/master | 2020-04-15T15:56:51.248100 | 2016-06-02T19:44:56 | 2016-06-02T19:44:56 | 60,302,444 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 3,026 | cpp | SnakeTrail.cpp | #include "SnakeTrail.h"
#include "ShaderSetup.h"
#include "MemoryAllignedAllocator.h"
#include "Globals.h"
namespace FW {
static struct _MM_ALIGN16 SnakeParticle {
SnakeParticle() {}
SnakeParticle(const Vec3f & position, const Vec3f & normal) :
pos(position, 0),
n(normal, 0) {}
Vec4f pos;
Vec4f n;
};
SnakeTrail::SnakeTrail(GLContext * gl, GPUBvh_Buffers & bvhBuffer, const Vec3f & origin, const Vec3f & normal)
:
m_bvhBuffer(bvhBuffer),
m_origin(origin),
m_normal(normal),
m_programCSName("snake_cs"),
m_programRenderName("snake_draw")
{
std::vector<SnakeParticle, aligned_allocator<SnakeParticle, 16> > particleData(1);
particleData[0] = SnakeParticle(origin, normal);
glGenBuffers(1, &m_buffer);
glBindBuffer(GL_SHADER_STORAGE_BUFFER, m_buffer);
glBufferData(GL_SHADER_STORAGE_BUFFER, sizeof(SnakeParticle), particleData.data(), GL_STATIC_DRAW);
glBindBuffer(GL_SHADER_STORAGE_BUFFER, 0);
const char lightCS[] = "shaders/snake/move_particles.glsl";
const char bvhCS[] = "shaders/bvh/bvh.glsl";
const char declShader[] = "shaders/raymarch/decl.glsl";
const char noiseShader[] = "shaders/raymarch/noise.glsl";
const char knobsShader[] = "shaders/raymarch/knobs.glsl";
const char simpleVertShader[] = "shaders/snake/vert.glsl";
const char simpleFragShader[] = "shaders/snake/frag.glsl";
loadShader(gl,
{ declShader, knobsShader, noiseShader, bvhCS, lightCS }, m_programCSName);
loadShader(gl, simpleVertShader, simpleFragShader, m_programRenderName);
gl->checkErrors();
}
void SnakeTrail::update(GLContext * gl) {
GLContext::Program * prog = gl->getProgram(m_programCSName.c_str());
prog->use();
gl->setUniform(prog->getUniformLoc("time"), GLOBAL_TIMER.getElapsed());
glBindBufferBase(GL_SHADER_STORAGE_BUFFER, 0, m_buffer);
glBindBufferBase(GL_SHADER_STORAGE_BUFFER, 10, m_bvhBuffer.m_triangles_ssbo);
glBindBufferBase(GL_SHADER_STORAGE_BUFFER, 11, m_bvhBuffer.m_indices_ssbo);
glBindBufferBase(GL_SHADER_STORAGE_BUFFER, 12, m_bvhBuffer.m_nodes_ssbo);
int m_numParticles = 1;
static const int localGroupSize = 64;
unsigned numGroups = (m_numParticles + localGroupSize - 1) / localGroupSize;
glDispatchCompute(numGroups, 1, 1);
glMemoryBarrier(GL_SHADER_STORAGE_BARRIER_BIT);
glBindBufferBase(GL_SHADER_STORAGE_BUFFER, 0, 0);
glBindBufferBase(GL_SHADER_STORAGE_BUFFER, 10, 0);
glBindBufferBase(GL_SHADER_STORAGE_BUFFER, 11, 0);
glBindBufferBase(GL_SHADER_STORAGE_BUFFER, 12, 0);
}
void SnakeTrail::render(GLContext * gl, Window & wnd, CameraControls & camera) {
GLContext::Program * prog = gl->getProgram(m_programRenderName.c_str());
prog->use();
gl->setUniform(prog->getUniformLoc("posToClip"), camera.getWorldToClip());
glEnable(GL_POINT_SMOOTH);
glPointSize(6);
glBindBuffer(GL_ARRAY_BUFFER, m_buffer);
glEnableVertexAttribArray(0);
glVertexAttribPointer(0, 3, GL_FLOAT, GL_FALSE, sizeof(SnakeParticle), 0);
glDrawArrays(GL_POINTS, 0, 1);
glBindBuffer(GL_ARRAY_BUFFER, 0);
}
}; |
7b73a4055f8833a3c82d3d667e4d2840ab7b0a55 | a10417092f4e47e98468d8d4f956f73d370e205d | /cs200_intro_to_programming/assignments/assignment1/task2.cpp | 999c07be430a806bf4f7717f9afc5a64f6435a94 | [] | no_license | ghanisol/lums | da36e8b052f00104bba35b1eaf51ed0eb2beaf73 | 0407dbbcf326ee58629de5059eff181ea1ee0f07 | refs/heads/master | 2020-04-03T09:42:45.386971 | 2018-10-31T21:59:07 | 2018-10-31T21:59:07 | 155,173,951 | 0 | 2 | null | null | null | null | UTF-8 | C++ | false | false | 5,527 | cpp | task2.cpp | #include <iostream>
#include <string>
#include <cstdlib>
#include <ctime>
#include <vector>
using namespace std;
struct CARD {
int number;
int suit;
};
// prototype
string card(int i, int j);
void CreateDeck(CARD deck[]);
void ShuffleDeck(CARD deck[], int deck_size);
void DealCards(CARD player1[], CARD computer[], CARD deck[]);
void print_player_cards(CARD player[], int player_size);
void remove_cards(CARD player[], int& player_size);
void player_won(void);
void player_lost(void);
void start(CARD player1[], int& player1_size, CARD computer[], int& computer_size);
void player_turn(CARD player1[], int& player_size, CARD computer[], int& computer_size);
void computer_turn(CARD player[], int& player_size, CARD computer[], int& computer_size);
int main()
{
int done = 0;
do
{
CARD deck[51];
CreateDeck(deck);
ShuffleDeck(deck, 51);
CARD player1[26];
int player1_size = 26;
CARD computer[25];
int computer_size = 25;
DealCards(player1, computer, deck);
start(player1, player1_size, computer, computer_size);
while(true)
{
player_turn(player1, player1_size, computer, computer_size);
if (player1_size == 0)
{
player_won();
break;
}
else if (computer_size == 0)
{
player_lost();
break;
}
computer_turn(player1, player1_size, computer, computer_size);
if (player1_size == 0)
{
player_won();
break;
}
else if (computer_size == 0)
{
player_lost();
break;
}
}
cout << "Do you want to play again? \n";
cout << "Enter 0 to continue, and 1 to exit...\n";
cin >> done;
} while (done == 0);
}
void start(CARD player1[], int& player1_size, CARD computer[], int& computer_size)
{
// Start of the Game
cout << "Let's Play Old Maid !\n\n"
<< "Your instructions go here\n"
<< "\t .\n"
<< "\t .\n"
<< "\t .\n\n";
cout << "You were dealt : \n\n";
print_player_cards(player1, player1_size);
cout << endl;
cout << "Discarding your pairs : \n";
remove_cards(player1, player1_size);
if (player1_size > 1)
{
ShuffleDeck(player1, player1_size);
}
cout << "Here is your hand : \n";
print_player_cards(player1, player1_size);
cout << endl;
cout << "I'm discarding my pairs :\n";
remove_cards(computer, computer_size);
if (computer_size > 1)
{
ShuffleDeck(computer, computer_size);
}
}
// Removes the pairs
void remove_cards(CARD player[], int& player_size)
{
for (int i = 0; i < player_size - 1; i++)
{
for (int j = i+1; j < player_size; j++)
{
if (player[i].number == player[j].number)
{
cout << "Removing a pair: ";
cout << card(player[i].number, player[i].suit) << endl;
cout << card(player[j].number, player[j].suit) << endl << endl;
player[j] = player[player_size - 1];
player_size--;
player[i] = player[player_size - 1];
player_size--;
i = 0;
break;
}
}
}
}
// Deals the cards
void DealCards(CARD player1[], CARD computer[], CARD deck[])
{
int x = 0, y = 0;
for (int i = 0; i < 51;)
{
player1[x].number = deck[i].number;
player1[x].suit = deck[i].suit;
x++;
i++;
if(i < 51)
{
computer[y].number = deck[i].number;
computer[y].suit = deck[i].suit;
y++;
i++;
}
}
}
// Creates the deck
void CreateDeck(CARD deck[])
{
int z = 0;
for (int i = 0; i < 13; i++)
{
for (int j = 0; j < ((i == 11) ? 3 : 4); j++)
{
deck[z].number = i;
deck[z].suit = j;
z++;
}
}
}
// Shuffles the deck
void ShuffleDeck(CARD deck[], int deck_size)
{
for (int i = 0; i < deck_size; i++)
{
srand(time(NULL) * i);
int r = rand() % (deck_size - 1);
if (r != i)
{
CARD temp = deck[i];
deck[i] = deck[r];
deck[r] = temp;
}
}
}
// Player Turn
void player_turn(CARD player[], int& player_size, CARD computer[], int& computer_size)
{
cout << "\nI have " << computer_size << " cards.\n"
<< "Which one do you choose ?\n"
<< "Enter a number between 1 and " << computer_size << " : ";
int r = 0;
cin >> r;
r = r - 1;
player[player_size] = computer[r];
player_size++;
computer[r] = computer[computer_size - 1];
computer_size--;
remove_cards(player, player_size);
if (player_size > 1)
{
ShuffleDeck(player, player_size);
}
}
// Computer Turn
void computer_turn(CARD player[], int& player_size, CARD computer[], int& computer_size)
{
cout << "You have : \n";
print_player_cards(player, player_size);
int random = 0;
if (player_size == 1)
{
random = 0;
}
else
{
random = rand() % (player_size - 1);
}
cout << "\nI'll take card # " << random + 1 << endl;
computer[computer_size] = player[random];
computer_size++;
player[random] = player[player_size - 1];
player_size--;
remove_cards(computer, computer_size);
if (computer_size > 1)
{
ShuffleDeck(computer, computer_size);
}
cout << endl;
}
// Prints the cards for a given player
void print_player_cards(CARD player[], int player_size)
{
for (int i = 0; i < player_size; i++)
{
cout << card(player[i].number, player[i].suit) << endl;
}
}
// Simulates the Cards
string card(int i, int j)
{
string number[] = {"Ace", "2", "3", "4", "5", "6", "7", "8", "9", "10", "Jack", "Queen", "King"};
string suit[] = {"Spades", "Hearts", "Diamond", "Clubs"};
string card = number[i] + " of " + suit[j];
return card;
}
void player_won(void)
{
cout << "Shit! I lost! Well i still got the queen though ;)\n\n";
}
void player_lost(void)
{
cout << "Hahahaha Hahahaha Hahahaha, you took the queen, but still lost :p\n\n";
}
|
0327602c72c8870d8ef0b5424ae8c05324f062c9 | 2f10f807d3307b83293a521da600c02623cdda82 | /deps/boost/win/debug/include/boost/spirit/home/classic/dynamic/switch.hpp | 654211c7480cfd6d41f0650b45627cd916f2a04b | [] | no_license | xpierrohk/dpt-rp1-cpp | 2ca4e377628363c3e9d41f88c8cbccc0fc2f1a1e | 643d053983fce3e6b099e2d3c9ab8387d0ea5a75 | refs/heads/master | 2021-05-23T08:19:48.823198 | 2019-07-26T17:35:28 | 2019-07-26T17:35:28 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 129 | hpp | switch.hpp | version https://git-lfs.github.com/spec/v1
oid sha256:bdc0cf401e95ab4abb2aedda8adcee343b062490f89e699564d06d6a3b4963fe
size 8884
|
68bce56fac9d45f4dcdf233c40f7840a963e45eb | ae945e023a9b721e4d58e2709465b05e0b6a1391 | /src/graph.h | 48da842bef5dedd8f1f86dc5398628a02f4502df | [] | no_license | piotrdubiel/c-charm | 4290a3ccd3f8b8b5f35ec00c9347a0fd675154dc | f45020a1ad6bed67bd7fff054c7aa1693c96bc1a | refs/heads/master | 2021-01-10T20:55:42.101622 | 2014-02-07T23:43:36 | 2014-02-07T23:43:36 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 508 | h | graph.h | #ifndef GRAPH_H
#define GRAPH_H
#include <vector>
#include <stdio.h>
#include "set.h"
using namespace std;
class Node {
public:
Set* set;
Node* parent;
vector<Node*> children;
Node(Set*);
~Node();
void set_parent(Node* parent);
bool is_subset(Node *) const;
void add_child(Node*);
void free();
};
class Graph {
public:
Node* root;
Graph(): root(NULL) {};
~Graph() { delete root; };
void add_node(Node *, Node *);
void delete_node(Node*);
};
#endif
|
e5e5dcb713b3a575e5839d955d8366ae221669a1 | 7f67919b5f5e087e8a26eacd8d5d1c1f94224cc6 | /src/armnnOnnxParser/test/Pooling.cpp | 73d113d8e122526e9f23c909afd93365a81428bc | [
"BSD-3-Clause",
"CC0-1.0",
"MIT",
"LicenseRef-scancode-unknown-license-reference"
] | permissive | ARM-software/armnn | 11f0b169291ade6a08cbef1e87b32000aeed4767 | 49f609d9e633f52fcdc98e6e06178e618597e87d | refs/heads/branches/armnn_23_05 | 2023-09-04T07:02:43.218253 | 2023-05-15T10:24:43 | 2023-05-15T16:08:53 | 124,536,178 | 1,053 | 329 | MIT | 2023-05-22T23:28:55 | 2018-03-09T12:11:48 | C++ | UTF-8 | C++ | false | false | 10,309 | cpp | Pooling.cpp | //
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include "armnnOnnxParser/IOnnxParser.hpp"
#include "ParserPrototxtFixture.hpp"
TEST_SUITE("OnnxParser_Pooling")
{
struct PoolingMainFixture : public armnnUtils::ParserPrototxtFixture<armnnOnnxParser::IOnnxParser>
{
PoolingMainFixture(const std::string& dataType, const std::string& op)
{
m_Prototext = R"(
ir_version: 3
producer_name: "CNTK"
producer_version: "2.5.1"
domain: "ai.cntk"
model_version: 1
graph {
name: "CNTKGraph"
input {
name: "Input"
type {
tensor_type {
elem_type: )" + dataType + R"(
shape {
dim {
dim_value: 1
}
dim {
dim_value: 1
}
dim {
dim_value: 2
}
dim {
dim_value: 2
}
}
}
}
}
node {
input: "Input"
output: "Output"
name: "Pooling"
op_type: )" + op + R"(
attribute {
name: "kernel_shape"
ints: 2
ints: 2
type: INTS
}
attribute {
name: "strides"
ints: 1
ints: 1
type: INTS
}
attribute {
name: "pads"
ints: 0
ints: 0
ints: 0
ints: 0
type: INTS
}
}
output {
name: "Output"
type {
tensor_type {
elem_type: 1
shape {
dim {
dim_value: 1
}
dim {
dim_value: 1
}
dim {
dim_value: 1
}
dim {
dim_value: 1
}
}
}
}
}
}
opset_import {
version: 7
})";
}
};
struct MaxPoolValidFixture : PoolingMainFixture
{
MaxPoolValidFixture() : PoolingMainFixture("1", "\"MaxPool\"") {
Setup();
}
};
struct MaxPoolInvalidFixture : PoolingMainFixture
{
MaxPoolInvalidFixture() : PoolingMainFixture("10", "\"MaxPool\"") { }
};
TEST_CASE_FIXTURE(MaxPoolValidFixture, "ValidMaxPoolTest")
{
RunTest<4>({{"Input", {1.0f, 2.0f, 3.0f, -4.0f}}}, {{"Output", {3.0f}}});
}
struct AvgPoolValidFixture : PoolingMainFixture
{
AvgPoolValidFixture() : PoolingMainFixture("1", "\"AveragePool\"") {
Setup();
}
};
struct PoolingWithPadFixture : public armnnUtils::ParserPrototxtFixture<armnnOnnxParser::IOnnxParser>
{
PoolingWithPadFixture()
{
m_Prototext = R"(
ir_version: 3
producer_name: "CNTK"
producer_version: "2.5.1"
domain: "ai.cntk"
model_version: 1
graph {
name: "CNTKGraph"
input {
name: "Input"
type {
tensor_type {
elem_type: 1
shape {
dim {
dim_value: 1
}
dim {
dim_value: 1
}
dim {
dim_value: 2
}
dim {
dim_value: 2
}
}
}
}
}
node {
input: "Input"
output: "Output"
name: "Pooling"
op_type: "AveragePool"
attribute {
name: "kernel_shape"
ints: 4
ints: 4
type: INTS
}
attribute {
name: "strides"
ints: 1
ints: 1
type: INTS
}
attribute {
name: "pads"
ints: 1
ints: 1
ints: 1
ints: 1
type: INTS
}
attribute {
name: "count_include_pad"
i: 1
type: INT
}
}
output {
name: "Output"
type {
tensor_type {
elem_type: 1
shape {
dim {
dim_value: 1
}
dim {
dim_value: 1
}
dim {
dim_value: 1
}
dim {
dim_value: 1
}
}
}
}
}
}
opset_import {
version: 7
})";
Setup();
}
};
TEST_CASE_FIXTURE(AvgPoolValidFixture, "AveragePoolValid")
{
RunTest<4>({{"Input", {1.0f, 2.0f, 3.0f, -4.0f}}}, {{"Output", {0.5}}});
}
TEST_CASE_FIXTURE(PoolingWithPadFixture, "ValidAvgWithPadTest")
{
RunTest<4>({{"Input", {1.0f, 2.0f, 3.0f, -4.0f}}}, {{"Output", {1.0/8.0}}});
}
struct GlobalAvgFixture : public armnnUtils::ParserPrototxtFixture<armnnOnnxParser::IOnnxParser>
{
GlobalAvgFixture()
{
m_Prototext = R"(
ir_version: 3
producer_name: "CNTK"
producer_version: "2.5.1"
domain: "ai.cntk"
model_version: 1
graph {
name: "CNTKGraph"
input {
name: "Input"
type {
tensor_type {
elem_type: 1
shape {
dim {
dim_value: 1
}
dim {
dim_value: 2
}
dim {
dim_value: 2
}
dim {
dim_value: 2
}
}
}
}
}
node {
input: "Input"
output: "Output"
name: "Pooling"
op_type: "GlobalAveragePool"
}
output {
name: "Output"
type {
tensor_type {
elem_type: 1
shape {
dim {
dim_value: 1
}
dim {
dim_value: 2
}
dim {
dim_value: 1
}
dim {
dim_value: 1
}
}
}
}
}
}
opset_import {
version: 7
})";
Setup();
}
};
TEST_CASE_FIXTURE(GlobalAvgFixture, "GlobalAvgTest")
{
RunTest<4>({{"Input", {1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0}}}, {{"Output", {10/4.0, 26/4.0}}});
}
TEST_CASE_FIXTURE(MaxPoolInvalidFixture, "IncorrectDataTypeMaxPool")
{
CHECK_THROWS_AS(Setup(), armnn::ParseException);
}
}
|
81579cdf39e0bdbfa1fcbc3f11eaf3f28ba1bc64 | 228bb5202cabd0ecd98b90b91a81646c6c425192 | /opensubdiv/far/gregoryBasis.cpp | 64849a42366634f6310625a437ff9331e8ef86a8 | [
"Apache-2.0",
"LicenseRef-scancode-proprietary-license",
"LicenseRef-scancode-free-unknown"
] | permissive | anddrey-bit/OpenSubdiv | 86460e02607ab61cff3382426ed1cc2a7cbd563a | 01e5f5ad299c0a8ff000c7b037d3760efb5c23e8 | refs/heads/master | 2020-12-21T02:36:38.911525 | 2020-01-26T07:26:52 | 2020-01-26T07:26:52 | 236,280,592 | 0 | 0 | Apache-2.0 | 2020-01-26T07:26:19 | 2020-01-26T07:26:18 | null | UTF-8 | C++ | false | false | 21,063 | cpp | gregoryBasis.cpp | //
// Copyright 2013 Pixar
//
// Licensed under the Apache License, Version 2.0 (the "Apache License")
// with the following modification; you may not use this file except in
// compliance with the Apache License and the following modification to it:
// Section 6. Trademarks. is deleted and replaced with:
//
// 6. Trademarks. This License does not grant permission to use the trade
// names, trademarks, service marks, or product names of the Licensor
// and its affiliates, except as required to comply with Section 4(c) of
// the License and to reproduce the content of the NOTICE file.
//
// You may obtain a copy of the Apache License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the Apache License with the above modification is
// distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
// KIND, either express or implied. See the Apache License for the specific
// language governing permissions and limitations under the Apache License.
//
#include "../far/gregoryBasis.h"
#include "../far/error.h"
#include "../far/stencilTableFactory.h"
#include "../far/topologyRefiner.h"
#include "../vtr/stackBuffer.h"
#include <cassert>
#include <cmath>
#include <cstring>
#include <cstdio>
namespace OpenSubdiv {
namespace OPENSUBDIV_VERSION {
namespace Far {
inline float computeCoefficient(int valence) {
// precomputed coefficient table up to valence 29
static float efTable[] = {
0, 0, 0,
0.812816f, 0.500000f, 0.363644f, 0.287514f,
0.238688f, 0.204544f, 0.179229f, 0.159657f,
0.144042f, 0.131276f, 0.120632f, 0.111614f,
0.103872f, 0.09715f, 0.0912559f, 0.0860444f,
0.0814022f, 0.0772401f, 0.0734867f, 0.0700842f,
0.0669851f, 0.0641504f, 0.0615475f, 0.0591488f,
0.0569311f, 0.0548745f, 0.0529621f
};
assert(valence > 0);
if (valence < 30) return efTable[valence];
float t = 2.0f * float(M_PI) / float(valence);
return 1.0f / (valence * (cosf(t) + 5.0f +
sqrtf((cosf(t) + 9) * (cosf(t) + 1)))/16.0f);
}
//
// There is a long and unclear history to the details of the patch conversion here...
//
// The formulae for computing the Gregory patch points do not follow the more widely
// accepted work of Loop, Shaefer et al or Myles et al. The formulae for the limit
// points and tangents also ultimately need to be retrieved from Sdc::Scheme to
// ensure they conform, so future factoring of the formulae is still necessary.
//
// This implementation is in the process of iterative refactoring to adapt it for
// more general use. The method is currently divided into four stages -- some of
// which will eventually be moved externally and/or made into methods of their own:
//
// - gather complete topology information for all four corners of the patch
// - compute the vertex-points and intermediate values used below
// - compute the edge-points
// - compute the face-points (which depend on multiple edge-points)
//
GregoryBasis::ProtoBasis::ProtoBasis(
Vtr::internal::Level const & level, Index faceIndex,
Vtr::internal::Level::VSpan const cornerSpans[],
int levelVertOffset, int fvarChannel) {
//
// The first stage -- gather topology information for the entire patch:
//
// This stage is intentionally separated from any computation as the information
// gathered here for each corner vertex (one-ring, valence, etc.) will eventually
// be passed to this function in a more general and compact form. We have to
// be careful with face-varying channels to query the topology from the vertices
// of the level, while computing the patch basis from the points (fvar values).
//
Vtr::ConstIndexArray faceVerts = level.getFaceVertices(faceIndex);
Vtr::ConstIndexArray facePoints = (fvarChannel < 0)
? faceVerts
: level.getFaceFVarValues(faceIndex, fvarChannel);
// Should be use a "local" max valence here in future
// A discontinuous edge in the fvar topology can increase the valence by one.
int maxvalence = level.getMaxValence() + int(fvarChannel>=0);
Vtr::internal::StackBuffer<Index, 40> manifoldRings[4];
manifoldRings[0].SetSize(maxvalence*2);
manifoldRings[1].SetSize(maxvalence*2);
manifoldRings[2].SetSize(maxvalence*2);
manifoldRings[3].SetSize(maxvalence*2);
bool cornerBoundary[4];
int cornerValences[4];
int cornerNumFaces[4];
int cornerPatchFace[4];
float cornerFaceAngle[4];
// Sum the number of source vertices contributing to the patch, which define the
// size of the stencil for each "point" involved. We just want an upper bound
// here for now, so sum the vertices from the neighboring rings at each corner,
// but don't count the shared face points multiple times.
int stencilCapacity = 4;
for (int corner = 0; corner < 4; ++corner) {
// save for varying stencils
varyingIndex[corner] = faceVerts[corner] + levelVertOffset;
// Gather the (partial) one-ring around the corner vertex:
int ringSize = 0;
if (!cornerSpans[corner].isAssigned()) {
ringSize = level.gatherQuadRegularRingAroundVertex( faceVerts[corner],
manifoldRings[corner], fvarChannel);
} else {
ringSize = level.gatherQuadRegularPartialRingAroundVertex( faceVerts[corner],
cornerSpans[corner],
manifoldRings[corner], fvarChannel);
}
stencilCapacity += ringSize - 3;
// Cache topology information about the corner for ease of use later:
if (ringSize & 1) {
cornerBoundary[corner] = true;
cornerNumFaces[corner] = (ringSize - 1) / 2;
cornerValences[corner] = cornerNumFaces[corner] + 1;
cornerFaceAngle[corner] = float(M_PI) / float(cornerNumFaces[corner]);
// Necessary to pad the ring to even size for the f[] and r[] computations...
manifoldRings[corner][ringSize] = manifoldRings[corner][ringSize-1];
} else {
cornerBoundary[corner] = false;
cornerNumFaces[corner] = ringSize / 2;
cornerValences[corner] = cornerNumFaces[corner];
cornerFaceAngle[corner] = 2.0f * float(M_PI) / float(cornerNumFaces[corner]);
}
// Identify the patch-face within the ring of faces for the corner (which
// will later be identified externally and specified directly):
int nEdgeVerts = cornerValences[corner];
Index vNext = facePoints[(corner + 1) % 4];
Index vPrev = facePoints[(corner + 3) % 4];
cornerPatchFace[corner] = -1;
for (int i = 0; i < nEdgeVerts; ++i) {
int iPrev = (i + 1) % nEdgeVerts;
if ((manifoldRings[corner][2*i] == vNext) && (manifoldRings[corner][2*iPrev] == vPrev)) {
cornerPatchFace[corner] = i;
break;
}
}
assert(cornerPatchFace[corner] != -1);
}
//
// The first computation pass...
//
// Compute vertex-point (P) and intermediate values (f[] and r[]) for each corner
//
Point e0[4], e1[4];
Vtr::internal::StackBuffer<Point, 10> f(maxvalence);
Vtr::internal::StackBuffer<Point, 40> r(maxvalence*4);
for (int corner = 0; corner < 4; ++corner) {
Index vCorner = facePoints[corner];
int cornerValence = cornerValences[corner];
//
// Compute intermediate f[] and r[] vectors:
//
// The f[] are used to compute position and limit tangents for the interior case,
// which should eventually be computed directly with Sdc::Scheme methods -- so
// these f[] will ultimately be made obsolete.
//
// The r[] are only used in computing face points Fp and Fm, and of the r[] that
// are allocated and computed for every edge of every corner vertex, only two are
// used for each corner vertex. Aside from only computing the subset of r[] needed,
// these can be deferred to direct computation as part of Fp and Fm as they serve
// no other purpose.
//
// Note also that the computations of each f[] and r[] do not take into account
// boundaries and relies on padding of the rings to provide an indexable value in
// these cases.
//
for (int i = 0; i < cornerValence; ++i) {
int iPrev = (i+cornerValence-1)%cornerValence;
int iNext = (i+1)%cornerValence;
// Identify the vertex at the end of each edge along with the previous and
// next face- and edge-vertex in the ring:
Index vEdge = (manifoldRings[corner][2*i]);
Index vFaceNext = (manifoldRings[corner][2*i + 1]);
Index vEdgeNext = (manifoldRings[corner][2*iNext]);
Index vEdgePrev = (manifoldRings[corner][2*iPrev]);
Index vFacePrev = (manifoldRings[corner][2*iPrev + 1]);
float denom = 1.0f / (float(cornerValence) + 5.0f);
f[i].Clear(4);
f[i].AddWithWeight(vCorner, float(cornerValence) * denom);
f[i].AddWithWeight(vEdgeNext, 2.0f * denom);
f[i].AddWithWeight(vEdge, 2.0f * denom);
f[i].AddWithWeight(vFaceNext, denom);
int rid = corner * maxvalence + i;
r[rid].Clear(4);
r[rid].AddWithWeight(vEdgeNext, 1.0f / 3.0f);
r[rid].AddWithWeight(vEdgePrev, -1.0f / 3.0f);
r[rid].AddWithWeight(vFaceNext, 1.0f / 6.0f);
r[rid].AddWithWeight(vFacePrev, -1.0f / 6.0f);
}
//
// Compute the vertex point P[] and intermediate limit tangents e0 and e1:
//
// The limit tangents e0 and e1 should be computed from Sdc::Scheme methods.
// But these explicit limit tangents vectors are not needed as intermediate
// results as the Ep and Em can be computed more directly from the limit
// masks for the tangent vectors.
//
if (cornerSpans[corner]._sharp) {
P[corner].Clear(stencilCapacity);
P[corner].AddWithWeight(vCorner, 1.0f);
// Approximating these for now, pending future investigation...
e0[corner].Clear(stencilCapacity);
e0[corner].AddWithWeight(facePoints[corner], 2.0f / 3.0f);
e0[corner].AddWithWeight(facePoints[(corner+1)%4], 1.0f / 3.0f);
e1[corner].Clear(stencilCapacity);
e1[corner].AddWithWeight(facePoints[corner], 2.0f / 3.0f);
e1[corner].AddWithWeight(facePoints[(corner+3)%4], 1.0f / 3.0f);
} else if (! cornerBoundary[corner]) {
float theta = cornerFaceAngle[corner];
float posScale = 1.0f / float(cornerValence);
float tanScale = computeCoefficient(cornerValence);
P[corner].Clear(stencilCapacity);
e0[corner].Clear(stencilCapacity);
e1[corner].Clear(stencilCapacity);
for (int i=0; i<cornerValence; ++i) {
int iPrev = (i+cornerValence-1) % cornerValence;
P[corner].AddWithWeight(f[i], posScale);
float c0 = tanScale * 0.5f * cosf(float(i) * theta);
e0[corner].AddWithWeight(f[i], c0);
e0[corner].AddWithWeight(f[iPrev], c0);
float c1 = tanScale * 0.5f * sinf(float(i) * theta);
e1[corner].AddWithWeight(f[i], c1);
e1[corner].AddWithWeight(f[iPrev], c1);
}
} else {
Index vEdgeLeading = manifoldRings[corner][0];
Index vEdgeTrailing = manifoldRings[corner][2*cornerValence-1];
P[corner].Clear(stencilCapacity);
P[corner].AddWithWeight(vEdgeLeading, 1.0f / 6.0f);
P[corner].AddWithWeight(vEdgeTrailing, 1.0f / 6.0f);
P[corner].AddWithWeight(vCorner, 4.0f / 6.0f);
float k = float(cornerNumFaces[corner]);
float theta = cornerFaceAngle[corner];
float c = cosf(theta);
float s = sinf(theta);
float div3kc = 1.0f / (3.0f*k+c);
float gamma = -4.0f * s * div3kc;
float alpha_0k = -((1.0f+2.0f*c) * sqrtf(1.0f+c)) * div3kc / sqrtf(1.0f-c);
float beta_0 = s * div3kc;
Index vEdge = manifoldRings[corner][0];
Index vFace = manifoldRings[corner][1];
e0[corner].Clear(stencilCapacity);
e0[corner].AddWithWeight(vEdgeLeading, 1.0f / 6.0f);
e0[corner].AddWithWeight(vEdgeTrailing, -1.0f / 6.0f);
e1[corner].Clear(stencilCapacity);
e1[corner].AddWithWeight(vCorner, gamma);
e1[corner].AddWithWeight(vEdgeLeading, alpha_0k);
e1[corner].AddWithWeight(vFace, beta_0);
e1[corner].AddWithWeight(vEdgeTrailing, alpha_0k);
for (int i = 1; i < cornerValence - 1; ++i) {
float alpha = 4.0f * sinf(float(i)*theta) * div3kc;
float beta = (sinf(float(i)*theta) + sinf(float(i+1)*theta)) * div3kc;
vEdge = manifoldRings[corner][2*i + 0];
vFace = manifoldRings[corner][2*i + 1];
e1[corner].AddWithWeight(vEdge, alpha);
e1[corner].AddWithWeight(vFace, beta);
}
e1[corner] *= 1.0f / 3.0f;
}
}
//
// The second computation pass...
//
// Compute the edge points Ep and Em first. These can be computed local to the corner,
// unlike the face points, whose computation requires edge points from adjacent corners
// and so are computed in a final pass after all edge points are available.
//
// Consider merging this pass with the previous, now that face points have been deferred
// to a separate third pass.
//
// Note that computation of Ep and Em here use intermediate limit tangents e0 and e1 and
// compute rotations of these for Ep and Em. The masks for the limit tangents can be
// rotated topologically to avoid the explicit rotation here (at least for the interior
// case -- boundary case still warrants it until there is more flexibility in limit
// tangent masks orientation in Sdc)
//
for (int corner = 0; corner < 4; ++corner) {
// Identify edges in the ring pointing to the next and previous corner of the patch:
int iEdgeNext = cornerPatchFace[corner];
int iEdgePrev = (cornerPatchFace[corner] + 1) % cornerValences[corner];
float faceAngle = cornerFaceAngle[corner];
float faceAngleNext = faceAngle * float(iEdgeNext);
float faceAnglePrev = faceAngle * float(iEdgePrev);
if (cornerSpans[corner]._sharp) {
Ep[corner] = e0[corner];
Em[corner] = e1[corner];
} else if (! cornerBoundary[corner]) {
Ep[corner] = P[corner];
Ep[corner].AddWithWeight(e0[corner], cosf(faceAngleNext));
Ep[corner].AddWithWeight(e1[corner], sinf(faceAngleNext));
Em[corner] = P[corner];
Em[corner].AddWithWeight(e0[corner], cosf(faceAnglePrev));
Em[corner].AddWithWeight(e1[corner], sinf(faceAnglePrev));
} else if (cornerNumFaces[corner] > 1) {
Ep[corner] = P[corner];
Ep[corner].AddWithWeight(e0[corner], cosf(faceAngleNext));
Ep[corner].AddWithWeight(e1[corner], sinf(faceAngleNext));
Em[corner] = P[corner];
Em[corner].AddWithWeight(e0[corner], cosf(faceAnglePrev));
Em[corner].AddWithWeight(e1[corner], sinf(faceAnglePrev));
} else {
// Edge points are on the control polygon here (with P midway between):
Ep[corner].Clear(stencilCapacity);
Ep[corner].AddWithWeight(facePoints[corner], 2.0f / 3.0f);
Ep[corner].AddWithWeight(facePoints[(corner+1)%4], 1.0f / 3.0f);
Em[corner].Clear(stencilCapacity);
Em[corner].AddWithWeight(facePoints[corner], 2.0f / 3.0f);
Em[corner].AddWithWeight(facePoints[(corner+3)%4], 1.0f / 3.0f);
}
}
//
// The third pass...
//
// Compute the face points Fp and Fm in terms of the vertex (P) and edge points (Ep and
// Em) previously computed.
//
for (int corner = 0; corner < 4; ++corner) {
int cornerNext = (corner+1) % 4;
int cornerOpp = (corner+2) % 4;
int cornerPrev = (corner+3) % 4;
// Identify edges in the ring pointing to the next and previous corner of the
// patch and the intermediate r[] associated with each:
Point const * rp = &r[corner*maxvalence];
Point const & rEdgeNext = rp[cornerPatchFace[corner]];
Point const & rEdgePrev = rp[(cornerPatchFace[corner] + 1) % cornerValences[corner]];
// Coefficients to arrange the face points for tangent continuity across edges:
float cosCorner = cosf(cornerFaceAngle[corner]);
float cosPrev = cosf(cornerFaceAngle[cornerPrev]);
float cosNext = cosf(cornerFaceAngle[cornerNext]);
float s1 = 3.0f - 2.0f * cosCorner - cosNext;
float s2 = 2.0f * cosCorner;
float s3 = 3.0f - 2.0f * cosCorner - cosPrev;
if (! cornerBoundary[corner]) {
Fp[corner].Clear(stencilCapacity);
Fp[corner].AddWithWeight(P[corner], cosNext / 3.0f);
Fp[corner].AddWithWeight(Ep[corner], s1 / 3.0f);
Fp[corner].AddWithWeight(Em[cornerNext], s2 / 3.0f);
Fp[corner].AddWithWeight(rEdgeNext, 1.0f / 3.0f);
Fm[corner].Clear(stencilCapacity);
Fm[corner].AddWithWeight(P[corner], cosPrev / 3.0f);
Fm[corner].AddWithWeight(Em[corner], s3 / 3.0f);
Fm[corner].AddWithWeight(Ep[cornerPrev], s2 / 3.0f);
Fm[corner].AddWithWeight(rEdgePrev, -1.0f / 3.0f);
} else if (cornerNumFaces[corner] > 1) {
Fp[corner].Clear(stencilCapacity);
Fp[corner].AddWithWeight(P[corner], cosNext / 3.0f);
Fp[corner].AddWithWeight(Ep[corner], s1 / 3.0f);
Fp[corner].AddWithWeight(Em[cornerNext], s2 / 3.0f);
Fp[corner].AddWithWeight(rEdgeNext, 1.0f / 3.0f);
Fm[corner].Clear(stencilCapacity);
Fm[corner].AddWithWeight(P[corner], cosPrev / 3.0f);
Fm[corner].AddWithWeight(Em[corner], s3 / 3.0f);
Fm[corner].AddWithWeight(Ep[cornerPrev], s2 / 3.0f);
Fm[corner].AddWithWeight(rEdgePrev, -1.0f / 3.0f);
if (cornerBoundary[cornerPrev]) {
Fp[corner].Clear(stencilCapacity);
Fp[corner].AddWithWeight(P[corner], cosNext / 3.0f);
Fp[corner].AddWithWeight(Ep[corner], s1 / 3.0f);
Fp[corner].AddWithWeight(Em[cornerNext], s2 / 3.0f);
Fp[corner].AddWithWeight(rEdgeNext, 1.0f / 3.0f);
Fm[corner] = Fp[corner];
} else if (cornerBoundary[cornerNext]) {
Fm[corner].Clear(stencilCapacity);
Fm[corner].AddWithWeight(P[corner], cosPrev / 3.0f);
Fm[corner].AddWithWeight(Em[corner], s3 / 3.0f);
Fm[corner].AddWithWeight(Ep[cornerPrev], s2 / 3.0f);
Fm[corner].AddWithWeight(rEdgePrev, -1.0f / 3.0f);
Fp[corner] = Fm[corner];
}
} else {
Fp[corner].Clear(stencilCapacity);
Fp[corner].AddWithWeight(facePoints[corner], 4.0f / 9.0f);
Fp[corner].AddWithWeight(facePoints[cornerOpp], 1.0f / 9.0f);
Fp[corner].AddWithWeight(facePoints[cornerNext], 2.0f / 9.0f);
Fp[corner].AddWithWeight(facePoints[cornerPrev], 2.0f / 9.0f);
Fm[corner] = Fp[corner];
}
}
//
// Offset stencil indices...
//
// These stencils are currently created relative to the level and have levelVertOffset
// to make them absolute indices. But we will be localizing these to the patch itself
// and so any association/mapping with vertices or face-varying values in a Level will
// be handled externally.
//
for (int corner = 0; corner < 4; ++corner) {
P[corner].OffsetIndices(levelVertOffset);
Ep[corner].OffsetIndices(levelVertOffset);
Em[corner].OffsetIndices(levelVertOffset);
Fp[corner].OffsetIndices(levelVertOffset);
Fm[corner].OffsetIndices(levelVertOffset);
}
}
} // end namespace Far
} // end namespace OPENSUBDIV_VERSION
} // end namespace OpenSubdiv
|
1071fb3192f07992275931655a51b7e6e8533d5f | 2cfb9733869dd3f153527ca38b1830bc5f0d918d | /leetcode033.cpp | ce4cd657b4f53322927956567c828f8c2f364ab5 | [] | no_license | nanaya123/Leetcode | 0b1ac0b248495b88133a466f1b0ae3e66f25385d | e08ba3b70ae819798723e0df7919eafd9fadc602 | refs/heads/master | 2022-05-06T15:05:39.227675 | 2022-03-01T13:37:03 | 2022-03-01T13:37:03 | 152,958,187 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 679 | cpp | leetcode033.cpp | #include<iostream>
#include<vector>
#include<unordered_map>
using namespace std;
int main(){
vector<string> strs;
strs.push_back("eat");
strs.push_back("tea");
strs.push_back("tan");
strs.push_back("ate");
strs.push_back("nat");
strs.push_back("bat");
for (int i=0;i<strs.size();i++){
cout << strs[i] << endl;}
vector< vector<string > > res;
unordered_map< string, vector<string> > hash;
for (int i=0;i<strs.size();i++){
string tmp = strs[i];
sort(tmp.begin(), tmp.end());
hash[tmp].push_back(strs[i]);
}
// cout << hash["eat"] << endl;
//cout << hash["tea"] << endl;
//cout << hash['bat'] << endl;
return 0;
}
|
1f87a18111b3b6d577e53fb0d408e18e75999d1b | 5bcfd299db34189ceae6bf5cda00677fc5dced34 | /leetcode/clang/1163. 按字典序排在最后的子串.cpp | f6f901ecf65edfc0707df45ee74fc460baefdc66 | [] | no_license | aidandan/algorithm | 40617151cbffb2279aabe4bdbc57a34ac6f722de | b29cca383654324c4004c6f5fc5ca358f3d51a92 | refs/heads/master | 2023-01-05T00:31:58.006399 | 2020-11-04T13:22:43 | 2020-11-04T13:22:43 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 577 | cpp | 1163. 按字典序排在最后的子串.cpp | #include <stdio.h>
#include <stdlib.h>
#include <string.h>
char *lastSubstring(char *s)
{
if (s == NULL) {
return NULL;
} else {
int len = strlen(s);
int ans = 0;
for (int i = 1; i < len; i++) {
if (s[i] <= s[i - 1]) {
continue;
}
if (strcmp(&s[i], &s[ans]) > 0) {
ans = i;
}
}
return &s[ans];
}
}
int main()
{
// const char *s = "abab"; // bab
const char *s = "zrziy"; // zrziy
const char *s = "aaabbbaaa"; // bbbaaa
s = lastSubstring((char*)s);
printf("%s", s);
return 0;
}
|
a9bc72d3385a49aacf4916269bd1d17dfab2074d | 4424eb0c6d2666a37bbe5b9d6b3550ca11d51729 | /GeneratorSource/Source/UI/BoardList.h | f6a89364443834cf38d8b01e09036f1b5d3771cb | [
"LicenseRef-scancode-proprietary-license",
"MIT"
] | permissive | ercdndrs/Arduino-Source | cd87e4036f0e36c3dd0180448293721be95cc654 | c0490f0f06aaa38759aa8f11def9e1349e551679 | refs/heads/main | 2023-05-05T07:43:52.845481 | 2021-05-24T02:27:25 | 2021-05-24T02:27:25 | 369,910,477 | 0 | 0 | MIT | 2021-05-22T21:39:34 | 2021-05-22T21:39:33 | null | UTF-8 | C++ | false | false | 383 | h | BoardList.h | /* Board List
*
* From: https://github.com/PokemonAutomation/Arduino-Source
*
*/
#ifndef PokemonAutomation_BoardList_H
#define PokemonAutomation_BoardList_H
#include <QComboBox>
namespace PokemonAutomation{
class BoardList : public QComboBox{
public:
BoardList(QWidget& parent);
const std::string& get_board() const;
private:
};
}
#endif
|
55f3f30b793f882ae45556fd2c4a331a09b92311 | 0021f27e4167b31406ff2ccf8770b2c25b41c0d9 | /src/ThreadPool.cpp | c45d8b2aba80ac1849ce1af9e37c2e29838d051b | [
"BSD-3-Clause",
"LicenseRef-scancode-unknown-license-reference"
] | permissive | Tom94/tev | b99ac3679ac0e96c16ba0a6c360e96ee18e844cc | 5153f04bfd548d7507949c64b7aea2cafdedafc7 | refs/heads/master | 2023-09-04T07:23:52.181052 | 2023-09-03T18:38:14 | 2023-09-03T18:38:14 | 101,478,952 | 873 | 87 | BSD-3-Clause | 2023-05-13T05:56:48 | 2017-08-26T10:28:43 | C++ | UTF-8 | C++ | false | false | 2,732 | cpp | ThreadPool.cpp | // This file was developed by Thomas Müller <thomas94@gmx.net>.
// It is published under the BSD 3-Clause License within the LICENSE file.
#include <tev/ThreadPool.h>
#include <chrono>
using namespace std;
namespace tev {
ThreadPool::ThreadPool()
: ThreadPool{thread::hardware_concurrency()} {
}
ThreadPool::ThreadPool(size_t maxNumThreads, bool force) {
if (!force) {
maxNumThreads = min((size_t)thread::hardware_concurrency(), maxNumThreads);
}
startThreads(maxNumThreads);
mNumTasksInSystem.store(0);
}
ThreadPool::~ThreadPool() {
waitUntilFinished();
shutdownThreads(mThreads.size());
}
void ThreadPool::startThreads(size_t num) {
mNumThreads += num;
for (size_t i = mThreads.size(); i < mNumThreads; ++i) {
mThreads.emplace_back([this, i] {
while (true) {
unique_lock lock{mTaskQueueMutex};
// look for a work item
while (i < mNumThreads && mTaskQueue.empty()) {
// if there are none wait for notification
mWorkerCondition.wait(lock);
}
if (i >= mNumThreads) {
break;
}
function<void()> task{move(mTaskQueue.top().fun)};
mTaskQueue.pop();
// Unlock the lock, so we can process the task without blocking other threads
lock.unlock();
task();
mNumTasksInSystem--;
{
unique_lock localLock{mSystemBusyMutex};
if (mNumTasksInSystem == 0) {
mSystemBusyCondition.notify_all();
}
}
}
});
}
}
void ThreadPool::shutdownThreads(size_t num) {
auto numToClose = min(num, mNumThreads);
{
lock_guard lock{mTaskQueueMutex};
mNumThreads -= numToClose;
}
// Wake up all the threads to have them quit
mWorkerCondition.notify_all();
for (auto i = 0u; i < numToClose; ++i) {
mThreads.back().join();
mThreads.pop_back();
}
}
void ThreadPool::waitUntilFinished() {
unique_lock lock{mSystemBusyMutex};
if (mNumTasksInSystem == 0) {
return;
}
mSystemBusyCondition.wait(lock);
}
void ThreadPool::waitUntilFinishedFor(const chrono::microseconds Duration) {
unique_lock lock{mSystemBusyMutex};
if (mNumTasksInSystem == 0) {
return;
}
mSystemBusyCondition.wait_for(lock, Duration);
}
void ThreadPool::flushQueue() {
lock_guard lock{mTaskQueueMutex};
mNumTasksInSystem -= mTaskQueue.size();
while (!mTaskQueue.empty()) {
mTaskQueue.pop();
}
}
}
|
5e1dbd9eb4376596d3856e7b07ee3e1385d24f82 | 5e965dadd4bfaf0f69d96c7a0dd02833caed2c92 | /codeforces/gym/11_01_2016/B/code.cpp | 2c9ca0bd64556f94ad81e30fb852867ec4ef9300 | [
"MIT"
] | permissive | ideahitme/contest | a94d0cd9bd616bbdf378651285b0224eb4f3b99f | fed15465ce1545f5fe30934e8027d47cc79aac36 | refs/heads/master | 2021-09-02T00:51:58.845193 | 2017-12-29T14:13:36 | 2017-12-29T14:13:36 | 109,996,691 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,115 | cpp | code.cpp | #include <algorithm>
#include <vector>
#include <iostream>
#include <string>
#include <queue>
#include <map>
#include <fstream>
#include <ostream>
#include <set>
#include <sstream>
using namespace std;
typedef long long ll;
int main(int argc, char const *argv[])
{
ios::sync_with_stdio(false);
ifstream infile("basketball.in");
ofstream outfile("basketball.out");
map<string, int> scores;
int n;
infile >> n;
for(int i = 0; i < n; i++){
string name;
infile >> name;
scores[name] = 0;
}
int m;
infile >> m;
int x = 0;
int y = 0;
for(int i = 0; i < m; i++){
string s, n;
infile >> s >> n;
stringstream ss;
ss.str(s);
string item;
int newx = -1;
int newy = -1;
while (getline(ss, item, ':')) {
if (newx == -1) {
newx = stoi(item);
} else {
newy = stoi(item);
}
}
scores[n] += (newx-x)+(newy-y);
x = newx; y = newy;
}
int ans = -1;
string person;
for(auto k: scores){
if (k.second > ans) {
person = k.first;
ans = k.second;
}
}
outfile << person << " " << ans << endl;
return 0;
}
|
6faf8335477e77eaf6b0522f15f269c46ac45e47 | 272afb8251b348c1ed3f6f4ea117aa0e0efa5883 | /drxml/drxmlrl.cpp | 5a1e5d9419594fb8e3fda6420cf4a5ea420feb80 | [] | no_license | omsys-dev/original-source | 6c4b8510a3853cb5cacf9d1e51761308df0cb185 | 6b689d2655b57c5d9139362c0bf20b996ac5009d | refs/heads/master | 2021-01-19T20:29:48.540163 | 2014-08-31T22:38:42 | 2014-08-31T22:38:42 | 23,524,397 | 7 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 55,487 | cpp | drxmlrl.cpp | // drxmlrl.cpp is the code for dcl XML related links, JHG
// Copyright (c) 2009 by Omni Systems, Inc. All rights reserved.
#include "dcappl.h"
#include "dcctlg.h"
#include "dcfili.h"
#include "dcfilp.h"
#include "dctxfx.h"
#include "dcfmtr.h"
#include "dcini.h"
#include "dcelem.h"
#include "drxml.h"
#ifdef DITA
#include "expat.h"
#endif
#ifdef UDOC
#include "mxlparser.h"
#include "drxmlud.h"
#endif
#include "drxmlfl.h"
// related topics
// DITA-OT behaviors in XHTML:
// For reltable items, or related-links siblings, list at bottom of
// topic with bold headings: Related concepts:, Related tasks:,
// Related reference:, Related topics:
// For related-links items, if role is not sibling, put link after:
// Previous topic:, Next topic: on same line
// When topics have parent/child relationship in map, put children
// links indented at end with shortdescs, no heading. Parent is
// shown after Parent topic: heading, just link, no shortdesc.
bool XMLrd::InRelLinks = false;
bool XMLrd::InLinkPool = false;
bool XMLrd::InLinkList = false;
bool XMLrd::AppendLinksToTopics = true;
bool XMLrd::GenerateALinks = false;
bool XMLrd::AddContentsLink = false;
bool XMLrd::AddLOFLink = false;
bool XMLrd::AddLOTLink = false;
bool XMLrd::AddGlossaryLink = false;
bool XMLrd::AddIndexLink = false;
char *XMLrd::AddedLinksFormat = "RelatedHead";
char *XMLrd::AddedLinksSpacer = " <U+2022/> ";
char *XMLrd::AddedLinksStart = NULL;
char *XMLrd::AddedLinksEnd = NULL;
bool XMLrd::UseAddedDivider = false;
char *XMLrd::AddedDividerFormat = "RelatedDivider";
char *XMLrd::AddedDividerText = " ";
bool XMLrd::GeneratePrevNext = false;
bool XMLrd::GenerateParentChild = false;
bool XMLrd::GenerateSiblings = false;
bool XMLrd::UsePrevNext = true;
bool XMLrd::UseParent = true;
bool XMLrd::UseChildren = true;
bool XMLrd::UseSiblings = true;
bool XMLrd::UseAncestors = false;
bool XMLrd::UseDescendants = false;
bool XMLrd::UseCousins = false;
bool XMLrd::UseFriends = false;
bool XMLrd::UseTopicTypes = true;
bool XMLrd::UseRelDescription = false;
bool XMLrd::UseRelDescAsTitle = false;
char *XMLrd::PrevHead = "Previous Topic:";
char *XMLrd::NextHead = "Next Topic:";
char *XMLrd::ParentHead = "Parent Topic:";
char *XMLrd::ChildHead = "Child Topics:";
char *XMLrd::SiblingHead = "Sibling Topics:";
char *XMLrd::AncestorHead = "Ancestor Topics:";
char *XMLrd::DescendantHead = "Descendant Topics:";
char *XMLrd::CousinHead = "Cousin Topics:";
char *XMLrd::FriendHead = "Friend Topics:";
char *XMLrd::RelatedHead = "Related Topics:";
char *XMLrd::ConceptsHead = "Related Concepts:";
char *XMLrd::TasksHead = "Related Tasks:";
char *XMLrd::ReferencesHead = "Related References:";
char *XMLrd::HeadInlineFormat = "Strong";
char *XMLrd::HeadBlockFormat = "RelatedHead";
char *XMLrd::TopicTitleFormat = "RelatedTopic";
char *XMLrd::ShortdescFormat = "RelatedDesc";
bool XMLrd::UseRelatedDivider = true;
bool XMLrd::SearchRelatedLinks = false;
bool XMLrd::RelDividerSet = true;
char *XMLrd::RelatedDividerFormat = "RelatedDivider";
char *XMLrd::RelatedDividerText = " ";
// Process related topics after all other ParseXML tasks.
// Determine parents, next, prev, siblings, and children based on
// PageSequence and topic level. Merge other related topics from
// related-links and reltable rows (and maybe siblings), and write.
DCvlist XMLrd::PrevLinks;
DCvlist XMLrd::NextLinks;
DCvlist XMLrd::ParentLinks;
DCvlist XMLrd::ChildLinks;
DCvlist XMLrd::SiblingLinks;
DCvlist XMLrd::AncestorLinks;
DCvlist XMLrd::DescendantLinks;
DCvlist XMLrd::CousinLinks;
DCvlist XMLrd::FriendLinks;
DCvlist XMLrd::ConceptLinks;
DCvlist XMLrd::TaskLinks;
DCvlist XMLrd::ReferenceLinks;
DCvlist XMLrd::RelatedLinks;
DClist *XMLrd::CurrChildLinks = NULL;
DClist *XMLrd::CurrSiblingLinks = NULL;
DClist *XMLrd::CurrAncestorLinks = NULL;
DClist *XMLrd::CurrDescendantLinks = NULL;
DClist *XMLrd::CurrCousinLinks = NULL;
DClist *XMLrd::CurrFriendLinks = NULL;
DClist *XMLrd::CurrConceptLinks = NULL;
DClist *XMLrd::CurrTaskLinks = NULL;
DClist *XMLrd::CurrReferenceLinks = NULL;
DClist *XMLrd::CurrRelatedLinks = NULL;
DCvlist XMLrd::TopicSequence;
DCnlist XMLrd::TopicSeqHrefs; // seqtopics indexed by href of topic
long XMLrd::TSeqCount = 0;
void
XMLrd::ProcessRelatedTopics(void)
{
long topic = 0;
long lasttopic = 0;
long tmptopic = 0;
DCtopic *ctopic = NULL;
DCtopic *otopic = NULL;
DCtopic *ptopic = NULL;
DCtopic *stopic = NULL;
DCtopic *ttopic = NULL;
long clevel = 0;
long olevel = 0;
DClist *nlist = NULL;
DCvlist cparents;
rellink *rl = NULL;
seqtopic *cseq = NULL;
seqtopic *oseq = NULL;
seqtopic *pseq = NULL;
seqtopic *sseq = NULL;
seqtopic *tseq = NULL;
seqtopic *tnxt = NULL;
rellinkinfo *ri = NULL;
// determine topic sequence
lasttopic = GetTopicSequence();
if (GeneratePrevNext
|| GenerateParentChild
|| GenerateSiblings) {
// go through TopicSequence and identify relatives
for (topic = 1; topic <= lasttopic; topic++) {
if (ctopic)
otopic = ctopic;
oseq = cseq;
cseq = (seqtopic *) TopicSequence.find(topic);
if (!cseq)
continue;
ctopic = cseq->topic; // NULL for topicheads
if (ctopic
&& !ctopic->mref->userel)
continue;
olevel = clevel;
clevel = cseq->level;
if (ctopic // topicheads don't have rellinks
&& !ctopic->rlinks)
ctopic->rlinks = new rellinkinfo;
if (GeneratePrevNext) {
if (ctopic) {
if (topic > 1) {
tmptopic = topic;
do {
tseq = (seqtopic *) TopicSequence.find(--tmptopic);
} while (tseq && !tseq->topic && (tmptopic > 0));
if (tseq) {
ctopic->rlinks->lprev = new rellink;
ctopic->rlinks->lprev->seq = tseq;
ctopic->rlinks->lprev->ltopic = tseq->topic;
}
}
if (topic < lasttopic) {
tmptopic = topic;
do {
tseq = (seqtopic *) TopicSequence.find(++tmptopic);
} while (tseq && !tseq->topic && (tmptopic <= lasttopic));
if (tseq) {
ctopic->rlinks->lnext = new rellink;
ctopic->rlinks->lnext->seq = tseq;
ctopic->rlinks->lnext->ltopic = tseq->topic;
}
}
}
}
if (GenerateParentChild
&& (topic > 1)) {
if (clevel > olevel) // prev is parent
cparents.replace(pseq = oseq, olevel);
else if (clevel < olevel) { // moved up
if (clevel > 1) // get parent
pseq = (seqtopic *) cparents.find(clevel - 1);
else
pseq = NULL;
}
if (pseq
&& ctopic) { // pseq is our parent
ptopic = pseq->topic;
ctopic->rlinks->lparent = new rellink;
ctopic->rlinks->lparent->seq = pseq;
ctopic->rlinks->lparent->ltopic = ptopic;
if (ptopic
&& ptopic->rlinks) { // topicheads don't have children
if (!ptopic->rlinks->lchildren)
ptopic->rlinks->lchildren = new DClist;
rl = new rellink;
rl->ltopic = ctopic;
rl->seq = cseq;
ptopic->rlinks->lchildren->add((long) rl);
}
}
}
if (GenerateSiblings
&& (topic > 1)) {
if (clevel < olevel)
sseq = (seqtopic *) cparents.find(clevel);
else {
if (clevel == olevel) // prev is sibling, get its siblings
sseq = oseq;
else
sseq = NULL;
cparents.replace(cseq, clevel);
}
if (sseq) {
stopic = sseq->topic;
if (stopic
&& ctopic
&& stopic->rlinks) {
if (!stopic->rlinks->lsiblings)
stopic->rlinks->lsiblings = new DClist();
ctopic->rlinks->lsiblings = new DClist(stopic->rlinks->lsiblings);
// add this topic to all previous siblings lists
nlist = ctopic->rlinks->lsiblings;
rl = new rellink;
rl->ltopic = ctopic;
rl->seq = cseq;
while((nlist = nlist->next) != NULL) {
ttopic = ((rellink *) nlist->id)->ltopic;
ttopic->rlinks->lsiblings->add((long) rl);
}
stopic->rlinks->lsiblings->add((long) rl);
rl = new rellink;
rl->ltopic = stopic;
rl->seq = sseq;
ctopic->rlinks->lsiblings->add((long) rl);
}
}
}
}
}
// for each topic, combine related-links and reltable items
for (topic = 1; topic <= lasttopic; topic++) {
cseq = (seqtopic *) TopicSequence.find(topic);
if (cseq)
ctopic = cseq->topic;
if (ctopic) { // topics, not topicheads
if (!ctopic->mref->userel)
continue;
if (GenerateALinks) {
char *alid = ctopic->alinkid;
if (alid) {
long aln = RelAlinkNames(alid);
DClist *al = (DClist *) RelAlinkRefs.find(aln);
if (al && al->count())
SetRelTopicAlinks(al, ctopic);
}
}
ri = ctopic->rlinks;
if (ri == NULL)
ri = ctopic->rlinks = new rellinkinfo;
// collect reltable and related-links items and add to
// rellinks in topic, including the seqs for them
// if we make a single rellink item for each topic,
// we can reuse it in references in other topics
// if topic is first in its doc, it may be identified in the
// reltable lists by hrefs both with and without topic id
if (UsePrevNext) {
SetSingleRelLink(&ri->lprev, (rellink *) PrevLinks.find((long) ctopic));
SetSingleRelLink(&ri->lnext, (rellink *) NextLinks.find((long) ctopic));
}
if (UseParent)
SetSingleRelLink(&ri->lparent, (rellink *) ParentLinks.find((long) ctopic));
if (UseChildren
|| (AddTopicHeadChildren
&& ctopic->headchildren))
SetRelLinkGroup(&ri->lchildren, (DClist *) ChildLinks.find((long) ctopic));
if (UseSiblings)
SetRelLinkGroup(&ri->lsiblings, (DClist *) SiblingLinks.find((long) ctopic));
if (UseAncestors)
SetRelLinkGroup(&ri->lancestors, (DClist *) AncestorLinks.find((long) ctopic));
if (UseDescendants)
SetRelLinkGroup(&ri->ldescendants, (DClist *) DescendantLinks.find((long) ctopic));
if (UseCousins)
SetRelLinkGroup(&ri->lcousins, (DClist *) CousinLinks.find((long) ctopic));
if (UseFriends)
SetRelLinkGroup(&ri->lfriends, (DClist *) FriendLinks.find((long) ctopic));
if (UseTopicTypes) {
SetRelLinkGroup(&ri->lconcepts, (DClist *) ConceptLinks.find((long) ctopic));
SetRelLinkGroup(&ri->ltasks, (DClist *) TaskLinks.find((long) ctopic));
SetRelLinkGroup(&ri->lreferences, (DClist *) ReferenceLinks.find((long) ctopic));
}
SetRelLinkGroup(&ri->lrelated, (DClist *) RelatedLinks.find((long) ctopic));
// now get the reltable items
if (ctopic->mref->href) {
nlist = (DClist *) RelTableLinkList.getitem(ctopic->mref->href);
if (nlist) {
while ((nlist = nlist->next) != NULL) {
rl = (rellink *) nlist->id;
tseq = (seqtopic *) TopicSeqHrefs.getitem(rl->lhref);
rl->seq = tseq;
if (UseTopicTypes) {
switch (rl->at->ltoptype) {
case rlconcept:
SetRelLinkGroupItem(&ri->lconcepts, rl);
break;
case rltask:
SetRelLinkGroupItem(&ri->ltasks, rl);
break;
case rlreference:
SetRelLinkGroupItem(&ri->lreferences, rl);
break;
default:
SetRelLinkGroupItem(&ri->lrelated, rl);
break;
}
}
else
SetRelLinkGroupItem(&ri->lrelated, rl);
}
}
}
}
}
if (GenerateALinks)
SetReltableAlinks();
// write desired links at end of topic
if (AppendLinksToTopics
|| GenerateALinks) {
for (topic = 1; topic <= lasttopic; topic++) {
tseq = (seqtopic *) TopicSequence.find(topic);
tnxt = (seqtopic *) TopicSequence.find(topic + 1);
if (tseq->topic
&& !tseq->topic->mref->userel)
continue;
WriteRelatedLinks(tseq->topic, tnxt ? tnxt->topic : NULL);
}
}
}
long
XMLrd::GetTopicSequence(void)
{
// what if just nested topics with no map? ****
// need to generate our own TOC from the topics then...
ProcMapPageGroup();
DCpage *cpg = NULL;
DCvlist *ts = &TopicSequence;
seqtopic *seq = NULL;
DCtopic *ctopic = NULL;
if (!ts->next)
return 0;
for (PageSeqNum = UseContents ? 2 : 1; // start after map page
PageSeqNum <= LastPageSeq;
PageSeqNum++) {
cpg = (DCpage *) Pages.find(PageSequence.find(PageSeqNum));
if (((ctopic = cpg->topic) == NULL)
|| !ctopic->userel)
continue;
if (!ts)
break;
while ((ts = ts->next) != NULL) {
seq = (seqtopic *) ts->vp;
if (seq->type == sqtopic) {
seq->topic = ctopic;
if (ctopic->mref) {
char *href = ctopic->mref->href;
TopicSeqHrefs.add(href, (long) seq);
if (ctopic->topicnum == 1) { // first in doc
char *hash = strchr(href, '#');
char *alt = NULL;
if (hash)
alt = NewName(href, hash - href);
else if (ctopic->id) {
alt = NewName(href, strlen(href) + strlen(ctopic->id) + 1);
strcat(alt, "#");
strcat(alt, ctopic->id);
}
if (alt)
TopicSeqHrefs.add(alt, (long) seq);
}
}
break;
}
}
}
return TSeqCount;
}
void
XMLrd::ProcMapPageGroup(void)
{
DCpage *cpg = NULL; //(DCpage *) Pages.find(1);
DCitem *item = NULL; //cpg->pgroup->first;
while ((cpg = (DCpage *) MapPages.dequeue()) != NULL) {
item = cpg->pgroup->first;
if (cpg->pgroup == TOCWrapper)
continue;
for (; item != NULL; item = item->next) { // step through group
if (item->ctl == cpg->pagetext) { // skip to start of text group
ProcMapGroup(item->next, NULL);
break;
}
}
}
if (TOCWrapper)
ProcMapGroup(TOCWrapper->first, NULL);
}
DCgroup *
XMLrd::ProcMapGroup(DCitem *item, DCgroup *mgp)
{
static seqtopic *seq = NULL;
DCctl *cp = NULL;
DCctl *start = NULL;
if (!item)
return NULL;
for (; item != NULL; item = item->next) { // step through group
if (mgp) {
if ((item->ctl->dt() == imnem)
&& (item->ctl->maj() == 2)
&& (item->ctl->min() == 122)
&& (item->ctl->siz() == 0)) // map group ctl end
mgp = NULL;
else if ((item->ctl->dt() == etext)
&& (item->ctl->maj() == 2)
&& (item->ctl->min() == 112)
&& (item->ctl->dat() == 2)) {
if (seq && (seq->type == sqhead)) {
cp = new DCctl(etext, 2, 112, 4);
cp->ex(item->ctl->ex(), item->ctl->siz());
mgp->add(*cp);
}
continue; // skip location ctls
}
else if ((item->ctl->dt() == ilong)
&& (item->ctl->maj() == 2)
&& (item->ctl->min() == 112)
&& (item->ctl->dat() == 2))
continue; // skip location ctls
else if ((item->ctl->dt() == group)
&& (item->ctl->maj() == 2)
&& (item->ctl->min() == 110)
&& (item->ctl->dat() == 1))
continue; // skip index item groups
else if ((item->ctl->dt() == etext)
&& (item->ctl->maj() == 2)
&& (item->ctl->min() == 121))
return mgp; // skip attribute groups
#if 0
else if ((item->ctl->dt() == group)
&& (item->ctl->maj() == 1)
&& (item->ctl->min() == 30)
&& (item->ctl->dat() == 1))
continue; // skip dcl ignore groups
#endif
else if ((item->ctl->dt() == group)
&& (item->ctl->maj() == 2)
&& (item->ctl->min() == 10)
&& (item->ctl->dat() == 7)
&& (((DCgroup *) item->ctl)->first != NULL)
&& (((DCgroup *) item->ctl)->first != (DCitem *) 0xBAADF00D)) {
// proc text obj xref groups
start = ((DCgroup *) item->ctl)->first->ctl;
DCgroup *xgp = new DCgroup(DCctl(group, 2, 10, 7));
mgp->add(*((DCctl*) xgp));
ProcMapGroup(((DCgroup *) item->ctl)->first, xgp);
}
else if ((item->ctl->dt() == group)
&& (item->ctl->maj() == 0)
&& (item->ctl->min() == 0)
&& (((DCgroup *) item->ctl)->first != NULL)
&& (((DCgroup *) item->ctl)->first != (DCitem *) 0xBAADF00D)) {
start = ((DCgroup *) item->ctl)->first->ctl;
if ((start->dt() == etext)
&& (start->maj() == 2)
&& (start->min() == 121))
continue; // skip attribute groups
mgp = ProcMapGroup(((DCgroup *) item->ctl)->first, mgp);
}
else
mgp->add(*(item->ctl));
}
else if (item->ctl->dt() == group) {
if ((item->ctl->maj() == 2)
&& (item->ctl->min() == 110)
&& (item->ctl->dat() == 1))
continue; // skip index item groups
else if ((item->ctl->dt() == group)
&& (item->ctl->maj() == 2)
&& (item->ctl->min() == 10)
&& (item->ctl->dat() == 7))
continue; // skip xref groups
#if 0
else if ((item->ctl->maj() == 1)
&& (item->ctl->min() == 30)
&& (item->ctl->dat() == 1))
continue; // skip dcl ignore groups
else if ((item->ctl->maj() == 1)
&& (item->ctl->min() == 30)
&& (item->ctl->dat() == 2))
continue; // skip dcl ignore groups
#endif
#if 0
else if ((item->ctl->maj() == 2)
&& (item->ctl->min() == 75)
&& (((DCgroup *) item->ctl)->first != NULL)
&& (((DCgroup *) item->ctl)->first != (DCitem *) 0xBAADF00D)) {
start = ((DCgroup *) item->ctl)->first->ctl;
mgp = ProcMapGroup(((DCgroup *) item->ctl)->first, mgp);
}
else if ((item->ctl->maj() == 0)
&& (item->ctl->min() == 0)
&& (((DCgroup *) item->ctl)->first != NULL)
&& (((DCgroup *) item->ctl)->first != (DCitem *) 0xBAADF00D)) {
start = ((DCgroup *) item->ctl)->first->ctl;
if ((start->dt() == etext)
&& (start->maj() == 2)
&& (start->min() == 121))
continue; // skip attribute groups
mgp = ProcMapGroup(((DCgroup *) item->ctl)->first, mgp);
}
#endif
else if ((((DCgroup *) item->ctl)->first != NULL)
&& ( (unl) ((DCgroup *) item->ctl)->first > 0x1000)
&& (((DCgroup *) item->ctl)->first != (DCitem *) 0xBAADF00D)) {
start = ((DCgroup *) item->ctl)->first->ctl;
if ((start->dt() == etext)
&& (start->maj() == 2)
&& (start->min() == 121))
continue; // skip attribute groups
mgp = ProcMapGroup(((DCgroup *) item->ctl)->first, mgp);
}
}
else if ((item->ctl->dt() == imnem)
&& (item->ctl->maj() == 2)
&& (item->ctl->min() == 122)
&& (item->ctl->dat() != 0)) { // map group ctl start
switch (item->ctl->dat()) {
case 1: // head
mgp = new DCgroup();
seq = new seqtopic;
seq->type = sqhead;
seq->level = item->ctl->siz();
seq->title = mgp;
TopicSequence.add(seq, ++TSeqCount);
break;
case 2: // topic
mgp = new DCgroup();
seq = new seqtopic;
seq->type = sqtopic;
seq->level = item->ctl->siz();
seq->title = mgp;
TopicSequence.add(seq, ++TSeqCount);
break;
case 3: // desc
if (seq) {
mgp = new DCgroup();
seq->desc = mgp;
seq = NULL;
}
break;
default:
break;
}
}
}
return mgp;
}
void
XMLrd::SetSingleRelLink(rellink **prl, rellink *nl)
{
if (!nl // no explicit setting
|| *prl) // already set from sequence
return;
if (!nl->seq) // always sclocal, look for it in TopicSequence
nl->seq = FindSeqTopic(nl);
if (nl->seq)
*prl = nl;
}
void
XMLrd::SetRelLinkGroup(DClist **prlist, DClist *nlist)
{
if (!nlist) // no settings to add
return;
if (!*prlist) // no settings made yet
*prlist = new DClist;
rellink *rl = NULL;
while ((nlist = nlist->next) != NULL) {
rl = (rellink *) nlist->id;
if (!rl->seq && !rl->ltopic) {
if (rl->at->lscope == scpeer) { // change suffix for peer link
}
else if (rl->at->lscope == scexternal) { // should be a URL
}
else { // sclocal is default, identify correct seq
if ((rl->seq = FindSeqTopic(rl)) == NULL)
continue;
if (SeqInList(rl->seq, *prlist))
continue;
}
}
(*prlist)->add((long) rl);
}
}
void
XMLrd::SetRelLinkGroupItem(DClist **prlist, rellink *rl)
{
if (!rl) // nothing to add
return;
if (!*prlist) // no settings made yet
*prlist = new DClist;
if (!rl->seq && !rl->ltopic) {
if (rl->at->lscope == scpeer) // change suffix for peer link
rl->lhref = SetPeerLink(rl->lhref);
else if (rl->at->lscope == scexternal) { // should be a URL
}
else { // sclocal is default, identify correct seq
if ((rl->seq = FindSeqTopic(rl)) == NULL)
return;
if (SeqInList(rl->seq, *prlist))
return;
}
}
(*prlist)->add((long) rl);
}
seqtopic *
XMLrd::FindSeqTopic(rellink *rl)
{
DCvlist *ts = &TopicSequence;
seqtopic *tseq = NULL;
if (rl->lhref
&& ((tseq = (seqtopic *) TopicSeqHrefs.getitem(rl->lhref)) != NULL))
return tseq;
while ((ts = ts->next) != NULL) {
tseq = (seqtopic *) ts->vp;
if (tseq->topic) {
if (rl->ltopic == tseq->topic)
return tseq;
if (rl->lhref
&& tseq->topic->mref
&& tseq->topic->mref->href
&& !strcmp(rl->lhref, tseq->topic->mref->href))
return tseq;
}
}
return NULL; // not found
}
bool
XMLrd::SeqInList(seqtopic *seq, DClist *lst)
{
rellink *rl = NULL;
while ((lst = lst->next) != NULL) {
rl = (rellink *) lst->id;
if (rl->seq == seq)
return true;
}
return false;
}
void
XMLrd::SetRelTopicAlinks(DClist *al, DCtopic *ctopic)
{
// go through list of hrefs, find topics, and add alid to each
char *alid = ctopic->alinkid;
DCtopic *topic = NULL;
while (al->next) {
topic = FindSeqTopicHref((char *) al->id);
SetOneTopicAlink(alid, topic);
al = al->next;
}
}
void
XMLrd::SetReltableAlinks(void)
{
// go through ReltableAlinkRefs and for each row,
// set ReltableAlinkNames in topic-alinks for each topicref
char *alid = NULL;
DCmapelem *mref = NULL;
DCtopic *topic = NULL;
for (long i = 1; i <= ReltableAlinkNameCount; i++) {
alid = ReltableAlinkNames.find(i);
RelRowAlinkRefs = (DClist *) ReltableAlinkRefs.find(i);
while (RelRowAlinkRefs->next) {
mref = (DCmapelem *) RelRowAlinkRefs->next->id;
topic = FindSeqTopicHref(mref->href);
SetOneTopicAlink(alid, topic);
}
}
}
void
XMLrd::SetOneTopicAlink(char *alid, DCtopic *topic)
{
char *al = NULL;
if (topic) {
DClist *alids = topic->alinks;
if (!alids) {
alids = new DClist;
topic->alinks = alids;
}
else { // look for duplicate
DClist *ap = alids;
while ((ap = ap->next) != NULL) {
al = (char *) ap->id;
if ((al == alid)
|| !stricmp(al, alid))
return; // already there
}
}
alids->add((long) alid);
}
}
DCtopic *
XMLrd::FindSeqTopicHref(char *href)
{
DCvlist *ts = &TopicSequence;
seqtopic *tseq = NULL;
tseq = (seqtopic *) TopicSeqHrefs.getitem(href);
if (tseq)
return tseq->topic;
while ((ts = ts->next) != NULL) {
tseq = (seqtopic *) ts->vp;
if (tseq->topic) {
if (tseq->topic->mref
&& tseq->topic->mref->href
&& !strcmp(href, tseq->topic->mref->href))
return tseq->topic;
}
}
return NULL; // not found
}
void
XMLrd::WriteRelatedLinks(DCtopic *topic, DCtopic *nexttopic)
{
if (!topic)
return;
static bool merging = false;
static bool merged = false;
static rellinkinfo *rlinks = NULL;
static DCgroup *headchildren = NULL;
static DClist *topset = NULL;
static rellink *rltop = NULL;
TextGroup = topic->page->relend;
topic->page->setgroup(&TextGroup);
PageStarted = true;
if (GenerateALinks) {
DClist *al = topic->alinks;
if (al) {
while (al->next) {
WriteAlink((char *) al->next->id);
al = al->next;
}
}
}
if (AppendLinksToTopics) {
if (nexttopic
&& !nexttopic->chunked) {
if (!merging) { // first one, set up statics
merging = true;
rlinks = new rellinkinfo;
topset = new DClist;
topset->add((long) topic);
rltop = nexttopic->rlinks->lprev;
// set prev and parent
if (UsePrevNext)
rlinks->lprev = topic->rlinks->lprev;
if (UseParent)
rlinks->lparent = topic->rlinks->lparent;
// set up siblings, children, and rest to be processed
if (AddTopicHeadChildren)
headchildren = topic->headchildren;
else if (UseChildren)
rlinks->lchildren = topic->rlinks->lchildren;
if (UseSiblings)
rlinks->lsiblings = topic->rlinks->lsiblings;
if (UseAncestors)
rlinks->lancestors = topic->rlinks->lancestors;
if (UseDescendants)
rlinks->ldescendants = topic->rlinks->ldescendants;
if (UseCousins)
rlinks->lcousins = topic->rlinks->lcousins;
if (UseFriends)
rlinks->lfriends = topic->rlinks->lfriends;
if (UseTopicTypes) {
rlinks->lconcepts = topic->rlinks->lconcepts;
rlinks->ltasks = topic->rlinks->ltasks;
rlinks->lreferences = topic->rlinks->lreferences;
}
rlinks->lrelated = topic->rlinks->lrelated;
}
else // middle topic, remove from siblings and children
CombineRelLinks(rlinks, topic->rlinks, topset, topic);
}
else if (merging) {
// end of merge, set next, remove from siblings and children
if (UsePrevNext)
rlinks->lnext = topic->rlinks->lnext;
CombineRelLinks(rlinks, topic->rlinks, topset, topic);
// put out results
if (UseRelatedDivider
|| !SearchRelatedLinks)
RelDividerSet = false;
if (UsePrevNext) {
WriteSingleRelLink(PrevHead, rlinks->lprev);
WriteSingleRelLink(NextHead, rlinks->lnext);
}
if (UseParent)
WriteSingleRelLink(ParentHead, rlinks->lparent);
if (AddTopicHeadChildren
&& headchildren)
WriteTopicHeadChildren(headchildren, rlinks->lchildren);
else if (UseChildren)
WriteRelLinkGroup(ChildHead, rlinks->lchildren);
if (UseSiblings)
WriteRelLinkGroup(SiblingHead, rlinks->lsiblings);
if (UseAncestors)
WriteRelLinkGroup(AncestorHead, rlinks->lancestors);
if (UseDescendants)
WriteRelLinkGroup(DescendantHead, rlinks->ldescendants);
if (UseCousins)
WriteRelLinkGroup(CousinHead, rlinks->lcousins);
if (UseFriends)
WriteRelLinkGroup(FriendHead, rlinks->lfriends);
if (UseTopicTypes) {
WriteRelLinkGroup(ConceptsHead, rlinks->lconcepts);
WriteRelLinkGroup(TasksHead, rlinks->ltasks);
WriteRelLinkGroup(ReferencesHead, rlinks->lreferences);
}
WriteRelLinkGroup(RelatedHead, rlinks->lrelated);
WriteAddedLinks();
merging = false;
rlinks = NULL;
headchildren = NULL;
topset = NULL;
merged = true;
}
else {
if (merged) { // first after merged set
topic->rlinks->lprev = rltop;
rltop = NULL;
merged = false;
}
if (UseRelatedDivider
|| !SearchRelatedLinks)
RelDividerSet = false;
if (UsePrevNext) {
WriteSingleRelLink(PrevHead, topic->rlinks->lprev);
WriteSingleRelLink(NextHead, topic->rlinks->lnext);
}
if (UseParent)
WriteSingleRelLink(ParentHead, topic->rlinks->lparent);
if (AddTopicHeadChildren
&& topic->headchildren)
WriteTopicHeadChildren(topic->headchildren, topic->rlinks->lchildren);
else if (UseChildren)
WriteRelLinkGroup(ChildHead, topic->rlinks->lchildren);
if (UseSiblings)
WriteRelLinkGroup(SiblingHead, topic->rlinks->lsiblings);
if (UseAncestors)
WriteRelLinkGroup(AncestorHead, topic->rlinks->lancestors);
if (UseDescendants)
WriteRelLinkGroup(DescendantHead, topic->rlinks->ldescendants);
if (UseCousins)
WriteRelLinkGroup(CousinHead, topic->rlinks->lcousins);
if (UseFriends)
WriteRelLinkGroup(FriendHead, topic->rlinks->lfriends);
if (UseTopicTypes) {
WriteRelLinkGroup(ConceptsHead, topic->rlinks->lconcepts);
WriteRelLinkGroup(TasksHead, topic->rlinks->ltasks);
WriteRelLinkGroup(ReferencesHead, topic->rlinks->lreferences);
}
WriteRelLinkGroup(RelatedHead, topic->rlinks->lrelated);
WriteAddedLinks();
}
}
PageStarted = false;
TextGroup = NULL;
}
void
XMLrd::CombineRelLinks(rellinkinfo *rlinks, rellinkinfo *tlinks,
DClist *topset, DCtopic *topic)
{
// add current topic to set
topset->add((long) topic);
// remove current topic from rlinks
RemoveRelLink(rlinks->lchildren, topic);
RemoveRelLink(rlinks->lsiblings, topic);
// add current topic's refs that are not in topset to rlinks
MergeRelLink(rlinks->lchildren, tlinks->lchildren, topset);
MergeRelLink(rlinks->lsiblings, tlinks->lsiblings, topset);
}
void
XMLrd::RemoveRelLink(DClist *links, DCtopic *topic)
{
if (!links || !topic)
return;
rellink *rl = NULL;
while (links->next) {
rl = (rellink *) links->next->id;
if (rl->ltopic == topic) {
links->next = links->next->next;
break;
}
links = links->next;
}
}
void
XMLrd::MergeRelLink(DClist *links, DClist *merge, DClist *topset)
{
if (!links || !merge || !topset)
return;
rellink *rl = NULL;
while (merge->next) {
rl = (rellink *) merge->next->id;
if (topset->find((long) (rl->ltopic)) == NULL)
links->add((long) rl);
merge = merge->next;
}
}
void
XMLrd::WriteAlink(char *alname)
{
DCctl *cp = new DCctl(etext, 2, 110, 3);
char *txt = NewName("alink:", strlen(alname) + 7);
strcat(txt, alname);
cp->ex(txt, strlen(txt));
TextGroup->add(*cp);
}
bool XMLrd::AddedLinksSet = false;
bool XMLrd::AddedLinksUsed = false;
DCgroup *XMLrd::AddedLinksGroup = NULL;
DCgroup *XMLrd::ContentsLinkGroup = NULL;
DCgroup *XMLrd::LOFLinkGroup = NULL;
DCgroup *XMLrd::LOTLinkGroup = NULL;
DCgroup *XMLrd::GlossaryLinkGroup = NULL;
DCgroup *XMLrd::IndexLinkGroup = NULL;
DCgroup *XMLrd::AddSpacerGroup = NULL;
DCgroup *XMLrd::AddStartGroup = NULL;
DCgroup *XMLrd::AddEndGroup = NULL;
void
XMLrd::WriteAddedLinks(void)
{
if (!AddedLinksSet)
SetUpAddedLinks();
if (!AddedLinksUsed)
return;
TextGroup->add(*AddedLinksGroup);
}
void
XMLrd::SetUpAddedLinks(void)
{
AddedLinksSet = true;
// make components
if (AddContentsLink) {
ContentsLinkGroup = new DCgroup;
SetOneAddedLink(ContentsLinkGroup, "Rtoc", TOCTitle);
AddedLinksUsed = true;
}
if (AddLOFLink) {
LOFLinkGroup = new DCgroup;
SetOneAddedLink(LOFLinkGroup, "Rlof", LOFTitle);
AddedLinksUsed = true;
}
if (AddLOTLink) {
LOTLinkGroup = new DCgroup;
SetOneAddedLink(LOTLinkGroup, "Rlot", LOTTitle);
AddedLinksUsed = true;
}
if (AddGlossaryLink) {
GlossaryLinkGroup = new DCgroup;
SetOneAddedLink(GlossaryLinkGroup, "Rgls", GLSTitle);
AddedLinksUsed = true;
}
if (AddIndexLink) {
IndexLinkGroup = new DCgroup;
SetOneAddedLink(IndexLinkGroup, "Ridx", IDXTitle);
AddedLinksUsed = true;
}
if (!AddedLinksUsed)
return;
if (AddedLinksSpacer) {
AddSpacerGroup = new DCgroup;
WriteSubformatHead(AddSpacerGroup, NULL,
AddedLinksSpacer, NULL, "AddedLinksSpacer");
}
if (AddedLinksStart) {
AddStartGroup = new DCgroup;
WriteSubformatHead(AddStartGroup, NULL,
AddedLinksStart, NULL, "AddedLinksStart");
}
if (AddedLinksEnd) {
AddEndGroup = new DCgroup;
WriteSubformatHead(AddEndGroup, NULL,
AddedLinksEnd, NULL, "AddedLinksEnd");
}
// assemble the line
bool start = true;
DCgroup *tg = TextGroup;
AddedLinksGroup = new DCgroup;
TextGroup = AddedLinksGroup;
if (UseAddedDivider) {
StartPara();
SetFormat(AddedDividerFormat);
if (AddedDividerText)
PutTextStrCtl(AddedDividerText);
EndPara();
}
StartPara();
SetFormat(AddedLinksFormat);
if (AddStartGroup)
TextGroup->add(*AddStartGroup);
if (ContentsLinkGroup) {
TextGroup->add(*ContentsLinkGroup);
start = true;
}
if (LOFLinkGroup) {
if (start)
TextGroup->add(*AddSpacerGroup);
TextGroup->add(*LOFLinkGroup);
start = true;
}
if (LOTLinkGroup) {
if (start)
TextGroup->add(*AddSpacerGroup);
TextGroup->add(*LOTLinkGroup);
start = true;
}
if (GlossaryLinkGroup) {
if (start)
TextGroup->add(*AddSpacerGroup);
TextGroup->add(*GlossaryLinkGroup);
start = true;
}
if (IndexLinkGroup) {
if (start)
TextGroup->add(*AddSpacerGroup);
TextGroup->add(*IndexLinkGroup);
}
if (AddEndGroup)
TextGroup->add(*AddEndGroup);
EndPara();
TextGroup = tg;
}
void
XMLrd::SetOneAddedLink(DCgroup *gp, char *fanchor, char *txt)
{
DCgroup *tg = TextGroup;
TextGroup = gp;
SetFormat(AddedLinksFormat, true);
DCctl *cp = new DCctl(etext, 2, 112, 3);
cp->ex(MainDocName, strlen(MainDocName));
if (IsRtf)
cp->maj((uns) 0); // remove it
TextGroup->add(*cp);
cp = new DCctl(etext, 2, 112, 4);
cp->ex(fanchor, strlen(fanchor));
TextGroup->add(*cp);
PutTextStrCtl(txt);
SetFormat(NULL, true);
TextGroup = tg;
}
void
XMLrd::WriteRelLinkGroup(char *title, DClist *linklist)
{
if (!linklist
|| !linklist->next)
return;
if (!RelDividerSet)
WriteRelDivider();
// write heading line
if (title
&& *title) {
StartPara();
SetFormat(HeadBlockFormat);
PutTextStrCtl(title);
EndPara();
}
WriteRelLinkGroupBody(linklist);
}
void
XMLrd::WriteTopicHeadChildren(DCgroup *txtgrp, DClist *linklist)
{
DCgroup *lasttext = TextGroup;
TextGroup = txtgrp;
if (TopicHeadChildHead
&& *TopicHeadChildHead) {
StartPara();
SetFormat(TopicHeadChildHeadFormat);
PutTextStrCtl(TopicHeadChildHead);
EndPara();
}
WriteRelLinkGroupBody(linklist);
TextGroup = lasttext;
}
void
XMLrd::WriteRelLinkGroupBody(DClist *linklist)
{
if (!linklist)
return;
long lnum = 0;
rellink *link = NULL;
// write a line for each link
while (linklist->next) {
linklist = linklist->next;
link = (rellink *) linklist->id;
StartPara();
SetFormat(TopicTitleFormat);
WriteRelLinkTitle(link);
EndPara();
// write desc, if any, on line following each link
if (UseRelDescription)
WriteRelLinkDesc(link);
}
}
void
XMLrd::WriteSingleRelLink(char *title, rellink *link)
{
if (!link)
return;
if (!RelDividerSet)
WriteRelDivider();
// write heading then write link on same line
StartPara();
SetFormat(TopicTitleFormat);
if (title
&& *title) {
SetFormat(HeadInlineFormat, true);
PutTextStrCtl(title);
PutTextCharCtl(0x2003);
SetFormat(NULL, true);
}
WriteRelLinkTitle(link);
EndPara();
// write desc, if any, on following line
if (UseRelDescription)
WriteRelLinkDesc(link);
}
void
XMLrd::WriteRelLinkTitle(rellink *link)
{
DCctl *cp = NULL;
if (UseRelDescAsTitle) {
cp = new DCctl(imnem, 2, 122, 4, 1);
TextGroup->add(*cp);
}
if (link->seq
&& link->seq->title)
TextGroup->add(*(link->seq->title));
else if (link->ltopic
&& link->at) {
// write link and title text, format already set
CurrLinkInfo = new linkinfo;
CurrLinkInfo->href = link->lhref;
SetHyperlink(CurrLinkInfo, link->at->lscope, link->ltopic);
if (link->ltopic->titlechanged) // title ctl is invalid
UpdateTopicTitle(link->ltopic); // may be missing number
PutTextCtrls(link->ltopic->title);
delete CurrLinkInfo;
CurrLinkInfo = NULL;
}
else if (link->at) { // url or peer reference
CurrLinkInfo = new linkinfo;
CurrLinkInfo->href = link->lhref;
SetHyperlink(CurrLinkInfo, link->at->lscope, NULL);
if (link->ltext
&& (link->ltext->first))
PutTextStrCtl((link->ltext)->getText());
//TextGroup->add(*(link->ltext));
else
PutTextStrCtl(link->lhref);
delete CurrLinkInfo;
CurrLinkInfo = NULL;
}
else if (link->ltext
&& (link->ltext->first))
TextGroup->add(*(link->ltext));
if (UseRelDescAsTitle) {
cp = new DCctl(imnem, 2, 122, 4, 0);
TextGroup->add(*cp);
}
}
void
XMLrd::WriteRelLinkDesc(rellink *link)
{
DCctl *cp = NULL;
DCctl *ecp = NULL;
char *txt = NULL;
if (UseRelDescAsTitle) {
cp = new DCctl(imnem, 2, 122, 5, 1);
ecp = new DCctl(imnem, 2, 122, 5, 0);
}
if (link->seq
&& link->seq->desc
&& link->seq->desc->first
&& ((txt = (link->seq->desc)->getText()) != NULL)
&& (*txt != 0)) {
StartPara();
SetFormat(ShortdescFormat);
if (UseRelDescAsTitle)
TextGroup->add(*cp);
TextGroup->add(*(link->seq->desc));
if (UseRelDescAsTitle)
TextGroup->add(*ecp);
EndPara();
}
else {
// write best desc available in link ****
DCgroup *desc = NULL;
if (link->lshort)
desc = link->lshort;
//else if (link->ltext)
// desc = link->ltext;
else if (link->ldesc)
desc = link->ldesc;
else if (link->ltopic
&& link->ltopic->desc)
desc = link->ltopic->desc;
else if (link->seq
&& link->seq->topic
&& link->seq->topic->desc)
desc = link->seq->topic->desc;
if (desc) {
StartPara();
SetFormat(ShortdescFormat);
if (UseRelDescAsTitle)
TextGroup->add(*cp);
TextGroup->add(*desc);
if (UseRelDescAsTitle)
TextGroup->add(*ecp);
EndPara();
}
}
}
void
XMLrd::WriteRelDivider(void)
{
StartPara();
SetFormat(RelatedDividerFormat);
if (!SearchRelatedLinks) {
DCctl *cp = new DCctl(etext, 2, 110, 3);
cp->ex("search:no");
TextGroup->add(*cp);
}
if (UseRelatedDivider
&& RelatedDividerText)
PutTextStrCtl(RelatedDividerText);
EndPara();
RelDividerSet = true;
}
// Process reltables as each map is read. Referenced topics may
// not be included yet; they may need to be added to DocsToGo,
// if they are not added by another map during MapsToGo processing
// Package any shortdesc in the reltable topicref with the link.
DCgroup *XMLrd::PreRelTableTextGroup = NULL;
DCvlist XMLrd::RelColAttrs;
DCvlist XMLrd::RelCellAttrs;
DCvlist XMLrd::RelRowTopicrefs;
long XMLrd::RelColCount = 0;
DCnlist XMLrd::ReltableAlinkNames;
DCvlist XMLrd::ReltableAlinkRefs;
DClist *XMLrd::RelRowAlinkRefs = NULL;
long XMLrd::ReltableAlinkNameCount = 0;
void
XMLrd::ProcReltable(DCmapelem *elem, const char **atts, int depth)
{
static long relcol = 0;
static relattr *rareltable = NULL;
static relattr *rarelrow = NULL;
static relattr *rarelcol = NULL;
static relattr *rarelcell = NULL;
static DClist *cellrefs = NULL;
bool mapref = false;
bool locktitle = false;
const char *idattr = NULL;
const char *navattr = NULL;
const char *typeattr = NULL;
const char *formattr = NULL;
const char *lockattr = NULL;
const char *lockmetattr = NULL;
const char *chunk = NULL;
const char *copyto = NULL;
const char *toc = NULL;
const char *conrefatt = NULL;
const char *conkeyrefatt = NULL;
const char *collection = NULL;
const char *scope = NULL;
const char *linking = NULL;
const char *print = NULL;
const char *search = NULL;
attrp alist[] = {
{"id", &idattr },
{"navtitle", &navattr },
{"type", &typeattr },
{"format", &formattr },
{"locktitle", &lockattr },
{"lockmeta", &lockmetattr },
{"chunk", &chunk },
{"copy-to", ©to },
{"toc", &toc },
{"conref", &conrefatt },
{"conkeyref", &conkeyrefatt },
{"collection-type", &collection },
{"scope", &scope },
{"linking", &linking },
{"print", &print },
{"search", &search },
{NULL, NULL }
};
if (atts && *atts)
ProcAttrs(atts, alist);
if (lockattr
&& !stricmp(lockattr, "yes"))
locktitle = true;
if (locktitle)
elem->usenav = true;
if (navattr)
elem->navtitle = NewName(navattr);
if (toc)
elem->toc = (!stricmp(toc, "no")) ? false : true;
#if 0
if (conkeyrefatt)
SetMapConrefInfo(conkeyrefatt, true);
else if (conrefatt)
SetMapConrefInfo(conrefatt, false);
#endif
if (conrefatt || conkeyrefatt)
CheckMapConref(elem);
if (chunk) {
SetChunkVal(chunk);
elem->copyto = NewName(copyto);
}
if (formattr) {
elem->format = NewName(formattr);
if (!strcmp(formattr, "ditamap"))
mapref = true;
}
relattr *ra = new relattr;
elem->ar = ra;
if (scope)
ra->lscope = (scopetyp) LinkScopes.getitem(scope);
if (typeattr) {
ra->ltype = NewName(typeattr);
ra->ltoptype = (roletyp) LinkRoles.getitem(typeattr);
}
if (formattr) {
ra->lform = NewName(formattr);
ra->lftype = (formtyp) LinkForms.getitem(formattr);
}
if (collection) {
ra->lcoll = NewName(collection);
ra->lcollect = (colltyp) LinkCollTypes.getitem(collection);
}
if (linking) {
ra->linking = NewName(linking);
ra->links = (linktyp) LinkingTypes.getitem(linking);
}
// attribute inheritance, from least to most specific:
// reltable, relcolspec, relrow, relcell, topicgroup/head, topicref
if (elem->checkType((epRel << 8) | epMap)) { // reltable
relcol = 0;
RelColAttrs.empty();
rareltable = ra;
RelColCount = 0;
PreRelTableTextGroup = TextGroup;
}
else if (elem->checkType((epTabRow << 8) | epTabHead)) { // relheader
// does not have attributes above, just a container for relcolspecs
}
else if (elem->checkType((epTabCol << 8) | epTable)) { // relcolspec
relcol++;
AdjustRelAttrs(ra, rareltable);
RelColAttrs.add(ra, relcol);
RelColCount = relcol;
}
else if (elem->checkType((epTabRow << 8) | epTabBody)) { // relrow
relcol = 0;
AdjustRelAttrs(ra, rareltable);
rarelrow = ra;
RelRowTopicrefs.empty();
if (GenerateALinks
&& idattr
&& *idattr) {
long al = 0;
if ((al = ReltableAlinkNames(idattr)) != 0) {
RelRowAlinkRefs = (DClist *) ReltableAlinkRefs.find(al);
}
else {
ReltableAlinkNames.addnew(idattr, ++ReltableAlinkNameCount);
RelRowAlinkRefs = new DClist;
ReltableAlinkRefs.add(RelRowAlinkRefs, ReltableAlinkNameCount);
}
}
}
else if (elem->checkType(epTabCell)) { // relcell
relcol++;
rarelcol = (relattr *) RelColAttrs.find(relcol);
AdjustRelAttrs(ra, rarelcol);
AdjustRelAttrs(ra, rarelrow);
rarelcell = ra;
RelCellAttrs.empty();
cellrefs = new DClist();
RelRowTopicrefs.add(cellrefs, relcol);
}
else if (elem->checkType((epTopic << 8) | epGroup)) { // topicgroup
AdjustCellAttrs(ra, rarelcell, depth);
}
else if (elem->checkType(epTopic, (epMeta << 8) | epRef)) { // topichead
AdjustCellAttrs(ra, rarelcell, depth);
CurrRelLinkTopicref = elem;
}
else if (elem->checkType((epTopic << 8) | epRef)) { // topicref
AdjustCellAttrs(ra, rarelcell, depth);
if (elem->href) {
cellrefs->add((long) elem);
if (RelRowAlinkRefs)
RelRowAlinkRefs->add((long) elem);
}
CurrRelLinkTopicref = elem;
}
else if (elem->checkType((epTopic << 8) | epMeta)) { // topicmeta
if (CurrRelLink
&& lockmetattr
&& !stricmp(lockmetattr, "yes"))
CurrRelLinkTopicref->usenav = true;
}
else if (elem->checkType((epLink << 8) | epText), epSeq) { // linktext
if (CurrRelLinkTopicref
&& !CurrRelLinkTopicref->ltext)
CurrRelLinkTopicref->ltext = TextGroup = new DCgroup();
}
else if (elem->checkType(epText)) { // mainly shortdesc
if (CurrRelLinkTopicref
&& !CurrRelLinkTopicref->ldesc)
CurrRelLinkTopicref->ldesc = TextGroup = new DCgroup();
}
}
void XMLrd::ProcRelRowEnd(void)
{
RelRowAlinkRefs = NULL;
// topicrefs that are not target-only link to all in the same row,
// *except* those in the same cell and those that are source-only.
// since topics not yet processed, use href as topic identifier.
// each source topic needs its own DClist of topics it links to.
// use DCmapelem* as key to list of hrefs and list of linklists.
DClist *trsrc = NULL;
DCmapelem *tsrc = NULL;
DClist *trtarg = NULL;
DCmapelem *targ = NULL;
for (long col = 1; col <= RelColCount; col++) {
trsrc = (DClist *) RelRowTopicrefs.find(col);
while ((trsrc = trsrc->next) != NULL) {
tsrc = (DCmapelem *) trsrc->id;
if (CheckRelLinking(tsrc, true)) {
for (long tcol = 1; tcol <=RelColCount; tcol++) {
if (tcol == col) { // same cell, use if collection attr
if (tsrc->ar->lcollect != colfamily)
continue;
trtarg = (DClist *) RelRowTopicrefs.find(tcol);
while ((trtarg = trtarg->next) != NULL) {
targ = (DCmapelem *) trtarg->id;
if ((targ != tsrc)
&& CheckRelLinking(targ, false))
MakeRelLink(tsrc, targ);
}
}
else {
trtarg = (DClist *) RelRowTopicrefs.find(tcol);
while ((trtarg = trtarg->next) != NULL) {
targ = (DCmapelem *) trtarg->id;
if (CheckRelLinking(targ, false))
MakeRelLink(tsrc, targ);
}
}
}
}
}
}
}
bool
XMLrd::CheckRelLinking(DCmapelem *tref, bool source)
{
switch (tref->ar->links) {
case linknone:
return false;
case linksource:
return source;
case linktarget:
return !source;
case linknormal:
default:
return true;
}
}
DCnlist XMLrd::RelTableLinkList; // list of DClists for hrefs
void XMLrd::MakeRelLink(DCmapelem *tsrc, DCmapelem *targ)
{
rellink *rl = new rellink;
DClist *trlist = (DClist *) RelTableLinkList.getitem(tsrc->href);
if (!trlist)
RelTableLinkList.add(tsrc->href, (long) (trlist = new DClist));
trlist->add((long) rl);
rl->lsrc = targ;
rl->at = targ->ar;
rl->lhref = targ->href;
rl->loclass = targ->outclass;
rl->lrtype = targ->ar->ltoptype;
rl->ltext = targ->ltext;
rl->ldesc = targ->ldesc;
if (!rl->ltext
&& targ->usenav
&& targ->navtitle) {
rl->ltext = new DCgroup();
DCctl *cp = new DCctl(etext, 2, 10, 1);
cp->ex(targ->navtitle);
rl->ltext->add(*cp);
}
}
// Process related-links as each topic is read. Package linktext
// and desc with their link.
DCgroup *XMLrd::PreLinkTextGroup = NULL;
rellink *XMLrd::CurrRelLink = NULL;
DCmapelem *XMLrd::CurrRelLinkTopicref = NULL;
DCnlist XMLrd::LinkRoles;
npair XMLrd::LinkRolesInit[] = {
{ rlprev, "previous" },
{ rlnext, "next" },
{ rlparent, "parent" },
{ rlchild, "child" },
{ rlsibling, "sibling" },
{ rlancestor, "ancestor" },
{ rldescendant, "descendant" },
{ rlcousin, "cousin" },
{ rlfriend, "friend" },
{ rlother, "other" },
{ rltopic, "topic" },
{ rlconcept, "concept" },
{ rltask, "task" },
{ rlreference, "reference" },
NULL
// sample and external are deprecated
};
DCnlist XMLrd::LinkScopes;
npair XMLrd::LinkScopesInit[] = {
{ sclocal, "local" },
{ scpeer, "peer" },
{ scexternal, "external" },
NULL
};
DCnlist XMLrd::LinkTopicTypes;
npair XMLrd::LinkTopicTypesInit[] = {
{ rltopic, "topic" },
{ rlconcept, "concept" },
{ rltask, "task" },
{ rlreference, "reference" },
NULL
};
DCnlist XMLrd::LinkingTypes;
npair XMLrd::LinkingTypesInit[] = {
{ linknone, "none" },
{ linksource, "sourceonly" },
{ linktarget, "targetonly" },
{ linknormal, "normal" },
NULL
};
DCnlist XMLrd::LinkForms;
npair XMLrd::LinkFormsInit[] = {
{ ftdita, "dita" },
{ ftditamap, "ditamap" },
{ fthtml, "html" },
{ ftpdf, "pdf" },
{ fttxt, "txt" },
NULL
};
DCnlist XMLrd::LinkCollTypes;
npair XMLrd::LinkCollTypesInit[] = {
{ colunord, "unordered" },
{ colseqence, "sequence" },
{ colchoice, "choice" },
{ colfamily, "family" },
NULL
};
DCnlist XMLrd::RelAlinkNames;
DCvlist XMLrd::RelAlinkRefs;
DClist *XMLrd::RelTopicAlinkRefs = NULL;
long XMLrd::RelAlinkNameCount = 0;
bool
XMLrd::ProcRelatedLinks(DCtopelem *elem, const char **atts)
{
static relattr *rarellinks = NULL;
static relattr *ralinklist = NULL;
static relattr *ralinkpool = NULL;
rellink *rl = NULL;
roletyp ltype = rlnone;
const char *idattr = NULL;
const char *role = NULL;
const char *otherrole = NULL;
const char *outclass = NULL;
const char *typeattr = NULL;
const char *formattr = NULL;
const char *scope = NULL;
const char *collection = NULL;
attrp alist[] = {
{"id", &idattr },
{"role", &role },
{"otherrole", &otherrole },
{"outputclass", &outclass },
{"type", &typeattr },
{"format", &formattr },
{"scope", &scope },
{"collection-type", &collection },
{NULL, NULL }
};
ProcAttrs(atts, alist);
relattr *ra = new relattr;
if (scope)
ra->lscope = (scopetyp) LinkScopes.getitem(scope);
if (role) {
ra->lrole = NewName(role);
ra->lorole = NewName(otherrole);
ra->lrval = (roletyp) LinkRoles.getitem(role);
}
if (typeattr) {
ra->ltype = NewName(typeattr);
ra->ltoptype = (roletyp) LinkRoles.getitem(typeattr);
}
if (formattr) {
ra->lform = NewName(formattr);
ra->lftype = (formtyp) LinkForms.getitem(formattr);
if (((ra->lftype > ftditamap)
|| (ra->lftype < ftdita))
&& !scope)
ra->lscope = scexternal;
}
if (collection) {
ra->lcoll = NewName(collection);
ra->lcollect = (colltyp) LinkCollTypes.getitem(collection);
}
if (InLinkList)
AdjustRelAttrs(ra, ralinklist);
if (InLinkPool)
AdjustRelAttrs(ra, ralinkpool);
if (!InLinkList && !InLinkPool)
AdjustRelAttrs(ra, rarellinks);
// attributes inherit from general to specific:
// related-links, then linklist or linkpool, then link
if (elem->checkType(epRel, epMap)) { // related links
rarellinks = ra;
InLinkList = false;
ralinklist = NULL;
InLinkPool = false;
ralinkpool = NULL;
if (GenerateALinks
&& idattr
&& *idattr)
SetElemRelLinkAlink(elem->topic, idattr);
}
else if (elem->checkType((epLink << 8) | epList, epSeq)) { // linkpool
InLinkPool = true;
ralinkpool = ra;
}
else if (elem->checkType((epLink << 8) | epList)) { // linklist
InLinkList = true;
ralinklist = ra;
}
else if (CurrElemInfo->checkType(epLink, (epText << 8) | epList)) { // link
// create rellink struct for each link, and
// put rellink in var, or in list for its role,
// in the topic's rlinks struct
if (RelTopicAlinkRefs)
RelTopicAlinkRefs->add((long) CurrElemInfo->href);
CurrRelLink = rl = new rellink;
rl->lsrc = CurrElemInfo;
rl->lhref = CurrElemInfo->href;
rl->loclass = NewName(outclass);
rl->at = ra;
rl->lrtype = GetRoleType(ra->lrval, ra->ltoptype);
switch(rl->lrtype) {
case rlprev:
AddSingleRelLink(rl, &PrevLinks);
break;
case rlnext:
AddSingleRelLink(rl, &NextLinks);
break;
case rlparent:
AddSingleRelLink(rl, &ParentLinks);
break;
case rlchild:
AddRelLink(rl, &CurrChildLinks, &ChildLinks);
break;
case rlsibling:
AddRelLink(rl, &CurrSiblingLinks, &SiblingLinks);
break;
case rlancestor:
AddRelLink(rl, &CurrAncestorLinks, &AncestorLinks);
break;
case rldescendant:
AddRelLink(rl, &CurrDescendantLinks, &DescendantLinks);
break;
case rlcousin:
AddRelLink(rl, &CurrCousinLinks, &CousinLinks);
break;
case rlfriend:
AddRelLink(rl, &CurrFriendLinks, &FriendLinks);
break;
case rlconcept:
AddRelLink(rl, &CurrConceptLinks, &ConceptLinks);
break;
case rltask:
AddRelLink(rl, &CurrTaskLinks, &TaskLinks);
break;
case rlreference:
AddRelLink(rl, &CurrReferenceLinks, &ReferenceLinks);
break;
case rlrelated:
AddRelLink(rl, &CurrRelatedLinks, &RelatedLinks);
break;
default:
break;
}
#if 0
if (CurrElemInfo->href) {
PendLink = true;
LinkHref = CurrElemInfo->href;
XrefExt = scope ? !strcmp(scope, "external") : false;
}
#endif
}
else if (CurrElemInfo->checkType(epDesc)) { // desc
if (CurrRelLink && !CurrRelLink->ldesc)
CurrRelLink->ldesc = TextGroup = new DCgroup();
}
else if (elem->checkType((epLink << 8) | epText), epSeq) { // linktext
if (CurrRelLink && !CurrRelLink->ltext)
CurrRelLink->ltext = TextGroup = new DCgroup();
}
else if (elem->checkType((epLink << 8) | epText)) { // linkinfo
// used to describe linklist
}
else // title, many more to process normally
return false;
return true; // completed
}
void
XMLrd::SetElemRelLinkAlink(DCtopic *top, const char *idattr)
{
long al = 0;
char *alid = NewName(idattr);
if ((al = RelAlinkNames(alid)) != 0) {
RelTopicAlinkRefs = (DClist *) RelAlinkRefs.find(al);
}
else {
RelAlinkNames.addnew(alid, ++RelAlinkNameCount);
RelTopicAlinkRefs = new DClist;
RelAlinkRefs.add(RelTopicAlinkRefs, RelAlinkNameCount);
}
top->alinkid = alid;
top->alinks = new DClist;
}
void
XMLrd::InitRelatedLinks(void)
{
CurrChildLinks = NULL;
CurrSiblingLinks = NULL;
CurrAncestorLinks = NULL;
CurrDescendantLinks = NULL;
CurrCousinLinks = NULL;
CurrFriendLinks = NULL;
CurrConceptLinks = NULL;
CurrTaskLinks = NULL;
CurrReferenceLinks = NULL;
CurrRelatedLinks = NULL;
}
void
XMLrd::AddSingleRelLink(rellink *rl, DCvlist *list)
{
if (!list->find((long) CurrTopicInfo))
list->add(rl, (long) CurrTopicInfo);
}
void
XMLrd::AddRelLink(rellink *rl, DClist **currlist, DCvlist *list)
{
DClist *clist = (DClist *) list->find((long) CurrTopicInfo);
if (clist != NULL) // already started
*currlist = clist;
else if (!*currlist) {
*currlist = new DClist;
list->add(*currlist, (long) CurrTopicInfo);
}
(*currlist)->add((long) rl);
}
roletyp
XMLrd::GetRoleType(roletyp ltype, roletyp ttype)
{
if (!ltype
|| !CheckRole(ltype)) {
if (!UseParent
&& UseAncestors
&& (ltype == rlparent))
ltype = rlancestor;
else if (!UseChildren
&& UseDescendants
&& (ltype == rlchild))
ltype = rldescendant;
else if (UseTopicTypes
&& ttype)
ltype = ttype;
else
ltype = rlrelated;
}
return ltype;
}
bool
XMLrd::CheckRole(roletyp role)
{
switch (role) {
case rlprev:
case rlnext:
if (UsePrevNext)
return true;
break;
case rlparent:
if (UseParent)
return true;
break;
case rlchild:
if (UseChildren)
return true;
break;
case rlsibling:
if (UseSiblings)
return true;
break;
case rlancestor:
if (UseAncestors)
return true;
break;
case rldescendant:
if (UseDescendants)
return true;
break;
case rlcousin:
if (UseCousins)
return true;
break;
case rlfriend:
if (UseFriends)
return true;
break;
case rlconcept:
case rltask:
case rlreference:
if (UseTopicTypes)
return true;
break;
case rlrelated:
return true;
break;
case rlother:
break;
case rlnone:
default:
break;
}
return false;
}
void
XMLrd::AdjustRelAttrs(relattr *ra, relattr *rx)
{
if (!rx)
return;
if (ra->lscope == 0)
ra->lscope = rx->lscope;
if (ra->lrval == 0)
ra->lrval = rx->lrval;
if (ra->lrole == NULL)
ra->lrole = rx->lrole;
if (ra->lorole == NULL)
ra->lorole = rx->lorole;
if (ra->lftype == 0)
ra->lftype = rx->lftype;
if (ra->lform == NULL)
ra->lform = rx->lform;
if (ra->ltoptype == 0)
ra->ltoptype = rx->ltoptype;
if (ra->ltype == NULL)
ra->ltype = rx->ltype;
if (ra->lcollect == 0)
ra->lcollect = rx->lcollect;
if (ra->lcoll == NULL)
ra->lcoll = rx->lcoll;
if (ra->links == 0)
ra->links = rx->links;
if (ra->linking == NULL)
ra->linking = rx->linking;
}
void
XMLrd::AdjustCellAttrs(relattr *ra, relattr *rcell, int depth)
{
relattr *rx = NULL;
if ((rx = (relattr *) RelCellAttrs.find(depth - 1)) != NULL)
AdjustRelAttrs(ra, rx);
else
AdjustRelAttrs(ra, rcell);
RelCellAttrs.replace(ra, depth);
}
// end of drxmlrl.cpp
|
db2a13226f58cf30b788c51cb4d43a85c0c3c986 | 2ea483a74b9142d0110bcdffa7bb02a381ff0bbc | /AIE Year1 Framework VS2013_QuinnM/source/FlockAgent.cpp | bd28a9bc4a6e53e11338111e902aec00b5a3c4d5 | [] | no_license | QuinnJMosher/SteeringBehaviour | 1b9b1ad518d40d06f7051f9997122f800da30a2a | de68ebd72f7b6bb0ec48dd566503283b0f86c841 | refs/heads/master | 2016-09-05T11:15:26.514439 | 2015-03-18T17:22:44 | 2015-03-18T17:22:44 | 31,623,545 | 0 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 7,315 | cpp | FlockAgent.cpp | #include "FlockAgent.h"
float const FlockAgent::resistance = 0.06f;
char* const FlockAgent::texture = "images/invaders/invaders_1_00.png";
bool FlockAgent::drawVelocity = false;
bool FlockAgent::drawNeighbourhood = false;
unsigned int FlockAgent::sprite = 0;
float const FlockAgent::speedCap = 50;
FlockAgent::FlockAgent(float in_x, float in_y) : Entity(in_x, in_y, 20, 20) {
velocity.x = 0;
velocity.y = 0;
drag = true;
frame = 0;
maxVelocity = -1;
//flocking stuff
neighbourhood = std::vector<FlockAgent*>();
neighbourhoodRadius = 0;
world = nullptr;
if (sprite == 0) {
sprite = CreateSprite(texture, 20, 20, true);
}
}
FlockAgent::~FlockAgent() { }
void FlockAgent::SetSpeedCap(float in_speedCap) {
maxVelocity = in_speedCap;
}
void FlockAgent::AddForce(Point force) {
velocity += force;
}
void FlockAgent::SetForce(Point force) {
velocity = force;
}
Point FlockAgent::GetVelocity() {
return velocity;
}
void FlockAgent::Update() {
//frame++;
float speed;
speed = std::sqrt((velocity.x * velocity.x) + (velocity.y * velocity.y));
//if (frame % 10 == 0) {
UpdateNeighbourhood();
//}
//if (frame % 5 == 0) {
Point flockingVelocity = Point(0, 0);
flockingVelocity += Separation(maxVelocity * 0.65f);
flockingVelocity += Alignment(maxVelocity * 0.03f);
flockingVelocity += Cohesion(maxVelocity * 0.3f);
velocity += flockingVelocity;
//}
//cap speed
//personal cap
if (maxVelocity != -1 && maxVelocity <= speedCap) {
if (speed > maxVelocity) {
//get difference in speed
float speedReduction = speed - maxVelocity;
//get normal of x and y of velocity
float normal_x = velocity.x / speed;
float normal_y = velocity.y / speed;
//reduece velociy.x by normal_x * speedRedduction
velocity.x -= normal_x * speedReduction;
velocity.y -= normal_y * speedReduction;
}
}
else {
//global cap
if (speed > speedCap) {
//get difference in speed
float speedReduction = speed - maxVelocity;
//get normal of x and y of velocity
float normal_x = velocity.x / speed;
float normal_y = velocity.y / speed;
//reduece velociy.x by normal_x * speedRedduction
velocity.x -= normal_x * speedReduction;
velocity.y -= normal_y * speedReduction;
}
}
speed = std::sqrt((velocity.x * velocity.x) + (velocity.y * velocity.y));
//add drag
if (drag) {
if (!(velocity.x < 0.00001 && velocity.x > -0.00001) || //float eq for if (velocity.x != 0 || velocity.y != 0)
!(velocity.y < 0.00001 && velocity.y > -0.00001)) {
float normal_x = velocity.x / speed;
float normal_y = velocity.y / speed;
if (speed > resistance) {
velocity.x = normal_x * (speed - resistance);
velocity.y = normal_y * (speed - resistance);
}
else {
velocity.x = 0;
velocity.y = 0;
}
}
}
//loop screen
if (position.x + (width / 2) > 900) {
//position.x = (width / 2);
velocity.x *= -1;
position.x = 900 - width;
}
else if (position.x - (width / 2) < 0) {
//position.x = 900 - (width / 2);
velocity.x *= -1;
position.x = 0 + width;
}
if (position.y + (height / 2) > 600) {
//position.y = (height / 2);
velocity.y *= -1;
position.y = 600 - height;
}
else if (position.y - (height / 2) < 0) {
//position.y = 600 - (height / 2);
velocity.y *= -1;
position.y = 0 + height;
}
//move Agent
position += velocity;
}
void FlockAgent::Draw() {
MoveSprite(sprite, position.x, position.y);
DrawSprite(sprite);
if (drawVelocity) {
DrawLine(position.x, position.y, position.x + (velocity.x * 5), position.y + (velocity.y * 5), SColour(255, 0, 0, 255));
}
if (drawNeighbourhood) {
DrawLine(position.x, position.y - neighbourhoodRadius, position.x, position.y + neighbourhoodRadius, SColour(0, position.x, position.y, 255));
DrawLine(position.x - neighbourhoodRadius, position.y, position.x + neighbourhoodRadius, position.y, SColour(0, position.x, position.y, 255));
}
}
void FlockAgent::ToggleDrag() {
drag = !drag;
}
void FlockAgent::ToggleVelocityLine() {
drawVelocity = !drawVelocity;
}
void FlockAgent::ToggleNeighbourhoods() {
drawNeighbourhood = !drawNeighbourhood;
}
void FlockAgent::SetWorld(std::vector<FlockAgent*>* pt_world) {
world = pt_world;
}
void FlockAgent::SetNeighbourhood(float in_radius) {
neighbourhoodRadius = in_radius;
}
Point FlockAgent::Separation(float in_repulsion) {
if (neighbourhood.size() == 0) {
return Point(0, 0);
}
Point totalRepulsion = Point(0, 0);
for (int i = 0; i < neighbourhood.size(); i++) {
Point currentRepulsion = (neighbourhood[i]->position - position) * -1;
float repulseMag = std::sqrt(std::pow(currentRepulsion.x, 2) + std::pow(currentRepulsion.y, 2));
if (repulseMag < neighbourhoodRadius / 2) {
totalRepulsion += currentRepulsion;
}
}
float magnetude = std::sqrt(std::pow(totalRepulsion.x, 2) + std::pow(totalRepulsion.y, 2));
if (magnetude < 0.0000001 && magnetude > -0.0000001) {//float EQ for magnetude == 0;
return Point(0, 0);
}
totalRepulsion.x /= magnetude;
totalRepulsion.y /= magnetude;
totalRepulsion.x *= in_repulsion;
totalRepulsion.y *= in_repulsion;
return totalRepulsion;
}
Point FlockAgent::Alignment(float in_pull) {
if (neighbourhood.size() < 3) {
return Point(0, 0);
}
Point desiredVelocity = Point(0, 0);
for (int i = 0; i < neighbourhood.size(); i++) {
desiredVelocity += neighbourhood[i]->GetVelocity();
}
desiredVelocity.x /= neighbourhood.size();
desiredVelocity.y /= neighbourhood.size();
desiredVelocity -= velocity;
float desiredVelMag = std::sqrt(std::pow(desiredVelocity.x, 2) + std::pow(desiredVelocity.y, 2));
if (desiredVelMag < 0.0000001 && desiredVelMag > -0.0000001) { // float eq for desiredVelMag == 0:
return Point(0, 0);
}
desiredVelocity.x /= desiredVelMag;
desiredVelocity.y /= desiredVelMag;
desiredVelocity.x *= in_pull;
desiredVelocity.y *= in_pull;
return desiredVelocity;
}
Point FlockAgent::Cohesion(float in_attraction) {
if (neighbourhood.size() < 3) {
return Point(0, 0);
}
Point averagePos = Point(0, 0);
int numItems = 0;
for (int i = 0; i < neighbourhood.size(); i++) {
Point currentDist = neighbourhood[i]->position - position;
float posDist = std::sqrt(std::pow(currentDist.x, 2) + std::pow(currentDist.y, 2));
if (posDist > neighbourhoodRadius / 2) {
averagePos += neighbourhood[i]->position;
numItems++;
}
}
averagePos.x /= numItems;
averagePos.y /= numItems;
averagePos -= position;
float magnitude = std::sqrt(std::pow(averagePos.x, 2) + std::pow(averagePos.y, 2));
averagePos.x /= magnitude;
averagePos.y /= magnitude;
averagePos.x *= in_attraction;
averagePos.y *= in_attraction;
return averagePos;
}
void FlockAgent::UpdateNeighbourhood() {
//clear neighbourhood
neighbourhood.clear();
//if world is null or radius is 0 then return
if (world != nullptr && neighbourhoodRadius != 0) {
//loop through world;
for (int i = 0; i < world->size(); i++) {
//if distance from current Agent is less than radius add to neighbourhood
Point positionDiference = world->at(i)->position - position;
float distance = std::sqrt((positionDiference.x * positionDiference.x) + (positionDiference.y * positionDiference.y));
if (distance < neighbourhoodRadius && world->at(i) != this) {
neighbourhood.emplace_back(world->at(i));
}
}
}
} |
c0aa74e5d78a9bd3abd9c70ed887e8eb1ae6281a | c2433a98f654913ae3eed88157e134c557b80b37 | /src/gameitem.cpp | f64b313847d316de6a1e9fda90c3d78f87de7298 | [] | no_license | xsusov/ICP | d7a1a474d537f5e51b823fcdd444da0457370d89 | cd5aee7e272c6354d32e84bd97648e740825deb6 | refs/heads/master | 2020-04-15T01:26:04.032698 | 2015-05-26T11:35:32 | 2015-05-26T11:35:32 | 30,661,202 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,510 | cpp | gameitem.cpp | /**
* @project LABYRINTH2015
* ICP project
* @class GameItem
* @author xsusov01
* @email xsusov01@stud.fit.vutbr.cz
* @author xbandz00
* @email xbandz00@stud.fit.vutbr.cz
* @file gameitem.cpp
* @date 2015/05/10
* @brief class representing game item placed on boardfield and searched by players
*/
#include "gameitem.h"
#include "constants.h"
#include <random>
#include <algorithm>
/**
* @brief GameItem::GameItem constructor
* @param figure
* @param name
*/
GameItem::GameItem(const char figure, const std::string name)
: figure{figure},
name{name}
{
}
/**
* @brief GameItem::~GameItem destructor
*/
GameItem::~GameItem()
{
}
/**
* @brief GameItem::fillVector fills vector with newly created items
* @param vector - reference to vector for storing items
* @param itemCount - number of items to be created
*/
void GameItem::fillVector(std::vector<GameItem*> &vector, const int itemCount)
{
for( int i = 0; i < itemCount; i++){
vector.push_back(new GameItem(labyrinth::itemFigure[i], labyrinth::itemNames[i]));
}
std::random_shuffle(vector.begin(), vector.end(), GameItem::randItem);
}
/**
* @brief GameItem::randItem returns random number of avialible items
* @param itemCount - max range for item number
* @return random item number
*/
int GameItem::randItem(const int itemCount)
{
return std::rand() % itemCount;
}
/**
* @brief GameItem::draw prints item's figure to standard output
*/
void GameItem::draw()
{
std::cout << figure;
}
|
7266a990482ea2cd0dd3eaef70383c0060240480 | 1be632c1a90f11d65e3dfa475947886fcb880e33 | /include/x/x_gdiplus.h | 31e747c6c0320b1f2dda68d8bfe5845818c7cec9 | [
"MIT"
] | permissive | wpbest/x | 0be47804577b123086a9c827edf50000178928d6 | 00d7ab379b056247f47cad0a344127735e8bb197 | refs/heads/master | 2021-01-10T02:20:18.122155 | 2015-05-31T21:07:50 | 2015-05-31T21:07:50 | 35,968,115 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 452 | h | x_gdiplus.h | #pragma once
#include "x/x_graphics.h"
#include "x/x_win32types.h"
namespace x
{
class X_API x_GDIPlus : public x_Graphics
{
public:
x_GDIPlus::x_GDIPlus();
virtual x_GDIPlus::~x_GDIPlus();
x_Bool create(x_WindowHandler windowHandler, x_DeviceContextHandler deviceContextHandler);
void destroy();
void clear();
void draw();
void present();
void size(x_Sint32 width, x_Sint32 height);
private:
x_ULONG_PTR m_gdiplusToken;
};
}
|
e200e280194728d5d678907e8e53857592a2bdf6 | 3635fc79b3f25cba42259bcfdd3da3abefbfaec6 | /server/common/MySQLInterface.cpp | 199d2a0d9d4001efb667656dd34dd4a6ee97e46f | [
"Apache-2.0"
] | permissive | zhouxicai/tcpserver | 98c91ec1c3e8b6f279b1ef9c63789597a36d330e | 3625b4be938cb17e86563237db58effa96d4c0df | refs/heads/master | 2020-04-06T09:25:11.223896 | 2018-11-13T08:19:31 | 2018-11-13T08:19:31 | 157,342,001 | 0 | 0 | null | null | null | null | GB18030 | C++ | false | false | 2,567 | cpp | MySQLInterface.cpp | /**
* MySQLInterface.cpp : MySQL数据库访问的封装,实现文件
* @author:zhouxicai
* @date:2011.10.19
* @备注:
* */
#include "stdafx.h"
#include "MySQLInterface.h"
#include "TimeValue.h"
CMySQLInterface::CMySQLInterface(const char * szHost, const char * szUser, const char * szPassword, unsigned int port)
{
//数据库连接初始化
//mysql_init(&m_MySQLHandle);
m_MySQLHandle = mysql_init(NULL);
//初始化ip地址,端口号等信息
strcpy(m_Host, szHost);
strcpy(m_User, szUser);
strcpy(m_Password, szPassword);
m_Port = port;
//'mysql_autocommit(m_MySQLHandle, false);
}
CMySQLInterface::~CMySQLInterface(void)
{
}
//连接指定名字的数据库
int CMySQLInterface::ConnectDB(const char *szDBName)
{
strcpy(m_DBName, szDBName);
MYSQL* pMySQL;
unsigned long lFlags = 0;
lFlags |= CLIENT_MULTI_STATEMENTS;
pMySQL = mysql_real_connect( m_MySQLHandle, m_Host, m_User, m_Password, m_DBName, m_Port, NULL, lFlags );
if (pMySQL == NULL)
{
mysql_close(m_MySQLHandle);
return 0;
}
const char* pMySQLStat = mysql_stat(m_MySQLHandle);
if (pMySQLStat == NULL)
{
mysql_close(m_MySQLHandle);
return 0;
}
//pengyuan 2011.10.24 这个语句是设定查询的字符集的,只有加了这个语句,读取的汉字才不会是乱码
int nRet = mysql_set_character_set(pMySQL, "utf8");
if (nRet != 0)
{
}
return 1;
}
//执行查询操作
int CMySQLInterface::ExecQuery(const char *szCommand, MYSQL_RES **QueryResult)
{
CTimeValue cTimeValue;
cTimeValue.Begin();
int nRet;
nRet = mysql_query(m_MySQLHandle, szCommand);
const char* pError = mysql_error(m_MySQLHandle);
if (nRet != 0)
{
std::cout<<"Query database error: "<<pError<<std::endl;
}
int nAffectRows = mysql_affected_rows(m_MySQLHandle);
if(nAffectRows > 0){
std::cout << "nAffectRows:"<<nAffectRows << std::endl;
}
*QueryResult = mysql_store_result(m_MySQLHandle);
double fDeltaTime = cTimeValue.End();
std::cout << "ExecQuery:"<< szCommand<< " fDeltaTime:"<<fDeltaTime << std::endl;
return nRet;
}
//执行插入操作
int CMySQLInterface::ExecInsert(const char *szCommand)
{
int nRet;
nRet = mysql_query(m_MySQLHandle, szCommand);
return nRet;
}
MYSQL* CMySQLInterface::GetMySQLHandle()
{
return m_MySQLHandle;
}
//pengyuan 2012.8.15 定时ping一下mysql,免得长时间无连接,mysql自动关闭连接
int CMySQLInterface::Ping()
{
int nRet = mysql_ping(m_MySQLHandle);
return nRet;
}
|
39de18e207e4ee424a9abb8060967a7cd30203dd | 1ee90596d52554cb4ef51883c79093897f5279a0 | /Sisteme/[C++]Offine Shop - Alaska/ShopOffline/client/EterPythonLib/PythonWindowsManagerModule.cpp | 4df89a77a9ed665e2711fd2239635d9957c4cadf | [] | no_license | Reizonr1/metin2-adv | bf7ecb26352b13641cd69b982a48a6b20061979a | 5c2c096015ef3971a2f1121b54e33358d973c694 | refs/heads/master | 2022-04-05T20:50:38.176241 | 2020-03-03T18:20:58 | 2020-03-03T18:20:58 | 233,462,795 | 1 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 736 | cpp | PythonWindowsManagerModule.cpp | //add new function
PyObject * wndMgrSetSlotID(PyObject * poSelf, PyObject * poArgs)
{
UI::CWindow * pWin;
if (!PyTuple_GetWindow(poArgs, 0, &pWin))
return Py_BuildException();
int iSlotIndex;
if (!PyTuple_GetInteger(poArgs, 1, &iSlotIndex))
return Py_BuildException();
int id;
if (!PyTuple_GetInteger(poArgs, 2, &id))
return Py_BuildException();
if (!pWin->IsType(UI::CSlotWindow::Type()))
return Py_BuildException();
UI::CSlotWindow * pSlotWin = (UI::CSlotWindow *)pWin;
pSlotWin->SetSlotID(iSlotIndex, id);
return Py_BuildNone();
}
//find and add new function to list
void initwndMgr()
{
static PyMethodDef s_methods[] =
{
[..]
{ "SetSlotID", wndMgrSetSlotID, METH_VARARGS },
[..]
};
[..]
} |
5656a12f98708a6b043ca54d075f25a22e3230c5 | 7b36063fb05909c9bca723e677b083fb7349ef04 | /algorithm/0657-Judge-Route-Circle/ver2.cc | c7a0b1f18595ef97841b9ab412a4698e4d9ec48f | [] | no_license | Liam0205/leetcode | c3dff919fbd596ed3bcea514c599c18c66b4a388 | 64c668a8f47a8e649e90a5881a884559c31a1a1c | refs/heads/master | 2022-02-20T19:37:38.492782 | 2022-02-08T10:07:10 | 2022-02-08T10:19:02 | 49,959,125 | 7 | 4 | null | 2018-11-26T01:34:55 | 2016-01-19T14:46:23 | C++ | UTF-8 | C++ | false | false | 661 | cc | ver2.cc | static const auto io_sync_off = []() {
std::ios::sync_with_stdio(false);
std::cin.tie(nullptr);
std::cout.tie(nullptr);
return nullptr;
}();
class Solution {
public:
bool judgeCircle(const std::string& moves) {
size_t lcnt = 0, rcnt = 0, ucnt = 0, dcnt = 0;
int lr = 0, ud = 0;
for (const auto& c : moves) {
switch (c) {
case 'L':
++lr;
break;
case 'R':
--lr;
break;
case 'U':
++ud;
break;
case 'D':
--ud;
break;
default:
break;
}
}
return lr == 0 and ud == 0;
}
};
|
b3276e87a284f03bb2a4f8ae34f3a48036541d44 | fe8c119cb323de5dd8223cd631eb015244807671 | /NairnMPM/src/Elements/MoreMPMElementBase.cpp | fd6c451f427e5e31835afe5a95dce4972111d81f | [] | no_license | nairnj/nairn-mpm-fea | a5706d97b97276c04b39ea199bfc91201bb43f69 | bee532cf2bda16b2fbb5f935aeb5bfb3e0d249d7 | refs/heads/master | 2023-08-18T02:59:50.899329 | 2023-08-12T16:17:08 | 2023-08-12T16:17:08 | 40,681,568 | 89 | 38 | null | 2018-10-31T16:46:25 | 2015-08-13T21:01:25 | C++ | UTF-8 | C++ | false | false | 31,376 | cpp | MoreMPMElementBase.cpp | /********************************************************************************
MoreMPMElementBase.cpp
nairn-mpm-fea
Created by John Nairn on Fri Oct 22 2004.
Copyright (c) 2004 John A. Nairn, All rights reserved.
********************************************************************************/
#include "stdafx.h"
#include "Elements/ElementBase.hpp"
#include "Nodes/NodalPoint.hpp"
#include "NairnMPM_Class/MeshInfo.hpp"
#include "NairnMPM_Class/NairnMPM.hpp"
#include "MPM_Classes/MPMBase.hpp"
#include "Materials/MaterialBase.hpp"
#include "Exceptions/CommonException.hpp"
#define MAXITER 100
#pragma mark ElementBase: Constructors and Destructor MPM Only
/* Main MPM contructor when creating elements:
input is node numbers (0-based array) but values
are 1-based (length always MaxElNd, even if unused)
subclass should set nodes[NumberNodes]=nodes[0]
*/
ElementBase::ElementBase(int eNum,int *eNode)
{ int i;
num=eNum;
for(i=0;i<MaxElNd;i++) nodes[i]=eNode[i];
neighbors=NULL;
filled=0;
}
ElementBase::~ElementBase()
{ if(neighbors!=NULL) delete [] neighbors;
}
#pragma mark ElementBase: Shape and Gradient calls for MPM
/* Find GIMP information or find CPDI info (one or the other, never both)
Not called for rigid BC particles because do not use shape functions unless extrapolated
and then use simple ones (non-GIMP)
throws CommonException() if CPDI particle corner has left the grid
*/
void ElementBase::GetShapeFunctionData(MPMBase *mpmptr) const
{
if(ElementBase::UsingCPDIMethod())
mpmptr->GetCPDINodesAndWeights(useGimp);
else if(ElementBase::useGimp==FINITE_GIMP)
mpmptr->GetFiniteGIMP_Integrals();
// all get initial particle position (could put behind else if not used in some method)
GetXiPos(&mpmptr->pos,mpmptr->GetNcpos());
}
/* Find shape functions for crack particle using point GIMP method
Finds nodes, dimensionless position, and then calls simple function
NOTE: This is only called by crack update and do not need to save xipos.
NOTE: crackParticleSize=0 should be classic, could special case it if
see numerical issues
*/
void ElementBase::GetShapeFunctionsForCracks(double *fn,int *nds,const Vector &pos) const
{
// Get position
Vector xipos;
GetXiPos(&pos,&xipos);
switch(useGimp)
{ case BSPLINE:
case BSPLINE_GIMP:
case BSPLINE_GIMP_AS:
case BSPLINE_CPDI:
SplineShapeFunction(nds,&xipos,false,&fn[1],NULL,NULL,NULL);
break;
default:
// Load element noodes, dimensionless position, and shape functions
GetNodes(&nds[0],nds);
ShapeFunction(&xipos,false,&fn[1],NULL,NULL,NULL);
break;
}
}
/* Find shape functions for traction BC calculations given dimensionless position
Finds nodes (if needed) and then calls simple function
*/
void ElementBase::GetShapeFunctionsForTractions(double *fn,int *nds,Vector *xipos) const
{
switch(useGimp)
{ case BSPLINE:
case BSPLINE_GIMP:
case BSPLINE_GIMP_AS:
case BSPLINE_CPDI:
SplineShapeFunction(nds,xipos,false,&fn[1],NULL,NULL,NULL);
break;
default:
// Load element noodes, dimensionless position, and shape functions
GetNodes(&nds[0],nds);
ShapeFunction(xipos,false,&fn[1],NULL,NULL,NULL);
break;
}
}
/*
Return list of nodes (possible change array with address in ndsHandle)
and the shape functions
Load node numbers into nds[1]...
Load shape functions into fn[1]...
WARNING: This should never be called for Rigid BC particles
NOTE: This is called at various places in the time step when shape functions are needed. It should
recalculate the ones found at the begnning of the time step using precalculated xipos
or CPDI info, which are found in initialization
throws CommonException() if too many CPDI nodes
*/
void ElementBase::GetShapeFunctions(double *fn,int **ndsHandle,MPMBase *mpmptr) const
{
Vector lp;
int *nds = *ndsHandle;
switch(useGimp)
{ case POINT_GIMP:
// load coordinates if not already done
GetNodes(&nds[0],nds);
ShapeFunction(mpmptr->GetNcpos(),false,&fn[1],NULL,NULL,NULL);
break;
case BSPLINE:
SplineShapeFunction(nds,mpmptr->GetNcpos(),false,&fn[1],NULL,NULL,NULL);
break;
case UNIFORM_GIMP:
{ // GIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
GimpShapeFunction(xipos,nds,false,&fn[1],NULL,NULL,NULL,lp);
break;
}
case UNIFORM_GIMP_AS:
{ // GIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
GimpShapeFunctionAS(xipos,nds,false,&fn[1],NULL,NULL,NULL,lp);
break;
}
case BSPLINE_GIMP:
{ // B2GIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
BGimpShapeFunction(xipos,nds,false,&fn[1],NULL,NULL,NULL,lp);
break;
}
case BSPLINE_GIMP_AS:
{ // B2GIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
BGimpShapeFunctionAS(xipos,nds,false,&fn[1],NULL,NULL,NULL,lp);
break;
}
case BSPLINE_CPDI:
case LINEAR_CPDI:
case LINEAR_CPDI_AS:
case QUADRATIC_CPDI:
nds[0] = GetCPDIFunctions(nds,fn,NULL,NULL,NULL,mpmptr);
break;
case FINITE_GIMP:
{ // Finite GIMP analysis
FiniteGimpShapeFunction(nds,fn,NULL,NULL,NULL,mpmptr);
break;
}
case UNIFORM_GIMP_TARTAN:
{ // GIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
TartanGimpShapeFunction(xipos,nds,false,&fn[1],NULL,NULL,NULL,lp);
break;
}
}
}
/* Return list of nodes (possibly change array with address in ndsHandle)
and the shape functions and their gradients
Load node numbers into nds[1]...
Load shape functions into fn[1]...
Load shape function derviatives into xDeriv[1]..., yDeriv[1]..., zDeriv[1]...
WARNING: This should never be called for Rigid BC particles
NOTE: This is called at various places in the time step when shape functions are needed. It should
recalculate the ones found at the begnning of the time step using precalculated xipos
or CPDI info, which are found in initialization
throws CommonException() if too many CPDI nodes
*/
void ElementBase::GetShapeGradients(double *fn,int **ndsHandle,
double *xDeriv,double *yDeriv,double *zDeriv,MPMBase *mpmptr) const
{
Vector lp;
int *nds = *ndsHandle;
switch(useGimp)
{ case POINT_GIMP:
// load nodal numbers
GetNodes(&nds[0],nds);
// special case for regular mesh
if(mpmgrid.GetCartesian()>0)
ShapeFunction(mpmptr->GetNcpos(),true,&fn[1],&xDeriv[1],&yDeriv[1],&zDeriv[1]);
else
{ // Load element coordinates
Vector ce[MaxElNd];
double fnh[MaxElNd];
GetCoordinates(ce,nds[0],nds);
// find shape functions and derviatives
ShapeFunction(mpmptr->GetNcpos(),BMATRIX,&fn[1],&xDeriv[1],&yDeriv[1],&ce[1],NULL,NULL,&fnh[1]);
}
break;
case BSPLINE:
SplineShapeFunction(nds,mpmptr->GetNcpos(),true,&fn[1],&xDeriv[1],&yDeriv[1],&zDeriv[1]);
break;
case UNIFORM_GIMP:
{ // uGIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
GimpShapeFunction(xipos,nds,true,&fn[1],&xDeriv[1],&yDeriv[1],&zDeriv[1],lp);
break;
}
case UNIFORM_GIMP_AS:
{ // uGIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
GimpShapeFunctionAS(xipos,nds,true,&fn[1],&xDeriv[1],&yDeriv[1],&zDeriv[1],lp);
break;
}
case BSPLINE_GIMP:
{ // uGIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
BGimpShapeFunction(xipos,nds,TRUE,&fn[1],&xDeriv[1],&yDeriv[1],&zDeriv[1],lp);
break;
}
case BSPLINE_GIMP_AS:
{ // uGIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
BGimpShapeFunctionAS(xipos,nds,TRUE,&fn[1],&xDeriv[1],&yDeriv[1],&zDeriv[1],lp);
break;
}
case FINITE_GIMP:
{ // Finite GIMP analysis
FiniteGimpShapeFunction(nds,fn,xDeriv,yDeriv,zDeriv,mpmptr);
break;
}
case BSPLINE_CPDI:
case LINEAR_CPDI:
case LINEAR_CPDI_AS:
case QUADRATIC_CPDI:
nds[0] = GetCPDIFunctions(nds,fn,xDeriv,yDeriv,zDeriv,mpmptr);
break;
case UNIFORM_GIMP_TARTAN:
{ // uGIMP analysis
Vector *xipos = mpmptr->GetNcpos();
mpmptr->GetDimensionlessSize(lp);
TartanGimpShapeFunction(xipos,nds,true,&fn[1],&xDeriv[1],&yDeriv[1],&zDeriv[1],lp);
break;
}
}
}
// Get shape functions for exact traction calculations in 2D MPM
// Overriden only by four node isoparam, so does not work in 3D yet
void ElementBase::GridTractionFunction(Vector *xi1,Vector *xi2,bool isAxisymmetric,double *tfxn,int *nds,double rmid,double dr) const
{
}
#pragma mark ElementBase: Shape and Gradient utility methods for MPM
/* Find dimensionless coordinates by numerical methods
input: pos is position in the element
output: xipos is dimensionless position
only used in MPM and only here if non-rectangular elements
*/
void ElementBase::GetXiPos(const Vector *pos,Vector *xipos) const
{
double xt,yt,dxxi,dxeta,dyxi,dyeta;
double deter,dxi,deta,dist;
double gfn[MaxElNd],gdfnxi[MaxElNd],gdfnet[MaxElNd];
int numnds=NumberNodes(),i,j;
// initial guess
GetCentroid(xipos);
// nodal coordinates
Vector eNode[MaxElNd];
for(i=0;i<numnds;i++)
{ eNode[i].x=nd[nodes[i]]->x;
eNode[i].y=nd[nodes[i]]->y;
}
/* solve for xipos using Newton-Rapheson (see FEA Notes)
using shape functions and their derivatives */
for(j=1;j<=MAXITER;j++)
{ ShapeFunction(xipos,TRUE,gfn,gdfnxi,gdfnet,NULL,NULL,NULL,NULL);
xt=-pos->x;
yt=-pos->y;
dxxi=0.;
dxeta=0.;
dyxi=0.;
dyeta=0.;
for(i=0;i<numnds;i++)
{ xt+=eNode[i].x*gfn[i];
yt+=eNode[i].y*gfn[i];
dxxi+=eNode[i].x*gdfnxi[i];
dxeta+=eNode[i].x*gdfnet[i];
dyxi+=eNode[i].y*gdfnxi[i];
dyeta+=eNode[i].y*gdfnet[i];
}
deter=dxxi*dyeta-dxeta*dyxi;
dxi=(-xt*dyeta+yt*dxeta)/deter;
deta=(xt*dyxi-yt*dxxi)/deter;
xipos->x+=dxi;
xipos->y+=deta;
dist=sqrt(dxi*dxi+deta*deta);
if(dist<.001) break;
}
}
// return dimensionless location for material points in this element
// mpos vector is assumed long enough (length >= numPerElement)
// numPerElement is total number and assumed to be cubed number in 3D and squared in 2D
// If not NULL psize, return dimensionless particle size
void ElementBase::MPMPoints(int numPerSide,Vector *mpos,int &numFound,Vector **pposPtr,Vector *psize) const
{
int i,j,k=0,nx,ny,nz;
double fxn[MaxElNd],yval,zval;
// If negative value, pick based on shortest size
// Only support in body part for now and on call, numFound is current size
// and mposPtr is pointer to ppos created in caller
// It is error (but not checked) to have numPerSize<0 and pposPtr==NULL
if(numPerSide<0)
{ numPerSide = -numPerSide;
Vector dbox = GetDeltaBox();
if(fmobj->IsThreeD())
{ double dmin = fmin(fmin(dbox.x,dbox.y),dbox.z);
nx = int(dbox.x/dmin+0.5)*numPerSide;
ny = int(dbox.y/dmin+0.5)*numPerSide;
nz = int(dbox.z/dmin+0.5)*numPerSide;
}
else
{ double dmin = fmin(dbox.x,dbox.y);
nx = int(dbox.x/dmin+0.5)*numPerSide;
ny = int(dbox.y/dmin+0.5)*numPerSide;
nz = 1;
}
// enlarge if needed (error if mposPtr is NULL)
int tempSize = nx*ny*nz;
if(tempSize > numFound)
{ delete [] *pposPtr;
*pposPtr = new Vector[tempSize];
mpos = *pposPtr;
}
numFound = tempSize;
}
else
{ // equal numbers in all direction
nx = numPerSide;
ny = numPerSide;
nz = fmobj->IsThreeD() ? numPerSide : 1 ;
numFound = nx*ny*nz;
}
double xgap = 1./((double)nx);
double ygap = 1./((double)ny);
double zgap = 1./((double)nz);
// return dimensionless size when needed
if(psize!=NULL)
{ psize->x = xgap;
psize->y = ygap;
psize->z = zgap;
}
// find dimensionless coordaites running from -1 to 1 along each axis
// -1+1/n, -1+3/n, ... -1+(2n-1)/n=1-1/n
if(fmobj->IsThreeD())
{ // must be a cube
for(i=0;i<nz;i++)
{ zval = -1.+(2.*i+1.)*zgap;
for(int ii=0;ii<ny;ii++)
{ yval =-1.+(2.*ii+1.)*ygap;
for(j=0;j<nx;j++)
{ mpos[k].x = -1.+(2.*j+1.)*xgap;
mpos[k].y = yval;
mpos[k].z = zval;
k++;
}
}
}
}
else
{ // must be a square
for(i=0;i<ny;i++)
{ yval = -1.+(2.*i+1.)*ygap;
for(j=0;j<nx;j++)
{ mpos[k].x = -1.+(2.*j+1.)*xgap;
mpos[k].y = yval;
mpos[k].z = 0.;
k++;
}
}
}
// covert to x-y-z locations using grid shape functions
for(k=0;k<numFound;k++)
{ ShapeFunction(&mpos[k],FALSE,fxn,NULL,NULL,NULL);
ZeroVector(&mpos[k]);
for(j=0;j<NumberNodes();j++)
{ mpos[k].x+=nd[nodes[j]]->x*fxn[j];
mpos[k].y+=nd[nodes[j]]->y*fxn[j];
mpos[k].z+=nd[nodes[j]]->z*fxn[j];
}
}
}
// get GIMP shape functions and optionally derivatives wrt x and y
// assumed to be properly numbered regular array
// input *xi position in element coordinate
// Output number of nodes in nds[0] and nodes in nds[1] to nds[nds[0]]
// Elements that support GIMP must override
void ElementBase::GimpShapeFunction(Vector *xi,int *nds,int getDeriv,double *sfxn,
double *xDeriv,double *yDeriv,double *zDeriv,Vector &lp) const
{
}
// get GIMP shape functions for tartan and optionally derivatives wrt x and y
// assumed to be properly numbered regular array
// input *xi position in element coordinate
// Output number of nodes in nds[0] and nodes in nds[1] to nds[nds[0]]
// Elements that support GIMP for tartan grids must override
void ElementBase::TartanGimpShapeFunction(Vector *xi,int *nds,int getDeriv,double *sfxn,
double *xDeriv,double *yDeriv,double *zDeriv,Vector &lp) const
{
}
// Get GIMP functions in one direction for Tartan Grid (return false if zero)
// nxi is a node (-3, -1, 1, 3), xi is particle dimensionless (-1 to 1) in the element,
// lp is particle radius (in xi units), d0 and d2 are element sizes to left and
// right (in xi units)
// Return Svp and dSvp is not NULL (dSvp needs division by element size that direction)
bool ElementBase::Tartan1D(double nxi,double xi,double lp,double d0,double d2,double *Svp,double *dSvp) const
{
if(nxi<-2.)
{ // an i-2 node
double arg = lp-xi-1.;
if(arg<=0.) return false;
double invLength = 1./(d0*lp);
*Svp = 0.25*arg*arg*invLength;
if(dSvp!=NULL) *dSvp = -arg*invLength;
}
else if(nxi>2.)
{ // an i+1 node
double arg = lp+xi-1.;
if(arg<=0.) return false;
double invLength = 1./(d2*lp);
*Svp = 0.25*arg*arg*invLength;
if(dSvp!=NULL) *dSvp = arg*invLength;
}
else if(nxi<0.)
{ // an i-1 mode
double xp = xi + 1.;
if(xp<lp)
{ double arg = lp-xp;
double argp = lp+xp;
double invLength = 1./(2.*d0*lp);
*Svp = 0.25*(d0*(8.*lp-argp*argp)-2.*arg*arg)*invLength;
if(dSvp!=NULL) *dSvp = (2.*arg-d0*argp)*invLength;
}
else if(xp<2.-lp)
{ *Svp = 1. - 0.5*xp;
if(dSvp!=NULL) *dSvp = -1.;
}
else
{ double arg = 2.+lp-xp;
double invLength = 1./(2.*lp);
*Svp = 0.25*arg*arg*invLength;
if(dSvp!=NULL) *dSvp = -arg*invLength;
}
}
else
{ // an i node
double xp = xi - 1.;
if(xp<-2.+lp)
{ double arg = 2.+lp+xp;
double invLength = 1./(2.*lp);
*Svp = 0.25*arg*arg*invLength;
if(dSvp!=NULL) *dSvp = arg*invLength;
}
else if(xp<-lp)
{ *Svp = 1. + 0.5*xp;
if(dSvp!=NULL) *dSvp = 1.;
}
else
{ double arg = lp-xp;
double argp = lp+xp;
double invLength = 1./(2.*d2*lp);
*Svp = 0.25*(d2*(8.*lp-arg*arg)-2.*argp*argp)*invLength;
if(dSvp!=NULL) *dSvp = (d2*arg-2.*argp)*invLength;
}
}
return true;
}
// get GIMP shape functions and optionally derivatives wrt x and y
// assumed to be properly numbered regular array
// input *xi position in element coordinate
// output number of nodes in nds[0] and nodes in nds[1] to nds[nds[0]]
// Only that elements that support axisymmetric GIMP must override
void ElementBase::GimpShapeFunctionAS(Vector *xi,int *nds,int getDeriv,double *sfxn,
double *xDeriv,double *yDeriv,double *zDeriv,Vector &lp) const
{
}
// get GIMP shape functions and optionally derivatives wrt x and y
// assumed to be properly numbered regular array
// input *xi position in element coordinate and ndIDs[0]... is which nodes (0-15)
// Elements that support GIMP must override
void ElementBase::BGimpShapeFunction(Vector *xi,int *nds,int getDeriv,double *sfxn,
double *xDeriv,double *yDeriv,double *zDeriv,Vector &lp) const
{
}
// get axisymmetric GIMP shape functions and optionally derivatives wrt x and y
// assumed to be properly numbered regular array
// input *xi position in element coordinate and ndIDs[0]... is which nodes (0-15)
// Elements that support GIMP must override
void ElementBase::BGimpShapeFunctionAS(Vector *xi,int *nds,int getDeriv,double *sfxn,
double *xDeriv,double *yDeriv,double *zDeriv,Vector &lp) const
{
}
// get finite GIMP shape functions and optionally derivatives wrt x and y
// Elements that support GIMP must override
void ElementBase::FiniteGimpShapeFunction(int *nds,double *fn,double *xDeriv,double *yDeriv,double *zDeriv,MPMBase *mpmptr) const
{
}
// check if this GIMP element is on the edge of the grid
// assumes a generated 2D structured grid
bool ElementBase::OnTheEdge(void)
{ // now adds extra element for POINT_GIMP too and treats edge as left the grid
//if(useGimp == POINT_GIMP) return FALSE;
return mpmgrid.EdgeElement2D(num);
}
// Calculate CPDI nodes, optional shape functions and optional gradients
// numDnds - number of nodes in the particle domain
// cpdi[i]->ncpos - array of coordinates for corner nodes (numDnds of them)
// cpdi[i]->inElem - the element they are in
// cpdi[i]->ws - shape function weights (numNds of them)
// cpdi[i]->wg - gradient weights (numNds of them)
// throws CommonException() if too many CPDI nodes
int ElementBase::GetCPDIFunctions(int *nds,double *fn,double *xDeriv,double *yDeriv,double *zDeriv,MPMBase *mpmptr) const
{
int i,j,numnds;
CPDIDomain **cpdi = mpmptr->GetCPDIInfo();
//#define FAST_CPDI
#ifdef FAST_CPDI
// For grid shape functions having non values
// Array may need gridNiNodes*numCPDINodes elements
// Worst case (3D/splines on grid) is 8*27 = 216
#ifdef CONST_ARRAYS
int storenodes[217];
double cfn[27];
int cnds[27];
#else
int storenodes[numCPDINodes*gridNiNodes+1];
double cfn[gridNiNodes + 1];
int cnds[gridNiNodes + 1];
#endif
// loop over all possible nodes
int ind = 0;
storenodes[0] = 0; // just in case
for(i = 0; i<numCPDINodes; i++)
{ // get nodes
ElementBase *elem = theElements[cpdi[i]->inElem];
elem->GetShapeFunctionsForTractions(cfn, cnds, &cpdi[i]->ncpos);
numnds = cnds[0];
for(j = 1; j <= numnds; j++)
{ if (cfn[j] < 1e-15) continue; // don't count this node if too small
// loop backwards to see if this node was visited before
int thisnode = cnds[j];
bool add_new = true;
for(int look = ind; look > 0; look--)
{ // found it, increment, and then move on
if(thisnode == storenodes[look])
{ fn[look] += cpdi[i]->ws*cfn[j];
if(xDeriv != NULL)
{ xDeriv[look] += cpdi[i]->wg.x*cfn[j];
yDeriv[look] += cpdi[i]->wg.y*cfn[j];
zDeriv[look] += cpdi[i]->wg.z*cfn[j];
}
add_new = false;
break;
}
}
// if didn't find it, add to the list, and initialize
if(add_new)
{ ind++;
storenodes[ind] = thisnode;
fn[ind] = cpdi[i]->ws*cfn[j];
nds[ind] = thisnode;
if(xDeriv != NULL)
{ xDeriv[ind] = cpdi[i]->wg.x*cfn[j];
yDeriv[ind] = cpdi[i]->wg.y*cfn[j];
zDeriv[ind] = cpdi[i]->wg.z*cfn[j];
}
}
}
}
// max sure we don't have too many nodes
if(ind >= maxShapeNodes)
{
#pragma omp critical (output)
{ cout << "# Found " << ind - 1 << " nodes; only room for "
<< maxShapeNodes << " nodes." << endl;
throw CommonException("Too many CPDI nodes found; increase maxShapeNodes in source code by at least number of remaining nodes", "ElementBase::GetCPDIFunctions");
}
}
// return count of found nodes
return ind;
#else
// For grid shape functions having non values
// Array may need gridNiNodes*numCPDINodes elements
// Worst case (3D/splines on grid) is 8*27 = 216
#ifdef CONST_ARRAYS
int cnodes[216],ncnds=0; // corner nodes and counter for those nodes
double wsSi[216]; // hold ws * Si(xa)
Vector wgSi[216]; // hold wg * Si(xa)
#else
int worstCase = numCPDINodes*gridNiNodes;
int cnodes[worstCase],ncnds=0; // corner nodes and counter for those nodes
double wsSi[worstCase]; // hold ws * Si(xa)
Vector wgSi[worstCase]; // hold wg * Si(xa)
#endif
// loop over the domain nodes
for(i=0;i<numCPDINodes;i++)
{ // get straight grid shape functions
ElementBase *elem = theElements[cpdi[i]->inElem];
elem->GetShapeFunctionsForTractions(fn,nds,&cpdi[i]->ncpos);
numnds = nds[0];
// loop over shape grid shape functions and collect in arrays
for(j=1;j<=numnds;j++)
{ cnodes[ncnds] = nds[j];
wsSi[ncnds] = cpdi[i]->ws*fn[j];
if(xDeriv!=NULL) CopyScaleVector(&wgSi[ncnds], &cpdi[i]->wg, fn[j]);
ncnds++;
}
}
// shell sort by node numbers in cnodes[] (always 16 for linear CPDI)
int lognb2=(int)(log((double)ncnds)*1.442695022+1.0e-5); // log base 2
int k=ncnds,l,cmpNode;
double cmpWsSi;
Vector cmpWgSi;
for(l=1;l<=lognb2;l++)
{ k>>=1; // divide by 2
for(j=k;j<ncnds;j++)
{ i=j-k;
cmpNode = cnodes[j];
cmpWsSi = wsSi[j];
if(xDeriv!=NULL) cmpWgSi = wgSi[j];
// Back up until find insertion point
while(i>=0 && cnodes[i]>cmpNode)
{ cnodes[i+k] = cnodes[i];
wsSi[i+k] = wsSi[i];
if(xDeriv!=NULL) wgSi[i+k] = wgSi[i];
i-=k;
}
// Insert point
cnodes[i+k]=cmpNode;
wsSi[i+k]=cmpWsSi;
if(xDeriv!=NULL) wgSi[i+k]=cmpWgSi;
}
}
// compact same node number
int count = 0;
nds[0] = -1;
fn[0] = 1.;
for(i=0;i<ncnds;i++)
{ if(cnodes[i] == nds[count])
{ // note that code never entered until all are initialized below
fn[count] += wsSi[i];
if(xDeriv!=NULL)
{ xDeriv[count] += wgSi[i].x;
yDeriv[count] += wgSi[i].y;
zDeriv[count] += wgSi[i].z;
}
}
else
{ if(fn[count]>1.e-10)
{ count++; // keep previous one only if nonzero (otherwise previous one is removed as too small)
if(count>=maxShapeNodes)
{
#pragma omp critical (output)
{ cout << "# Found " << count-1 << " nodes; only room for "
<< maxShapeNodes << " nodes." << endl;
throw CommonException("Too many CPDI nodes found; increase maxShapeNodes in source code by at least number of remaining nodes","ElementBase::GetCPDIFunctions");
}
}
}
nds[count] = cnodes[i];
fn[count] = wsSi[i];
if(xDeriv!=NULL)
{ xDeriv[count] = wgSi[i].x;
yDeriv[count] = wgSi[i].y;
zDeriv[count] = wgSi[i].z;
}
}
}
// remove last one if it was too small
if(fn[count]<=1.e-10) count--;
/*
#pragma omp critical (output)
{ double fsum = 0.,xdsum=0.,ydsum=0.,zdsum=0.;
cout << "CPDI Shape functions:" << endl;
for(i=1;i<=count;i++)
{ cout << "# node = " << nds[i] << ",fn = " << fn[i];
fsum += fn[i];
if(xDeriv!=NULL)
{ cout << ", xDeriv = " << xDeriv[i] << ", yDeriv = " << xDeriv[i] << ", zDeriz = " << zDeriv[i];
xdsum += xDeriv[i];
ydsum += yDeriv[i];
zdsum += zDeriv[i];
}
cout << endl;
}
cout << " partitions: " << fsum << "," << xdsum << "," << ydsum << "," << zdsum << endl;
}
*/
return count;
#endif
}
#pragma mark ElementBase: MPM Only Methods
/* Get list of nodes for this element and the number of nodes
nodes will be in nds[1]...
*/
void ElementBase::GetNodes(int *numnds,int *nds) const
{
int i;
*numnds = NumberNodes();
for(i=1;i<=*numnds;i++)
nds[i] = nodes[i-1];
}
/* Load nodal coordinates into eNodes[1]...
input numnds and nds from previous call to GetNodes()
*/
void ElementBase::GetCoordinates(Vector *eNodes,int numnds,int *nds) const
{
int i;
for(i=1;i<=numnds;i++)
{ eNodes[i].x=nd[nds[i]]->x;
eNodes[i].y=nd[nds[i]]->y;
eNodes[i].z=nd[nds[i]]->z;
}
}
/* Give dimensionless coordinates for central point
of element to provide initial guess for
numerical solution to find natural coordinates.
Only needed for non-rectangular elements
*/
void ElementBase::GetCentroid(Vector *xipos) const
{
xipos->x=0.;
xipos->y=0.;
xipos->z=0.;
}
/* Find node of this element closest to specified point
Only checks nodes of this element. In distorted mesh,
could be closer node in neighboring element, even if
this point is in this element
*/
int ElementBase::NearestNode(double x,double y,int *secondChoice)
{ int ind,nearest,nextNearest;
double dist,distMin,distNextMin,dltx,dlty;
int k,numnds=NumberNodes();
// distance to first node
nearest=nodes[0];
dltx=nd[nearest]->x-x;
dlty=nd[nearest]->y-y;
distMin=dltx*dltx+dlty*dlty;
// distance to second node
nextNearest=nodes[1];
dltx=nd[nextNearest]->x-x;
dlty=nd[nextNearest]->y-y;
distNextMin=dltx*dltx+dlty*dlty;
if(distNextMin<distMin)
{ dist=distMin;
distMin=distNextMin;
distNextMin=dist;
nearest=nodes[1];
nextNearest=nodes[0];
}
// check the rest
for(k=2;k<numnds;k++)
{ ind=nodes[k];
dltx=nd[ind]->x-x;
dlty=nd[ind]->y-y;
dist=dltx*dltx+dlty*dlty;
if(dist<distMin)
{ distNextMin=distMin;
nextNearest=nearest;
distMin=dist;
nearest=ind;
}
else if(dist<distNextMin)
{ distNextMin=dist;
nextNearest=ind;
}
}
// return the node
*secondChoice=nextNearest;
return nearest;
}
/* find next node (in ccw direction) from specified node
Assumes nodes[NumberNodes()]=nodes[0]
return 0 if gridNode not in this element
*/
int ElementBase::NextNode(int gridNode)
{ int i;
for(i=0;i<NumberNodes();i++)
{ if(nodes[i]==gridNode)
return nodes[i+1];
}
return 0;
}
// for structured grid, return 0-terminated list of neighbors
void ElementBase::GetListOfNeighbors(int *theList) const { mpmgrid.ListOfNeighbors2D(num,theList); }
// If needed, create the neighbors array (only done for 2D with cracks)
// throws std::bad_alloc
void ElementBase::AllocateNeighborsArray(void)
{ neighbors = new int[NumberSides()];
int i;
for(i=0;i<NumberSides();i++)
neighbors[i]=UNKNOWN_NEIGHBOR;
}
/* Find element (0 based) that touches the element face stating in gridNode
First time called, search other elements for the edge, but then store result
Assumes nodes[NumberNodes()]=nodes[0]
return NO_NEIGHBOR (-1) if no neighbor (i.e., on edge of grid)
return UNKNOWN_NEIGHBOR (-2) if gridNode not in this element
*/
int ElementBase::Neighbor(int gridNode)
{
int i,edge=-1;
// first find which edge (0 to NumberSides()-1) to search?
for(i=0;i<NumberSides();i++)
{ if(nodes[i]==gridNode)
{ edge=i;
break;
}
}
// if edge not found and error because the gridNode is not even in this element
if(edge<0) return UNKNOWN_NEIGHBOR;
// search for neighbor if needed
if(neighbors[edge]==UNKNOWN_NEIGHBOR)
{ int nextNode=nodes[edge+1];
neighbors[edge]=NO_NEIGHBOR;
// search for element with nextNode,gridNode in ccw direction
for(i=0;i<nelems;i++)
{ if(theElements[i]->FindEdge(nextNode,gridNode)>=0)
{ neighbors[edge]=i;
break;
}
}
}
// return result
return neighbors[edge];
}
/* find an edge (in ccw direction) with a pair of nodes
Assumes nodes[NumberNodes()]=nodes[0]
return edge number (0 based) or -1 if no such edge
*/
int ElementBase::FindEdge(int beginNode,int endNode)
{
int i;
for(i=0;i<NumberNodes();i++)
{ if(nodes[i]==beginNode && nodes[i+1]==endNode)
return i;
}
return -1;
}
// return TRUE or false if Orthogonal in x-y-z planes and if orthogonal then find width, height, and depth
// of the element. If 2D element, return depth=0. Only for MPM elements.
int ElementBase::Orthogonal(double *dx,double *dy,double *dz) { return FALSE; }
// Find Cartesion position from natural coordinates
void ElementBase::GetPosition(Vector *xipos,Vector *xyzpos)
{
double fn[MaxElNd];
ShapeFunction(xipos,FALSE,&fn[1],NULL,NULL,NULL);
int i;
ZeroVector(xyzpos);
for(i=1;i<=NumberNodes();i++)
{ xyzpos->x += fn[i]*nd[nodes[i-1]]->x;
xyzpos->y += fn[i]*nd[nodes[i-1]]->y;
xyzpos->z += fn[i]*nd[nodes[i-1]]->z;
}
}
// Describe the element
void ElementBase::Describe(void) const
{
cout << "# Element " << num << " nodes: ";
int numnds = NumberNodes();
for(int i=0;i<numnds;i++)
{ cout << nodes[i];
if(i<numnds-1) cout << ", ";
}
cout << endl;
}
#pragma mark CLASS METHODS
// zero all velocity fields at start of time step
void ElementBase::AllocateNeighbors(void)
{ int i;
for(i=0;i<nelems;i++)
theElements[i]->AllocateNeighborsArray();
}
// on start up initialize number of CPDI nodes (if needed)
// done here in case need more initializations in the future
// throws CommonException() if CPDI type is not allowed
void ElementBase::InitializeCPDI(bool isThreeD)
{
if(isThreeD)
{ numCPDINodes = 8;
if(useGimp == QUADRATIC_CPDI)
{ throw CommonException("qCPDI is not yet implemented for 3D; use lCPDI or B2CPDI instead.","ElementBase::InitializeCPDI");
}
}
else
{ numCPDINodes = 4;
if(useGimp == QUADRATIC_CPDI)
{ numCPDINodes = 9;
}
}
}
// return 1 for linear elements or 2 for spline elements
int ElementBase::GetShapeFunctionOrder(void)
{
switch(useGimp)
{ case BSPLINE_GIMP:
case BSPLINE_GIMP_AS:
case BSPLINE:
case BSPLINE_CPDI:
return 2;
}
// rest are lineat
return 1;
}
// return true if CPDI method, false is POINT_GIMP or any GIMP
bool ElementBase::UsingCPDIMethod(void) { return useGimp>=LINEAR_CPDI; }
|
125d0d96a04cb6ca1d9c9ce1e401a2240d51e010 | ceef7192763f93319f5a919a6e5239e4fd77d405 | /HW1/Command/CommandFunction.cpp | 36c464f0e8d44ab5f92227e74935bd3efe4c792d | [] | no_license | andy199310/posd_hw1 | c0ba22d0a63163d9197b2ae74d5fd22cc7a1975a | 1c0db953895d2ca7bd42946cb3d866218822272f | refs/heads/master | 2021-03-27T14:34:37.211557 | 2017-01-05T03:43:22 | 2017-01-05T03:43:22 | 69,327,680 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,108 | cpp | CommandFunction.cpp | //
// Created by Green on 2016/12/5.
//
#include <iostream>
#include <sstream>
#include "CommandFunction.h"
#include <math.h>
unsigned int CommandFunction::split(const std::string &txt, std::vector<std::string> &strs, char ch) {
std::stringstream stream(txt);
std::string tmpString;
while(std::getline(stream, tmpString, ch)){
strs.push_back(tmpString);
}
return strs.size();
}
void CommandFunction::printVector(const std::vector<std::string> &vector) {
for(unsigned int i=0; i<vector.size(); i++){
std::cout << i << " : " << vector.at(i) << std::endl;
}
std::cout << "==========" << std::endl;
}
bool CommandFunction::startWith(std::string origin, std::string key) {
try{
return origin.compare(0, key.length(), key) == 0;
}catch(...){
return false;
}
}
void CommandFunction::getShapeArgumentFromString(std::vector<double> *argumentVector, std::string string) {
unsigned long startIndex = string.find_first_of("(");
unsigned long endIndex = string.find_first_of(")");
std::string subString = string.substr(startIndex+1, endIndex-startIndex-1);
double tmpDouble;
std::stringstream stream(subString);
std::string tmpString;
while(std::getline(stream, tmpString, ',')){
std::stringstream tmpStream(tmpString);
tmpStream >> tmpDouble;
argumentVector->push_back(tmpDouble);
}
}
void CommandFunction::getComboArgumentFromString(std::vector<std::string> *argumentVector, std::string string) {
unsigned long startIndex = string.find_first_of("{");
unsigned long endIndex = string.find_first_of("}");
std::string subString = string.substr(startIndex+1, endIndex-startIndex-1);
std::stringstream stream(subString);
std::string tmpString;
while(std::getline(stream, tmpString, ',')){
argumentVector->push_back(tmpString);
}
}
bool CommandFunction::endWith(std::string origin, std::string key) {
try{
return origin.compare(origin.length()-key.length(), key.length(), key) == 0;
}catch(...){
return false;
}
}
|
d1ac44b46bfbbf2ef9e7d5752ee693d8da781de6 | 46389358486b322fa1ae06259b5d249feac6fe5b | /20150615/test.cpp | 057115a02447f128258097a053d1215038d7d30b | [] | no_license | takamik/onlineJudge | 0b7c80c0f27c28f863c8bc2025cbd48d79a1d718 | bbf4b414c3d573782b7a6e6d2b9150bbaaa9a832 | refs/heads/master | 2021-01-18T17:28:14.108637 | 2015-08-10T02:15:02 | 2015-08-10T02:15:02 | 34,533,605 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 889 | cpp | test.cpp | #include <iostream>
#include <sstream>
#include <algorithm>
#include <vector>
using namespace std;
int main() {
// cout << "test" << endl;
string str;
/*
// while(cin.eof()){
while(cin >> str) {
// cin >> str;
if(cin.eof()){break;}
if(str == "a") {break;}
cout << str << endl;
}
*/
while(getline(cin, str)) {
if(str == "a") {break;}
cout << str << endl;
char delimiter = ' ';
vector<int> num_list;
stringstream ss(str);
string num;
while (getline(ss, num, ' ')) {
if (!num.empty()) {
num_list.push_back(stoi(num));
//cout << '>' << num << '<';
}
}
for (int i=0; i<num_list.size();i++ ) {
cout << num_list[i] << ' ';
}
}
cout << "end" << endl;
return 0;
} |
e8151909ac2f3d3503b203630014df074bb9bfa2 | 6bae74469cb19d943a405f4b052426b533cbeee5 | /Classes/HelloWorldScene.h | c8b96730158ad53133df0c937d0278ca42f7c74c | [] | no_license | cnsuhao/3ddemo | 21e0ab7fa1e17fe365fe8b184dcf0fa1803f2e35 | 0147c8bda14c3d83d7bddc71727ed8aabbc6c4ba | refs/heads/master | 2021-08-23T13:42:03.315600 | 2016-02-16T08:32:22 | 2016-02-16T08:32:22 | null | 0 | 0 | null | null | null | null | WINDOWS-1252 | C++ | false | false | 1,148 | h | HelloWorldScene.h | #ifndef __HELLOWORLD_SCENE_H__
#define __HELLOWORLD_SCENE_H__
#include "cocos2d.h"
#include "ui/CocosGUI.h"
using namespace cocos2d;
using namespace ui;
class HelloWorld : public cocos2d::Layer
{
public:
static cocos2d::Scene* createScene();
virtual bool init();
// a selector callback
void menuCloseCallback(cocos2d::Ref* pSender);
// implement the "static create()" method manually
CREATE_FUNC(HelloWorld);
// ³õʼ»¯µØͼ
void initTerrain();
void onKeyPressed(EventKeyboard::KeyCode keyCode, Event* event);
void onKeyReleased(EventKeyboard::KeyCode keyCode, Event* event);
bool onTouchBegan(Touch* touch, Event* evt);
void onTouchMoved(Touch* touch, Event* evt);
void updateCamera(float dt);
void initAdujstPanel();
void adjustHeightButtonTouchEvent(Ref* ref, Widget::TouchEventType eventType);
void initSprite3D();
private:
Camera* _mapCamera;
Terrain* _terrain;
float _x = 0;
float _y = 0;
float _z = 0;
float _per = 1.0f;
float _scale = 1.0f;
float _height = 200.0f * _scale;
Vec3 _cameraPos;
Vec3 _cameraRotate;
Sprite3D* _sprite;
};
#endif // __HELLOWORLD_SCENE_H__
|
6842b1a4d4ba433d6f61a3027206ba3567556d66 | 908e429f6653179c2bce7545c4554ac94769a21f | /problem_solving/easy/staircase.cpp | b8c85219615b99bc3d08dae773ec86b47abd3e79 | [] | no_license | transeos/hackerrank | 80a98d0309eec3c27b3c6b2f7f289919f281314e | fea574ea3a818d4069947cf1eb93c0ac498d1171 | refs/heads/master | 2022-07-02T03:59:24.348850 | 2022-06-11T16:26:07 | 2022-06-11T16:26:07 | 186,157,157 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 935 | cpp | staircase.cpp | // -*- C++ -*-
//
//*****************************************************************
//
// hackerrank: https://www.hackerrank.com/challenges/staircase/problem
//
// WARRANTY:
// Use all material in this file at your own risk.
//
// Created by Hiranmoy on 11/06/22.
//
//*****************************************************************
#include "utils.h"
#include <bits/stdc++.h>
#include <catch2/catch.hpp>
using std::cin;
using std::cout;
using std::endl;
using std::ofstream;
using std::string;
using std::vector;
/*
* Complete the 'staircase' function below.
*
* The function accepts INTEGER n as parameter.
*/
void staircase(const int32_t n) {
string output(n, ' ');
for (int64_t i = 0; i < n; ++i) {
output[n - i - 1] = '#';
cout << output << endl;
}
}
TEST_CASE("staircase", "[problem_solving][easy]") {
string n_temp;
getline(cin, n_temp);
int n = stoi(ltrim(rtrim(n_temp)));
staircase(n);
}
|
5923a4ebf1fad73886e64a65da4b920a4ad057bc | 84bef8fa9abe999baf0ce0467e923f4128d027d4 | /ramp.ino | 6a4c8f93ca107aff79f51de92a2a6cfec206d687 | [] | no_license | MesutCaliskan/Droege_RemoteControl | bfb0158b2386b8314ac6199504dab5bfe3fbddfa | b3b646e4b22d91fa17a3f91ac95c02e89f92e71d | refs/heads/master | 2020-03-22T15:09:17.059761 | 2019-03-07T01:34:39 | 2019-03-07T01:34:39 | 140,232,243 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 5,120 | ino | ramp.ino | #include <Wire.h>
#include <Adafruit_MCP4725.h>
Adafruit_MCP4725 dac;
int increment;
int startValue;
int endValue;
int timeValue;
float calc_startValue;
float calc_endValue;
float calc_increment;
int bits_startValue;
int bits_endValue;
int bits_increment;
float calc_writtenVoltage;
int writtenVoltage;
int analogInput;
float r_monitor;
float r_real;
int readVoltage;
void setup() {
Serial.begin(9600);
dac.begin(0x62);
}
void loop() {
dac.setVoltage(0, false);
delay(250);
Serial.println("");
Serial.println("Dual MWPC High Voltage Power Supply (Droege) Ramp Programme v1.2");
Serial.println("");
delay(1000);
Serial.println("Written by Mesut Caliskan on August 13, 2018 at The University of Chicago");
Serial.println("");
delay(1000);
Serial.println("Before the process starts, you enter the values which spesify your ramp...");
Serial.println("");
delay(2000);
Serial.println("Please enter the INITIAL VOLTAGE value (in volts): ");
Serial.println("");
while(Serial.available()==0){
}
startValue = Serial.parseInt();
calc_startValue = ((startValue - 8.2286)/2.192);
bits_startValue = round(calc_startValue);
Serial.print("INITIAL VOLTAGE value (in volts) is: ");
Serial.print(startValue);
Serial.println(" V");
Serial.print("This value corresponds to ");
Serial.print(bits_startValue);
Serial.println(" bits");
Serial.println("");
Serial.println("");
delay(250);
Serial.println("Please enter the FINAL VOLTAGE value (in volts): ");
Serial.println("");
while(Serial.available()==0){
}
endValue = Serial.parseInt();
calc_endValue = ((endValue - 8.2286)/2.192);
bits_endValue = round(calc_endValue);
Serial.print("FINAL VOLTAGE value (in volts) is: ");
Serial.print(endValue);
Serial.println(" V");
Serial.print("This value corresponds to ");
Serial.print(bits_endValue);
Serial.println(" bits");
Serial.println("");
Serial.println("");
delay(250);
Serial.println("Please enter the TIME VALUE (in ms) for each step: ");
Serial.println("");
while(Serial.available()==0){
}
timeValue = Serial.parseInt();
Serial.print("TIME VALUE for each step is: ");
Serial.print(timeValue);
Serial.println(" ms");
Serial.println("");
Serial.println("");
delay(250);
Serial.println("Please enter the VOLTAGE INCREASE (in volts) with each step: ");
Serial.println("");
while(Serial.available()==0){
}
increment = Serial.parseInt();
calc_increment = (increment/2.192);
bits_increment = round(calc_increment);
Serial.print("Each INCREMENT is: ");
Serial.print(increment);
Serial.println(" V");
Serial.print("This value corresponds to ");
Serial.print(bits_increment);
Serial.println(" bits");
Serial.println("");
Serial.println("");
delay(1000);
Serial.println("Your values are like the following:");
Serial.print("INITIAL VOLTAGE: ");
Serial.print(startValue);
Serial.println(" V");
Serial.print("FINAL VOLTAGE: ");
Serial.print(endValue);
Serial.println(" V");
Serial.print("TIME VALUE: ");
Serial.print(timeValue);
Serial.println(" ms");
Serial.print("INCREMENT: ");
Serial.print(increment);
Serial.println(" V");
Serial.println("");
delay(1000);
Serial.println("ARE THE VALUES CORRECT? - (y/n)");
while(Serial.available()==0){
}
if(Serial.readString() == "y"){
Serial.println("THE PROCESS IS STARTING in 5...");
delay(1000);
Serial.println("THE PROCESS IS STARTING in 4...");
delay(1000);
Serial.println("THE PROCESS IS STARTING in 3...");
delay(1000);
Serial.println("THE PROCESS IS STARTING in 2...");
delay(1000);
Serial.println("THE PROCESS IS STARTING in 1...");
Serial.println("");
delay(1000);
Serial.println("BEGIN...");
delay(2000);
Serial.println("Bits written (b) | Voltage written (w) | Voltage Read (r) | Time (t)");
Serial.println("");
for(int v = bits_startValue; v <= bits_endValue; v = v + bits_increment){
if ( analogRead(A3) < 550) {
dac.setVoltage(v, false);
calc_writtenVoltage = ((2.192*v)+8.2286);
writtenVoltage = round(calc_writtenVoltage);
analogInput = analogRead(A3);
r_monitor = ((4.9562 * analogInput) + 8.417);
r_real = (r_monitor);
readVoltage = round(r_real);
Serial.print("b: ");
Serial.print(v);
Serial.print(" | ");
Serial.print("w: ");
Serial.print(writtenVoltage);
Serial.print(" | ");
Serial.print("r: ");
Serial.print(readVoltage);
Serial.print(" | ");
Serial.print("t: ");
Serial.println(millis());
Serial.println("");
delay(timeValue);
}
else {
return;
}
}
dac.setVoltage(0,false); //this is to make sure that Droege does NOT output any voltage after the ramp ends
delay(1000);
Serial.println("RAMP HAS ENDED SUCCESSFULLY...");
delay(5000);
Serial.println("To exit please use Ctrl+A Ctrl+X");
delay(5000);
return;
}
else {
return;
}
}
|
b172db849de6d7cd9fe363dd0a06844d8eddcd1b | 77e5f5c634cb57df4d50320d111b117ddd1aad78 | /Merge Intervals(google interview bit ) achha he easy.cpp | d52eb15876dc3e9c64a3927db07182cded6601b5 | [] | no_license | patidar622/gfg_amazon_questions | 6957ad429c8ed9f6ea69bfccbb6ad9813374e441 | 2acc9bddb5e621d3b1c33925392091a498d63307 | refs/heads/master | 2022-12-03T04:07:56.804212 | 2020-08-27T18:28:05 | 2020-08-27T18:28:05 | 262,112,942 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,406 | cpp | Merge Intervals(google interview bit ) achha he easy.cpp | /*
Given a set of non-overlapping intervals, insert a new interval into the intervals (merge if necessary).
You may assume that the intervals were initially sorted according to their start times.
Example 1:
Given intervals [1,3],[6,9] insert and merge [2,5] would result in [1,5],[6,9].
Example 2:
Given [1,2],[3,5],[6,7],[8,10],[12,16], insert and merge [4,9] would result in [1,2],[3,10],[12,16].
This is because the new interval [4,9] overlaps with [3,5],[6,7],[8,10].
Make sure the returned intervals are also sorted.
*/
/**
* Definition for an interval.
* struct Interval {
* int start;
* int end;
* Interval() : start(0), end(0) {}
* Interval(int s, int e) : start(s), end(e) {}
* };
*/
bool comparator(Interval i1,Interval i2)
{
return (i1.start<i2.start || (i1.start==i2.start && i1.end<=i2.end));
}
vector<Interval> Solution::insert(vector<Interval> &intervals, Interval newInterval) {
intervals.push_back(newInterval);
sort(intervals.begin(),intervals.end(),comparator);
vector<Interval>ans;
ans.push_back(intervals[0]);
for(int i=1;i<intervals.size();i++)
{
if(ans.back().end>=intervals[i].start)
{
ans.back().end=max(ans.back().end,intervals[i].end);
}
else
{
ans.push_back(intervals[i]);
}
}
return ans;
}
|
53286d498cbd7acd1af945056156ec3c8c0c0569 | dba68ca53ce02985ed1b49f6813d578d24e94b27 | /ProjectsServer/GameServer/IMServer/Main/IMIOCPSocket.cpp | 327de3a66e7af55c8edb016c336ee53339216126 | [] | no_license | DeathRivals/OpenAo | afd6c1fe6ddc00e3765c290f485805a7b3e0db59 | bf6be4ee29b1f08588fe7fd12c02c8df94d705f5 | refs/heads/master | 2021-02-15T18:23:37.814569 | 2020-03-04T14:39:38 | 2020-03-04T14:39:38 | 244,919,960 | 2 | 2 | null | 2020-03-04T14:22:07 | 2020-03-04T14:22:07 | null | UHC | C++ | false | false | 465,456 | cpp | IMIOCPSocket.cpp | // IMIOCPSocket.cpp: implementation of the CIMIOCPSocket class.
//
//////////////////////////////////////////////////////////////////////
#include "stdafx.h"
#include "IMIOCPSocket.h"
#include "IMIOCP.h"
#include "IMGlobal.h"
#include "AtumIMDBManager.h"
#include "AtumProtocolVoIP.h"
#include "AtumSJ.h"
#include "AtumError.h"
#include "IMParty.h"
//#include "SecurityManager.h" // 2011-06-22 by hskim, 사설 서버 방지
#include "FreeWar.h" // 2015-11-02 PanKJ
CIMIOCP *CIMIOCPSocket::ms_pIMIOCP = NULL;
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
CIMIOCPSocket::CIMIOCPSocket()
{
m_nLoginType = -1;
m_PeerSocketType = ST_INVALID_TYPE;
this->SetIMParty(NULL);
// 길드 관련
this->SetGuildUniqueNumber(INVALID_GUILD_UID);
this->SetCurrentFieldServerSocket(NULL);
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// m_enableChatFlag8 = (BitFlag8_t)0xFF;
m_enableChatFlag32 = (BitFlag32_t)0xFFFF;
m_bSendMessgeTypeDBG = FALSE;
memset(&m_character, 0x00, sizeof(CHARACTER));
memset(&m_MembershipInfo, 0x00, sizeof(MSG_FI_CASH_PREMIUM_CARD_INFO));
m_mtvectorFriendList.reserve(10);
m_mtvectorRejectList.reserve(10);
m_nEachOtherFriendCnts = 0;
m_VoipType = CHECK_TYPE_VOIP_NONE; // 2008-06-17 by dhjin, EP3 VOIP -
m_bChatRoomUseing = FALSE; // 2008-06-17 by dhjin, EP3 채팅방 - 채팅방 참여 중인지에 대한 값
m_nChatRoomNum = 0; // 2008-06-18 by dhjin, EP3 채팅방 - 채팅방 번호
m_bArenaIMServerCheck = FALSE; // 2012-04-12 by jhseol, 아레나 추가개발 - 자동파티 : 아레나 서버인지 체크
}
CIMIOCPSocket::~CIMIOCPSocket()
{
}
BOOL CIMIOCPSocket::OnRecvdPacket(const char* pPacket, int nLength, BYTE nSeq, char* pPeerIP, int nPeerPort, SThreadInfo *i_pThreadInfo)
{
int nBytesUsed = 0;
MessageType_t nRecvType = 0;
int nRecvTypeSize = 0;
ProcessResult procRes = RES_BREAK;
MessageType_t prevMsgType = 0;
// UDP 처리 루틴
if(m_bUDPFlag == TRUE)
{
if(strncmp(m_szPeerIP, pPeerIP, SIZE_MAX_IPADDRESS) != 0 || m_nPeerPort != nPeerPort)
{
// Protocl Error 처리
// - UDP로 받은 패킷의 IP와 Port가 서버에 설정된 Client의 IP, Port와 같지 않다
// Error Code : ERR_PROTOCOL_INVALID_PEER
SendErrorMessage(T_IM_IOCP, ERR_PROTOCOL_INVALID_PEER);
Close(0x12000);
}
return TRUE;
}
while(this->IsUsing() && nBytesUsed < nLength)
{
nRecvType = 0;
nRecvType = *(MessageType_t*)(pPacket+nBytesUsed);
nBytesUsed += SIZE_FIELD_TYPE_HEADER;
if(i_pThreadInfo)
{
i_pThreadInfo->dwSocketIndex = m_nClientArrayIndex;
i_pThreadInfo->dwMessageType = nRecvType;
i_pThreadInfo->nParam1 = 0; // 2007-02-21 by cmkwon
i_pThreadInfo->nParam2 = 0; // 2007-02-21 by cmkwon
}
#ifdef _DEBUG
PrintExchangeMsg(RECV_TYPE, nRecvType, m_szPeerIP, ST_IM_SERVER, GGetexchangeMsgPrintLevel());
#endif
#ifdef _DEBUG
// 메세지 찍기
if (m_PeerSocketType == ST_CLIENT_TYPE
&& m_bSendMessgeTypeDBG && T0_IC_STRING != HIBYTE(nRecvType)
&& !IS_ALIVE_MSG(nRecvType) && T0_IC_ADMIN != HIBYTE(nRecvType)
)
{
SendString128(STRING_128_USER_NOTICE, "[C->I]%s", GetProtocolTypeString(nRecvType));
}
#endif
#ifdef S_EP4_DEBUG_HSKIM
// start 2011-10-10 by hskim, EP4 [버그 디버깅]
g_pIMGlobal->WriteSystemLogEX(TRUE, "[Debug Info] Type(%s) IP(%15s)\r\n", GetProtocolTypeString(nRecvType), this->GetPeerIP());
// end 2011-10-10 by hskim, EP4 [버그 디버깅]
#endif
switch(nRecvType)
{
////////////////////////////////////////////////////////////////////////
// IMServer <-- Client, IMServer <-- Monitor, IMServer <-- FieldServer
case T_IC_CONNECT_ALIVE:
case T_FI_CONNECT_ALIVE:
case T_PM_CONNECT_ALIVE:
case T_IM_CONNECT_ALIVE:
case T_FM_CONNECT_ALIVE:
case T_NM_CONNECT_ALIVE:
OnRecvdAlivePacket();
procRes = RES_RETURN_TRUE;
break;
//////////////////////////////////////////////////////////////////
// IMServer <-- AdminTool
case T_IA_ADMIN_CONNECT:
{
MSG_IA_ADMIN_CONNECT* msgAdminConnect = (MSG_IA_ADMIN_CONNECT*)(pPacket + nBytesUsed);
nBytesUsed += sizeof(MSG_IA_ADMIN_CONNECT);
// 인증하기
INIT_MSG_WITH_BUFFER(MSG_IA_ADMIN_CONNECT_OK, T_IA_ADMIN_CONNECT_OK, msgAdminConnectOK, SendBuf);
// 2006-04-15 by cmkwon
// msgAdminConnectOK->AuthOK = bRet;
msgAdminConnectOK->AccountType0 = g_pGlobal->AuthAdminToolUser(msgAdminConnect->UID, msgAdminConnect->PWD);
SendAddData(SendBuf, MSG_SIZE(MSG_IA_ADMIN_CONNECT_OK));
if (0 == msgAdminConnectOK->AccountType0)
{
procRes = RES_RETURN_FALSE;
Close();
}
else
{
// 인증 성공
m_PeerSocketType = ST_ADMIN_TOOL;
util::strncpy(m_character.AccountName, msgAdminConnect->UID, SIZE_MAX_ACCOUNT_NAME); // 2007-10-02 by cmkwon, 수정
m_character.ClientIndex = this->GetClientArrayIndex(); // 2007-10-02 by cmkwon, 수정
ms_pIMIOCP->InsertMonitorIOCPSocketPtr(this);
}
}
break;
case T_IA_ADMIN_GET_CHARACTER:
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
if(FALSE==g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect T_IA_ADMIN_GET_CHARACTER Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
break;
}
// end 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
MSG_IA_ADMIN_GET_CHARACTER* msgAdminGetCharac = (MSG_IA_ADMIN_GET_CHARACTER*)(pPacket + nBytesUsed);
nBytesUsed += sizeof(MSG_IA_ADMIN_GET_CHARACTER);
CIMIOCPSocket *pSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(msgAdminGetCharac->CharacterName);
INIT_MSG_WITH_BUFFER(MSG_IA_ADMIN_GET_CHARACTER_OK, T_IA_ADMIN_GET_CHARACTER_OK, msgAdminGetCharacOK, SendBuf);
if (pSocket == NULL)
{
// 캐릭터 없음
msgAdminGetCharacOK->IsOnline = FALSE;
}
else
{
// 캐릭터 있음
msgAdminGetCharacOK->IsOnline = TRUE;
}
SendAddData(SendBuf, MSG_SIZE(MSG_IA_ADMIN_GET_CHARACTER_OK));
}
break;
case T_IA_ADMIN_CHAT_ALL:
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
if(FALSE==g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect T_IA_ADMIN_CHAT_ALL Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
break;
}
// end 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
MSG_IA_ADMIN_CHAT_ALL* msgChatAll = (MSG_IA_ADMIN_CHAT_ALL*)(pPacket + nBytesUsed);
nBytesUsed += sizeof(MSG_IA_ADMIN_CHAT_ALL) + msgChatAll->MessageLength;
if(ms_pIMIOCP->m_bArenaServerCheck)
{// 2008-04-28 by dhjin, 아레나 통합 - 아레나 서버에서는 전체 공지를 보내지 않는다. 메인서버에서 보내기 때문에 2번 찍한다.
break;
}
char *chatString = ((char*)(msgChatAll))+sizeof(MSG_IA_ADMIN_CHAT_ALL);
if (strncmp(chatString, "/", 1) == 0)
{
// 2007-10-02 by cmkwon, COMMAND 로그 남기기
if (g_pIMGlobal->CheckWriteLog(chatString)) // 2011-06-22 by hskim, 사설 서버 방지
g_pIMGlobal->WriteSystemLogEX(TRUE, "[Notify] : %s, IP(%s), command(%s)\r\n", GetCharacterString(&m_character, string()), this->GetPeerIP(), chatString);
// 명령어임
BOOL ret = HandleAdminCommands(chatString);
break;
}
// set message type
SET_MSG_TYPE(((byte*)msgChatAll) - SIZE_FIELD_TYPE_HEADER, T_IC_CHAT_ALL);
// send msg to all clients
ms_pIMIOCP->SendMessageToAllClients(((BYTE*)msgChatAll) - SIZE_FIELD_TYPE_HEADER, MSG_SIZE(MSG_IC_CHAT_ALL) + msgChatAll->MessageLength);
}
break;
case T_IA_ADMIN_GET_SERVER_INFO:
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
if(FALSE==g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect T_IA_ADMIN_GET_SERVER_INFO Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
break;
}
// end 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
INIT_MSG_WITH_BUFFER(MSG_IA_ADMIN_GET_SERVER_INFO_OK, T_IA_ADMIN_GET_SERVER_INFO_OK, GetServerInfoOk, GetServerInfoOkBuf);
GetServerInfoOk->UserCount = ms_pIMIOCP->m_MapChactarterUniqueNumber.size();
GetServerInfoOk->ServerState = SERVER_STATE_NORMAL;
SendAddData(GetServerInfoOkBuf, MSG_SIZE(MSG_IA_ADMIN_GET_SERVER_INFO_OK));
}
break;
//////////////////////////////////////////////////////////////////
// IMServer <-- Monitor
case T_IM_CONNECT:
{
// 2008-06-05 by cmkwon, AdminTool, Monitor 접근 가능 IP를 server config file 에 설정하기 - 아래와 같이 수정 함
//if(FALSE == IS_SCADMINTOOL_CONNECTABLE_IP(GetPeerIP()))
if(FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP())) // 2008-06-05 by cmkwon, AdminTool, Monitor 접근 가능 IP를 server config file 에 설정하기 -
{
return FALSE;
}
char szSystemLog[256];
sprintf(szSystemLog, "Monitor Client Connected, IP[%s]\r\n", GetPeerIP());
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
m_PeerSocketType = ST_MONITOR_SERVER;
ms_pIMIOCP->InsertMonitorIOCPSocketPtr(this);
INIT_MSG_WITH_BUFFER(MSG_IM_CONNECT_OK, T_IM_CONNECT_OK, pSendConnectOK, SendBuf);
util::strncpy(pSendConnectOK->IPAddress, g_pIMGlobal->GetPublicIPLocal(), SIZE_MAX_IPADDRESS);
pSendConnectOK->NumOfClients = ms_pIMIOCP->m_MapAccountUniqueNumber.size();
pSendConnectOK->Port = ms_pIMIOCP->GetListenerPort();
pSendConnectOK->CalcBandwidth = ms_pIMIOCP->GetFlagCalcTrafficInfo();
pSendConnectOK->StartedTime = ms_pIMIOCP->m_dwTimeStarted;
util::strncpy(pSendConnectOK->ServerName, "IM Server", SIZE_MAX_SERVER_NAME);
SendAddData(SendBuf, MSG_SIZE(MSG_IM_CONNECT_OK));
INIT_MSG(MSG_IM_GET_TOTAL_USER_COUNTS_ACK, T_IM_GET_TOTAL_USER_COUNTS_ACK, pSeAck, SendBuf);
pSeAck->AccumulatedTotalUserCounts = ms_pIMIOCP->m_uiIMAccumulatedTotalUserCounts;
pSeAck->CurrentTotalUserCounts = ms_pIMIOCP->m_MapAccountUniqueNumber.size();
pSeAck->MaxTotalUserCounts = ms_pIMIOCP->m_uiIMMaxTotalUserCounts;
SendAddData(SendBuf, MSG_SIZE(MSG_IM_GET_TOTAL_USER_COUNTS_ACK));
}
break;
case T_IM_GET_NUM_CLIENTS:
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
if(FALSE==g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect T_IM_GET_NUM_CLIENTS Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
break;
}
// end 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
INIT_MSG_WITH_BUFFER(MSG_IM_GET_NUM_CLIENTS_OK, T_IM_GET_NUM_CLIENTS_OK, pSendGetNumClientsOK, SendBuf);
pSendGetNumClientsOK->NumOfClients = ms_pIMIOCP->m_MapChactarterUniqueNumber.size();
SendAddData(SendBuf, MSG_SIZE(MSG_IM_GET_NUM_CLIENTS_OK));
}
break;
case T_IM_SHUTDOWN:
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
if(FALSE==g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect T_IM_SHUTDOWN Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
break;
}
// end 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
SendAddMessageType(T_IM_SHUTDOWN_OK);
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - IM서버로 주는 명령
// PostMessage(g_pGlobal->GetMainWndHandle(), WM_CLOSE, 0, 0);
}
break;
case T_IM_PING:
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
if(FALSE==g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect T_IM_PING Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
break;
}
// end 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
SendAddMessageType(T_IM_PING_OK);
}
break;
case T_IM_PRINTMAP:
{
}
break;
case T_IM_PRINT_DEBUG_MSG:
procRes = Process_IM_PRINT_DEBUG_MSG(pPacket, nLength, nBytesUsed);
break;
case T_IM_CHANGE_BANDWIDTH_FLAG:
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
if(FALSE==g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect T_IM_CHANGE_BANDWIDTH_FLAG Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
break;
}
// end 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
ms_pIMIOCP->SetFlagCalcTrafficInfo(!ms_pIMIOCP->GetFlagCalcTrafficInfo());
INIT_MSG_WITH_BUFFER(MSG_IM_CHANGE_BANDWIDTH_FLAG_OK, T_IM_CHANGE_BANDWIDTH_FLAG_OK, pChangeFlag, SendBuf);
pChangeFlag->bChagedFlag = ms_pIMIOCP->GetFlagCalcTrafficInfo();
SendAddData(SendBuf, MSG_SIZE(MSG_IM_CHANGE_BANDWIDTH_FLAG_OK));
}
break;
case T_IM_SET_MSG_PRINT_LEVEL:
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
if(FALSE==g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect T_IM_SET_MSG_PRINT_LEVEL Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
break;
}
// end 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
BYTE tmpLevel = *(BYTE*)(pPacket + nBytesUsed);
nBytesUsed += sizeof(MSG_IM_SET_MSG_PRINT_LEVEL);
// set msg print level
GSetexchangeMsgPrintLevel(tmpLevel);
}
break;
case T_IM_GET_TOTAL_USER_COUNTS:
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
if(FALSE==g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect T_IM_GET_TOTAL_USER_COUNTS Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
break;
}
// end 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 등록된 IP가 아니면 처리안되도록 한다.
INIT_MSG_WITH_BUFFER(MSG_IM_GET_TOTAL_USER_COUNTS_ACK, T_IM_GET_TOTAL_USER_COUNTS_ACK, pSeAck, SendBuf);
pSeAck->AccumulatedTotalUserCounts = ms_pIMIOCP->m_uiIMAccumulatedTotalUserCounts;
pSeAck->CurrentTotalUserCounts = ms_pIMIOCP->m_MapAccountUniqueNumber.size();
pSeAck->MaxTotalUserCounts = ms_pIMIOCP->m_uiIMMaxTotalUserCounts;
ms_pIMIOCP->SendMessageToMonitor(SendBuf, MSG_SIZE(MSG_IM_GET_TOTAL_USER_COUNTS_ACK));
}
break;
//////////////////////////////////////////////////////////////////
// IMServer <-- Client, IMServer <-- FieldServer
case T_IC_CONNECT_LOGIN:
//로그인
// Client로부터 AccountName, ServerName, CharacterName, Password(MD5),LoginType(게임중,메신저접속)을 받는다.
// 접속중인 ID라면 이전 접속자를 끊는다.
// DB로부터 인증을 요청한다.
procRes = Process_IC_CONNECT_LOGIN(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHAT_MAP:// 지역 채팅
procRes = Process_IC_CHAT_MAP(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_REGION:// 지역 채팅
procRes = Process_IC_CHAT_REGION(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_PARTY:// 파티 채팅
procRes = Process_IC_CHAT_PARTY(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_GUILD://길드 채팅
procRes = Process_IC_CHAT_GUILD(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_ALL:// 전체 채팅
procRes = Process_IC_CHAT_ALL(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_PTOP:
// 1:1 채팅
procRes = Process_IC_CHAT_PTOP(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_CHANGE_CHAT_FLAG: // 채팅 설정
procRes = Process_IC_CHAT_CHANGE_CHAT_FLAG(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHAT_SELL_ALL:
procRes = Process_IC_CHAT_SELL_ALL(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_CASH_ALL:
procRes = Process_IC_CHAT_CASH_ALL(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_INFLUENCE_ALL: // 2006-04-21 by cmkwon
procRes = Process_IC_CHAT_INFLUENCE_ALL(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_ARENA: // 2007-05-02 by dhjin
procRes = Process_IC_CHAT_ARENA(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_WAR: // 2008-05-19 by dhjin, EP3 - 채팅 시스템 변경, 전쟁 채팅
procRes = Process_IC_CHAT_WAR(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_CNC: // 2014-08-03 Future, adding Cross Nation Chat
procRes = Process_IC_CHAT_CNC(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_CHATROOM: // 2008-06-18 by dhjin, EP3 채팅방 -
procRes = Process_IC_CHAT_CHATROOM(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_INFINITY: // 2009-09-09 ~ 2010 by dhjin, 인피니티 - 인피 채팅
procRes = Process_IC_CHAT_INFINITY(pPacket, nLength, nBytesUsed, i_pThreadInfo);
break;
case T_IC_CHAT_FRIENDLIST_AND_REJECTLIST_LOADING:
procRes = Process_IC_CHAT_FRIENDLIST_AND_REJECTLIST_LOADING(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHAT_FRIENDLIST_INSERT:
procRes = Process_IC_CHAT_FRIENDLIST_INSERT(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHAT_FRIENDLIST_DELETE:
procRes = Process_IC_CHAT_FRIENDLIST_DELETE(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHAT_FRIENDLIST_REFRESH:
procRes = Process_IC_CHAT_FRIENDLIST_REFRESH(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHAT_REJECTLIST_INSERT:
procRes = Process_IC_CHAT_REJECTLIST_INSERT(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHAT_REJECTLIST_DELETE:
procRes = Process_IC_CHAT_REJECTLIST_DELETE(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHAT_GET_GUILD:// 길드원 정보 요청
// 길드이름으로 DB에서 길드원 전체를 받아와서
// 접속자,비접속자,메신저접속자들에게 전송한다.
{
}
break;
case T_IC_CHAT_CHANGE_GUILD_OK://길드원 정보 바뀜
// 길드원 정보 바뀐 내용을 받는다.
// 길드원 전체에게 전송한다.
{
}
break;
case T_IC_CHAT_POSITION:
// 좌표 정보를 받는다.
// (지역 채팅에 사용된다.)
{
}
break;
case T_IC_PARTY_CREATE:
procRes = Process_IC_PARTY_CREATE(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_GET_MEMBER:
procRes = Process_IC_PARTY_GET_MEMBER(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_GET_ALL_MEMBER:
procRes = Process_IC_PARTY_GET_ALL_MEMBER(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_LEAVE:
procRes = Process_IC_PARTY_LEAVE(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_TRANSFER_MASTER:
procRes = Process_IC_PARTY_TRANSFER_MASTER(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_BAN_MEMBER:
procRes = Process_IC_PARTY_BAN_MEMBER(pPacket, nLength, nBytesUsed);
break;
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 사용하지 않는 프로토콜임
// case T_IC_PARTY_DISMEMBER:
// procRes = Process_IC_PARTY_DISMEMBER(pPacket, nLength, nBytesUsed);
// break;
case T_IC_PARTY_CHANGE_FLIGHT_FORMATION:
procRes = Process_IC_PARTY_CHANGE_FLIGHT_FORMATION(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_GET_FLIGHT_POSITION:
procRes = Process_IC_PARTY_GET_FLIGHT_POSITION(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_CHANGE_FLIGHT_POSITION:
procRes = Process_IC_PARTY_CHANGE_FLIGHT_POSITION(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_CANCEL_FLIGHT_POSITION:
procRes = Process_IC_PARTY_CANCEL_FLIGHT_POSITION(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_ALL_FLIGHT_POSITION:
procRes = Process_IC_PARTY_ALL_FLIGHT_POSITION(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_REQUEST_PARTYINFO_FROM_A_TO_M: // 2008-02-28 by dhjin, 아레나 통합 -
procRes = Process_IC_PARTY_REQUEST_PARTYINFO_FROM_A_TO_M(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_LEAVE_FROM_M_TO_A: // 2008-02-28 by dhjin, 아레나 통합 -
procRes = Process_IC_PARTY_LEAVE_FROM_M_TO_A(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_LEAVE_FROM_A_TO_M: // 2008-02-28 by dhjin, 아레나 통합 -
procRes = Process_IC_PARTY_LEAVE_FROM_A_TO_M(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_LIST_INFO: // 2008-06-02 by dhjin, EP3 편대 수정 - 편대 정보 리스트 요청
procRes = Process_IC_PARTY_LIST_INFO(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_JOIN_FREE: // 2008-06-02 by dhjin, EP3 편대 수정 - 편대 자유 참여
procRes = Process_IC_PARTY_JOIN_FREE(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_CHANGE_INFO: // 2008-06-04 by dhjin, EP3 편대 수정 - 편대 정보 수정
procRes = Process_IC_PARTY_CHANGE_INFO(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_RECOMMENDATION_MEMBER: // 2008-06-04 by dhjin, EP3 편대 수정 - 추천 케릭터 요청
procRes = Process_IC_PARTY_RECOMMENDATION_MEMBER(pPacket, nLength, nBytesUsed);
break;
case T_IC_PARTY_GET_AUTO_PARTY_INFO: // 2009-09-09 ~ 2010-01-26 by dhjin, 인피니티 - 자동 편대
procRes = Process_IC_PARTY_GET_AUTO_PARTY_INFO(pPacket, nLength, nBytesUsed);
break;
///////////////////////////////////////////////////////////////////////
// IC_GUILD
case T_IC_GUILD_CREATE:
procRes = Process_IC_GUILD_CREATE(pPacket, nLength, nBytesUsed);
break;
// check: T_IC_GUILD_GET_GUILD_INFO로 통합, 필요하면 살림, 20040520, kelovon
// case T_IC_GUILD_GET_MEMBER:
// procRes = Process_IC_GUILD_GET_MEMBER(pPacket, nLength, nBytesUsed);
// break;
case T_IC_GUILD_GET_GUILD_INFO:
procRes = Process_IC_GUILD_GET_GUILD_INFO(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_REQUEST_INVITE:
procRes = Process_IC_GUILD_REQUEST_INVITE(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_ACCEPT_INVITE:
procRes = Process_IC_GUILD_ACCEPT_INVITE(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_REJECT_INVITE:
procRes = Process_IC_GUILD_REJECT_INVITE(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_LEAVE:
procRes = Process_IC_GUILD_LEAVE(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_BAN_MEMBER:
procRes = Process_IC_GUILD_BAN_MEMBER(pPacket, nLength, nBytesUsed);
break;
// 2007-11-12 by dhjin, Process_IC_GUILD_DISMEMBER 이름은 나두고 T_IC_GUILD_DISMEMBER만 변경
// case T_IC_GUILD_DISMEMBER:
case T_FI_GUILD_DISMEMBER:
procRes = Process_IC_GUILD_DISMEMBER(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_CANCEL_DISMEMBER:
procRes = Process_IC_GUILD_CANCEL_DISMEMBER(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_GET_DISMEMBER_DATE:
procRes = Process_IC_GUILD_GET_DISMEMBER_DATE(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_CHANGE_GUILD_NAME:
procRes = Process_IC_GUILD_CHANGE_GUILD_NAME(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_GET_GUILD_MARK:
procRes = Process_IC_GUILD_GET_GUILD_MARK(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_SET_GUILD_MARK:
procRes = Process_IC_GUILD_SET_GUILD_MARK(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_SET_RANK:
procRes = Process_IC_GUILD_SET_RANK(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_GET_OTHER_GUILD_INFO:
procRes = Process_IC_GUILD_GET_OTHER_GUILD_INFO(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_SURRENDER_GUILD_WAR:
procRes = Process_IC_GUILD_SURRENDER_GUILD_WAR(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_NEW_COMMANDER: // 2008-05-20 by dhjin, EP3 - 여단 수정 사항 - 여단장 위임
procRes = Process_IC_GUILD_NEW_COMMANDER(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_NOTICE_WRITE: // 2008-05-20 by dhjin, EP3 - 여단 수정 사항 - 여단 공지
procRes = Process_IC_GUILD_NOTICE_WRITE(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_GET_APPLICANT: // 2008-05-27 by dhjin, EP3 - 여단 수정 사항 - 지원자 관리
procRes = Process_IC_GUILD_GET_APPLICANT(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_GET_INTRODUCTION: // 2008-05-27 by dhjin, EP3 - 여단 수정 사항 - 여단 소개
procRes = Process_IC_GUILD_GET_INTRODUCTION(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_GET_SELF_INTRODUCTION: // 2008-05-27 by dhjin, EP3 - 여단 수정 사항 - 여단 지원자 소개서
procRes = Process_IC_GUILD_GET_SELF_INTRODUCTION(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_SEARCH_INTRODUCTION: // 2008-05-27 by dhjin, EP3 - 여단 수정 사항 - 여단 소개 검색
procRes = Process_IC_GUILD_SEARCH_INTRODUCTION(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_UPDATE_INTRODUCTION: // 2008-05-27 by dhjin, EP3 - 여단 수정 사항 - 여단 소개 작성
procRes = Process_IC_GUILD_UPDATE_INTRODUCTION(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_DELETE_INTRODUCTION: // 2008-05-27 by dhjin, EP3 - 여단 수정 사항 - 여단 소개 지우기
procRes = Process_IC_GUILD_DELETE_INTRODUCTION(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_UPDATE_SELFINTRODUCTION: // 2008-05-27 by dhjin, EP3 - 여단 수정 사항 - 자기 소개 작성
procRes = Process_IC_GUILD_UPDATE_SELFINTRODUCTION(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_DELETE_SELFINTRODUCTION: // 2008-05-27 by dhjin, EP3 - 여단 수정 사항 - 자기 소개 지우기
procRes = Process_IC_GUILD_DELETE_SELFINTRODUCTION(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_APPLICANT_INVITE: // 2008-06-12 by dhjin, EP3 - 여단 수정 사항 - 지원자 관리에서 여단원 초대
procRes = Process_IC_GUILD_APPLICANT_INVITE(pPacket, nLength, nBytesUsed);
break;
case T_IC_GUILD_APPLICANT_REJECT_INVITE: // 2008-06-12 by dhjin, EP3 - 여단 수정 사항 - 지원자 관리에서 여단원 초대 거부
procRes = Process_IC_GUILD_APPLICANT_REJECT_INVITE(pPacket, nLength, nBytesUsed);
break;
///////////////////////////////////////////////////////////////////////
// Admin
case T_IC_ADMIN_CALL_CHARACTER:
procRes = Process_IC_ADMIN_CALL_CHARACTER(pPacket, nLength, nBytesUsed);
break;
case T_IC_ADMIN_CALL_GUILD:
procRes = Process_IC_ADMIN_CALL_GUILD(pPacket, nLength, nBytesUsed);
break;
case T_IC_ADMIN_GET_SERVER_STAT:
procRes = Process_IC_ADMIN_GET_SERVER_STAT(pPacket, nLength, nBytesUsed);
break;
///////////////////////////////////////////////////////////////////////
// Countdown
case T_IC_COUNTDOWN_DONE:
procRes = Process_IC_COUNTDOWN_DONE(pPacket, nLength, nBytesUsed);
break;
//case T_IC_VOIP_SET: // C -> I, 2008-06-17 by dhjin, EP3 VOIP - 설정
// procRes = Process_IC_VOIP_SET(pPacket, nLength, nBytesUsed);
// break;
// T0_IC_CHATROOM
case T_IC_CHATROOM_CREATE: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 생성
procRes = Process_IC_CHATROOM_CREATE(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_LIST_INFO: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 목록 가져오기
procRes = Process_IC_CHATROOM_LIST_INFO(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_REQUEST_INVITE: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 초대 요청
procRes = Process_IC_CHATROOM_REQUEST_INVITE(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_JOIN: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 참여
procRes = Process_IC_CHATROOM_JOIN(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_ACCEPT_INVITE: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 초대 수락
procRes = Process_IC_CHATROOM_ACCEPT_INVITE(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_REJECT_INVITE: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 초대 거절
procRes = Process_IC_CHATROOM_REJECT_INVITE(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_LEAVE: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 나가기
procRes = Process_IC_CHATROOM_LEAVE(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_BAN: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 추방
procRes = Process_IC_CHATROOM_BAN(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_CHANGE_NAME: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 이름 변경
procRes = Process_IC_CHATROOM_CHANGE_NAME(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_CHANGE_MASTER: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 방장 변경
procRes = Process_IC_CHATROOM_CHANGE_MASTER(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_CHANGE_LOCK_PW: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 비밀번호 변경
procRes = Process_IC_CHATROOM_CHANGE_LOCK_PW(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_CHANGE_MAX_MEMBER: // C -> I, 2008-06-16 by dhjin, EP3 채팅방 - 채팅방 인원수 변경
procRes = Process_IC_CHATROOM_CHANGE_MAX_MEMBER(pPacket, nLength, nBytesUsed);
break;
case T_IC_CHATROOM_OTHER_MEMBER_INFO: // I -> C, 2008-06-25 by dhjin, EP3 채팅방 - 채팅방 다른 맴버 정보 전송
procRes = Process_IC_CHATROOM_OTHER_MEMBER_INFO(pPacket, nLength, nBytesUsed);
break;
// 2016-07-01 panoskj let's remove VOIP !!! HAYO
// VOIP
/*case T_IC_VOIP_GET_ACCOUNTUNIQUENUMBER:
procRes = Process_IC_VOIP_GET_ACCOUNTUNIQUENUMBER(pPacket, nLength, nBytesUsed);
break;
case T_IC_VOIP_1to1_DIAL:
procRes = Process_IC_VOIP_1to1_DIAL(pPacket, nLength, nBytesUsed);
break;
case T_IC_VOIP_1to1_DIAL_OK:
procRes = Process_IC_VOIP_1to1_DIAL_OK(pPacket, nLength, nBytesUsed);
break;
case T_IC_VOIP_1to1_END:
procRes = Process_IC_VOIP_1to1_END(pPacket, nLength, nBytesUsed);
break;
case T_IC_VOIP_NtoN_CREATEROOM_REQUEST:
procRes = Process_IC_VOIP_NtoN_CREATEROOM_REQUEST(pPacket, nLength, nBytesUsed);
break;
case T_IC_VOIP_NtoN_INVITE_ALL:
procRes = Process_IC_VOIP_NtoN_INVITE_ALL(pPacket, nLength, nBytesUsed);
break;
case T_IC_VOIP_NtoN_INVITE_USER:
procRes = Process_IC_VOIP_NtoN_INVITE_USER(pPacket, nLength, nBytesUsed);
break;
case T_IC_VOIP_NtoN_GOOUT_ALL:
procRes = Process_IC_VOIP_NtoN_GOOUT_ALL(pPacket, nLength, nBytesUsed);
break;
case T_IC_VOIP_ERROR:
procRes = Process_IC_VOIP_ERROR(pPacket, nLength, nBytesUsed);
break;*/
///////////////////////////////////////////////////////////////////////
// Field Server
case T_FI_CONNECT:
procRes = Process_FI_CONNECT(pPacket, nLength, nBytesUsed);
break;
case T_FI_CONNECT_NOTIFY_FIELDSERVER_IP:
procRes = Process_FI_CONNECT_NOTIFY_FIELDSERVER_IP(pPacket, nLength, nBytesUsed);
break;
case T_FI_CONNECT_NOTIFY_GAMEEND:
procRes = Process_FI_CONNECT_NOTIFY_GAMEEND(pPacket, nLength, nBytesUsed);
break;
case T_FI_CONNECT_NOTIFY_GAMESTART:
procRes = Process_FI_CONNECT_NOTIFY_GAMESTART(pPacket, nLength, nBytesUsed);
break;
case T_FI_CONNECT_NOTIFY_DEAD_GAMESTART:
procRes = Process_FI_CONNECT_NOTIFY_DEAD_GAMESTART(pPacket, nLength, nBytesUsed);
break;
case T_FI_EVENT_NOTIFY_WARP:
procRes = Process_FI_EVENT_NOTIFY_WARP(pPacket, nLength, nBytesUsed);
break;
// 2004-10-29 by cmkwon, FieldServer는 하나로 픽스한다
// case T_FI_EVENT_GET_WARP_INFO:
// procRes = Process_FI_EVENT_GET_WARP_INFO(pPacket, nLength, nBytesUsed);
// break;
case T_FI_EVENT_CHAT_BLOCK: // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 -
procRes = Process_FI_EVENT_CHAT_BLOCK(pPacket, nLength, nBytesUsed);
break;
case T_FI_CONNECT_NOTIFY_DEAD:
procRes = Process_FI_CONNECT_NOTIFY_DEAD(pPacket, nLength, nBytesUsed);
break;
case T_FI_PARTY_ACCEPT_INVITE_OK:
procRes = Process_FI_PARTY_ACCEPT_INVITE_OK(pPacket, nLength, nBytesUsed);
break;
case T_FI_PARTY_ARENA_TEAM_NUM: // 2012-04-12 by jhseol, 아레나 추가개발 - 자동파티 : 같은 팀인지 체크할 팀번호 설정
procRes = Process_FI_PARTY_ARENA_TEAM_NUM(pPacket, nLength, nBytesUsed);
break;
case T_FI_PARTY_UPDATE_ITEM_POS:
procRes = Process_FI_PARTY_UPDATE_ITEM_POS(pPacket, nLength, nBytesUsed);
break;
// case T_FI_PARTY_GET_PARTY_INFO:
// procRes = Process_FI_PARTY_GET_PARTY_INFO(pPacket, nLength, nBytesUsed);
// break;
case T_FI_PARTY_AUTO_CREATE: // 2009-09-09 ~ 2010-01-26 by dhjin, 인피니티 - 자동 편대
procRes = Process_FI_PARTY_AUTO_CREATE(pPacket, nLength, nBytesUsed);
break;
case T_FI_PARTY_UPDATE_ITEM_TRANSFORMER_OK: // 2010-03-18 by cmkwon, 몬스터변신 구현 -
procRes = Process_FI_PARTY_UPDATE_ITEM_TRANSFORMER_OK(pPacket, nLength, nBytesUsed);
break;
case T_FI_CHARACTER_DELETE_CHARACTER:
procRes = Process_FI_CHARACTER_DELETE_CHARACTER(pPacket, nLength, nBytesUsed);
break;
case T_FI_CHARACTER_CHANGE_LEVEL:
procRes = Process_FI_CHARACTER_CHANGE_LEVEL(pPacket, nLength, nBytesUsed);
break;
case T_FI_CHARACTER_UPDATE_MAP_CHANNEL:
procRes = Process_FI_CHARACTER_UPDATE_MAP_CHANNEL(pPacket, nLength, nBytesUsed);
break;
case T_FI_CHARACTER_CHANGE_INFLUENCE_TYPE:
procRes = Process_FI_CHARACTER_CHANGE_INFLUENCE_TYPE(pPacket, nLength, nBytesUsed);
break;
case T_FI_UPDATE_SUBLEADER: // 2007-02-14 by dhjin
procRes = Process_FI_UPDATE_SUBLEADER(pPacket, nLength, nBytesUsed);
break;
case T_FI_GUILD_NOTIFY_START_WAR:
procRes = Process_FI_GUILD_NOTIFY_START_WAR(pPacket, nLength, nBytesUsed);
break;
case T_FI_GUILD_DELETE_GUILD:
procRes = Process_FI_GUILD_DELETE_GUILD(pPacket, nLength, nBytesUsed);
break;
case T_FI_GUILD_ADD_GUILD_FAME:
procRes = Process_FI_GUILD_ADD_GUILD_FAME(pPacket, nLength, nBytesUsed);
break;
case T_FI_GUILD_OUTPOST: // 2008-05-20 by dhjin, EP3 - 여단 수정 사항 - 전진기지 관련
procRes = Process_FI_GUILD_OUTPOST(pPacket, nLength, nBytesUsed);
break;
case T_FI_CASH_USING_GUILD:
procRes = Process_FI_CASH_USING_GUILD(pPacket, nLength, nBytesUsed);
break;
case T_FI_CASH_USING_CHANGE_CHARACTERNAME:
procRes = Process_FI_CASH_USING_CHANGE_CHARACTERNAME(pPacket, nLength, nBytesUsed);
break;
case T_FI_CASH_PREMIUM_CARD_INFO:
procRes = Process_FI_CASH_PREMIUM_CARD_INFO(pPacket, nLength, nBytesUsed);
break;
// 2004-12-09 by cmkwon, 여단전의 종료는 IMServer에서만 발생한다. 그러므로 알림은 IMServer -> Field로 발생한다
// case T_FI_GUILD_NOTIFY_END_WAR:
// procRes = Process_FI_GUILD_NOTIFY_END_WAR(pPacket, nLength, nBytesUsed);
// break;
case T_FI_ADMIN_GET_CHARACTER_INFO_OK:
procRes = Process_FI_ADMIN_GET_CHARACTER_INFO_OK(pPacket, nLength, nBytesUsed);
break;
case T_FI_GET_FIELD_USER_COUNTS_ACK:
procRes = Process_FI_GET_FIELD_USER_COUNTS_ACK(pPacket, nLength, nBytesUsed);
break;
case T_FI_INFO_DECLARATION_MSWAR_SET_OK: // 2009-01-12 by dhjin, 선전 포고 - 선전포고 시간 및 포기 설정 F->I
procRes = Process_FI_INFO_DECLARATION_MSWAR_SET_OK(pPacket, nLength, nBytesUsed);
break;
case T_FI_CHAT_CNC:
procRes = Process_FI_CHAT_CNC(pPacket, nLength, nBytesUsed);
break;
case T_ERROR:
{
MSG_ERROR *pMsgRecvErr;
pMsgRecvErr = (MSG_ERROR*)(pPacket + nBytesUsed);
nBytesUsed += (sizeof(MSG_ERROR) + pMsgRecvErr->StringLength);
// 처리
Err_t error = pMsgRecvErr->ErrorCode;
g_pGlobal->WriteSystemLogEX(TRUE, " T_ERROR %s(%#04X) received from %s[%s]\r\n",
GetErrorString(pMsgRecvErr->ErrorCode), pMsgRecvErr->ErrorCode,
GGetENServerTypeString(m_PeerSocketType), m_szPeerIP);
}
break;
default:
{
// Protocol Error 처리(Close 처리함)
// - Client로 부터 받은 Field Type이 유효하지 않다
// Error Code : ERR_PROTOCOL_INVALID_PROTOCOL_TYPE
SendErrorMessage(T_IM_IOCP, ERR_PROTOCOL_INVALID_PROTOCOL_TYPE, 0, 0, NULL, TRUE);
char szSystemLog[256];
sprintf(szSystemLog, "[Error] CIMIOCPSocket::OnRecvdPacketIMServer invalid protocol type, RecvType[%s(%#04X)]\r\n", GetProtocolTypeString(nRecvType), nRecvType);
g_pGlobal->WriteSystemLog(szSystemLog);
DBGOUT(szSystemLog);
return FALSE;
}
} // end - switch
// 에러 관리용 이전 메세지 저장
prevMsgType = nRecvType;
// MSG 결과 처리
if (procRes == RES_BREAK)
{
// 경미한 에러들. 연결을 끊지 않는다.
// do nothing, 그냥 남아있는 다음 packet을 처리한다
}
else if (procRes == RES_PACKET_ERROR)
{
// 패킷이 손상된 경우. 남은 packet을 처리하지 않고 바로 리턴한다. 서버간 연결에만 사용.
return TRUE;
}
else if (procRes == RES_RETURN_TRUE)
{
// 정상
// do nothing, 그냥 남아있는 다음 packet을 처리한다
}
else if (procRes == RES_RETURN_FALSE)
{
return FALSE;
}
//#ifdef _DEBUG
// if (HIBYTE(nRecvType) == T0_IC_PARTY || nRecvType == T_FI_PARTY_ACCEPT_INVITE_OK)
// {
// char *dpm;
// ( (CIMIOCPSocket*)(ms_pIMIOCP->GetIOCPSocket(CLIENT_INDEX_START_NUM)) )->PRINT_DEBUG_MESSAGE(dpm);
// }
//#endif
} // end - while
return TRUE;
}
void CIMIOCPSocket::OnConnect(void)
{
memset(&m_character, 0x00, sizeof(CHARACTER));
char szSystemLog[256];
sprintf(szSystemLog, "AtumIMServer Index[%3d] Client[%15s] Connected\r\n", this->GetClientArrayIndex(), m_szPeerIP);
g_pGlobal->WriteSystemLog(szSystemLog);
DBGOUT(szSystemLog);
CIOCPSocket::OnConnect();
this->SetIMParty(NULL);
// 길드 관련
this->SetGuildUniqueNumber(INVALID_GUILD_UID);
this->SetCurrentFieldServerSocket(NULL);
m_PeerSocketType = ST_INVALID_TYPE;
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// m_enableChatFlag8 = (BitFlag8_t)0xFF;
m_enableChatFlag32 = (BitFlag32_t)0xFFFF;
m_bGameEndRoutineFlag = TRUE;
m_bFirstTimeLoadFriendList = TRUE; // 2009-03-05 by cmkwon, 통합 아레나 이용시 친구 리스트 보너스 경험치 관련 버그 수정 -
}
void CIMIOCPSocket::OnClose(int reason)
{
char szSystemLog[256];
sprintf(szSystemLog, "AtumIMServer Index[%3d] SocketType[%d] MaxWriteBufCounts[%4d] ClientIP[%15s] Closed ==> reason %d[%#08X]\r\n"
, this->GetClientArrayIndex(), m_PeerSocketType, m_nMaxWriteBufCounts, m_szPeerIP, reason, reason);
g_pGlobal->WriteSystemLog(szSystemLog);
DBGOUT(szSystemLog);
if (m_PeerSocketType == ST_CLIENT_TYPE)
{
GameEndRoutineIM();
}
if (m_PeerSocketType == ST_FIELD_SERVER)
{
// 2009-03-19 by cmkwon, 시스템 로그 추가 -
g_pGlobal->WriteSystemLogEX(TRUE, " [Notify] Socket for FieldServer was closed !! \r\n");
ms_pIMIOCP->SetFieldServerSocket(NULL);
ms_pIMIOCP->m_FieldServerInfo.Reset();
ms_pIMIOCP->m_mCharacterName.clearLock();
ms_pIMIOCP->m_MapChactarterUniqueNumber.clearLock();
ms_pIMIOCP->m_mAccountName.clearLock();
ms_pIMIOCP->m_MapAccountUniqueNumber.clearLock();
}
if(m_PeerSocketType == ST_MONITOR_SERVER)
{
ms_pIMIOCP->DeleteMonitorIOCPSocketPtr(this);
}
if(m_PeerSocketType == ST_ADMIN_TOOL)
{
ms_pIMIOCP->DeleteMonitorIOCPSocketPtr(this);
}
CIOCPSocket::OnClose(30);
}
CIMParty *CIMIOCPSocket::GetIMParty(void)
{
CIMParty *ptParty = this->m_pIMParty;
if(NULL == ptParty || FALSE == ptParty->IsValidIMParty())
{
this->SetIMParty(NULL);
}
return ptParty;
}
void CIMIOCPSocket::SetIMParty(CIMParty *i_pParty)
{
this->m_pIMParty = i_pParty;
}
BOOL CIMIOCPSocket::ResAuthChatLogin(CHARACTER *pCharacter, int nLoginType, int nErr)
{
BYTE buffer[SIZE_MAX_PACKET];
int nUsedBytes = 0;
if(IsUsing() == FALSE){ return FALSE;}
if(0 != nErr)
{ // Error
return FALSE;
}
m_nLoginType = nLoginType;
memcpy(&m_character, pCharacter, sizeof(CHARACTER));
m_character.ClientIndex = this->GetClientArrayIndex();
//////////////////////////////////////////////////////////////////////////
// 2006-12-08 by dhjin, 지도자, 부지도자 설정
ms_pIMIOCP->SetInflAllLeader(&m_character);
memset(buffer, 0x00, SIZE_MAX_PACKET);
*(MessageType_t*)buffer = T_IC_CONNECT_LOGIN_OK;
nUsedBytes += SIZE_FIELD_TYPE_HEADER;
SendAddData(buffer, nUsedBytes);
/* check: 확인 필요
if(m_nLoginType == CHAT_LOGIN_TYPE_MESSENGER)
{
memcpy(buffer+nUsedBytes, &m_character, sizeof(MSG_IC_CONNECT_LOGIN_OK));
nUsedBytes += sizeof(MSG_IC_CONNECT_LOGIN_OK);
SendAddData(buffer, nUsedBytes);
}
*/
// CharacterName이 키값으로 Map에 세팅
char tmCharacterName[SIZE_MAX_CHARACTER_NAME];
ms_pIMIOCP->m_mCharacterName.insertLock(GGetLowerCase(tmCharacterName, m_character.CharacterName, SIZE_MAX_CHARACTER_NAME), this);
ms_pIMIOCP->m_MapChactarterUniqueNumber.insertLock(m_character.CharacterUniqueNumber, this);
ms_pIMIOCP->m_mAccountName.insertLock(m_character.AccountName, this);
ms_pIMIOCP->m_MapAccountUniqueNumber.insertLock(m_character.AccountUniqueNumber, this);
ms_pIMIOCP->m_uiIMAccumulatedTotalUserCounts++;
if(ms_pIMIOCP->m_uiIMMaxTotalUserCounts < ms_pIMIOCP->m_MapChactarterUniqueNumber.size())
{
ms_pIMIOCP->m_uiIMMaxTotalUserCounts = ms_pIMIOCP->m_MapChactarterUniqueNumber.size();
}
return TRUE;
}
FRIENDINFO *CIMIOCPSocket::FindFriendInfoByCharacterName(char *i_szCharacterName)
{
FRIENDINFO *pRet = NULL;
if(0 == strcmp(i_szCharacterName, "")
|| 0 == m_mtvectorFriendList.size())
{
return pRet;
}
m_mtvectorFriendList.lock();
mtvectorFRIENDINFO::iterator itr(m_mtvectorFriendList.begin());
for(; itr != m_mtvectorFriendList.end(); itr++)
{
if(0 == strnicmp(itr->szCharacterName, i_szCharacterName, SIZE_MAX_CHARACTER_NAME))
{
pRet = &*itr;
break;
}
}
m_mtvectorFriendList.unlock();
return pRet;
}
mtvectorFRIENDINFO::iterator CIMIOCPSocket::FindFriendInfoByCharacterNameItr(char *i_szCharacterName)
{
mtvectorFRIENDINFO::iterator pRet = m_mtvectorFriendList.end();
if (0 == strcmp(i_szCharacterName, "")
|| 0 == m_mtvectorFriendList.size())
{
return m_mtvectorFriendList.end();
}
m_mtvectorFriendList.lock();
mtvectorFRIENDINFO::iterator itr(m_mtvectorFriendList.begin());
for (; itr != m_mtvectorFriendList.end(); itr++)
{
if (0 == strnicmp(itr->szCharacterName, i_szCharacterName, SIZE_MAX_CHARACTER_NAME))
{
pRet = itr;
}
}
m_mtvectorFriendList.unlock();
return pRet;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::IsExistFriendList(char *i_szCharacterName)
/// \brief
/// \author cmkwon
/// \date 2006-07-19 ~ 2006-07-19
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::IsExistFriendList(char *i_szCharacterName)
{
if(NULL == this->FindFriendInfoByCharacterName(i_szCharacterName))
{
return FALSE;
}
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::IncreaseOnlineEachOtherFriendCnts(char *i_szOnlineCharacterName)
/// \brief
/// \author cmkwon
/// \date 2006-07-18 ~ 2006-07-18
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::IncreaseOnlineEachOtherFriendCnts(char *i_szOnlineCharacterName)
{
if(0 == strcmp(i_szOnlineCharacterName, "")
|| 0 == m_mtvectorFriendList.size())
{
return FALSE;
}
mt_auto_lock mtA(&m_mtvectorFriendList);
FRIENDINFO *pTmp = this->FindFriendInfoByCharacterName(i_szOnlineCharacterName);
if(NULL == pTmp)
{
return FALSE;
}
m_nEachOtherFriendCnts++; // 2006-07-19 by cmkwon
m_nEachOtherFriendCnts = min(m_nEachOtherFriendCnts, SIZE_MAX_FRIENDLIST_COUNT);
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::DecreaseOnlineEachOtherFriendCnts(char *i_szOfflineCharacterName)
/// \brief
/// \author cmkwon
/// \date 2006-07-19 ~ 2006-07-19
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::DecreaseOnlineEachOtherFriendCnts(char *i_szOfflineCharacterName)
{
if(0 == strcmp(i_szOfflineCharacterName, "")
|| 0 == m_mtvectorFriendList.size())
{
return FALSE;
}
mt_auto_lock mtA(&m_mtvectorFriendList);
FRIENDINFO *pTmp = this->FindFriendInfoByCharacterName(i_szOfflineCharacterName);
if(NULL == pTmp)
{
return FALSE;
}
m_nEachOtherFriendCnts--; // 2006-07-19 by cmkwon
m_nEachOtherFriendCnts = max(m_nEachOtherFriendCnts, 0);
return TRUE;
}
BOOL CIMIOCPSocket::InsertToFriendList(FRIENDINFO *i_pFriendInfo, BOOL i_bEachOtherFriend/*=FALSE*/)
{
if(0 == strncmp(i_pFriendInfo->szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
{
return FALSE;
}
mt_auto_lock mtA(&m_mtvectorFriendList);
if(i_bEachOtherFriend
&& i_pFriendInfo->byIsOnline)
{// 2006-07-19 by cmkwon
m_nEachOtherFriendCnts++;
m_nEachOtherFriendCnts = min(m_nEachOtherFriendCnts, SIZE_MAX_FRIENDLIST_COUNT);
}
FRIENDINFO *pTmp = this->FindFriendInfoByCharacterName(i_pFriendInfo->szCharacterName);
if(pTmp)
{
pTmp->byIsOnline = i_pFriendInfo->byIsOnline;
return FALSE;
}
m_mtvectorFriendList.push_back(*i_pFriendInfo);
return TRUE;
}
BOOL CIMIOCPSocket::DeleteFromFriendList(char *i_szCharacterName, BOOL i_bEachOtherFriend/*=FALSE*/)
{
if(0 == strncmp(i_szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
{
return FALSE;
}
mt_auto_lock mtA(&m_mtvectorFriendList);
mtvectorFRIENDINFO::iterator pTmpItr = this->FindFriendInfoByCharacterNameItr(i_szCharacterName);
FRIENDINFO *pTmp = &*pTmpItr;
if(NULL == pTmp)
{
return FALSE;
}
if(i_bEachOtherFriend
&& pTmp->byIsOnline)
{// 2006-07-19 by cmkwon
m_nEachOtherFriendCnts--;
m_nEachOtherFriendCnts = max(m_nEachOtherFriendCnts, 0);
}
m_mtvectorFriendList.erase(pTmpItr);
return TRUE;
}
FRIENDINFO *CIMIOCPSocket::IsCharacterNameFromRejectList(char *i_szCharacterName)
{
FRIENDINFO *pRet = NULL;
if(0 == stricmp(i_szCharacterName, "")
|| 0 == m_mtvectorRejectList.size())
{
return pRet;
}
m_mtvectorRejectList.lock();
mtvectorFRIENDINFO::iterator itr(m_mtvectorRejectList.begin());
for(; itr != m_mtvectorRejectList.end(); itr++)
{
if(0 == strnicmp(itr->szCharacterName, i_szCharacterName, SIZE_MAX_CHARACTER_NAME))
{
pRet = &*itr;
break;
}
}
m_mtvectorRejectList.unlock();
return pRet;
}
mtvectorFRIENDINFO::iterator CIMIOCPSocket::IsCharacterNameFromRejectListItr(char *i_szCharacterName)
{
mtvectorFRIENDINFO::iterator pRet = m_mtvectorRejectList.end();
if (0 == stricmp(i_szCharacterName, "")
|| 0 == m_mtvectorRejectList.size())
{
return m_mtvectorRejectList.end();
}
m_mtvectorRejectList.lock();
mtvectorFRIENDINFO::iterator itr(m_mtvectorRejectList.begin());
for (; itr != m_mtvectorRejectList.end(); itr++)
{
if (0 == strnicmp(itr->szCharacterName, i_szCharacterName, SIZE_MAX_CHARACTER_NAME))
{
pRet = itr;
}
}
m_mtvectorRejectList.unlock();
return pRet;
}
BOOL CIMIOCPSocket::InsertToRejectList(FRIENDINFO *i_pFriendInfo)
{
if(0 == strncmp(i_pFriendInfo->szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
{
return FALSE;
}
m_mtvectorRejectList.lock();
FRIENDINFO *pTmp = this->IsCharacterNameFromRejectList(i_pFriendInfo->szCharacterName);
if(pTmp)
{
m_mtvectorRejectList.unlock();
return FALSE;
}
m_mtvectorRejectList.push_back(*i_pFriendInfo);
m_mtvectorRejectList.unlock();
return TRUE;
}
BOOL CIMIOCPSocket::DeleteFromRejectList(char *i_szCharacterName)
{
if(0 == strncmp(i_szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
{
return FALSE;
}
m_mtvectorRejectList.lock();
mtvectorFRIENDINFO::iterator pTmpItr = this->IsCharacterNameFromRejectListItr(i_szCharacterName);
FRIENDINFO *pTmp = &*pTmpItr;
if(NULL == pTmp)
{
m_mtvectorRejectList.unlock();
return FALSE;
}
m_mtvectorRejectList.erase(pTmpItr);
m_mtvectorRejectList.unlock();
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn void CIMIOCPSocket::SetEachOtherFriendCnts(int i_nFriendCnts)
/// \brief
/// \author cmkwon
/// \date 2006-07-19 ~ 2006-07-19
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
void CIMIOCPSocket::SetEachOtherFriendCnts(int i_nFriendCnts)
{
mt_auto_lock mtA(&m_mtvectorFriendList);
m_nEachOtherFriendCnts = i_nFriendCnts;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn void CIMIOCPSocket::ChangedCharacterInfluenceType(BYTE i_byInfluenceTy)
/// \brief
/// \author cmkwon
/// \date 2005-12-03 ~ 2005-12-03
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
void CIMIOCPSocket::ChangedCharacterInfluenceType(BYTE i_byInfluenceTy)
{
m_character.InfluenceType = i_byInfluenceTy;
}
// 2009-03-05 by cmkwon, 통합 아레나 이용시 친구 리스트 보너스 경험치 관련 버그 수정 - ResLoadingFriendsAndRejects() 함수에 인자추가, BOOL i_bFirstTimeLoadFriendList
BOOL CIMIOCPSocket::ResLoadingFriendsAndRejects(mtvectorFRIENDINFO *i_pvectorFriendList, mtvectorFRIENDINFO *i_pvectorRejectList, BOOL i_bFirstTimeLoadFriendList)
{
///////////////////////////////////////////////////////////////////////////////
// 1. 친구리스트 처리
if(false == i_pvectorFriendList->empty())
{
CIMIOCPSocket *arrIISocketPtr[SIZE_MAX_FRIENDLIST_COUNT];
util::zero(arrIISocketPtr, sizeof(arrIISocketPtr[0])*SIZE_MAX_FRIENDLIST_COUNT);
// 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 - 아래와 같이 수정 함.
// INIT_MSG_WITH_BUFFER(MSG_IC_CHAT_FRIENDLIST_LOADING_OK, T_IC_CHAT_FRIENDLIST_LOADING_OK, pSendFriendList, tmSendBuf);
// pSendFriendList->nFriendListCounts = 0;
//
// m_mtvectorFriendList.lock();
// m_mtvectorFriendList.clear();
// m_mtvectorFriendList.insert(m_mtvectorFriendList.begin()
// , i_pvectorFriendList->begin(), i_pvectorFriendList->end());
// this->MakeMsg_MSG_IC_CHAT_FRIENDLIST_LOADING_OK(pSendFriendList
// , (FRIENDINFO *)(tmSendBuf + MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_LOADING_OK)), (SIZE_MAX_PACKET-MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_LOADING_OK))/sizeof(FRIENDINFO), TRUE, arrIISocketPtr);
// m_mtvectorFriendList.unlock();
//
// this->SendAddData(tmSendBuf
// , MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_LOADING_OK) + sizeof(FRIENDINFO)*pSendFriendList->nFriendListCounts);
mt_auto_lock mtF(&m_mtvectorFriendList);
m_mtvectorFriendList.clear();
m_nEachOtherFriendCnts = 0; // 2009-03-05 by cmkwon, 통합 아레나 이용시 친구 리스트 보너스 경험치 관련 버그 수정 - 꼭 필요하지는 않지만 빠진것 같아서 추가 함.
m_mtvectorFriendList.insert(m_mtvectorFriendList.begin(), i_pvectorFriendList->begin(), i_pvectorFriendList->end());
this->SendFriendListLoadingOK(arrIISocketPtr); // 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 - 아래의 함수로 변경함
mtF.auto_unlock_cancel();
///////////////////////////////////////////////////////////////////////////
// 둘다 친구로 등록되어 있다면 접속정보를 전송한다
char szTemp[128];
int nEachOtherFriendCnts = 0;
sprintf(szTemp, STRMSG_S_I2NOTIFY_0004, m_character.CharacterName);
for(int i=0; i < SIZE_MAX_FRIENDLIST_COUNT; i++)
{
if(NULL == arrIISocketPtr[i]
|| FALSE == arrIISocketPtr[i]->IsValidCharacter())
{
continue;
}
if (FALSE == COMPARE_RACE(this->GetCharacter()->Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR)
&& COMPARE_RACE(arrIISocketPtr[i]->GetCharacter()->Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2006-11-14 by cmkwon, 일반 유저는 관리자,운영자를 친구로 등록해도 Online/Offline 확인 불가, 추가 경험치 불가
continue;
}
//////////////////////////////////////////////////////////////////////////
// 2009-03-05 by cmkwon, 통합 아레나 이용시 친구 리스트 보너스 경험치 관련 버그 수정 - 아래와 같이 처음 로딩시와 아레나 이동시 로딩시 처리를 다르게 한다.
if(i_bFirstTimeLoadFriendList)
{
if(FALSE == arrIISocketPtr[i]->IncreaseOnlineEachOtherFriendCnts(m_character.CharacterName))
{
continue;
}
arrIISocketPtr[i]->SendString128(STRING_128_USER_NOTICE, szTemp);
nEachOtherFriendCnts++;
///////////////////////////////////////////////////////////////////////////////
// 2006-07-18 by cmkwon, 서로 등록한 온라인 친구 카운트 FieldServer로 전송
arrIISocketPtr[i]->SendOnlineEachOtherFriendCntsToFieldServer();
}
else
{
//////////////////////////////////////////////////////////////////////////
// 2009-03-05 by cmkwon, 통합 아레나 이용시 친구 리스트 보너스 경험치 관련 버그 수정 - 처음 로딩이 아니면 본인의 카운트만 증가 시켜야 한다.
if(FALSE == arrIISocketPtr[i]->IsExistFriendList(m_character.CharacterName))
{
continue;
}
nEachOtherFriendCnts++;
}
}
this->SetEachOtherFriendCnts(nEachOtherFriendCnts); // 2006-07-19 by cmkwon
///////////////////////////////////////////////////////////////////////////////
// 2006-07-18 by cmkwon, 서로 등록한 온라인 친구 카운트 FieldServer로 전송
this->SendOnlineEachOtherFriendCntsToFieldServer();
}
///////////////////////////////////////////////////////////////////////////////
// 2. 거부리스트 처리
if(false == i_pvectorRejectList->empty())
{
// 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 - 아래와 같이 수정 함
// INIT_MSG_WITH_BUFFER(MSG_IC_CHAT_REJECTLIST_LOADING_OK, T_IC_CHAT_REJECTLIST_LOADING_OK, pSendRejectList, tmSendBuf);
// pSendRejectList->nRejectListCounts = 0;
//
// m_mtvectorRejectList.lock();
// m_mtvectorRejectList.clear();
// m_mtvectorRejectList.insert(m_mtvectorRejectList.begin()
// , i_pvectorRejectList->begin(), i_pvectorRejectList->end());
// this->MakeMsg_MSG_IC_CHAT_REJECTLIST_LOADING_OK(pSendRejectList
// , (FRIENDINFO*)(tmSendBuf + MSG_SIZE(MSG_IC_CHAT_REJECTLIST_LOADING_OK)), (SIZE_MAX_PACKET-MSG_SIZE(MSG_IC_CHAT_REJECTLIST_LOADING_OK))/sizeof(FRIENDINFO));
// m_mtvectorRejectList.unlock();
//
// this->SendAddData(tmSendBuf
// , MSG_SIZE(MSG_IC_CHAT_REJECTLIST_LOADING_OK) + sizeof(FRIENDINFO)*pSendRejectList->nRejectListCounts);
mt_auto_lock mtR(&m_mtvectorRejectList);
m_mtvectorRejectList.clear();
m_mtvectorRejectList.insert(m_mtvectorRejectList.begin(), i_pvectorRejectList->begin(), i_pvectorRejectList->end());
this->SendRejectListLoadingOK(); // 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 -
mtR.auto_unlock_cancel();
}
return TRUE;
}
// 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 - 아래의 함수로 변경함
// ///////////////////////////////////////////////////////////////////////////////
// /// \fn BOOL CIMIOCPSocket::MakeMsg_MSG_IC_CHAT_FRIENDLIST_LOADING_OK(MSG_IC_CHAT_FRIENDLIST_ALL *io_pFiendListAll, FRIENDINFO *io_pFriendInfo, int i_nMaxCount, BOOL i_bAllFlag/*=FALSE*/)
// /// \brief
// /// \author cmkwon
// /// \date 2004-10-14 ~ 2004-10-14
// /// \warning
// ///
// /// \param
// /// \return
// ///////////////////////////////////////////////////////////////////////////////
// BOOL CIMIOCPSocket::MakeMsg_MSG_IC_CHAT_FRIENDLIST_LOADING_OK(MSG_IC_CHAT_FRIENDLIST_LOADING_OK *io_pFriendListAll
// , FRIENDINFO *io_pFriendInfo, int i_nMaxCount
// , BOOL i_bAllFlag/*=FALSE*/
// , CIMIOCPSocket **o_ArrOnlineIISocketPtr/*=NULL*/)
// {
//
// // 2007-06-01 by cmkwon, autolock 으로 수정함
// // m_mtvectorFriendList.lock();
// mt_auto_lock mtA(&m_mtvectorFriendList);
//
// if(i_bAllFlag)
// {// 모든 유저 정보 전송
//
// int nOnlineCounts = 0;
// mtvectorFRIENDINFO::iterator itr(m_mtvectorFriendList.begin());
// for(; itr != m_mtvectorFriendList.end(); itr++)
// {
// if(i_nMaxCount <= io_pFriendListAll->nFriendListCounts)
// {// 2007-01-24 by cmkwon, 최대 개수 버그 수정
//
// return TRUE;
// }
//
// if(strnicmp(itr->szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
// {
// CIMIOCPSocket *pIISocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(itr->szCharacterName);
// if(NULL == pIISocket
// || FALSE == pIISocket->IsValidCharacter())
// {
// itr->byIsOnline = FALSE;
// }
// else
// {
// if(FALSE == COMPARE_RACE(this->GetCharacter()->Race, RACE_OPERATION|RACE_GAMEMASTER)
// && COMPARE_RACE(pIISocket->GetCharacter()->Race, RACE_OPERATION|RACE_GAMEMASTER))
// {// 2006-11-14 by cmkwon, 일반 유저는 관리자,운영자를 친구로 등록해도 Online/Offline 확인 불가, 추가 경험치 불가
// itr->byIsOnline = FALSE;
// }
// else
// {
// itr->byIsOnline = TRUE;
// if(o_ArrOnlineIISocketPtr
// && nOnlineCounts < SIZE_MAX_FRIENDLIST_COUNT)
// {
// o_ArrOnlineIISocketPtr[nOnlineCounts] = pIISocket;
// nOnlineCounts++;
// }
// }
// }
//
// util::strncpy(io_pFriendInfo->szCharacterName, itr->szCharacterName, SIZE_MAX_CHARACTER_NAME);
// io_pFriendInfo->byIsOnline = itr->byIsOnline;
//
// io_pFriendListAll->nFriendListCounts++;
// io_pFriendInfo++;
// }
// }
// }
// else
// {// 변경된 유저 정보만 전송
//
// mtvectorFRIENDINFO::iterator itr(m_mtvectorFriendList.begin());
// for(; itr != m_mtvectorFriendList.end(); itr++)
// {
// if(i_nMaxCount <= io_pFriendListAll->nFriendListCounts)
// {// 2007-01-24 by cmkwon, 최대 개수 버그 수정
//
// return TRUE;
// }
//
// if(strnicmp(itr->szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
// {
// BYTE tmIsOnline = itr->byIsOnline;
// itr->byIsOnline = (ms_pIMIOCP->GetIMIOCPSocketByCharacterName(itr->szCharacterName))?TRUE:FALSE;
//
// if(tmIsOnline != itr->byIsOnline)
// {
// util::strncpy(io_pFriendInfo->szCharacterName, itr->szCharacterName, SIZE_MAX_CHARACTER_NAME);
// io_pFriendInfo->byIsOnline = itr->byIsOnline;
//
// io_pFriendListAll->nFriendListCounts++;
// io_pFriendInfo++;
// }
// }
// }
// }
// // 2007-06-01 by cmkwon, autolock 으로 수정함
// // m_mtvectorFriendList.unlock();
// return TRUE;
// }
//
//
// ///////////////////////////////////////////////////////////////////////////////
// /// \fn BOOL CIMIOCPSocket::MakeMsg_MSG_IC_CHAT_REJECTLIST_LOADING_OK(MSG_IC_CHAT_REJECTLIST_ALL *io_pRejectListAll, FRIENDINFO *io_pFriendInfo, int i_nMaxCount)
// /// \brief
// /// \author cmkwon
// /// \date 2004-10-14 ~ 2004-10-14
// /// \warning
// ///
// /// \param
// /// \return
// ///////////////////////////////////////////////////////////////////////////////
// BOOL CIMIOCPSocket::MakeMsg_MSG_IC_CHAT_REJECTLIST_LOADING_OK(MSG_IC_CHAT_REJECTLIST_LOADING_OK *io_pRejectListAll, FRIENDINFO *io_pFriendInfo, int i_nMaxCount)
// {
// m_mtvectorRejectList.lock();
// mtvectorFRIENDINFO::iterator itr(m_mtvectorRejectList.begin());
// for(; itr != m_mtvectorRejectList.end(); itr++)
// {
// if(i_nMaxCount <= io_pRejectListAll->nRejectListCounts)
// {// 2007-01-24 by cmkwon, 최대 개수 버그 수정
// m_mtvectorRejectList.unlock(); // 2008-07-17 by cmkwon, 데드락 버그 수정
// return TRUE;
// }
//
// if(strncmp(itr->szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
// {
// util::strncpy(io_pFriendInfo->szCharacterName, itr->szCharacterName, SIZE_MAX_CHARACTER_NAME);
// io_pFriendInfo->RegDate = itr->RegDate; // 2008-04-11 by dhjin, EP3 거부목록 -
// io_pRejectListAll->nRejectListCounts++;
// io_pFriendInfo++;
// }
// }
// m_mtvectorRejectList.unlock();
// return TRUE;
// }
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::SendFriendListLoadingOK(CIMIOCPSocket **o_ArrOnlineIISocketPtr/*=NULL*/)
/// \brief // 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 - MakeMsg_MSG_IC_CHAT_FRIENDLIST_LOADING_OK() 함수를 변경 함
/// \author cmkwon
/// \date 2008-10-24 ~ 2008-10-24
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::SendFriendListLoadingOK(CIMIOCPSocket **o_ArrOnlineIISocketPtr/*=NULL*/)
{
INIT_MSG_WITH_BUFFER(MSG_IC_CHAT_FRIENDLIST_LOADING_OK, T_IC_CHAT_FRIENDLIST_LOADING_OK, pSendFriendList, tmSendBuf);
pSendFriendList->nFriendListCounts = 0;
FRIENDINFO *pFriendInfo = (FRIENDINFO*)(tmSendBuf + MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_LOADING_OK));
mt_auto_lock mtA(&m_mtvectorFriendList);
int nOnlineCounts = 0;
mtvectorFRIENDINFO::iterator itr(m_mtvectorFriendList.begin());
for(; itr != m_mtvectorFriendList.end(); itr++)
{
if(0 == strnicmp(itr->szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
{
continue;
}
if( SIZE_MAX_PACKET <= MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_LOADING_OK) + (pSendFriendList->nFriendListCounts+1)*sizeof(FRIENDINFO) )
{// 2008-10-24 by cmkwon, 패킷 최대 사이즈 오버 체크
this->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_LOADING_OK) + pSendFriendList->nFriendListCounts*sizeof(FRIENDINFO));
pSendFriendList->nFriendListCounts = 0;
pFriendInfo = (FRIENDINFO*)(tmSendBuf + MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_LOADING_OK));
}
CIMIOCPSocket *pIISocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(itr->szCharacterName);
if(NULL == pIISocket
|| FALSE == pIISocket->IsValidCharacter())
{
itr->byIsOnline = FALSE;
}
else
{
if (FALSE == COMPARE_RACE(this->GetCharacter()->Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR)
&& COMPARE_RACE(pIISocket->GetCharacter()->Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2006-11-14 by cmkwon, 일반 유저는 관리자,운영자를 친구로 등록해도 Online/Offline 확인 불가, 추가 경험치 불가
itr->byIsOnline = FALSE;
}
else
{
itr->byIsOnline = TRUE;
if(o_ArrOnlineIISocketPtr
&& nOnlineCounts < SIZE_MAX_FRIENDLIST_COUNT)
{
o_ArrOnlineIISocketPtr[nOnlineCounts] = pIISocket;
nOnlineCounts++;
}
}
}
util::strncpy(pFriendInfo->szCharacterName, itr->szCharacterName, SIZE_MAX_CHARACTER_NAME);
pFriendInfo->byIsOnline = itr->byIsOnline;
pSendFriendList->nFriendListCounts++;
pFriendInfo++;
}
if(0 < pSendFriendList->nFriendListCounts)
{
this->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_LOADING_OK) + pSendFriendList->nFriendListCounts*sizeof(FRIENDINFO));
}
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::SendFriendListRefreshOK(void)
/// \brief // 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 -
/// \author cmkwon
/// \date 2008-10-24 ~ 2008-10-24
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::SendFriendListRefreshOK(void)
{
INIT_MSG_WITH_BUFFER(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK, T_IC_CHAT_FRIENDLIST_REFRESH_OK, pSendFriendList, tmSendBuf);
pSendFriendList->nFriendListCounts = 0;
FRIENDINFO *pFriendInfo = (FRIENDINFO*)(tmSendBuf + MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK));
mt_auto_lock mtA(&m_mtvectorFriendList);
mtvectorFRIENDINFO::iterator itr(m_mtvectorFriendList.begin());
for(; itr != m_mtvectorFriendList.end(); itr++)
{
if(0 == strnicmp(itr->szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
{
continue;
}
if( SIZE_MAX_PACKET <= MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK) + (pSendFriendList->nFriendListCounts+1)*sizeof(FRIENDINFO) )
{// 2008-10-24 by cmkwon, 패킷 최대 사이즈 오버 체크
this->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK) + pSendFriendList->nFriendListCounts*sizeof(FRIENDINFO));
pSendFriendList->nFriendListCounts = 0;
pFriendInfo = (FRIENDINFO*)(tmSendBuf + MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK));
}
BYTE tmIsOnline = itr->byIsOnline;
itr->byIsOnline = (ms_pIMIOCP->GetIMIOCPSocketByCharacterName(itr->szCharacterName))?TRUE:FALSE;
if(tmIsOnline != itr->byIsOnline)
{
util::strncpy(pFriendInfo->szCharacterName, itr->szCharacterName, SIZE_MAX_CHARACTER_NAME);
pFriendInfo->byIsOnline = itr->byIsOnline;
pSendFriendList->nFriendListCounts++;
pFriendInfo++;
}
}
if(0 < pSendFriendList->nFriendListCounts)
{
this->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK) + pSendFriendList->nFriendListCounts*sizeof(FRIENDINFO));
}
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::SendRejectListLoadingOK(void)
/// \brief // 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 - MakeMsg_MSG_IC_CHAT_REJECTLIST_LOADING_OK() 함수를 변경함
/// \author cmkwon
/// \date 2008-10-24 ~ 2008-10-24
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::SendRejectListLoadingOK(void)
{
INIT_MSG_WITH_BUFFER(MSG_IC_CHAT_REJECTLIST_LOADING_OK, T_IC_CHAT_REJECTLIST_LOADING_OK, pSendRejectList, tmSendBuf);
pSendRejectList->nRejectListCounts = 0;
FRIENDINFO *pFriendInfo = (FRIENDINFO*)(tmSendBuf + MSG_SIZE(MSG_IC_CHAT_REJECTLIST_LOADING_OK));
mt_auto_lock mtA(&m_mtvectorRejectList);
mtvectorFRIENDINFO::iterator itr(m_mtvectorRejectList.begin());
for(; itr != m_mtvectorRejectList.end(); itr++)
{
if(0 == strncmp(itr->szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
{
continue;
}
if( SIZE_MAX_PACKET <= MSG_SIZE(MSG_IC_CHAT_REJECTLIST_LOADING_OK) + (pSendRejectList->nRejectListCounts+1)*sizeof(FRIENDINFO) )
{// 2008-10-24 by cmkwon, 패킷 최대 사이즈 오버 체크
this->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_CHAT_REJECTLIST_LOADING_OK) + pSendRejectList->nRejectListCounts*sizeof(FRIENDINFO));
pSendRejectList->nRejectListCounts = 0;
pFriendInfo = (FRIENDINFO*)(tmSendBuf + MSG_SIZE(MSG_IC_CHAT_REJECTLIST_LOADING_OK));
}
util::strncpy(pFriendInfo->szCharacterName, itr->szCharacterName, SIZE_MAX_CHARACTER_NAME);
pFriendInfo->RegDate = itr->RegDate; // 2008-04-11 by dhjin, EP3 거부목록 -
pSendRejectList->nRejectListCounts++;
pFriendInfo++;
}
if(0 < pSendRejectList->nRejectListCounts)
{
this->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_CHAT_REJECTLIST_LOADING_OK) + pSendRejectList->nRejectListCounts*sizeof(FRIENDINFO));
}
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::IsValidCharacter(void)
/// \brief
/// \author cmkwon
/// \date 2006-07-18 ~ 2006-07-18
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::IsValidCharacter(void)
{
if(FALSE == IsUsing()
|| ST_CLIENT_TYPE != m_PeerSocketType
|| FALSE == IS_VALID_UNIQUE_NUMBER(m_character.CharacterUniqueNumber))
{
return FALSE;
}
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::SetChatCharacter(CHARACTER *pCharacter)
/// \brief
/// \author cmkwon
/// \date 2004-10-14 ~ 2004-10-14
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::SetChatCharacter(CHARACTER *pCharacter)
{
memcpy(&m_character, pCharacter, sizeof(CHARACTER));
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// ProcessResult Process_IC_CONNECT_LOGIN(const char* pPacket, int nLength, int &nBytesUsed)
// : IM Server에 접속, 인증을 거친다
ProcessResult CIMIOCPSocket::Process_IC_CONNECT_LOGIN(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
CIMIOCPSocket *pIOCPSocket = NULL;
MSG_IC_CONNECT_LOGIN *pRecvLogin = NULL;
nRecvTypeSize = sizeof(MSG_IC_CONNECT_LOGIN);
if(nLength - nBytesUsed < nRecvTypeSize)
{ // 받아야할 메세지 타입의 사이즈보다 남은 데이타의 사이즈가 작다면 에러
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_IC_CONNECT_LOGIN, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12002);
return RES_RETURN_FALSE;
}
pRecvLogin = new MSG_IC_CONNECT_LOGIN;
memcpy(pRecvLogin, pPacket+nBytesUsed, nRecvTypeSize);
nBytesUsed += nRecvTypeSize;
m_PeerSocketType = ST_CLIENT_TYPE;
if(ms_pIMIOCP->IsConnectedUser(pRecvLogin->AccountName, &pIOCPSocket))
{
SendErrorMessage(T_IC_CONNECT_LOGIN, ERR_PROTOCOL_DUPLICATE_LOGIN, 0, 0, pRecvLogin->AccountName);
Close(0x12003);
util::del(pRecvLogin);
return RES_RETURN_FALSE;
}
util::strncpy(m_character.AccountName, pRecvLogin->AccountName, SIZE_MAX_ACCOUNT_NAME);
util::strncpy(m_character.CharacterName, pRecvLogin->CharacterName, SIZE_MAX_CHARACTER_NAME);
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_AuthChatLogin, this, pRecvLogin); // DB로 인증 절차를 넘긴다.
pRecvLogin = NULL;
char szSystemLog[256];
sprintf(szSystemLog, " IM Server Logined Account[%10s], Character[%10s]\r\n", m_character.AccountName, m_character.CharacterName);
g_pGlobal->WriteSystemLog(szSystemLog);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// ProcessResult Process_IC_CHAT_ALL(const char* pPacket, int nLength, int &nBytesUsed)
// :
// 2007-02-21 by cmkwon, 인자추가(SThreadInfo *i_pThreadInfo)
ProcessResult CIMIOCPSocket::Process_IC_CHAT_ALL(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_ALL *pRecvChatAll;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_ALL) + ((MSG_IC_CHAT_ALL*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_ALL, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12005);
return RES_RETURN_FALSE;
}
pRecvChatAll = (MSG_IC_CHAT_ALL*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_ALL));
nBytesUsed += nRecvTypeSize;
if (!COMPARE_RACE(m_character.Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{
SendErrorMessage(T_IC_CHAT_ALL, ERR_CHAT_PERMISSION_DENIED);
return RES_BREAK;
}
if (strnicmp(m_character.CharacterName, pRecvChatAll->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_ALL, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x12006);
return RES_RETURN_FALSE;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_ALL, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
char szChatting[1024];
sprintf(szChatting, "Chat_All|%s|%d|%d|%s\r\n",
pRecvChatAll->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatAll + sizeof(MSG_IC_CHAT_ALL));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
ms_pIMIOCP->SendChatMsgToAllClients(CHAT_TYPE_UNCONDITIONAL, ((BYTE*)pRecvChatAll) - SIZE_FIELD_TYPE_HEADER, SIZE_FIELD_TYPE_HEADER + nRecvTypeSize);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// ProcessResult Process_IC_CHAT_MAP(const char* pPacket, int nLength, int &nBytesUsed)
// :
// 2007-02-21 by cmkwon, 인자추가(SThreadInfo *i_pThreadInfo)
ProcessResult CIMIOCPSocket::Process_IC_CHAT_MAP(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_MAP *pRecvChatMap;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_MAP) + ((MSG_IC_CHAT_MAP*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_MAP, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12007);
return RES_RETURN_FALSE;
}
pRecvChatMap = (MSG_IC_CHAT_MAP*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_MAP));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChatMap->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_MAP, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x12008);
return RES_RETURN_FALSE;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManager.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)
|| ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_MAP, 맵
{
SendErrorMessage(T_IC_CHAT_MAP, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_MAP, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
char szChatting[1024];
sprintf(szChatting, "Chat_Map|%s|%d|%d|%s\r\n",
pRecvChatMap->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatMap + sizeof(MSG_IC_CHAT_MAP));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_MAP, T_FI_CHAT_MAP, msgChatMap, SendBuf);
msgChatMap->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
msgChatMap->MessageLength = pRecvChatMap->MessageLength;
util::strncpy((char*)SendBuf + MSG_SIZE(MSG_FI_CHAT_MAP), chatString, SIZE_MAX_CHAT_MESSAGE);
this->SendMsgToCurrentFieldServerSocket(SendBuf, MSG_SIZE(MSG_FI_CHAT_MAP) + msgChatMap->MessageLength);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// ProcessResult Process_IC_CHAT_REGION(const char* pPacket, int nLength, int &nBytesUsed)
// :
// 2007-02-21 by cmkwon, 인자추가(SThreadInfo *i_pThreadInfo)
ProcessResult CIMIOCPSocket::Process_IC_CHAT_REGION(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_REGION *pRecvChatRegion;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_REGION) + ((MSG_IC_CHAT_REGION*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_REGION, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x1200A);
return RES_RETURN_FALSE;
}
pRecvChatRegion = (MSG_IC_CHAT_REGION*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_REGION));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChatRegion->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_REGION, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x1200B);
return RES_RETURN_FALSE;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_REGION, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
///////////////////////////////////////////////////////////////////////////////
// 채팅 로그 남기기
char szChatting[1024];
sprintf(szChatting, "Chat_Region|%s|%d|%d|%s\r\n",
pRecvChatRegion->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatRegion + sizeof(MSG_IC_CHAT_REGION));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
if(g_pIMGlobal->CheckWriteLog(chatString)) // 2011-06-22 by hskim, 사설 서버 방지
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
if (strncmp(chatString, "/", 1) == 0)
{
// 2007-10-02 by cmkwon, COMMAND 로그 남기기
if (g_pIMGlobal->CheckWriteLog(chatString)) // 2011-06-22 by hskim, 사설 서버 방지
g_pIMGlobal->WriteSystemLogEX(TRUE, "[Notify] : %s, IP(%s), command(%s)\r\n", GetCharacterString(&m_character, string()), this->GetPeerIP(), chatString);
// 명령어임
BOOL ret = HandleAdminCommands(chatString);
if (ret)
{
return RES_RETURN_TRUE;
}
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
if(0 != strncmp(chatString, "/", 1))
{// 2008-12-30 by cmkwon, 명령어는 채금 체크하지 않는다.
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManager.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)
|| ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_REGION, 주변
{
SendErrorMessage(T_IC_CHAT_REGION, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_REGION, T_FI_CHAT_REGION, msgChatRegion, SendBuf);
msgChatRegion->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
msgChatRegion->MessageLength = pRecvChatRegion->MessageLength;
util::strncpy((char*)SendBuf + MSG_SIZE(MSG_FI_CHAT_REGION), chatString, SIZE_MAX_CHAT_MESSAGE);
if (FALSE == this->SendMsgToCurrentFieldServerSocket(SendBuf, MSG_SIZE(MSG_FI_CHAT_REGION) + msgChatRegion->MessageLength))
{
// current field server socket이 NULL이면, 접속을 끊는다.
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL, %s at %s\r\n",
GetCharacterString(&m_character, string()), GetProtocolTypeString(T_IC_CHAT_REGION));
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
return RES_RETURN_FALSE;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// ProcessResult Process_IC_CHAT_GUILD(const char* pPacket, int nLength, int &nBytesUsed)
// :
// 2007-02-21 by cmkwon, 인자추가(SThreadInfo *i_pThreadInfo)
ProcessResult CIMIOCPSocket::Process_IC_CHAT_GUILD(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_GUILD *pRecvChatGuild;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_GUILD) + ((MSG_IC_CHAT_GUILD*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_GUILD, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x1200C);
return RES_RETURN_FALSE;
}
pRecvChatGuild = (MSG_IC_CHAT_GUILD*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_GUILD));
nBytesUsed += nRecvTypeSize;
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_CHAT_GUILD, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if (strnicmp(m_character.CharacterName, pRecvChatGuild->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_GUILD, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x1200D);
return RES_RETURN_FALSE;
}
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_GUILD, 여단
{
SendErrorMessage(T_IC_CHAT_GUILD, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_GUILD, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
char szChatting[1024];
// 2013-05-21 by bckim, 캐나다 채팅로그 정보 추가
// sprintf(szChatting, "Chat_GUILD|%s|%d|%d|%s\r\n",
// pRecvChatGuild->FromCharacterName, m_character.MapChannelIndex.MapIndex,
// m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatGuild + sizeof(MSG_IC_CHAT_GUILD));
sprintf(szChatting, "Chat_GUILD|%s|%d|%d|%d|%s\r\n",
pRecvChatGuild->FromCharacterName, m_character.GuildUniqueNumber,m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatGuild + sizeof(MSG_IC_CHAT_GUILD));
// End. 2013-05-21 by bckim, 캐나다 채팅로그 정보 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
// 2007-01-31 by cmkwon, 아래와 같이 수정함
// ms_pIMIOCP->m_MapGuild.lock();
// {
// CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
// if(ptmGuild)
// {
// ptmGuild->SendChatMsgToGuildMembers(((BYTE*)pRecvChatGuild) - SIZE_FIELD_TYPE_HEADER
// , SIZE_FIELD_TYPE_HEADER + nRecvTypeSize, CHAT_TYPE_GUILD);
// }
// }
// ms_pIMIOCP->m_MapGuild.unlock();
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
vectCIMIOCPSocketPtr vectIISockList;
vectIISockList.reserve(SIZE_MAX_GUILD_CAPACITY); // 2008-05-27 by dhjin, EP3 여단 수정 사항 - 여단원 증가 캐쉬 아이템
mt_auto_lock mtAG(&ms_pIMIOCP->m_MapGuild);
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
return RES_BREAK;
}
ptmGuild->GetGuildMemberIISocket(&vectIISockList);
mtAG.auto_unlock_cancel();
if(vectIISockList.empty())
{
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
ms_pIMIOCP->SendChatMsg2MultiUser(&vectIISockList, ((BYTE*)pRecvChatGuild) - SIZE_FIELD_TYPE_HEADER
, SIZE_FIELD_TYPE_HEADER + nRecvTypeSize, CHAT_TYPE_GUILD);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// ProcessResult Process_IC_CHAT_PARTY(const char* pPacket, int nLength, int &nBytesUsed)
// :
// 2007-02-21 by cmkwon, 인자추가(SThreadInfo *i_pThreadInfo)
ProcessResult CIMIOCPSocket::Process_IC_CHAT_PARTY(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_PARTY *pRecvChatParty;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_PARTY) + ((MSG_IC_CHAT_PARTY*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_PARTY, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12010);
return RES_RETURN_FALSE;
}
pRecvChatParty = (MSG_IC_CHAT_PARTY*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_PARTY));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChatParty->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_PARTY, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x12011);
return RES_RETURN_FALSE;
}
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_PARTY, 편대
{
SendErrorMessage(T_IC_CHAT_PARTY, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_PARTY, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
CIMParty *ptmParty = this->GetIMParty();
if (NULL == ptmParty)
{
SendErrorMessage(T_IC_CHAT_PARTY, ERR_PROTOCOL_NOT_HAVE_PARTY);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
ptmParty->LockIMParty();
{
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1 = 10;
}
char szChatting[1024];
// 2013-05-21 by bckim, 캐나다 채팅로그 정보 추가
// sprintf(szChatting, "Chat_Party|%s|%d|%d|%s\r\n",
// pRecvChatParty->FromCharacterName, m_character.MapChannelIndex.MapIndex,
// m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatParty + sizeof(MSG_IC_CHAT_PARTY));
sprintf(szChatting, "Chat_Party|%s|%I64d|%d|%d|%s\r\n",
pRecvChatParty->FromCharacterName,ptmParty->m_PartyID,m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatParty + sizeof(MSG_IC_CHAT_PARTY));
// End. 2013-05-21 by bckim, 캐나다 채팅로그 정보 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
ptmParty->SendChatMsgToMembers(((BYTE*)pRecvChatParty) - SIZE_FIELD_TYPE_HEADER
, SIZE_FIELD_TYPE_HEADER + nRecvTypeSize, CHAT_TYPE_PARTY);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
}
ptmParty->UnlockIMParty();
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1 = 20;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// ProcessResult Process_IC_CHAT_PTOP(const char* pPacket, int nLength, int &nBytesUsed)
// :
// 2007-02-21 by cmkwon, 인자추가(SThreadInfo *i_pThreadInfo)
ProcessResult CIMIOCPSocket::Process_IC_CHAT_PTOP(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_PTOP *pRecvChatPTOP;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_PTOP) + ((MSG_IC_CHAT_PTOP*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_PTOP, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12012);
return RES_RETURN_FALSE;
}
pRecvChatPTOP = (MSG_IC_CHAT_PTOP*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_PTOP));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChatPTOP->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_PTOP, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x12013);
return RES_RETURN_FALSE;
}
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_PTOP, 귓말
{
SendErrorMessage(T_IC_CHAT_PTOP, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
if(1 >= pRecvChatPTOP->MessageLength)
{// 2006-09-27 by cmkwon, 채팅 내용이 없다
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
///////////////////////////////////////////////////////////////////////////////
// 상대의 귓속말 거부 여부 확인
CIMIOCPSocket *pToSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(pRecvChatPTOP->ToCharacterName);
if (NULL == pToSocket
|| FALSE == pToSocket->IsValidCharacter())
{
SendErrorMessage(T_IC_CHAT_PTOP, ERR_COMMON_NO_SUCH_CHARACTER, 0, 0, pRecvChatPTOP->ToCharacterName);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// 2007-11-19 by cmkwon, 진정시스템 업데이트 - 보낸캐릭터의 세력을 설정 해준다
pRecvChatPTOP->FromInflTy = m_character.InfluenceType;
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
///////////////////////////////////////////////////////////////////////////////
// 2005-12-07 by cmkwon, 세력체크
if(FALSE == GCheckRaceAndInfluenceType(CHECK_TYPE_CHAT_PTOP, m_character.Race, m_character.InfluenceType,
pToSocket->GetCharacter()->Race, pToSocket->GetCharacter()->InfluenceType))
{
if(FALSE == COMPARE_RACE(m_character.Race, RACE_INFLUENCE_LEADER)
|| FALSE == COMPARE_RACE(pToSocket->GetCharacter()->Race, RACE_INFLUENCE_LEADER))
{// 2006-04-20 by cmkwon, 둘다 세력지도자이면 1:1 채팅 가능
SendErrorMessage(T_IC_CHAT_PTOP, ERR_PROTOCOL_REQ_INFLUENCE_NOT_MATCHED);
return RES_BREAK;
}
}
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// if (FALSE == COMPARE_CHATTYPE_BIT(pToSocket->m_enableChatFlag8, CHAT_TYPE_PTOP))
if (FALSE == COMPARE_CHATTYPE_BIT(pToSocket->m_enableChatFlag32, CHAT_TYPE_PTOP))
{
if (COMPARE_RACE(pToSocket->GetCharacter()->Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2006-11-14 by cmkwon, 관리자,운영자는 알수 없도록 아래의 에러메시지를 전송한다.
SendErrorMessage(T_IC_CHAT_PTOP, ERR_COMMON_NO_SUCH_CHARACTER, 0, 0, pRecvChatPTOP->ToCharacterName);
}
else
{
SendErrorMessage(T_IC_CHAT_PTOP, ERR_CHAT_CHAT_NOT_TRANSFERED);
}
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
if(pToSocket->IsCharacterNameFromRejectList(this->m_character.CharacterName))
{// 상대방 거부리스트에 등록되어 있음
SendErrorMessage(T_IC_CHAT_PTOP, ERR_FRIEND_REGISTERED_PEER_REJECTLIST);
return RES_BREAK;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_PTOP, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
char szChatting[1024];
sprintf(szChatting, "Chat_PtoP|%s, %s|%d|%d|%s\r\n",
pRecvChatPTOP->FromCharacterName, pRecvChatPTOP->ToCharacterName,
m_character.MapChannelIndex.MapIndex, m_character.MapChannelIndex.ChannelIndex,
(char*)pRecvChatPTOP + sizeof(MSG_IC_CHAT_PTOP));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
USHORT usRace = m_character.Race | pToSocket->m_character.Race; // 2007-11-13 by cmkwon, 1:1 채팅은 둘중에 한명이 관리자 혹은 운영자이면 채팅로그 저장
g_pIMGlobal->WriteChattingLog(szChatting, usRace);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
pToSocket->SendAddData(((BYTE*)pRecvChatPTOP) - SIZE_FIELD_TYPE_HEADER, SIZE_FIELD_TYPE_HEADER + nRecvTypeSize);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
SendAddData(((BYTE*)pRecvChatPTOP) - SIZE_FIELD_TYPE_HEADER, SIZE_FIELD_TYPE_HEADER + nRecvTypeSize);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_CHAT_CHANGE_CHAT_FLAG(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize;
MSG_IC_CHAT_CHANGE_CHAT_FLAG *pRecvChatOnOff;
nRecvTypeSize = sizeof(MSG_IC_CHAT_CHANGE_CHAT_FLAG);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_CHANGE_CHAT_FLAG, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12012);
return RES_RETURN_FALSE;
}
pRecvChatOnOff = (MSG_IC_CHAT_CHANGE_CHAT_FLAG*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
SET_CHATTYPE_BIT(pRecvChatOnOff->bitChatType, CHAT_TYPE_UNCONDITIONAL); //
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// m_enableChatFlag8 = pRecvChatOnOff->bitChatType; //
m_enableChatFlag32 = pRecvChatOnOff->bitChatType; //
this->SendToFieldServerChatBitFlag();
return RES_RETURN_TRUE;
}
// 2007-02-21 by cmkwon, 인자 추가(SThreadInfo *i_pThreadInfo)
ProcessResult CIMIOCPSocket::Process_IC_CHAT_SELL_ALL(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_SELL_ALL *pRecvChatAll;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_SELL_ALL) + ((MSG_IC_CHAT_SELL_ALL*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_SELL_ALL, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12005);
return RES_RETURN_FALSE;
}
pRecvChatAll = (MSG_IC_CHAT_SELL_ALL*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_SELL_ALL));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChatAll->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_SELL_ALL, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x12006);
return RES_RETURN_FALSE;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManager.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)
|| ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_SELL_ALL, 매매
{
SendErrorMessage(T_IC_CHAT_SELL_ALL, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
if(FALSE == COMPARE_INFLUENCE(m_character.InfluenceType, INFLUENCE_TYPE_VCN|INFLUENCE_TYPE_ANI))
{// 2006-06-13 by cmkwon, 세력 선택 유저만이 거래 채팅 가능
SendErrorMessage(T_IC_CHAT_SELL_ALL, ERR_REQ_CHOOSE_INFLUENCE_TYPE);
return RES_BREAK;
}
// 2008-05-19 by dhjin, EP3 - 채팅 시스템 변경, 전쟁 채팅 - 거래 채팅은 세력으로만 체크 한다.
// if(FALSE == GCheckLimitLevel(CHECK_TYPE_CHAT_SELL_ALL, m_character.Level))
// {
// SendErrorMessage(T_IC_CHAT_SELL_ALL, ERR_PROTOCOL_REQ_LEVEL_NOT_MATCHED);
// return RES_BREAK;
// }
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_SELL_ALL, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
char szChatting[1024];
sprintf(szChatting, "Chat_Sell_All|%s|%d|%d|%s\r\n",
pRecvChatAll->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatAll + sizeof(MSG_IC_CHAT_SELL_ALL));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
///////////////////////////////////////////////////////////////////////////////
// 2005-12-07 by cmkwon, 거래는 동일한 세력에게만 전송한다
ms_pIMIOCP->SendChatMsgToAllClients(CHAT_TYPE_SELL_ALL, ((BYTE*)pRecvChatAll) - SIZE_FIELD_TYPE_HEADER
, SIZE_FIELD_TYPE_HEADER + nRecvTypeSize, m_character.InfluenceType);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
// 2007-02-21 by cmkwon, 인자추가(SThreadInfo *i_pThreadInfo)
ProcessResult CIMIOCPSocket::Process_IC_CHAT_CASH_ALL(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_CASH_ALL *pRecvChatMap;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_CASH_ALL) + ((MSG_IC_CHAT_CASH_ALL*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_CASH_ALL, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12007);
return RES_RETURN_FALSE;
}
pRecvChatMap = (MSG_IC_CHAT_CASH_ALL*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_CASH_ALL));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChatMap->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_MAP, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x12008);
return RES_RETURN_FALSE;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_MAP, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
char szChatting[1024];
sprintf(szChatting, "Chat_Cash_All|%s|%d|%d|%s\r\n",
pRecvChatMap->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatMap + sizeof(MSG_IC_CHAT_MAP));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_CASH_ALL, T_FI_CHAT_CASH_ALL, msgChatMap, SendBuf);
msgChatMap->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
msgChatMap->MessageLength = pRecvChatMap->MessageLength;
util::strncpy((char*)SendBuf + MSG_SIZE(MSG_FI_CHAT_CASH_ALL), chatString, SIZE_MAX_CHAT_MESSAGE);
this->SendMsgToCurrentFieldServerSocket(SendBuf, MSG_SIZE(MSG_FI_CHAT_CASH_ALL) + msgChatMap->MessageLength);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHAT_INFLUENCE_ALL(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief // 2007-02-21 by cmkwon, 인자추가(SThreadInfo *i_pThreadInfo)
/// \author cmkwon
/// \date 2006-04-21 ~ 2006-04-21
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHAT_INFLUENCE_ALL(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
char *chatString;
MSG_IC_CHAT_INFLUENCE_ALL *pRInflAll;
nRecvTypeSize = sizeof(MSG_IC_CHAT_INFLUENCE_ALL) + ((MSG_IC_CHAT_INFLUENCE_ALL*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_INFLUENCE_ALL, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12007);
return RES_RETURN_FALSE;
}
pRInflAll = (MSG_IC_CHAT_INFLUENCE_ALL*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_INFLUENCE_ALL));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRInflAll->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_INFLUENCE_ALL, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
return RES_BREAK;
}
if(FALSE == COMPARE_INFLUENCE(this->m_character.InfluenceType, INFLUENCE_TYPE_VCN|INFLUENCE_TYPE_ANI))
{// 2007-10-06 by cmkwon, 기본 세력 체크
SendErrorMessage(T_IC_CHAT_INFLUENCE_ALL, ERR_REQ_CHOOSE_INFLUENCE_TYPE);
return RES_BREAK;
}
if(FALSE == COMPARE_RACE(m_character.Race, RACE_INFLUENCE_LEADER|RACE_INFLUENCE_SUBLEADER_MASK))
{// 2007-10-06 by cmkwon, 전진 기지 소유 여단장 세력 채팅
if(FALSE == IS_VALID_UNIQUE_NUMBER(this->GetCharacter()->GuildUniqueNumber))
{// 2007-10-06 by cmkwon, 여단 가입 유무 체크
SendErrorMessage(T_IC_CHAT_INFLUENCE_ALL, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if(FALSE == ms_pIMIOCP->IsGuildCommanderW(this->GetCharacter()->GuildUniqueNumber, this->GetCharacter()->CharacterUniqueNumber))
{// 2007-10-06 by cmkwon, 여단장을 체크
SendErrorMessage(T_IC_CHAT_INFLUENCE_ALL, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
}
// if(FALSE == COMPARE_RACE(m_character.Race, RACE_INFLUENCE_LEADER))
// {
// SendErrorMessage(T_IC_CHAT_INFLUENCE_ALL, ERR_CHAT_PERMISSION_DENIED);
// return RES_BREAK;
// }
// 2007-10-06 by cmkwon, 전진 기지 소유한 여단장 세력 채팅 가능 - 지도자/부지도자가 아니면 채팅을 FieldServer로 전송하여 FieldServer에서 전진기지 소유 여단장을 체크한다.
// // 2006-12-08 by dhjin, 지도자, 부지도자는 같은 세력 전체 공지채팅가능
// // 2007-10-06 by cmkwon, 부지도자 2명의 호칭을 다르게 설정 -
// //if(FALSE == COMPARE_RACE(m_character.Race, RACE_INFLUENCE_LEADER|RACE_INFLUENCE_SUBLEADER))
// if(FALSE == COMPARE_RACE(m_character.Race, RACE_INFLUENCE_LEADER|RACE_INFLUENCE_SUBLEADER_MASK))
// {
// SendErrorMessage(T_IC_CHAT_INFLUENCE_ALL, ERR_CHAT_PERMISSION_DENIED);
// return RES_BREAK;
// }
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_INFLUENCE_ALL, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// 2008-03-07 by cmkwon, 세력채팅시 채팅 블럭 체크 추가
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManager.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName))
{
SendErrorMessage(T_IC_CHAT_INFLUENCE_ALL, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
char szChatting[1024];
sprintf(szChatting, "Chat_Influence_All|%s|%d|%d|%s\r\n",
pRInflAll->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRInflAll + sizeof(MSG_IC_CHAT_MAP));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
// 2007-10-06 by cmkwon, 전진 기지 소유한 여단장 세력 채팅 가능 - 지도자/부지도자가 아니면 채팅을 FieldServer로 전송하여 FieldServer에서 전진기지 소유 여단장을 체크한다.
if(FALSE == COMPARE_RACE(m_character.Race, RACE_INFLUENCE_LEADER|RACE_INFLUENCE_SUBLEADER_MASK))
{
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_OUTPOST_GUILD, T_FI_CHAT_OUTPOST_GUILD, pSOutpost, SendBuf);
pSOutpost->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
pSOutpost->MessageLength = min(SIZE_MAX_CHAT_MESSAGE, pRInflAll->MessageLength);
util::strncpy((char*)SendBuf + MSG_SIZE(MSG_FI_CHAT_OUTPOST_GUILD), chatString, SIZE_MAX_CHAT_MESSAGE);
this->SendMsgToCurrentFieldServerSocket(SendBuf, MSG_SIZE(MSG_FI_CHAT_OUTPOST_GUILD)+pSOutpost->MessageLength);
}
else
{
INIT_MSG_WITH_BUFFER(MSG_IC_CHAT_INFLUENCE_ALL, T_IC_CHAT_INFLUENCE_ALL, pSInflAll, SendBuf);
util::strncpy(pSInflAll->FromCharacterName, GetLeader8SubLeaderString(m_character.InfluenceType, m_character.Race), SIZE_MAX_CHARACTER_NAME);
// 2007-10-06 by cmkwon, 부지도자 2명의 호칭을 다르게 설정 -
//// 2006-12-13 by cmkwon, 아래와 같이 전송 캐릭터명을 지도자/부지도자로 설정해서 전송한다.
//// util::strncpy(pSInflAll->FromCharacterName, pRInflAll->FromCharacterName, SIZE_MAX_CHARACTER_NAME);
// if(COMPARE_RACE(m_character.Race, RACE_INFLUENCE_LEADER))
// {
// util::strncpy(pSInflAll->FromCharacterName, STRCMD_CS_COMMON_INFLUENCE_LEADER, SIZE_MAX_CHARACTER_NAME);
// }
// else
// {
// util::strncpy(pSInflAll->FromCharacterName, STRCMD_CS_COMMON_INFLUENCE_SUBLEADER, SIZE_MAX_CHARACTER_NAME);
// }
pSInflAll->MessageLength = min(SIZE_MAX_CHAT_MESSAGE, pRInflAll->MessageLength);
util::strncpy((char*)SendBuf + MSG_SIZE(MSG_IC_CHAT_INFLUENCE_ALL), chatString, SIZE_MAX_CHAT_MESSAGE);
ms_pIMIOCP->SendChatMsgToAllClients(CHAT_TYPE_INFLUENCE, SendBuf, MSG_SIZE(MSG_IC_CHAT_INFLUENCE_ALL)+pSInflAll->MessageLength, m_character.InfluenceType);
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHAT_ARENA(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
/// \brief 아레나 채팅을 받아 FieldServer로 보낸다
/// \author dhjin
/// \date 2007-05-02 ~ 2007-05-02
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHAT_ARENA(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_REGION *pRecvChatRegion;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_ARENA) + ((MSG_IC_CHAT_ARENA*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_ARENA, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x1200A);
return RES_RETURN_FALSE;
}
pRecvChatRegion = (MSG_IC_CHAT_ARENA*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_ARENA));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChatRegion->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_ARENA, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x1200B);
return RES_RETURN_FALSE;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_ARENA, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
///////////////////////////////////////////////////////////////////////////////
// 채팅 로그 남기기
char szChatting[1024];
sprintf(szChatting, "Chat_Arena|%s|%d|%d|%s\r\n",
pRecvChatRegion->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatRegion + sizeof(MSG_IC_CHAT_ARENA));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManager.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)
|| ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_ARENA, 아레나
{
SendErrorMessage(T_IC_CHAT_ARENA, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_ARENA, T_FI_CHAT_ARENA, msgChatRegion, SendBuf);
msgChatRegion->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
msgChatRegion->MessageLength = pRecvChatRegion->MessageLength;
util::strncpy((char*)SendBuf + MSG_SIZE(MSG_FI_CHAT_ARENA), chatString, SIZE_MAX_CHAT_MESSAGE);
if (FALSE == this->SendMsgToCurrentFieldServerSocket(SendBuf, MSG_SIZE(MSG_FI_CHAT_ARENA) + msgChatRegion->MessageLength))
{
// current field server socket이 NULL이면, 접속을 끊는다.
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL, %s at %s\r\n",
GetCharacterString(&m_character, string()), GetProtocolTypeString(T_IC_CHAT_ARENA));
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
return RES_RETURN_FALSE;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHAT_WAR(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
/// \brief EP3 - 채팅 시스템 변경, 전쟁 채팅
/// \author dhjin
/// \date 2008-05-19 ~ 2008-05-19
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHAT_WAR(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_WAR *pRecvChatWar;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_WAR) + ((MSG_IC_CHAT_WAR*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_CHAT_WAR, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12005);
return RES_RETURN_FALSE;
}
pRecvChatWar = (MSG_IC_CHAT_WAR*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_WAR));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChatWar->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_WAR, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x12006);
return RES_RETURN_FALSE;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManager.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)
|| ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_WAR, 전쟁
{
SendErrorMessage(T_IC_CHAT_WAR, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
if(FALSE == COMPARE_INFLUENCE(m_character.InfluenceType, INFLUENCE_TYPE_VCN|INFLUENCE_TYPE_ANI))
{// 2006-06-13 by cmkwon, 세력 선택 유저만이 거래 채팅 가능
SendErrorMessage(T_IC_CHAT_WAR, ERR_REQ_CHOOSE_INFLUENCE_TYPE);
return RES_BREAK;
}
if(FALSE == GCheckLimitLevel(CHECK_TYPE_CHAT_WAR, m_character.Level))
{
SendErrorMessage(T_IC_CHAT_WAR, ERR_PROTOCOL_REQ_LEVEL_NOT_MATCHED);
return RES_BREAK;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_WAR, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
char szChatting[1024];
sprintf(szChatting, "Chat_War|%s|%d|%d|%s\r\n",
pRecvChatWar->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChatWar + sizeof(MSG_IC_CHAT_SELL_ALL));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
///////////////////////////////////////////////////////////////////////////////
// 2005-12-07 by cmkwon, 거래는 동일한 세력에게만 전송한다
ms_pIMIOCP->SendChatMsgToAllClients(CHAT_TYPE_WAR, ((BYTE*)pRecvChatWar) - SIZE_FIELD_TYPE_HEADER
, SIZE_FIELD_TYPE_HEADER + nRecvTypeSize, m_character.InfluenceType);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHAT_CNC(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
/// \brief Adding Cross Nation Chat
/// \author future
/// \date 2014-08-03
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHAT_CNC(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
#ifdef _CROSS_NATION_CHAT
int nRecvTypeSize;
MSG_IC_CHAT_CNC *pRecvChatCnc;
char *chatString;
// Size of the RecievedPacket = struct size + MessageLength
nRecvTypeSize = sizeof(MSG_IC_CHAT_CNC) + ((MSG_IC_CHAT_CNC*)(pPacket + nBytesUsed))->MessageLength;
// Only the Size of the Recieved Packet should equal the currently available length for reading
if (nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_CHAT_CNC, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12005);
return RES_RETURN_FALSE;
}
// Get MSG_IC_CHAT_CNC object pointer from packet
pRecvChatCnc = (MSG_IC_CHAT_CNC*)(pPacket + nBytesUsed);
// Read Chat String from MSG_IC_CHAT_CNC object
chatString = (char*)(pPacket + nBytesUsed + sizeof(MSG_IC_CHAT_CNC)); // after the read bytes AND the MSG_IC_CHAT_CNC object
#if defined(_DEBUG) || defined(F_DEBUG)
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: CNC Chat Arrived\r\n");
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: ****Struct Data****\r\n");
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: From Character Name -> %s\r\n", &pRecvChatCnc->FromCharacterName);
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: Influence of Staff Prefix (should be 0 from the client) -> %s\r\n", &pRecvChatCnc->InfluenceOrStaffPrefix);
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: Message Length: %d\r\n", pRecvChatCnc->MessageLength);
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: Calced Chat String: %s\r\n", chatString);
#endif
// Setting UsedBytes + the packet length after its fully read
nBytesUsed += nRecvTypeSize;
// Character Mismatch (between connected char and sender char in the chat object)
if (strnicmp(m_character.CharacterName, pRecvChatCnc->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_CNC, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
// Close(0x12006);
return RES_RETURN_FALSE;
}
// no idea again...
if (i_pThreadInfo)
{
i_pThreadInfo->nParam1++;
}
// Chat blocked?
int nRemainMinute = 0;
if (ms_pIMIOCP->m_chatBlockManager.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)
|| ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName))
{
SendErrorMessage(T_IC_CHAT_CNC, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
// No idea again...
if (i_pThreadInfo)
{
i_pThreadInfo->nParam1++;
}
// 2015-07-20 Future, CnC money cost
if (ms_pIMIOCP->m_bEnableCNC)
{
#ifdef _CROSS_NATION_CHAT_SPI_COST
if (!COMPARE_RACE(m_character.Race, RACE_ACCOUNT_TYPE_MASK))
{
// Money calculations on Field Server
SET_MSG_TYPE(((BYTE*)pRecvChatCnc) - SIZE_FIELD_TYPE_HEADER, T_FI_CHAT_CNC);
this->SendMsgToCurrentFieldServerSocket(((BYTE*)pRecvChatCnc) - SIZE_FIELD_TYPE_HEADER, MSG_SIZE(MSG_FI_CHAT_CNC) + pRecvChatCnc->MessageLength);
}
else
{
// Staff accounts dont need to pay for chatting in CnC
this->SendCNC(pRecvChatCnc);
}
#else
// Direct Chat sending
this->SendCNC(pRecvChatCnc);
#endif // _CROSS_NATION_CHAT_SPI_COST
}
else
{
SendString128(STRING_128_USER_NOTICE, STRMSG_CNC_DISABLED);
}
// No idea (3rd time) ...
if (i_pThreadInfo)
{
i_pThreadInfo->nParam1++;
}
#endif
return RES_RETURN_TRUE;
}
// 2015-07-20 Future, CnC costs money
ProcessResult CIMIOCPSocket::Process_FI_CHAT_CNC(const char* pPacket, int nLength, int& nBytesUsed)
{
MSG_FI_CHAT_CNC* pRecvMsg = (MSG_FI_CHAT_CNC*)(pPacket + nBytesUsed);
int nRecvSize = sizeof(MSG_FI_CHAT_CNC) + pRecvMsg->MessageLength;
if (nLength - nBytesUsed < nRecvSize)
{
SendErrorMessage(T_IC_CHAT_CNC, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12005);
return RES_RETURN_FALSE;
}
nBytesUsed += nRecvSize;
// Send the chat to all clients
SendCNC(pRecvMsg);
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHAT_CHATROOM(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
/// \brief EP3 채팅방 -
/// \author dhjin
/// \date 2008-06-18 ~ 2008-06-18
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHAT_CHATROOM(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
{
int nRecvTypeSize;
MSG_IC_CHAT_CHATROOM *pRecvChat;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_CHATROOM) + ((MSG_IC_CHAT_CHATROOM*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_CHATROOM, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12010);
return RES_RETURN_FALSE;
}
pRecvChat = (MSG_IC_CHAT_CHATROOM*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_CHATROOM));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChat->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_CHATROOM, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x12011);
return RES_RETURN_FALSE;
}
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_CHATROOM, 채팅방
{
SendErrorMessage(T_IC_CHAT_CHATROOM, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_CHATROOM, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
if(this->m_bChatRoomUseing)
{
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(this->m_nChatRoomNum == (*itr)->GetChatRoomNum())
{
char szChatting[1024];
sprintf(szChatting, "Chat_ChatRoom|%s|%d|%d|%s\r\n",
pRecvChat->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChat + sizeof(MSG_IC_CHAT_CHATROOM));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
(*itr)->SendChatMessagetoChatRoomMember(((BYTE*)pRecvChat) - SIZE_FIELD_TYPE_HEADER
, SIZE_FIELD_TYPE_HEADER + nRecvTypeSize, CHAT_TYPE_CHATROOM);
break;
}
}
}
else
{
SendErrorMessage(T_IC_CHAT_CHATROOM, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHAT_INFINITY(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo)
/// \brief 인피니티 - 인피 채팅
/// \author dhjin
/// \date 2009-09-09 ~ 2010
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHAT_INFINITY(const char* pPacket, int nLength, int &nBytesUsed, SThreadInfo *i_pThreadInfo) {
int nRecvTypeSize;
MSG_IC_CHAT_INFINITY *pRecvChat;
char *chatString;
nRecvTypeSize = sizeof(MSG_IC_CHAT_INFINITY) + ((MSG_IC_CHAT_INFINITY*)(pPacket+nBytesUsed))->MessageLength;
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_INFINITY, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12010);
return RES_RETURN_FALSE;
}
pRecvChat = (MSG_IC_CHAT_INFINITY*)(pPacket+nBytesUsed);
chatString = (char*)(pPacket+nBytesUsed+sizeof(MSG_IC_CHAT_INFINITY));
nBytesUsed += nRecvTypeSize;
if (strnicmp(m_character.CharacterName, pRecvChat->FromCharacterName, SIZE_MAX_CHARACTER_NAME) != 0)
{
SendErrorMessage(T_IC_CHAT_INFINITY, ERR_CHAT_CHARACTER_NAME_NOT_MATCHED);
Close(0x1200B);
return RES_RETURN_FALSE;
}
// 채팅 필터링
if (!FilterChattingString(chatString))
{
SendErrorMessage(T_IC_CHAT_INFINITY, ERR_CHAT_NOT_ALLOWED_STRING);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
///////////////////////////////////////////////////////////////////////////////
// 채팅 로그 남기기
char szChatting[1024];
sprintf(szChatting, "Chat_INFINITY|%s|%d|%d|%s\r\n",
pRecvChat->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, (char*)pRecvChat + sizeof(MSG_IC_CHAT_INFINITY));
// 2007-11-13 by cmkwon, 관리자, 운영자 채팅 로그 저장하기 - CIMGlobal::WriteChattingLog() 함수 인자 추가
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
int nRemainMinute = 0;
if(ms_pIMIOCP->m_chatBlockManager.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)
|| ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinute, m_character.CharacterName)) // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - T_IC_CHAT_ARENA, 아레나
{
SendErrorMessage(T_IC_CHAT_INFINITY, ERR_CHAT_CHAT_BLOCKED, nRemainMinute);
return RES_BREAK;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_INFINITY, T_FI_CHAT_INFINITY, msgChatRegion, SendBuf);
msgChatRegion->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
msgChatRegion->MessageLength = pRecvChat->MessageLength;
util::strncpy((char*)SendBuf + MSG_SIZE(MSG_FI_CHAT_INFINITY), chatString, SIZE_MAX_CHAT_MESSAGE);
if (FALSE == this->SendMsgToCurrentFieldServerSocket(SendBuf, MSG_SIZE(MSG_FI_CHAT_INFINITY) + msgChatRegion->MessageLength))
{
// current field server socket이 NULL이면, 접속을 끊는다.
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL, %s at %s\r\n",
GetCharacterString(&m_character, string()), GetProtocolTypeString(T_IC_CHAT_INFINITY));
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
return RES_RETURN_FALSE;
}
if(i_pThreadInfo)
{// 2007-02-21 by cmkwon
i_pThreadInfo->nParam1++;
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_CHAT_FRIENDLIST_AND_REJECTLIST_LOADING(const char* pPacket, int nLength, int &nBytesUsed)
{// No Body
///////////////////////////////////////////////////////////////////////////
// 친구, 거부 목록 로딩
DB_FRIEND_INFO *pDBFriendInfo = new DB_FRIEND_INFO;
memset(pDBFriendInfo, 0x00, sizeof(DB_FRIEND_INFO));
util::strncpy(pDBFriendInfo->CharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
// 2009-03-05 by cmkwon, 통합 아레나 이용시 친구 리스트 보너스 경험치 관련 버그 수정 - 아래와 같이 처음 로딩 인자를 전달 함.
// ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_FriendLoadFriends, this, pDBFriendInfo);
// 2009-03-05 by cmkwon, 통합 아레나 이용시 친구 리스트 보너스 경험치 관련 버그 수정 - 인자를 전달하고 FALSE를 설정한다.
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_FriendLoadFriends, this, pDBFriendInfo, NULL, this->m_bFirstTimeLoadFriendList);
this->m_bFirstTimeLoadFriendList = FALSE;
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_CHAT_FRIENDLIST_INSERT(const char* pPacket, int nLength, int &nBytesUsed)
{
MSG_IC_CHAT_FRIENDLIST_INSERT *pNewMsg = NULL;
int nRecvTypeSize = sizeof(MSG_IC_CHAT_FRIENDLIST_INSERT);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12012);
return RES_RETURN_FALSE;
}
pNewMsg = (MSG_IC_CHAT_FRIENDLIST_INSERT*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
if(0 == strncmp(pNewMsg->szCharacterName, "", SIZE_MAX_CHARACTER_NAME)
|| 0 == strnicmp(pNewMsg->szCharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME))
{// 캐릭터명이 잘못되어 있음
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_FRIEND_INVALID_CHARACTER_NAME);
return RES_BREAK;
}
// 2009-02-26 by cmkwon, 친구리스트 공백 관련 버그 수정 - 친구캐릭터명에 공백이 있는지 체크
if(NULL != strstr(pNewMsg->szCharacterName, " "))
{
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_FRIEND_INVALID_CHARACTER_NAME);
return RES_BREAK;
}
if(COMPARE_INFLUENCE(m_character.InfluenceType, INFLUENCE_TYPE_NORMAL))
{// 2006-10-14 by cmkwon, 일반 세력은 친구 등록 불가
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_REQ_CHOOSE_INFLUENCE_TYPE);
return RES_BREAK;
}
CIMIOCPSocket *pSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(pNewMsg->szCharacterName);
if(pSocket
&& pSocket->IsValidCharacter())
{
if (FALSE == COMPARE_RACE(this->GetCharacter()->Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR)
&& COMPARE_RACE(pSocket->GetCharacter()->Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2006-11-14 by cmkwon, 일반 유저는 관리자,운영자를 친구로 등록불가
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_FRIEND_INVALID_CHARACTER_NAME);
return RES_BREAK;
}
if(m_character.InfluenceType != pSocket->GetCharacter()->InfluenceType)
{// 2006-10-17 by cmkwon, 서로 다른 세력은 친구 추가 불가
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_PROTOCOL_REQ_INFLUENCE_NOT_MATCHED);
return RES_BREAK;
}
if(pSocket->IsCharacterNameFromRejectList(this->m_character.CharacterName))
{// 상대방 거부리스트에 등록되어 있음
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_FRIEND_REGISTERED_PEER_REJECTLIST, 0, 0, pNewMsg->szCharacterName);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// 2009-01-13 by cmkwon, 친구 등록시 상대방에게 알림 시스템 적용 - 상대방에게 친구 등록됨을 알린다. 클라이언트에서 등록된 상대방이 등록 여부 체크
INIT_MSG_WITH_BUFFER(MSG_IC_CHAT_FRIENDLIST_INSERT_NOTIFY, T_IC_CHAT_FRIENDLIST_INSERT_NOTIFY, pNotify, SendBuf);
util::strncpy(pNotify->szDoerCharacName, this->GetCharacter()->CharacterName, SIZE_MAX_CHARACTER_NAME);
pSocket->SendAddData(SendBuf, MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_INSERT_NOTIFY));
}
// 2004-11-02 by cmkwon, 친구 등록은 Offline시에도 등록할수 있게 수정
// CIMIOCPSocket *pSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(pNewMsg->szCharacterName);
// if(NULL == pSocket)
// {
// SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_COMMON_NO_SUCH_CHARACTER, 0, 0, pNewMsg->szCharacterName);
// return RES_BREAK;
// }
//
// if(pSocket->IsCharacterNameFromRejectList(this->m_character.CharacterName))
// {// 상대방 거부리스트에 등록되어 있음
//
// SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_FRIEND_REGISTERED_PEER_REJECTLIST);
// return RES_BREAK;
// }
if(this->FindFriendInfoByCharacterName(pNewMsg->szCharacterName))
{// 이미 친구리스트에 존재함
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_FRIEND_ALREADY_REGISTERED, 0, 0, pNewMsg->szCharacterName);
return RES_BREAK;
}
if(SIZE_MAX_FRIENDLIST_COUNT <= m_mtvectorFriendList.size())
{// 최대 인원
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_FRIEND_ALREADY_MAX_LIST, m_mtvectorFriendList.size());
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////
// 친구에 추가 쿼리
DB_FRIEND_INFO *pDBFriendInfo = new DB_FRIEND_INFO;
util::strncpy(pDBFriendInfo->CharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
util::strncpy(pDBFriendInfo->FriendName, pNewMsg->szCharacterName, SIZE_MAX_CHARACTER_NAME);
pDBFriendInfo->FriendType = FRIEND_TYPE_FRIEND;
pDBFriendInfo->RegDate.SetCurrentDateTime(); // 2008-04-11 by dhjin, EP3 거부목록 -
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_FriendInsertFriend, this, pDBFriendInfo);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_CHAT_FRIENDLIST_DELETE(const char* pPacket, int nLength, int &nBytesUsed)
{
MSG_IC_CHAT_FRIENDLIST_DELETE *pNewMsg = NULL;
int nRecvTypeSize = sizeof(MSG_IC_CHAT_FRIENDLIST_DELETE);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_FRIENDLIST_DELETE, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12012);
return RES_RETURN_FALSE;
}
pNewMsg = (MSG_IC_CHAT_FRIENDLIST_DELETE*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
if(strncmp(pNewMsg->szCharacterName, "", SIZE_MAX_CHARACTER_NAME) == 0)
{// 캐릭터명 이 잘못되어 있음
SendErrorMessage(T_IC_CHAT_FRIENDLIST_DELETE, ERR_FRIEND_INVALID_CHARACTER_NAME);
return RES_BREAK;
}
if(FALSE == this->FindFriendInfoByCharacterName(pNewMsg->szCharacterName))
{// 친구리스트에 존재하지 않음
SendErrorMessage(T_IC_CHAT_FRIENDLIST_DELETE, ERR_FRIEND_NO_SUCH_CHARACTER_IN_LIST, 0, 0, pNewMsg->szCharacterName);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////
// 친구리스트에서 삭제 쿼리
DB_FRIEND_INFO *pDBFriendInfo = new DB_FRIEND_INFO;
util::strncpy(pDBFriendInfo->CharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
util::strncpy(pDBFriendInfo->FriendName, pNewMsg->szCharacterName, SIZE_MAX_CHARACTER_NAME);
pDBFriendInfo->FriendType = FRIEND_TYPE_FRIEND;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_FriendDeleteFriend, this, pDBFriendInfo);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_CHAT_FRIENDLIST_REFRESH(const char* pPacket, int nLength, int &nBytesUsed)
{// No Body
if(0 == m_mtvectorFriendList.size())
{
return RES_BREAK;
}
// 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 - 아래와 같이 수정 함.
// INIT_MSG_WITH_BUFFER(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK, T_IC_CHAT_FRIENDLIST_REFRESH_OK, pSendMsg, tmSendBuf);
// pSendMsg->nFriendListCounts = 0;
//
// this->m_mtvectorFriendList.lock();
// this->MakeMsg_MSG_IC_CHAT_FRIENDLIST_LOADING_OK(pSendMsg
// , (FRIENDINFO *)(tmSendBuf + MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK)), (SIZE_MAX_PACKET-MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK))/sizeof(FRIENDINFO));
// this->m_mtvectorFriendList.unlock();
//
// if(pSendMsg->nFriendListCounts > 0)
// {
// this->SendAddData(tmSendBuf
// , MSG_SIZE(MSG_IC_CHAT_FRIENDLIST_REFRESH_OK) + sizeof(FRIENDINFO)*pSendMsg->nFriendListCounts);
// }
this->SendFriendListRefreshOK(); // 2008-10-24 by cmkwon, 친구리스트 전송 버그 수정 -
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_CHAT_REJECTLIST_INSERT(const char* pPacket, int nLength, int &nBytesUsed)
{
MSG_IC_CHAT_REJECTLIST_INSERT *pNewMsg = NULL;
int nRecvTypeSize = sizeof(MSG_IC_CHAT_REJECTLIST_INSERT);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_REJECTLIST_INSERT, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12012);
return RES_RETURN_FALSE;
}
pNewMsg = (MSG_IC_CHAT_REJECTLIST_INSERT*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
if(0 == strncmp(pNewMsg->szCharacterName, "", SIZE_MAX_CHARACTER_NAME))
{// 캐릭터명이 잘못되어 있음
SendErrorMessage(T_IC_CHAT_REJECTLIST_INSERT, ERR_FRIEND_INVALID_CHARACTER_NAME);
return RES_BREAK;
}
if(0 == strnicmp(pNewMsg->szCharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME))
{// 캐릭터명이 잘못되어 있음
SendErrorMessage(T_IC_CHAT_REJECTLIST_INSERT, ERR_FRIEND_INVALID_CHARACTER_NAME, 0, 0, pNewMsg->szCharacterName);
return RES_BREAK;
}
// 2009-02-26 by cmkwon, 친구리스트 공백 관련 버그 수정 - 거부캐릭터명에 공백이 있는지 체크
if(NULL != strstr(pNewMsg->szCharacterName, " "))
{
SendErrorMessage(T_IC_CHAT_FRIENDLIST_INSERT, ERR_FRIEND_INVALID_CHARACTER_NAME);
return RES_BREAK;
}
if(this->IsCharacterNameFromRejectList(pNewMsg->szCharacterName))
{// 이미 거부리스트에 존재함
SendErrorMessage(T_IC_CHAT_REJECTLIST_INSERT, ERR_FRIEND_ALREADY_REGISTERED, 0, 0, pNewMsg->szCharacterName);
return RES_BREAK;
}
if(SIZE_MAX_REJECTLIST_COUNT <= m_mtvectorRejectList.size())
{// 최대 인원
SendErrorMessage(T_IC_CHAT_REJECTLIST_INSERT, ERR_FRIEND_ALREADY_MAX_LIST, m_mtvectorRejectList.size());
return RES_BREAK;
}
// 2004-11-02 by cmkwon, 거부 리스트도 On/Offline 상태와 상관없이 등록 가능
// CIMIOCPSocket *pSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(pNewMsg->szCharacterName);
// if(NULL == pSocket)
// {
// SendErrorMessage(T_IC_CHAT_REJECTLIST_INSERT, ERR_COMMON_NO_SUCH_CHARACTER, 0, 0, pNewMsg->szCharacterName);
// return RES_BREAK;
// }
//
// if(pSocket->FindFriendInfoByCharacterName(this->m_character.CharacterName))
// {// 상대방 친구리스트에 등록되어 있으므로 삭제해야한다.
//
// ///////////////////////////////////////////////////////////////////////////
// // 상대방 친구 목록에서 자신을 삭제하는 쿼리
// DB_FRIEND_INFO *pDBFriendInfo = new DB_FRIEND_INFO;
// strncpy(pDBFriendInfo->CharacterName, pSocket->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
// strncpy(pDBFriendInfo->FriendName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
// pDBFriendInfo->FriendType = FRIEND_TYPE_FRIEND;
// ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_FriendDeleteFriend, pSocket, pDBFriendInfo);
// }
///////////////////////////////////////////////////////////////////////////
// 상대방 친구 목록에서 자신을 삭제하는 쿼리
DB_FRIEND_INFO *pDBFriendInfo = new DB_FRIEND_INFO;
util::strncpy(pDBFriendInfo->CharacterName, pNewMsg->szCharacterName, SIZE_MAX_CHARACTER_NAME);
util::strncpy(pDBFriendInfo->FriendName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
pDBFriendInfo->FriendType = FRIEND_TYPE_FRIEND;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_FriendDeleteFriend, this, pDBFriendInfo);
///////////////////////////////////////////////////////////////////////////
// 거부리스트 추가 쿼리
DB_FRIEND_INFO *pDBFriendInfo1 = new DB_FRIEND_INFO;
util::strncpy(pDBFriendInfo1->CharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
util::strncpy(pDBFriendInfo1->FriendName, pNewMsg->szCharacterName, SIZE_MAX_CHARACTER_NAME);
pDBFriendInfo1->FriendType = FRIEND_TYPE_REJECT;
pDBFriendInfo1->RegDate.SetCurrentDateTime(); // 2008-04-11 by dhjin, EP3 거부목록 -
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_FriendInsertFriend, this, pDBFriendInfo1);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_CHAT_REJECTLIST_DELETE(const char* pPacket, int nLength, int &nBytesUsed)
{
MSG_IC_CHAT_REJECTLIST_DELETE *pNewMsg = NULL;
int nRecvTypeSize = sizeof(MSG_IC_CHAT_REJECTLIST_DELETE);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IC_CHAT_REJECTLIST_DELETE, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12012);
return RES_RETURN_FALSE;
}
pNewMsg = (MSG_IC_CHAT_REJECTLIST_DELETE*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
if(strncmp(pNewMsg->szCharacterName, "", SIZE_MAX_CHARACTER_NAME) == 0)
{// 캐릭터명 이 잘못되어 있음
SendErrorMessage(T_IC_CHAT_REJECTLIST_DELETE, ERR_FRIEND_INVALID_CHARACTER_NAME);
return RES_BREAK;
}
if(FALSE == this->IsCharacterNameFromRejectList(pNewMsg->szCharacterName))
{// 거부리스트에 존재하지 않음
SendErrorMessage(T_IC_CHAT_REJECTLIST_DELETE, ERR_FRIEND_NO_SUCH_CHARACTER_IN_LIST, 0, 0, pNewMsg->szCharacterName);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////
// 친구리스트에서 삭제 쿼리
DB_FRIEND_INFO *pDBFriendInfo = new DB_FRIEND_INFO;
util::strncpy(pDBFriendInfo->CharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
util::strncpy(pDBFriendInfo->FriendName, pNewMsg->szCharacterName, SIZE_MAX_CHARACTER_NAME);
pDBFriendInfo->FriendType = FRIEND_TYPE_REJECT;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_FriendDeleteFriend, this, pDBFriendInfo);
return RES_RETURN_TRUE;
}
BOOL CIMIOCPSocket::SendToFieldServerChatBitFlag(void)
{
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_CHANGE_CHAT_FLAG, T_FI_CHAT_CHANGE_CHAT_FLAG, pOnOff, pOnOffBuf);
pOnOff->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// pOnOff->ChatFlag = m_enableChatFlag8;
pOnOff->ChatFlag = m_enableChatFlag32;
this->SendMsgToCurrentFieldServerSocket(pOnOffBuf, MSG_SIZE(MSG_FI_CHAT_CHANGE_CHAT_FLAG));
return TRUE;
}
void CIMIOCPSocket::SendString128(BYTE string128_type, char* pFormat, ...)
{
if (string128_type == STRING_128_DEBUG_L1
|| string128_type == STRING_128_DEBUG_L2)
{
return;
}
char szStrTemp[1024];
int nHeaderSize = 0;
util::zero(szStrTemp, 1024);
if (string128_type == STRING_128_DEBUG_L1)
{
strcpy(szStrTemp, "[D1]");
nHeaderSize = 4;
}
else if (string128_type == STRING_128_DEBUG_L2)
{
strcpy(szStrTemp, "[D2]");
nHeaderSize = 4;
}
else if (string128_type == STRING_128_DEBUG_L3)
{
strcpy(szStrTemp, "[D3]");
nHeaderSize = 4;
}
else if (string128_type == STRING_128_ADMIN_CMD)
{
strcpy(szStrTemp, "[A]");
nHeaderSize = 3;
}
va_list args;
va_start(args, pFormat);
vsprintf(szStrTemp+nHeaderSize, pFormat, args);
va_end(args);
int nStrLen = strlen(szStrTemp);
if(128 > nStrLen)
{
INIT_MSG_WITH_BUFFER(MSG_IC_STRING_128, T_IC_STRING_128, MsgStr, SendBuf);
MsgStr->PrintType = STR128_PRINT_TYPE_CHAT;
util::strncpy(MsgStr->String, szStrTemp, 128);
SendAddData(SendBuf, MSG_SIZE(MSG_IC_STRING_128));
}
else if(256 > nStrLen)
{
INIT_MSG_WITH_BUFFER(MSG_IC_STRING_256, T_IC_STRING_256, MsgStr, SendBuf);
MsgStr->PrintType = STR128_PRINT_TYPE_CHAT;
util::strncpy(MsgStr->String, szStrTemp, 256);
SendAddData(SendBuf, MSG_SIZE(MSG_IC_STRING_256));
}
else if(512 > nStrLen)
{
INIT_MSG_WITH_BUFFER(MSG_IC_STRING_512, T_IC_STRING_512, MsgStr, SendBuf);
MsgStr->PrintType = STR128_PRINT_TYPE_CHAT;
util::strncpy(MsgStr->String, szStrTemp, 512);
SendAddData(SendBuf, MSG_SIZE(MSG_IC_STRING_512));
}
else
{
INIT_MSG_WITH_BUFFER(MSG_IC_STRING_512, T_IC_STRING_512, MsgStr, SendBuf);
MsgStr->PrintType = STR128_PRINT_TYPE_CHAT;
util::strncpy(MsgStr->String, szStrTemp, 512);
SendAddData(SendBuf, MSG_SIZE(MSG_IC_STRING_512));
char szErrStr[1024];
wsprintf(szErrStr, " Error: String Too Long For STRING_XXX(Length:%d, %s)\r\n", nStrLen, szStrTemp);
g_pIMGlobal->WriteSystemLog(szErrStr);
DbgOut(szErrStr);
}
if (string128_type == STRING_128_ADMIN_CMD)
{
DBGOUT2(DO2_SYSLOG, " SendString128 %s: %s\r\n",
GetCharacterString(&m_character, string()),
szStrTemp);
}
}
BOOL CIMIOCPSocket::SendChatMessage(BitFlag16_t i_CHAT_TYPE, BYTE *i_pChatData, int i_nSize, BYTE i_byInfluenceMask/*=INFLUENCE_TYPE_ALL_MASK*/)
{
if(FALSE == IsUsing()
|| FALSE == COMPARE_CHATTYPE_BIT(m_enableChatFlag32, i_CHAT_TYPE)
|| FALSE == COMPARE_INFLUENCE(m_character.InfluenceType, i_byInfluenceMask))
{
return FALSE;
}
return SendAddData(i_pChatData, i_nSize);
}
ProcessResult CIMIOCPSocket::Process_FI_CONNECT(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CONNECT Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_CONNECT *pMsgConn;
nRecvTypeSize = sizeof(MSG_FI_CONNECT)
+ ((MSG_FI_CONNECT*)(pPacket+nBytesUsed))->NumOfMapIndex * sizeof(MapIndex_t);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_CONNECT, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12016);
return RES_RETURN_FALSE;
}
pMsgConn = (MSG_FI_CONNECT*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
if(ms_pIMIOCP->m_pFieldServerSocket)
{
// 이미 FieldServer가 접속해 있음
SendErrorMessage(T_FI_CONNECT, ERR_PROTOCOL_FIELD_SERVER_ALREADY_REGISTERD);
return RES_BREAK;
}
m_PeerSocketType = ST_FIELD_SERVER;
m_FieldServerID = pMsgConn->FieldServerID;
// set field server ID
FieldServerInfo *pFieldServerInfo = &ms_pIMIOCP->m_FieldServerInfo;
pFieldServerInfo->Reset();
pFieldServerInfo->serverID = pMsgConn->FieldServerID;
pFieldServerInfo->IsActive = TRUE;
pFieldServerInfo->ServerType = ST_FIELD_SERVER;
pFieldServerInfo->pSocket = this;
pFieldServerInfo->AccumulatedFieldUserCounts = 0;
pFieldServerInfo->CurrentFieldUserCounts = 0;
pFieldServerInfo->MaxFieldUserCounts = 0;
pFieldServerInfo->AccumulatedFieldMonsterCounts = 0;
pFieldServerInfo->CurrentFieldMonsterCounts = 0;
for (int i = 0; i < pMsgConn->NumOfMapIndex; i++)
{
MapIndex_t pTmpMapIndex = *(MapIndex_t*)(((char*)pMsgConn) + sizeof(MSG_FI_CONNECT) + sizeof(MapIndex_t)*i);
pFieldServerInfo->MapIndexVector.push_back(pTmpMapIndex);
#ifdef _DEBUG
DBGOUT("FieldServer(%s) -> %04d\n", pFieldServerInfo->serverID.GetString(string()), pTmpMapIndex);
#endif
}
ms_pIMIOCP->SetFieldServerSocket(this);
if(pMsgConn->ArenaServerCheck)
{// 2008-02-28 by dhjin, 아레나 통합 - Arena 서버이면 TRUE
ms_pIMIOCP->m_bArenaServerCheck = TRUE;
}
this->SendAddMessageType(T_FI_CONNECT_OK);
// 2009-03-26 by cmkwon, 시스템 로그 추가 -
//DBGOUT("Connection from Field Server(%s) successfully established...\n", pFieldServerInfo->serverID.GetString(string()));
g_pGlobal->WriteSystemLogEX(TRUE, " [Notify] Connected from FieldServer(%s) !! IsArenaServerFlag(%d) \r\n", pFieldServerInfo->serverID.GetString().GetBuffer(), pMsgConn->ArenaServerCheck);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_CONNECT_NOTIFY_DEAD(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CONNECT_NOTIFY_DEAD Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_CONNECT_NOTIFY_DEAD *pMsgNotifyDead;
nRecvTypeSize = sizeof(MSG_FI_CONNECT_NOTIFY_DEAD);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_CONNECT_NOTIFY_DEAD, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12017);
return RES_RETURN_FALSE;
}
pMsgNotifyDead = (MSG_FI_CONNECT_NOTIFY_DEAD*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMIOCPSocket *pIMSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgNotifyDead->CharacterUniqueNumber);
if (pIMSocket
&& pIMSocket->IsUsing())
{
pIMSocket->CharacterDeadRoutine(pMsgNotifyDead->AttackerGuildUID);
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_CONNECT_NOTIFY_GAMEEND(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()) || this != ms_pIMIOCP->m_pFieldServerSocket)
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CONNECT_NOTIFY_GAMEEND Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_CONNECT_NOTIFY_GAMEEND *pMsgNotifyGameEnd;
nRecvTypeSize = sizeof(MSG_FI_CONNECT_NOTIFY_GAMEEND);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_CONNECT_NOTIFY_GAMEEND, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_RETURN_FALSE;
}
pMsgNotifyGameEnd = (MSG_FI_CONNECT_NOTIFY_GAMEEND*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMIOCPSocket *pIMSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgNotifyGameEnd->CharacterUniqueNumber);
if (pIMSocket
&& pIMSocket->IsUsing()
&& pIMSocket->m_character.CharacterUniqueNumber == pMsgNotifyGameEnd->CharacterUniqueNumber)
{
if (COMPARE_RACE(pIMSocket->GetCharacter()->Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2006-05-08 by cmkwon
ms_pIMIOCP->DeleteFromAdminCharacter(pIMSocket->GetCharacter()->CharacterUniqueNumber);
}
char szTemp[1024];
sprintf(szTemp, "%s's GameEnd Notified...\r\n", GetCharacterString(&pIMSocket->m_character, string()));
g_pIMGlobal->WriteSystemLog(szTemp);
DBGOUT(szTemp);
pIMSocket->GameEndRoutineIM();
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_CONNECT_NOTIFY_GAMESTART(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CONNECT_NOTIFY_GAMESTART Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_CONNECT_NOTIFY_GAMESTART *pMsgNotifyGameStart;
nRecvTypeSize = sizeof(MSG_FI_CONNECT_NOTIFY_GAMESTART);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_CONNECT_NOTIFY_GAMESTART, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_PACKET_ERROR;
}
pMsgNotifyGameStart = (MSG_FI_CONNECT_NOTIFY_GAMESTART*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
// 사용자 확인
CIMIOCPSocket *pCharacterSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgNotifyGameStart->CharacterUniqueNumber);
if (pCharacterSocket == NULL
|| FALSE == pCharacterSocket->IsUsing())
{
SendErrorMessage(T_FI_CONNECT_NOTIFY_GAMESTART, ERR_COMMON_NO_SUCH_CHARACTER, pMsgNotifyGameStart->CharacterUniqueNumber);
return RES_BREAK;
}
pCharacterSocket->GameStartRoutineIM(pMsgNotifyGameStart, this);
// 2006-05-09 by cmkwon, GameStartRoutineIM()함수에서 처리
// if(COMPARE_RACE(pCharacterSocket->m_character.Race, RACE_OPERATION|RACE_GAMEMASTER))
// {// 2006-05-08 by cmkwon, 관리자/운영자는 귓말끔 상태로 시작됨
// CLEAR_CHATTYPE_BIT(pCharacterSocket->m_enableChatFlag8, CHAT_TYPE_PTOP);
//
// ///////////////////////////////////////////////////////////////////////////////
// // 2006-05-08 by cmkwon
// ms_pIMIOCP->AddToAdminCharacter(pCharacterSocket->GetCharacter()->CharacterUniqueNumber);
//
// ///////////////////////////////////////////////////////////////////////////////
// // 2006-05-08 by cmkwon
// int nCallGMCnt = ms_pIMIOCP->m_mtvectSCallGMList.size();
// if(0 < nCallGMCnt)
// {
// INIT_MSG_WITH_BUFFER(MSG_IC_ADMIN_CALLGM_INFO_OK, T_IC_ADMIN_CALLGM_INFO_OK, pCallGMInfo, SendBuf);
// pCallGMInfo->nCallGMTotalCount = ms_pIMIOCP->m_mtvectSCallGMList.size();
// pCharacterSocket->SendAddData(SendBuf, MSG_SIZE(MSG_IC_ADMIN_CALLGM_INFO_OK));
// }
// }
//
// pCharacterSocket->m_bGameEndRoutineFlag = TRUE;
//
// ///////////////////////////////////////////////////////////////////////////
// // MAP_CHANNEL_INDEX 할당
// pCharacterSocket->m_character.MapChannelIndex = pMsgNotifyGameStart->MapChannelIndex;
//
// ///////////////////////////////////////////////////////////////////////////
// // 길드 정보 로딩
// if(INVALID_GUILD_UID != pCharacterSocket->m_character.GuildUniqueNumber)
// {
// ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildLoadGuild, this, NULL, NULL, pMsgNotifyGameStart->CharacterUniqueNumber);
// }
//
// ///////////////////////////////////////////////////////////////////////////
// // 이전 파티 검사
// ///////////////////////////////////////////////////////////////////////////
// if (pCharacterSocket->m_character.LastPartyID != 0)
// {
// #ifdef _DEBUG
// pCharacterSocket->SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0005);
// #endif
// // 파티 검색
// CIMParty *pParty = ms_pIMIOCP->FindParty(pCharacterSocket->m_character.LastPartyID);
// if (pParty == NULL)
// {
// // 파티가 이미 해산된 경우
// pCharacterSocket->SendErrorMessage(T_FI_CONNECT_NOTIFY_GAMESTART, ERR_PROTOCOL_NO_SUCH_PARTY, pCharacterSocket->m_character.LastPartyID);
//
// pCharacterSocket->SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0006);
//
// // Update DB
// QPARAM_SAVELASTPARTYID *pQSavePartyID = new QPARAM_SAVELASTPARTYID;
// pQSavePartyID->CharacterUniqueNumber = pCharacterSocket->m_character.CharacterUniqueNumber;
// pQSavePartyID->LastPartyID = 0;
// ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_SaveLastPartyID, this, pQSavePartyID);
//
// // Update CHARACTER
// pCharacterSocket->m_character.LastPartyID = 0;
// return RES_BREAK;
// }
//
// pParty->LockIMParty();
// {
// IMPartyMember *pMember = pParty->GetMemberPtrByCharacterUniqueNumber(pMsgNotifyGameStart->CharacterUniqueNumber);
// if (pMember == NULL)
// {
// // 파티원이 없는 경우
// pParty->UnlockIMParty();
// SendErrorMessage(T_FI_CONNECT_NOTIFY_GAMESTART, ERR_PROTOCOL_NO_SUCH_PARTY_MEMBER, pMsgNotifyGameStart->CharacterUniqueNumber);
// return RES_BREAK;
// }
//
// // 사용자에게 파티 정보 할당
// pCharacterSocket->SetIMParty(pParty);
//
// // validate party member
// pMember->SetOnlineMember(pCharacterSocket);
//
// // 자기 자신에게 보냄
// INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_PUT_LAST_PARTY_INFO, T_IC_PARTY_PUT_LAST_PARTY_INFO, pLastPartyInfo, pLastPartyInfoBuf);
// pLastPartyInfo->PartyID = pParty->m_PartyID;
// pCharacterSocket->SendAddData(pLastPartyInfoBuf, MSG_SIZE(MSG_IC_PARTY_PUT_LAST_PARTY_INFO));
//
// pCharacterSocket->SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0007);
// }
// pParty->UnlockIMParty();
// }
// 2008-03-03 by dhjin, 아레나 통합 - 아레나 서버 일때만 유저에게 FM <-> IM서버 접속 성공을 보낸다
if(ms_pIMIOCP->m_bArenaServerCheck)
{
pCharacterSocket->SendAddMessageType(T_IC_CONNECT_FM_TO_IM_OK);
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_CONNECT_NOTIFY_DEAD_GAMESTART(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CONNECT_NOTIFY_DEAD_GAMESTART Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_CONNECT_NOTIFY_DEAD_GAMESTART *pDeadGameStart;
nRecvTypeSize = sizeof(MSG_FI_CONNECT_NOTIFY_DEAD_GAMESTART);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_CONNECT_NOTIFY_DEAD_GAMESTART, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_PACKET_ERROR;
}
pDeadGameStart = (MSG_FI_CONNECT_NOTIFY_DEAD_GAMESTART*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
// 사용자 확인
CIMIOCPSocket *pCharacterSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pDeadGameStart->CharacterUniqueNumber);
if (pCharacterSocket == NULL || FALSE == pCharacterSocket->IsUsing())
{
SendErrorMessage(T_FI_CONNECT_NOTIFY_DEAD_GAMESTART, ERR_COMMON_NO_SUCH_CHARACTER, pDeadGameStart->CharacterUniqueNumber);
return RES_BREAK;
}
CLEAR_BODYCON_BIT(pCharacterSocket->m_character.BodyCondition, BODYCON_DEAD_MASK);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_EVENT_NOTIFY_WARP(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_EVENT_NOTIFY_WARP Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_EVENT_NOTIFY_WARP *pMsgNotifyWarp;
nRecvTypeSize = sizeof(MSG_FI_EVENT_NOTIFY_WARP);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_EVENT_NOTIFY_WARP, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_RETURN_FALSE;
}
pMsgNotifyWarp = (MSG_FI_EVENT_NOTIFY_WARP*)(pPacket+nBytesUsed);
nRecvTypeSize += pMsgNotifyWarp->nNumOfTimer*sizeof(TIMER_EVENT_4_EXCHANGE);
nBytesUsed += nRecvTypeSize;
CIMIOCPSocket *pCharacterSocket
= ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgNotifyWarp->CharacterUniqueNumber);
if (pCharacterSocket == NULL || FALSE == pCharacterSocket->IsUsing())
{
DBGOUT("[Error]ERR_COMMON_NO_SUCH_CHARACTER: %d\n", pMsgNotifyWarp->CharacterUniqueNumber);
SendErrorMessage(T_FI_EVENT_NOTIFY_WARP, ERR_COMMON_NO_SUCH_CHARACTER, pMsgNotifyWarp->CharacterUniqueNumber);
return RES_BREAK;
}
if (NULL == ms_pIMIOCP->m_pFieldServerSocket
|| FALSE == ms_pIMIOCP->m_pFieldServerSocket->IsUsing()
|| FALSE == ms_pIMIOCP->m_FieldServerInfo.IsExistMapIndex(pMsgNotifyWarp->MapChannelIndex.MapIndex))
{
DBGOUT("[Error]ERR_PROTOCOL_NO_SUCH_MAP_SERVED: %d\n", pMsgNotifyWarp->MapChannelIndex.MapIndex);
SendErrorMessage(T_FI_EVENT_NOTIFY_WARP, ERR_PROTOCOL_NO_SUCH_MAP_SERVED, pMsgNotifyWarp->CharacterUniqueNumber, pMsgNotifyWarp->MapChannelIndex.MapIndex);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// 여단전 체크
if (IS_VALID_UNIQUE_NUMBER(pCharacterSocket->m_uidGuildUniqueNumber))
{
ms_pIMIOCP->GuildWarCheck(pCharacterSocket->m_uidGuildUniqueNumber, pCharacterSocket->m_character.MapChannelIndex);
}
pCharacterSocket->m_character.MapChannelIndex = pMsgNotifyWarp->MapChannelIndex;
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_FI_EVENT_CHAT_BLOCK(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief // 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 -
/// \author cmkwon
/// \date 2008-12-30 ~ 2008-12-30
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_FI_EVENT_CHAT_BLOCK(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_EVENT_CHAT_BLOCK Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_FI_EVENT_CHAT_BLOCK,
MSG_FI_EVENT_CHAT_BLOCK, pRMsg);
ms_pIMIOCP->m_chatBlockManagerByLeader.InsertChatBlockList(pRMsg->szBlockedCharacterName, pRMsg->nBlockedMinutes);
return RES_RETURN_TRUE;
}
// 2004-10-29 by cmkwon, FieldServer는 하나로 픽스한다
//ProcessResult CIMIOCPSocket::Process_FI_EVENT_GET_WARP_INFO(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_FI_EVENT_GET_WARP_INFO *pMsgGetWarpInfo = NULL;
//
// nRecvTypeSize = sizeof(MSG_FI_EVENT_GET_WARP_INFO);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_FI_EVENT_GET_WARP_INFO, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pMsgGetWarpInfo = (MSG_FI_EVENT_GET_WARP_INFO*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// CIMIOCPSocket *pSock = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgGetWarpInfo->CharacterUniqueNumber);
// if (pSock == NULL)
// {
// SendErrorMessage(T_FI_EVENT_GET_WARP_INFO, ERR_COMMON_NO_SUCH_CHARACTER, pMsgGetWarpInfo->CharacterUniqueNumber);
// return RES_BREAK;
// }
//
// // 에러가 나면 바로 보내기 위해 미리 만들어둠
// INIT_MSG_WITH_BUFFER(MSG_FI_EVENT_GET_WARP_INFO_OK, T_FI_EVENT_GET_WARP_INFO_OK, pGetOK, pGetOKBuf);
// pGetOK->AccountUniqueNumber = pSock->m_character.AccountUniqueNumber;
// pGetOK->CharacterUniqueNumber = pSock->m_character.CharacterUniqueNumber;
// pGetOK->PartyID = 0;
// pGetOK->MasterCharacterUniqueNumber = INVALID_UNIQUE_NUMBER;
// pGetOK->nPartyMembers = 0;
// pGetOK->nTimerEvents = 0;
//
// int offset = MSG_SIZE(MSG_FI_EVENT_GET_WARP_INFO_OK);
//
// // 소속 파티가 있으면 할당함
// if (pSock->m_pIMParty != NULL)
// {
// pSock->m_pIMParty->m_ListPartyMember.lock();
// pGetOK->PartyID = pSock->m_pIMParty->m_PartyID;
// pGetOK->MasterCharacterUniqueNumber = pSock->m_pIMParty->GetMasterCharacterUniqueNumber();
// pGetOK->nPartyMembers = pSock->m_pIMParty->GetMemberCount(FALSE);
//
// mt_list<IMPartyMember>::iterator itr = pSock->m_pIMParty->m_ListPartyMember.begin();
// while(itr != pSock->m_pIMParty->m_ListPartyMember.end())
// {
// IMPartyMember &tmpPartyMember = *itr;
// FI_PARTY_MEMBER_INFO *pPartyMember = (FI_PARTY_MEMBER_INFO*)(pGetOKBuf + offset);
// pPartyMember->CharacterUniqueNumber = tmpPartyMember.PM_CharacterUniqueNumber;
//
// offset += sizeof(FI_PARTY_MEMBER_INFO);
// itr++;
// }
// pSock->m_pIMParty->m_ListPartyMember.unlock();
//#ifdef _DEBUG
// // offset 확인
// assert(offset
// == (MSG_SIZE(MSG_FI_EVENT_GET_WARP_INFO_OK) + sizeof(FI_PARTY_MEMBER_INFO)*pSock->m_pIMParty->GetMemberCount(FALSE))
// );
//#endif
// }
//
//
//#ifdef _DEBUG
// // offset 확인
// assert(offset == (MSG_SIZE(MSG_FI_EVENT_GET_WARP_INFO_OK) +
// sizeof(FI_PARTY_MEMBER_INFO)*pGetOK->nPartyMembers +
// sizeof(TIMER_EVENT_4_EXCHANGE)*pGetOK->nTimerEvents)
// );
//#endif
//
// // 전송
// SendAddData(pGetOKBuf, offset);
//
// return RES_RETURN_TRUE;
//}
ProcessResult CIMIOCPSocket::Process_FI_CONNECT_NOTIFY_FIELDSERVER_IP(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CONNECT_NOTIFY_FIELDSERVER_IP Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_CONNECT_NOTIFY_FIELDSERVER_IP *pMsgNotifyIP;
nRecvTypeSize = sizeof(MSG_FI_CONNECT_NOTIFY_FIELDSERVER_IP);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_CONNECT_NOTIFY_FIELDSERVER_IP, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12018);
return RES_RETURN_FALSE;
}
pMsgNotifyIP = (MSG_FI_CONNECT_NOTIFY_FIELDSERVER_IP*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMIOCPSocket *pCharacterSocket
= ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgNotifyIP->CharacterUniqueNumber);
if (pCharacterSocket == NULL)
{
DBGOUT("[Error]ERR_COMMON_NO_SUCH_CHARACTER: %d\n", pMsgNotifyIP->CharacterUniqueNumber);
SendErrorMessage(T_FI_CONNECT_NOTIFY_FIELDSERVER_IP, ERR_COMMON_NO_SUCH_CHARACTER, pMsgNotifyIP->CharacterUniqueNumber);
return RES_BREAK;
}
if(NULL == ms_pIMIOCP->m_pFieldServerSocket
|| FALSE == ms_pIMIOCP->m_pFieldServerSocket->IsUsing()
|| ms_pIMIOCP->m_FieldServerInfo.serverID != pMsgNotifyIP->FieldServerID)
{
DBGOUT("[Error]ERR_PROTOCOL_NO_SUCH_FIELD_SERVER: %s\n", pMsgNotifyIP->FieldServerID.GetString().GetBuffer());
SendErrorMessage(T_FI_CONNECT_NOTIFY_FIELDSERVER_IP, ERR_PROTOCOL_NO_SUCH_FIELD_SERVER, pMsgNotifyIP->FieldServerID.port, 0, pMsgNotifyIP->FieldServerID.IP);
return RES_BREAK;
}
if ( pCharacterSocket->m_pCurrentFieldServerSocket != this)
{
pCharacterSocket->SetCurrentFieldServerSocket(this);
}
DBGOUT("%s's FieldServer IP Notified: %s\n", pCharacterSocket->m_character.AccountName, pMsgNotifyIP->FieldServerID.GetString().GetBuffer());
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_CREATE(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize;
MSG_IC_PARTY_CREATE *pMsgPartyCreate;
nRecvTypeSize = sizeof(MSG_IC_PARTY_CREATE);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_IC_PARTY_CREATE, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_RETURN_FALSE;
}
pMsgPartyCreate = (MSG_IC_PARTY_CREATE*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
if (this->GetIMParty() != nullptr
#ifdef FREEWAR_ // 2015-11-04 DevX does not let client in free war map create a party
|| isFreeForAllMap(this->m_character.MapChannelIndex.MapIndex)
#endif
)
{
// error
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0008);
SendErrorMessage(T_IC_PARTY_CREATE, ERR_PROTOCOL_PARTY_MEMBER_ALREADY_EXISTS);
return RES_BREAK;
}
//////////////////////////////////////////////////////////////////////////
// 2008-06-02 by dhjin, EP3 편대 수정 - 편대 정보
if(pMsgPartyCreate->PartyInfo.PartyInfluence != this->m_character.InfluenceType)
{// 2008-06-02 by dhjin, 세력이 오류
SendErrorMessage(T_IC_PARTY_CREATE, ERR_PROTOCOL_REQ_INFLUENCE_NOT_MATCHED, pMsgPartyCreate->PartyInfo.PartyInfluence, this->m_character.InfluenceType); // 2008-12-04 by cmkwon, 정보 추가
return RES_BREAK;
}
// 2008-06-02 by dhjin, EP3 편대 수정 - 편대 정보
// 2009-12-29 by cmkwon, 캐릭터 최대 레벨 상향(110으로) - 아래와 같이 수정
//if(pMsgPartyCreate->PartyInfo.MinLevel > pMsgPartyCreate->PartyInfo.MaxLevel
// || pMsgPartyCreate->PartyInfo.MinLevel <= 0
// || pMsgPartyCreate->PartyInfo.MaxLevel > 100
// )
///////////////////////////////////////////////////////////////////////////////
// 2009-12-29 by cmkwon, 캐릭터 최대 레벨 상향(110으로) -
if(pMsgPartyCreate->PartyInfo.MinLevel > pMsgPartyCreate->PartyInfo.MaxLevel
|| FALSE == util::in_range(1, pMsgPartyCreate->PartyInfo.MinLevel, CHARACTER_MAX_LEVEL)
|| FALSE == util::in_range(1, pMsgPartyCreate->PartyInfo.MaxLevel, CHARACTER_MAX_LEVEL)
)
{
SendErrorMessage(T_IC_PARTY_CREATE, ERR_PROTOCOL_REQ_LEVEL_NOT_MATCHED, pMsgPartyCreate->PartyInfo.MinLevel, pMsgPartyCreate->PartyInfo.MaxLevel);
return RES_BREAK;
}
CIMParty *ptmParty = new CIMParty(ms_pIMIOCP, m_character.CharacterUniqueNumber, timeGetTime(), ms_pIMIOCP->m_UID32GenPartyID.GetNext(), &(pMsgPartyCreate->PartyInfo) ); // 2008-06-02 by dhjin, EP3 편대 수정 - 편대 정보
IMPartyMember tmMember(m_character.CharacterName, m_character.CharacterUniqueNumber, this, ptmParty);
ptmParty->PushBackMember(tmMember);
this->SetIMParty(ptmParty);
// 2008-02-28 by dhjin, 아레나 통합 - LastPartyID에 값을 저장한다.
this->m_character.LastPartyID = ptmParty->m_PartyID;
// Make msg
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_CREATE_OK, T_FI_PARTY_CREATE_OK, pMsgPartyCreateOK, pMsgPartyCreateOKBuf);
pMsgPartyCreateOK->CharacterUniqueNumber = pMsgPartyCreate->CharacterUniqueNumber;
pMsgPartyCreateOK->PartyID = ptmParty->m_PartyID;
pMsgPartyCreateOK->FieldPartyInfo.nTotalPartyMember = 1; // 초기엔 1명
pMsgPartyCreateOK->FieldPartyInfo.lowestMemberLevel = m_character.Level; // 초기엔 자신의 level
pMsgPartyCreateOK->ExpDistributeType = pMsgPartyCreate->PartyInfo.ExpDistributeType; // 2008-06-03 by dhjin, EP3 편대 수정
pMsgPartyCreateOK->ItemDistributeType = pMsgPartyCreate->PartyInfo.ItemDistributeType; // 2008-06-03 by dhjin, EP3 편대 수정
// 파티들의 list에 추가
ms_pIMIOCP->InsertParty(ptmParty);
if (FALSE == this->SendMsgToCurrentFieldServerSocket(pMsgPartyCreateOKBuf, MSG_SIZE(MSG_FI_PARTY_CREATE_OK)))
{
// 에러이므로 파티들의 list에서 삭제
ms_pIMIOCP->DeleteParty(ptmParty->m_PartyID);
// current field server socket이 NULL이면, 접속을 끊는다.
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL, %s at %s\r\n",
GetCharacterString(&m_character, string()), GetProtocolTypeString(T_IC_PARTY_CREATE));
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
return RES_RETURN_FALSE;
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_GET_MEMBER(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize;
MSG_IC_PARTY_GET_MEMBER *pGetMember;
nRecvTypeSize = sizeof(MSG_IC_PARTY_GET_MEMBER);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_IC_PARTY_GET_MEMBER, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_RETURN_FALSE;
}
pGetMember = (MSG_IC_PARTY_GET_MEMBER*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMParty *ptmParty = this->GetIMParty();
if (NULL == ptmParty)
{
SendErrorMessage(T_IC_PARTY_GET_MEMBER, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
// init msg
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_PUT_MEMBER, T_IC_PARTY_PUT_MEMBER, pPutMember, pPutMemberBuf);
{
IMPartyMember *pMember = ptmParty->GetMemberPtrByCharacterUniqueNumber(pGetMember->CharacterUniqueNumber);
if (NULL == pMember)
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_GET_MEMBER, ERR_PROTOCOL_NO_SUCH_PARTY_MEMBER);
return RES_BREAK;
}
if (pMember->IsOnlineMember())
{
if (FALSE == pMember->PM_pIMIOCPSocket->IsUsing()
|| pMember->PM_CharacterUniqueNumber != pMember->PM_pIMIOCPSocket->m_character.CharacterUniqueNumber)
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_GET_MEMBER, ERR_COMMON_NO_SUCH_CHARACTER);
g_pGlobal->WriteSystemLogEX(TRUE, STRMSG_S_I2NOTIFY_0009);
return RES_BREAK;
}
pPutMember->IMPartyMemberInfo = pMember->PM_pIMIOCPSocket->m_character;
pPutMember->IMPartyMemberInfo.VoipType = pMember->PM_pIMIOCPSocket->m_VoipType; // 2008-07-16 by dhjin, EP3 - Voip 정보
}
else
{
pPutMember->IMPartyMemberInfo = *pMember;
pPutMember->IMPartyMemberInfo.VoipType = CHECK_TYPE_VOIP_NONE; // 2008-07-16 by dhjin, EP3 - Voip 정보
}
}
ptmParty->UnlockIMParty();
// 데이터 전송
SendAddData(pPutMemberBuf, MSG_SIZE(MSG_IC_PARTY_PUT_MEMBER));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_GET_ALL_MEMBER(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize;
MSG_IC_PARTY_GET_ALL_MEMBER *pGetAllMember;
nRecvTypeSize = sizeof(MSG_IC_PARTY_GET_ALL_MEMBER);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_IC_PARTY_GET_ALL_MEMBER, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_RETURN_FALSE;
}
pGetAllMember = (MSG_IC_PARTY_GET_ALL_MEMBER*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMParty *ptmParty = this->GetIMParty();
if (NULL == ptmParty)
{
SendErrorMessage(T_IC_PARTY_GET_ALL_MEMBER, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
// init msg
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_PUT_ALL_MEMBER, T_IC_PARTY_PUT_ALL_MEMBER, pPutAllMember, pPutAllMemberBuf);
ptmParty->LockIMParty();
{
pPutAllMember->PartyID = ptmParty->m_PartyID;
pPutAllMember->MasterUniqueNumber = ptmParty->GetMasterCharacterUniqueNumber();
// 데이터 할당
ptmParty->MakeMsg_IC_PARTY_PUT_ALL_MEMBER(&pPutAllMember->nNumOfPartyMembers, (IM_PARTY_MEMBER_INFO*)(pPutAllMemberBuf+MSG_SIZE(MSG_IC_PARTY_PUT_ALL_MEMBER)), m_character.CharacterUniqueNumber);
// 2004-10-29 by cmkwon, 위의 함수에서 처리
// 데이터 할당
// pPutAllMember->nNumOfPartyMembers = m_pIMParty->GetMemberCount(FALSE) - 1; // 자기 자신은 제외함
// IM_PARTY_MEMBER_INFO *ArrIMPartyInfo = (IM_PARTY_MEMBER_INFO*)(pPutAllMemberBuf+MSG_SIZE(MSG_IC_PARTY_PUT_ALL_MEMBER));
// list<IMPartyMember>::iterator itr = m_pIMParty->m_ListPartyMember.begin();
// int count = 0;
// while(m_pIMParty->m_ListPartyMember.end() != itr)
// {
// IMPartyMember &tmpPartyMember = *itr;
//
// // 자신의 정보는 보내지 않음
// if (tmpPartyMember.PM_CharacterUniqueNumber != m_character.CharacterUniqueNumber)
// {
// if (tmpPartyMember.IsOnlineMember())
// {
// CIMIOCPSocket *pSocket = tmpPartyMember.PM_pIMIOCPSocket;
// if (NULL == pSocket
// || FALSE == pSocket->IsUsing()
// || tmpPartyMember.PM_CharacterUniqueNumber != pSocket->m_character.CharacterUniqueNumber)
// {
// m_pIMParty->UnlockIMParty(); // unlock
//
// SendErrorMessage(T_IC_PARTY_GET_ALL_MEMBER, ERR_COMMON_NO_SUCH_CHARACTER);
// g_pGlobal->WriteSystemLogEX(TRUE, " Fatal Error: 심각한 파티 에러! at T_IC_PARTY_GET_MEMBER");
// return RES_BREAK;
// }
//
// ArrIMPartyInfo[count] = pSocket->m_character;
// }
// else
// {
// ArrIMPartyInfo[count] = tmpPartyMember;
// }
//
// count++;
// }
//
// itr++;
// }
}// LockIMParty_end
ptmParty->UnlockIMParty(); // unlock
// 데이터 전송
SendAddData(pPutAllMemberBuf,
MSG_SIZE(MSG_IC_PARTY_PUT_ALL_MEMBER) +
pPutAllMember->nNumOfPartyMembers*sizeof(IM_PARTY_MEMBER_INFO));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_PARTY_ACCEPT_INVITE_OK(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_PARTY_ACCEPT_INVITE_OK Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_PARTY_ACCEPT_INVITE_OK *pMsgAcceptOK;
nRecvTypeSize = sizeof(MSG_FI_PARTY_ACCEPT_INVITE_OK);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_PARTY_ACCEPT_INVITE_OK, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_PACKET_ERROR;
}
pMsgAcceptOK = (MSG_FI_PARTY_ACCEPT_INVITE_OK*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMIOCPSocket *pInviteeSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgAcceptOK->CharacterUniqueNumber);
if(NULL == pInviteeSocket || FALSE == pInviteeSocket->IsUsing())
{
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// 2009-12-03 by cmkwon, 편대 2중 초대 버그 수정(E014153) -
if(pInviteeSocket->GetIMParty())
{
SendErrorMessage(T_FI_PARTY_ACCEPT_INVITE_OK, ERR_PROTOCOL_PARTY_MEMBER_ALREADY_EXISTS);
return RES_BREAK;
}
if(this->IsCharacterNameFromRejectList(pInviteeSocket->m_character.CharacterName)
|| pInviteeSocket->IsCharacterNameFromRejectList(this->m_character.CharacterName))
{// 2008-07-03 by dhjin, EP3 거부목록 -
SendErrorMessage(T_FI_PARTY_ACCEPT_INVITE_OK, ERR_FRIEND_REGISTERED_PEER_REJECTLIST);
return RES_BREAK;
}
CIMParty *ptmParty = ms_pIMIOCP->FindParty(pMsgAcceptOK->PartyID);
if (ptmParty == NULL)
{
SendErrorMessage(T_FI_PARTY_ACCEPT_INVITE_OK, ERR_PROTOCOL_NO_SUCH_PARTY, pMsgAcceptOK->PartyID, pMsgAcceptOK->CharacterUniqueNumber);
return RES_BREAK;
}
ptmParty->LockIMParty();
if ( ptmParty->GetMemberCount(FALSE) >= SIZE_MAX_PARTY_MEMBER )
{ // 여기서 한번더 제한 인원 체크 하도록 수정.
SendErrorMessage(T_FI_PARTY_ACCEPT_INVITE_OK , ERR_PROTOCOL_ALREADY_MAX_PARTY_MEMBER , pMsgAcceptOK->PartyID , pMsgAcceptOK->CharacterUniqueNumber );
pInviteeSocket->SendErrorMessage ( T_FI_PARTY_ACCEPT_INVITE_OK , ERR_PROTOCOL_ALREADY_MAX_PARTY_MEMBER );
ptmParty->UnlockIMParty();
return RES_BREAK;
}
else
{
// party 할당
pInviteeSocket->SetIMParty(ptmParty);
// party원 삽입
IMPartyMember tmMember(pInviteeSocket->m_character.CharacterName, pInviteeSocket->m_character.CharacterUniqueNumber, pInviteeSocket, ptmParty);
ptmParty->PushBackMember(tmMember);
// 2008-02-28 by dhjin, 아레나 통합 - LastPartyID에 값을 저장한다.
pInviteeSocket->m_character.LastPartyID = pMsgAcceptOK->PartyID;
// send to SERVER
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_ACCEPT_INVITE_OK, T_FI_PARTY_ACCEPT_INVITE_OK, pInviteOKFI, pInviteOKFIBuf);
pInviteOKFI->PartyID = pMsgAcceptOK->PartyID;
pInviteOKFI->CharacterUniqueNumber = pMsgAcceptOK->CharacterUniqueNumber;
pInviteOKFI->FieldPartyInfo.nTotalPartyMember = ptmParty->GetMemberCount(FALSE); // 주의: m_ListPartyMember에 삽입 이후여야 함!
pInviteOKFI->FieldPartyInfo.lowestMemberLevel = ptmParty->GetLowestMemberLevel(); // 주의: m_ListPartyMember에 삽입 이후여야 함!
pInviteeSocket->SendMsgToCurrentFieldServerSocket(pInviteOKFIBuf, MSG_SIZE(MSG_FI_PARTY_ACCEPT_INVITE_OK));
// client들에게 전송하기
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_ACCEPT_INVITE_OK, T_IC_PARTY_ACCEPT_INVITE_OK, pInviteOKIC, pInviteOKICBuf);
pInviteOKIC->PartyID = pMsgAcceptOK->PartyID;
pInviteOKIC->IMPartyMemberInfo = pInviteeSocket->m_character;
ptmParty->SendMsgToMembers(pInviteOKICBuf, MSG_SIZE(MSG_IC_PARTY_ACCEPT_INVITE_OK));
// 2008-06-10 by dhjin, EP3 편대 수정 - 편대 정보 전송
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_INFO, T_IC_PARTY_INFO, pSendMsg, pSendBuf);
pSendMsg->PartyInfo = ptmParty->m_SPartyInfo;
pInviteeSocket->SendAddData(pSendBuf, MSG_SIZE(MSG_IC_PARTY_INFO));
}
ptmParty->UnlockIMParty();
//#ifdef _DEBUG
// char *pdm = NULL;
// pInviteeSocket->PRINT_DEBUG_MESSAGE(pdm);
//#endif
return RES_RETURN_TRUE;
}
//////////////////////////////////////////////////////////////////////
// 2012-04-12 by jhseol, 아레나 추가개발 - 자동파티 : 같은 팀인지 체크할 팀번호 설정
ProcessResult CIMIOCPSocket::Process_FI_PARTY_ARENA_TEAM_NUM(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_PARTY_ARENA_TEAM_NUM Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_PARTY_ARENA_TEAM_NUM *pMsgArenaTeamInfo;
nRecvTypeSize = sizeof(MSG_FI_PARTY_ARENA_TEAM_NUM);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_PARTY_ARENA_TEAM_NUM, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_BREAK;
}
pMsgArenaTeamInfo = (MSG_FI_PARTY_ARENA_TEAM_NUM*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMIOCPSocket *pInviteeSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgArenaTeamInfo->CharacterUniqueNumber);
// 2012-09-24 by jhseol, 소스정리 - 소켓 유효성 검사
if( NULL == pInviteeSocket )
{
SendErrorMessage(T_FI_PARTY_ARENA_TEAM_NUM, ERR_PROTOCOL_INVALID_CLIENTINDEX);
return RES_BREAK;
}
// end 2012-09-24 by jhseol, 소스정리 - 소켓 유효성 검사
pInviteeSocket->m_nTeamNum = pMsgArenaTeamInfo->TeamNum;
return RES_RETURN_TRUE;
}
// end 2012-04-12 by jhseol, 아레나 추가개발 - 자동파티 : 같은 팀인지 체크할 팀번호 설정
ProcessResult CIMIOCPSocket::Process_FI_PARTY_UPDATE_ITEM_POS(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_PARTY_UPDATE_ITEM_POS Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_PARTY_UPDATE_ITEM_POS *pFIUpdateItemPos;
nRecvTypeSize = sizeof(MSG_FI_PARTY_UPDATE_ITEM_POS);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
SendErrorMessage(T_FI_PARTY_UPDATE_ITEM_POS, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_PACKET_ERROR;
}
pFIUpdateItemPos = (MSG_FI_PARTY_UPDATE_ITEM_POS*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
// 사용자 확인
CIMIOCPSocket *pCharacterSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pFIUpdateItemPos->CharacterUniqueNumber);
if (pCharacterSocket == NULL || FALSE == pCharacterSocket->IsUsing())
{
SendErrorMessage(T_FI_PARTY_UPDATE_ITEM_POS, ERR_COMMON_NO_SUCH_CHARACTER, pFIUpdateItemPos->CharacterUniqueNumber);
return RES_BREAK;
}
// 파티 확인
CIMParty *pParty = pCharacterSocket->GetIMParty();
if (pParty == NULL)
{
SendErrorMessage(T_FI_PARTY_UPDATE_ITEM_POS, ERR_PROTOCOL_NO_SUCH_PARTY, pFIUpdateItemPos->CharacterUniqueNumber);
return RES_BREAK;
}
pParty->LockIMParty();
{
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_UPDATE_ITEM_POS, T_IC_PARTY_UPDATE_ITEM_POS, pICUpdateItemPos, pICUpdateItemPosBuf);
pICUpdateItemPos->CharacterUniqueNumber = pFIUpdateItemPos->CharacterUniqueNumber;
pICUpdateItemPos->ItemPosition = pFIUpdateItemPos->ItemPosition;
pICUpdateItemPos->ItemNum = pFIUpdateItemPos->ItemNum;
// 2009-08-26 by cmkwon, 그래픽 리소스 변경 시스템 구현 -
//pICUpdateItemPos->ColorCode = pFIUpdateItemPos->ColorCode; // 2005-12-08 by cmkwon, 아머 색상 튜닝 정보
pICUpdateItemPos->nShapeItemNum = pFIUpdateItemPos->nShapeItemNum; // 2009-08-26 by cmkwon, 그래픽 리소스 변경 시스템 구현 -
pICUpdateItemPos->nEffectItemNum = pFIUpdateItemPos->nEffectItemNum; // 2009-08-26 by cmkwon, 그래픽 리소스 변경 시스템 구현 -
pParty->SendMsgToMembers(pICUpdateItemPosBuf, MSG_SIZE(MSG_IC_PARTY_UPDATE_ITEM_POS));
}
pParty->UnlockIMParty();
return RES_RETURN_TRUE;
}
///*
//ProcessResult CIMIOCPSocket::Process_FI_PARTY_GET_PARTY_INFO(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_FI_PARTY_GET_PARTY_INFO *pMsgGetPartyInfo = NULL;
//
// nRecvTypeSize = sizeof(MSG_FI_PARTY_GET_PARTY_INFO);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_FI_PARTY_GET_PARTY_INFO, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pMsgGetPartyInfo = (MSG_FI_PARTY_GET_PARTY_INFO*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// CIMIOCPSocket *pSock = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgGetPartyInfo->CharacterUniqueNumber);
// if (pSock == NULL)
// {
// SendErrorMessage(T_FI_PARTY_GET_PARTY_INFO, ERR_COMMON_NO_SUCH_CHARACTER, pMsgGetPartyInfo->CharacterUniqueNumber);
// return RES_BREAK;
// }
//
// // 에러가 나면 바로 보내기 위해 미리 만들어둠
// INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_GET_PARTY_INFO_OK, T_FI_PARTY_GET_PARTY_INFO_OK, pGetOK, pGetOKBuf);
// pGetOK->AccountUniqueNumber = pSock->m_character.AccountUniqueNumber;
// pGetOK->CharacterUniqueNumber = pSock->m_character.CharacterUniqueNumber;
// pGetOK->MasterCharacterUniqueNumber = INVALID_UNIQUE_NUMBER;
// pGetOK->NumOfPartyMembers = 0;
//
// if (pSock->m_pIMParty == NULL)
// {
// // 소속 파티가 없으므로 그냥 보냄
// SendAddData(pGetOKBuf, MSG_SIZE(MSG_FI_PARTY_GET_PARTY_INFO_OK));
// return RES_BREAK;
// }
//
// // 파티가 있으므로 채워서 보냄
// pGetOK->MasterCharacterUniqueNumber = pSock->m_pIMParty->GetMasterCharacterUniqueNumber();
// pGetOK->NumOfPartyMembers = pSock->m_pIMParty->GetMemberCount(FALSE);
//
// int offset = MSG_SIZE(MSG_FI_PARTY_GET_PARTY_INFO_OK);
// pSock->m_pIMParty->m_ListPartyMember.lock();
// mt_list<IMPartyMember>::iterator itr = pSock->m_pIMParty->m_ListPartyMember.begin();
// while(itr != pSock->m_pIMParty->m_ListPartyMember.end())
// {
// PARTY_MEMBER_INFO *pPartyMember = (PARTY_MEMBER_INFO*)(pGetOKBuf + offset);
// pPartyMember->CharacterUniqueNumber = itr->CharacterUniqueNumber;
// strncpy(pPartyMember->CurrentMapName, ms_pIMIOCP->GetCharacterByArrayIndex(itr->ClientIndex)->MapName, SIZE_MAX_MAP_NAME);
//
// offset += sizeof(PARTY_MEMBER_INFO);
// itr++;
// }
// pSock->m_pIMParty->m_ListPartyMember.unlock();
//#ifdef _DEBUG
// assert(offset
// == (MSG_SIZE(MSG_FI_PARTY_GET_PARTY_INFO_OK) + sizeof(PARTY_MEMBER_INFO)*pSock->m_pIMParty->GetMemberCount(FALSE))
// );
//#endif
// SendAddData(pGetOKBuf, offset);
//
// return RES_RETURN_TRUE;
//}
//*/
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_FI_PARTY_AUTO_CREATE(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief 인피니티 - 자동 편대
/// \author dhjin
/// \date 2009-09-09 ~ 2010
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_FI_PARTY_AUTO_CREATE(const char* pPacket, int nLength, int &nBytesUsed) {
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_PARTY_AUTO_CREATE Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize;
MSG_FI_PARTY_AUTO_CREATE * pRecvAutoCreateOK = NULL;
nRecvTypeSize = sizeof(MSG_FI_PARTY_AUTO_CREATE);
if(nLength - nBytesUsed < nRecvTypeSize) {
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_FI_PARTY_AUTO_CREATE, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_BREAK;
}
pRecvAutoCreateOK = (MSG_FI_PARTY_AUTO_CREATE*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
nRecvTypeSize = pRecvAutoCreateOK->PartyMemberListCount*sizeof(UID32_t);
if(nLength-nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_FI_PARTY_AUTO_CREATE, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_BREAK;
}
UID32_t *pPartyMemberUID = (UID32_t*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMIOCPSocket * pMasterIMSoc = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pRecvAutoCreateOK->MasterUID);
if (NULL == pMasterIMSoc) {
SendErrorMessage(T_FI_PARTY_AUTO_CREATE, ERR_COMMON_NO_SUCH_CHARACTER, pRecvAutoCreateOK->MasterUID);
return RES_BREAK;
}
SPARTY_INFO PartyInfo;
util::zero(&PartyInfo, sizeof(SPARTY_INFO));
PartyInfo.PartyInfluence = pMasterIMSoc->m_character.InfluenceType;
PartyInfo.MinLevel = 1;
PartyInfo.MaxLevel = CHARACTER_MAX_LEVEL;
// 파티 생성
CIMParty *ptmParty = new CIMParty(ms_pIMIOCP, pMasterIMSoc->m_character.CharacterUniqueNumber, timeGetTime(), ms_pIMIOCP->m_UID32GenPartyID.GetNext(), &PartyInfo); // 2008-06-02 by dhjin, EP3 편대 수정 - 편대 정보
ptmParty->LockIMParty();
IMPartyMember tmMasterMember(pMasterIMSoc->m_character.CharacterName, pMasterIMSoc->m_character.CharacterUniqueNumber, pMasterIMSoc, ptmParty);
ptmParty->PushBackMember(tmMasterMember);
pMasterIMSoc->SetIMParty(ptmParty);
// 파티들의 list에 추가
ms_pIMIOCP->InsertParty(ptmParty);
// 2008-02-28 by dhjin, 아레나 통합 - LastPartyID에 값을 저장한다.
pMasterIMSoc->m_character.LastPartyID = ptmParty->m_PartyID;
// Make msg
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_AUTO_CREATE_OK, T_FI_PARTY_AUTO_CREATE_OK, pMsgPartyCreateOK, pMsgPartyCreateOKBuf);
pMsgPartyCreateOK->FieldPartyInfo.nTotalPartyMember = pRecvAutoCreateOK->PartyMemberListCount + 1;
pMsgPartyCreateOK->FieldPartyInfo.lowestMemberLevel = 1;
pMsgPartyCreateOK->MasterUID = pRecvAutoCreateOK->MasterUID;
pMsgPartyCreateOK->PartyID = ptmParty->m_PartyID;
// 맴버 추가
UID32_t * pRecvPartyMemberUID = (UID32_t*)( ((BYTE*)pRecvAutoCreateOK) + sizeof(MSG_FI_PARTY_AUTO_CREATE));
int PartyMemberListCount = 0;
UID32_t * PartyMemberUID = (UID32_t*)(pMsgPartyCreateOKBuf+MSG_SIZE(MSG_FI_PARTY_AUTO_CREATE_OK));
for(int i=0; i < pRecvAutoCreateOK->PartyMemberListCount; i++) {
CIMIOCPSocket * pMemberIMSoc = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pRecvPartyMemberUID[i]);
if(NULL != pMemberIMSoc) {
// party 할당
pMemberIMSoc->SetIMParty(ptmParty);
// party원 삽입
IMPartyMember tmMember(pMemberIMSoc->m_character.CharacterName, pMemberIMSoc->m_character.CharacterUniqueNumber, pMemberIMSoc, ptmParty);
ptmParty->PushBackMember(tmMember);
// 2008-02-28 by dhjin, 아레나 통합 - LastPartyID에 값을 저장한다.
pMemberIMSoc->m_character.LastPartyID = ptmParty->m_PartyID;
// 메세지 파티원 정보
PartyMemberUID[PartyMemberListCount] = pMemberIMSoc->m_character.CharacterUniqueNumber;
PartyMemberListCount++;
}
}
ptmParty->UnlockIMParty();
pMsgPartyCreateOK->PartyMemberListCount = PartyMemberListCount;
pMasterIMSoc->SendMsgToCurrentFieldServerSocket(pMsgPartyCreateOKBuf, MSG_SIZE(MSG_FI_PARTY_AUTO_CREATE_OK) + PartyMemberListCount * sizeof(UID32_t));
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn
/// \brief // 2010-03-18 by cmkwon, 몬스터변신 구현 -
/// \author cmkwon
/// \date 2010-03-18 ~ 2010-03-18
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_FI_PARTY_UPDATE_ITEM_TRANSFORMER_OK(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_PARTY_UPDATE_ITEM_TRANSFORMER_OK Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_FI_PARTY_UPDATE_ITEM_TRANSFORMER_OK,
MSG_FI_PARTY_UPDATE_ITEM_TRANSFORMER_OK, pMsg);
// 사용자 확인
CIMIOCPSocket *pIISoc = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsg->CharacUID);
if (pIISoc == NULL || FALSE == pIISoc->IsUsing())
{
SendErrorMessage(T_FI_PARTY_UPDATE_ITEM_TRANSFORMER_OK, ERR_COMMON_NO_SUCH_CHARACTER, pMsg->CharacUID);
return RES_BREAK;
}
// 파티 확인
CIMParty *pParty = pIISoc->GetIMParty();
if (pParty == NULL)
{
SendErrorMessage(T_FI_PARTY_UPDATE_ITEM_TRANSFORMER_OK, ERR_PROTOCOL_NO_SUCH_PARTY, pMsg->CharacUID);
return RES_BREAK;
}
pParty->LockIMParty();
{
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_UPDATE_ITEM_TRANSFORMER_OK, T_IC_PARTY_UPDATE_ITEM_TRANSFORMER_OK, pSMsg, SendBuf);
*pSMsg = *pMsg;
pParty->SendMsgToMembers(SendBuf, MSG_SIZE(MSG_IC_PARTY_UPDATE_ITEM_TRANSFORMER_OK), pMsg->CharacUID);
}
pParty->UnlockIMParty();
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_CHARACTER_DELETE_CHARACTER(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CHARACTER_DELETE_CHARACTER Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_CHARACTER_DELETE_CHARACTER,
MSG_FI_CHARACTER_DELETE_CHARACTER, msgDelCharacter);
///////////////////////////////////////////////////////////////////////////////
// 삭제된 캐릭터 처리
///////////////////////////////////////////////////////////////////////////////
// 여단처리
if(IS_VALID_UNIQUE_NUMBER(msgDelCharacter->GuildUniqueNumber))
{
mt_auto_lock aMG(&ms_pIMIOCP->m_MapGuild);
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(msgDelCharacter->GuildUniqueNumber);
if (ptmGuild
&& ptmGuild->m_GuildUniqueNumber == msgDelCharacter->GuildUniqueNumber)
{
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildLeaveMember, this, NULL, NULL,
msgDelCharacter->CharacterUniqueNumber, msgDelCharacter->GuildUniqueNumber);
}
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_CHARACTER_CHANGE_LEVEL(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CHARACTER_CHANGE_LEVEL Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_CHARACTER_CHANGE_LEVEL,
MSG_FI_CHARACTER_CHANGE_LEVEL, msgChangeLevel);
CIMIOCPSocket *pSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(msgChangeLevel->CharacterUniqueNumber);
if (pSocket == NULL)
{
return RES_BREAK;
}
pSocket->m_character.Level = msgChangeLevel->Level;
// 2008-05-20 by dhjin, EP3 - 여단 수정 사항
if(IS_VALID_UNIQUE_NUMBER(pSocket->m_character.GuildUniqueNumber))
{
mt_auto_lock aMG(&ms_pIMIOCP->m_MapGuild);
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(pSocket->m_character.GuildUniqueNumber);
if (ptmGuild)
{
ptmGuild->SetMemberLevel(pSocket->m_character.CharacterUniqueNumber, msgChangeLevel->Level);
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_MEMBER_LEVEL_UP, T_IC_GUILD_MEMBER_LEVEL_UP, pSMsg, pSendBuf);
pSMsg->CharacterUID = pSocket->m_character.CharacterUniqueNumber;
pSMsg->Level = msgChangeLevel->Level;
ptmGuild->SendMsgToGuildMembers(pSendBuf, MSG_SIZE(MSG_IC_GUILD_MEMBER_LEVEL_UP));
}
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_CHARACTER_UPDATE_MAP_CHANNEL(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CHARACTER_UPDATE_MAP_CHANNEL Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_CHARACTER_UPDATE_MAP_CHANNEL,
MSG_FI_CHARACTER_UPDATE_MAP_CHANNEL, msgUpdateMap);
CIMIOCPSocket *pSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(msgUpdateMap->CharacterUniqueNumber);
if (pSocket == NULL || FALSE == pSocket->IsValidCharacter())
{
return RES_BREAK;
}
CIMParty *ptmParty = pSocket->GetIMParty();
// 파티원이 있다면 워프 정보 전송
if (ptmParty)
{
// 2015-11-03 DevX will remove clients from party if moved to a free war map
#ifdef FREEWAR_
if (isFreeForAllMap(msgUpdateMap->MapChannel.MapIndex))
{
auto clientsocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(msgUpdateMap->CharacterUniqueNumber);
auto clientparty = clientsocket != nullptr ? clientsocket->GetIMParty() : nullptr;
if (clientparty != nullptr)
{
clientparty->LockIMParty();
BOOL r = clientsocket->ProcessPartyLeaveNoLock(clientparty);
clientparty->UnlockIMParty();
if (r == FALSE) clientsocket->ProcessPartyDismember(clientparty->m_PartyID);
clientsocket->SetIMParty(nullptr);
return RES_RETURN_TRUE;
}
}
#endif
ptmParty->LockIMParty();
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_UPDATE_MEMBER_INFO_MAPNAME, T_IC_PARTY_UPDATE_MEMBER_INFO_MAPNAME, pUpdatePartyMap, pUpdatePartyMapBuf);
pUpdatePartyMap->CharacterUniqueNumber = msgUpdateMap->CharacterUniqueNumber;
pUpdatePartyMap->MapChannelIndex = msgUpdateMap->MapChannel;
ptmParty->SendMsgToMembers(pUpdatePartyMapBuf, MSG_SIZE(MSG_IC_PARTY_UPDATE_MEMBER_INFO_MAPNAME), msgUpdateMap->CharacterUniqueNumber);
ptmParty->UnlockIMParty();
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_FI_CHARACTER_CHANGE_INFLUENCE_TYPE(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief
/// \author cmkwon
/// \date 2005-12-03 ~ 2005-12-03
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_FI_CHARACTER_CHANGE_INFLUENCE_TYPE(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CHARACTER_CHANGE_INFLUENCE_TYPE Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_CHARACTER_CHANGE_INFLUENCE_TYPE,
MSG_FI_CHARACTER_CHANGE_INFLUENCE_TYPE, pRMsg);
CIMIOCPSocket *pSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pRMsg->CharacterUID);
if (pSocket == NULL
|| FALSE == pSocket->IsUsing())
{
return RES_BREAK;
}
pSocket->ChangedCharacterInfluenceType(pRMsg->InfluenceType0);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_FI_UPDATE_SUBLEADER(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief
/// \author dhjin
/// \date 2007-02-14 ~ 2007-02-14
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_FI_UPDATE_SUBLEADER(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_UPDATE_SUBLEADER Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_UPDATE_SUBLEADER,
MSG_FI_UPDATE_SUBLEADER, pRMsg);
if(COMPARE_INFLUENCE(pRMsg->InfluenceType, INFLUENCE_TYPE_VCN))
{
if(1 == pRMsg->SubLeaderNum)
{
ms_pIMIOCP->m_VCNSub1LeaderCharacterUID = pRMsg->CharacterUID;
}
else if(2 == pRMsg->SubLeaderNum)
{
ms_pIMIOCP->m_VCNSub2LeaderCharacterUID = pRMsg->CharacterUID;
}
else
{
return RES_BREAK;
}
}
else if(COMPARE_INFLUENCE(pRMsg->InfluenceType, INFLUENCE_TYPE_ANI))
{
if(1 == pRMsg->SubLeaderNum)
{
ms_pIMIOCP->m_ANISub1LeaderCharacterUID = pRMsg->CharacterUID;
}
else if(2 == pRMsg->SubLeaderNum)
{
ms_pIMIOCP->m_ANISub2LeaderCharacterUID = pRMsg->CharacterUID;
}
else
{
return RES_BREAK;
}
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_GUILD_NOTIFY_START_WAR(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_GUILD_NOTIFY_START_WAR Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_GUILD_NOTIFY_START_WAR,
MSG_FI_GUILD_NOTIFY_START_WAR, msgStartGuildWar);
int nGuildWarTimerUniqueNumber = 0;
ms_pIMIOCP->m_MapGuild.lock();
{
///////////////////////////////////////////////////////////////////////////////
// 할당하고 1을 증가 시킨다
nGuildWarTimerUniqueNumber = CGuild::ms_dwGuildWarUniqueNumber++;
CGuild *pDefenderGuild = ms_pIMIOCP->m_MapGuild.findLock(msgStartGuildWar->DefenderGuildUID);
if (pDefenderGuild == NULL)
{
ms_pIMIOCP->m_MapGuild.unlock();
return RES_BREAK;
}
pDefenderGuild->StartWar(msgStartGuildWar->ChallengerGuildUID, msgStartGuildWar->WarMapChannel, nGuildWarTimerUniqueNumber);
CGuild *pChallengerGuild = ms_pIMIOCP->m_MapGuild.findLock(msgStartGuildWar->ChallengerGuildUID);
if (pChallengerGuild == NULL)
{
ms_pIMIOCP->m_MapGuild.unlock();
return RES_BREAK;
}
pChallengerGuild->StartWar(msgStartGuildWar->DefenderGuildUID, msgStartGuildWar->WarMapChannel, nGuildWarTimerUniqueNumber);
INIT_MSG_WITH_BUFFER(MSG_IC_COUNTDOWN_START, T_IC_COUNTDOWN_START, pSMsg, pSendBuf);
pSMsg->byCountdownType = COUNTDOWN_TYPE_GUILD_WAR;
pSMsg->nWaitingSecond = SECOND_COUNTDOWN_TIME_GAP;
// to defender guild
pDefenderGuild->SendMsgToGuildMembers(pSendBuf, MSG_SIZE(MSG_IC_COUNTDOWN_START), INVALID_UNIQUE_NUMBER, pSMsg);
// to challenger guild
pChallengerGuild->SendMsgToGuildMembers(pSendBuf, MSG_SIZE(MSG_IC_COUNTDOWN_START), INVALID_UNIQUE_NUMBER, pSMsg);
}
ms_pIMIOCP->m_MapGuild.unlock();
///////////////////////////////////////////////////////////////////////////////
// 여단전 타이머 설정(20분)
// 2006-09-01 by cmkwon, 진행시간 수정함(20분 --> 60분)
ms_pIMIOCP->m_pIMTickManager->InsertTickEvent(IM_TICK_EVENT_START_GUILD_WAR, 60*60
, msgStartGuildWar->DefenderGuildUID, nGuildWarTimerUniqueNumber);
// 2004-10-20 by cmkwon
// INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_WAR_READY, T_IC_GUILD_WAR_READY, pMsgReady, pMsgReadyBuf);
//
// // to defender guild
// pMsgReady->PeerGuildUID = msgStartGuildWar->ChallengerGuildUID;
// pMsgReady->WaitingTime = 5;
// pDefenderGuild->SendMsgToGuildMembers(pMsgReadyBuf, MSG_SIZE(MSG_IC_GUILD_WAR_READY));
//
// // to challenger guild
// pMsgReady->PeerGuildUID = msgStartGuildWar->DefenderGuildUID;
// pMsgReady->WaitingTime = 5;
// pChallengerGuild->SendMsgToGuildMembers(pMsgReadyBuf, MSG_SIZE(MSG_IC_GUILD_WAR_READY));
//
// ms_pIMIOCP->m_pIMTickManager->InsertTickEvent(IM_TICK_EVENT_START_GUILD_WAR, 5, msgStartGuildWar->DefenderGuildUID, msgStartGuildWar->ChallengerGuildUID);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_GUILD_DELETE_GUILD(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_GUILD_DELETE_GUILD Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_GUILD_DELETE_GUILD,
MSG_FI_GUILD_DELETE_GUILD, msgDeleteGuild);
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildDeleteGuild, NULL, NULL, NULL, msgDeleteGuild->DeleteGuildUID);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_FI_GUILD_ADD_GUILD_FAME(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief
/// \author cmkwon
/// \date 2005-12-27 ~ 2005-12-27
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_FI_GUILD_ADD_GUILD_FAME(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_GUILD_ADD_GUILD_FAME Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_GUILD_ADD_GUILD_FAME,
MSG_FI_GUILD_ADD_GUILD_FAME, pRMsg);
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(pRMsg->guildUID);
if (NULL == pGuild)
{// 여단 정보가 없다
return RES_BREAK;
}
pGuild->AddGuildFame(pRMsg->addValues);
// DB에 Update
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildAddGuildFame, this, NULL
, (void*)pGuild->m_GuildUniqueNumber, pRMsg->addValues, pRMsg->addValues);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_FI_GUILD_OUTPOST(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 전진기지 관련
/// \author dhjin
/// \date 2008-05-21 ~ 2008-05-21
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_FI_GUILD_OUTPOST(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_GUILD_OUTPOST Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_GUILD_OUTPOST,
MSG_FI_GUILD_OUTPOST, pRMsg);
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(pRMsg->GuildUID);
if (NULL == pGuild)
{// 여단 정보가 없다
return RES_BREAK;
}
pGuild->m_OutPostCityMapIndex = pRMsg->MapIndex;
return RES_RETURN_TRUE;
}
// 2004-12-09 by cmkwon, 여단전의 종료는 IMServer에서만 발생한다. 그러므로 알림은 IMServer -> Field로 발생한다
//ProcessResult CIMIOCPSocket::Process_FI_GUILD_NOTIFY_END_WAR(const char* pPacket, int nLength, int &nBytesUsed)
//{
// DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_GUILD_NOTIFY_END_WAR,
// MSG_FI_GUILD_NOTIFY_END_WAR, msgEndGuildWar);
//
// char szChatBuf[SIZE_MAX_CHAT_MESSAGE];
//
// ms_pIMIOCP->m_MapGuild.lock();
// {
// INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_END_WAR, T_IC_GUILD_END_WAR, pMsgEndWar, pMsgEndWarBuf);
//
// CGuild *pWinnerGuild = ms_pIMIOCP->m_MapGuild.findLock(msgEndGuildWar->WinnerGuildUID);
// if (pWinnerGuild != NULL)
// {
// pWinnerGuild->m_GuildState = GUILD_STATE_NORMAL;
// }
//
// CGuild *pLoserGuild = ms_pIMIOCP->m_MapGuild.findLock(msgEndGuildWar->LoserGuildUID);
// if (pLoserGuild != NULL)
// {
// pLoserGuild->m_GuildState = GUILD_STATE_NORMAL;
// }
//
// if (pLoserGuild == NULL && pWinnerGuild == NULL)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// // do nothing
// return RES_BREAK;
// }
// else if (pLoserGuild == NULL && pWinnerGuild != NULL)
// {
// sprintf(szChatBuf, "%s 여단이 여단전에서 승리하였습니다!", pWinnerGuild->m_GuildName);
// ms_pIMIOCP->SendChatAll("운영자", szChatBuf);
//
// strncpy(pMsgEndWar->PeerGuildName, "나가버린 ", SIZE_MAX_GUILD_NAME);
// pMsgEndWar->WarEndType = BATTLE_END_WIN;
// pWinnerGuild->SendMsgToGuildMembers(pMsgEndWarBuf, MSG_SIZE(MSG_IC_GUILD_END_WAR));
//
// ms_pIMIOCP->m_MapGuild.unlock();
// return RES_BREAK;
// }
// else if (pLoserGuild != NULL && pWinnerGuild == NULL)
// {
// sprintf(szChatBuf, "%s 여단이 여단전에서 승리하였습니다!", pLoserGuild->m_GuildName);
// ms_pIMIOCP->SendChatAll("운영자", szChatBuf);
//
// strncpy(pMsgEndWar->PeerGuildName, "나가버린 ", SIZE_MAX_GUILD_NAME);
// pMsgEndWar->WarEndType = BATTLE_END_WIN;
// pLoserGuild->SendMsgToGuildMembers(pMsgEndWarBuf, MSG_SIZE(MSG_IC_GUILD_END_WAR));
//
// ms_pIMIOCP->m_MapGuild.unlock();
// return RES_BREAK;
// }
//
// // to winner guild
// strncpy(pMsgEndWar->PeerGuildName, pLoserGuild->m_GuildName, SIZE_MAX_GUILD_NAME);
// if (msgEndGuildWar->WarEndType == BATTLE_END_WIN || msgEndGuildWar->WarEndType == BATTLE_END_DEFEAT)
// {
// pMsgEndWar->WarEndType = BATTLE_END_WIN;
// }
// else
// {
// pMsgEndWar->WarEndType = msgEndGuildWar->WarEndType;
// }
// pWinnerGuild->SendMsgToGuildMembers(pMsgEndWarBuf, MSG_SIZE(MSG_IC_GUILD_END_WAR));
//
// // to loser guild
// strncpy(pMsgEndWar->PeerGuildName, pWinnerGuild->m_GuildName, SIZE_MAX_GUILD_NAME);
// if (msgEndGuildWar->WarEndType == BATTLE_END_WIN || msgEndGuildWar->WarEndType == BATTLE_END_DEFEAT)
// {
// pMsgEndWar->WarEndType = BATTLE_END_DEFEAT;
// }
// else
// {
// pMsgEndWar->WarEndType = msgEndGuildWar->WarEndType;
// }
// pLoserGuild->SendMsgToGuildMembers(pMsgEndWarBuf, MSG_SIZE(MSG_IC_GUILD_END_WAR));
//
// // 여단전 결과 전체 공지
// if (msgEndGuildWar->WarEndType == BATTLE_END_WIN || msgEndGuildWar->WarEndType == BATTLE_END_DEFEAT)
// {
// sprintf(szChatBuf, "%s 여단이 %s 여단과의 여단전에서 승리하였습니다!",
// pWinnerGuild->m_GuildName,
// pLoserGuild->m_GuildName);
// }
// else if (msgEndGuildWar->WarEndType == BATTLE_END_TIE)
// {
// sprintf(szChatBuf, "%s 여단과 %s 여단이 무승부로 여단전을 마쳤습니다!",
// pWinnerGuild->m_GuildName,
// pLoserGuild->m_GuildName);
// }
// else if (msgEndGuildWar->WarEndType == BATTLE_END_END)
// {
// sprintf(szChatBuf, "%s 여단과 %s 여단이 여단전을 마쳤습니다!",
// pWinnerGuild->m_GuildName,
// pLoserGuild->m_GuildName);
// }
// }// lock_end
// ms_pIMIOCP->m_MapGuild.unlock();
//
// ms_pIMIOCP->SendChatAll("운영자", szChatBuf);
//
// return RES_RETURN_TRUE;
//}
ProcessResult CIMIOCPSocket::Process_FI_CASH_USING_GUILD(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CASH_USING_GUILD Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_CASH_USING_GUILD,
MSG_FI_CASH_USING_GUILD, pRUsingGuildCard);
mt_auto_lock mtA(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(pRUsingGuildCard->guildUID);
if (pGuild == NULL)
{
return RES_BREAK;
}
// 2008-08-12 by dhjin, 버그로 수정
pGuild->m_nGuildMemberCapacity += pRUsingGuildCard->nIncreaseMemberCapacity;
pGuild->m_nGuildMemberCapacity = min(CAtumSJ::GetMaxGuildSize(pGuild->m_nGuildMemberCapacity, IsExistPremiumCard()), SIZE_MAX_GUILD_CAPACITY); // 2008-05-28 by dhjin, EP3 여단 수정 사항 - 여단원 증가 캐쉬 아이템
///////////////////////////////////////////////////////////////////////////////
// DB에 Update
// 2008-05-28 by dhjin, EP3 여단 수정 사항 - 여단원 증가 캐쉬 아이템
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildUpdateMemberCapacity, this, NULL, (UID32_t*)pRUsingGuildCard->CashPrice, pGuild->m_GuildUniqueNumber, pGuild->m_nGuildMemberCapacity);
///////////////////////////////////////////////////////////////////////////////
// 길드원에게 모두 전송
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_CHANGE_MEMBER_CAPACITY, T_IC_GUILD_CHANGE_MEMBER_CAPACITY, pSCapacity, SendBuf);
pSCapacity->guildUID = pGuild->m_GuildUniqueNumber;
pSCapacity->nMemberCapacity = pGuild->m_nGuildMemberCapacity;
pSCapacity->IncreaseCapacity = pRUsingGuildCard->nIncreaseMemberCapacity; // 2008-05-28 by dhjin, EP3 여단 수정 사항 - 여단원 증가 캐쉬 아이템
pGuild->SendMsgToGuildMembers(SendBuf, MSG_SIZE(MSG_IC_GUILD_CHANGE_MEMBER_CAPACITY));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_CASH_USING_CHANGE_CHARACTERNAME(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CASH_USING_CHANGE_CHARACTERNAME Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_CASH_USING_CHANGE_CHARACTERNAME,
MSG_FI_CASH_USING_CHANGE_CHARACTERNAME, pRChangeCharName);
CIMIOCPSocket *pIISock = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pRChangeCharName->charUID);
if(NULL == pIISock
|| FALSE == pIISock->IsUsing())
{
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// Guild 에서 수정
if (IS_VALID_UNIQUE_NUMBER(pIISock->m_uidGuildUniqueNumber))
{
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(pIISock->m_uidGuildUniqueNumber);
if(ptmGuild)
{
CGuildMember *ptmGMember;
if(ptmGuild->GetGuildMember(pIISock->m_character.CharacterUniqueNumber, ptmGMember))
{
util::strncpy(ptmGMember->m_CharacterName, pRChangeCharName->szChangedCharacterName, SIZE_MAX_CHARACTER_NAME);
}
}
}
///////////////////////////////////////////////////////////////////////////////
// IMIOCP가 관리하는 데이타 처리
mt_auto_lock mtA(&ms_pIMIOCP->m_mCharacterName);
char tmCharacterName[SIZE_MAX_CHARACTER_NAME];
ms_pIMIOCP->m_mCharacterName.deleteNoLock(GGetLowerCase(tmCharacterName, pIISock->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME));
util::strncpy(pIISock->m_character.CharacterName, pRChangeCharName->szChangedCharacterName, SIZE_MAX_CHARACTER_NAME);
ms_pIMIOCP->m_mCharacterName.insertNoLock(GGetLowerCase(tmCharacterName, pIISock->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME), pIISock);
mtA.auto_unlock_cancel();
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_FI_CASH_PREMIUM_CARD_INFO(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief
/// \author dhjin
/// \date 2006-09-14 ~ 2006-09-14
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_FI_CASH_PREMIUM_CARD_INFO(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_CASH_PREMIUM_CARD_INFO Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE_SERVER(pPacket, nLength, nBytesUsed, T_FI_CASH_PREMIUM_CARD_INFO,
MSG_FI_CASH_PREMIUM_CARD_INFO, pRCashPremiumInfo);
CIMIOCPSocket *pIISock = ms_pIMIOCP->GetIMIOCPSocketByAccountUID(pRCashPremiumInfo->AccountUID);
if(NULL == pIISock
|| FALSE == pIISock->IsUsing())
{
return RES_BREAK;
}
pIISock->m_MembershipInfo.nCardItemNum1 = pRCashPremiumInfo->nCardItemNum1;
//////////////////////////////////////////////////////////////////////////
// 2008-06-20 by dhjin, EP3 여단 수정 사항 - 만료 시간 필요
pIISock->m_MembershipInfo.atumTimeExpireTime1 = pRCashPremiumInfo->atumTimeExpireTime1;
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(pIISock->m_character.GuildUniqueNumber);
if (NULL == pGuild)
{// 여단 정보가 없다
return RES_BREAK;
}
if(pIISock->m_character.CharacterUniqueNumber == pGuild->m_CommanderUniqueNumber)
{
if(FALSE == pRCashPremiumInfo->nCardItemNum1)
{
pGuild->SetGuildMemberShip(FALSE);
}
else
{
pGuild->SetGuildMemberShip(TRUE, &pRCashPremiumInfo->atumTimeExpireTime1);
}
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_CHANGE_MEMBERSHIP, T_IC_GUILD_CHANGE_MEMBERSHIP, msg, SendBuf);
msg->MemberShip = pGuild->m_bMemberShip;
msg->MemberShipExpireTime = pGuild->m_MemberShipExpireTime;
pGuild->SendMsgToGuildMembers(SendBuf, MSG_SIZE(MSG_IC_GUILD_CHANGE_MEMBERSHIP));
}
return RES_RETURN_TRUE;
}
/***********************************************************************************************************
**
** 파티 탈퇴 처리.
**
** Create Info : ??.??.??.
**
** Update Info : 아레아 이동에 대한 예외처리 인자 추가. 'a_bMoveToArena' 2010.09.03. by hsLee.
**
************************************************************************************************************/
BOOL CIMIOCPSocket::ProcessPartyLeaveNoLock( CIMParty *i_pIMParty , const bool a_bMoveToArena /*= false*/ )
{
UID32_t tmOldUID = i_pIMParty->GetMasterCharacterUniqueNumber();
i_pIMParty->LeaveMember(m_character.CharacterUniqueNumber);
if (0 == i_pIMParty->GetMemberCount())
{// 유저가 없거나 Online유저가 없음
// // 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 임시용 로그
// g_pIMGlobal->WriteSystemLogEX(TRUE, " [TEMP] 090804 CIMIOCPSocket::ProcessPartyLeaveNoLock# %s CurIsOn(%d) FormationTy(%d) \r\n"
// , GetCharacterString(GetCharacter(), string()), i_pIMParty->m_SPartyInfo.IsAppliedFormationSkill, i_pIMParty->m_SPartyInfo.FormationType);
///////////////////////////////////////////////////////////////////////////////
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 편대 탈퇴시,
if(i_pIMParty->m_SPartyInfo.IsAppliedFormationSkill)
{
i_pIMParty->m_SPartyInfo.IsAppliedFormationSkill = FALSE;
this->SendFieldServPartyChangeFormationSkill(i_pIMParty->GetMasterCharacterUniqueNumber(), FALSE);
}
// 파티 해산정보를 전송
if(this->IsUsing())
{
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_DISMEMBER_OK, T_IC_PARTY_DISMEMBER_OK, pICDismemberOK, pICDismemberOKBuf);
pICDismemberOK->PartyID = i_pIMParty->m_PartyID;
SendAddData(pICDismemberOKBuf, MSG_SIZE(MSG_IC_PARTY_DISMEMBER_OK));
}
// Field Server에게 보내기
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_DISMEMBER_OK, T_FI_PARTY_DISMEMBER_OK, pFIDismemberOK, pFIDismemberOKBuf);
pFIDismemberOK->PartyID = i_pIMParty->m_PartyID;
ms_pIMIOCP->SendMessageToFieldServer(pFIDismemberOKBuf, MSG_SIZE(MSG_FI_PARTY_DISMEMBER_OK));
return FALSE;
}
if (tmOldUID != i_pIMParty->GetMasterCharacterUniqueNumber())
{
SendMsgPartyTransferMasterInfoNoLock(i_pIMParty, tmOldUID, i_pIMParty->GetMasterCharacterUniqueNumber());
}
// // 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 임시용 로그
// g_pIMGlobal->WriteSystemLogEX(TRUE, " [TEMP] 090804 CIMIOCPSocket::ProcessPartyLeaveNoLock# %s CurIsOn(%d) FormationTy(%d) \r\n"
// , GetCharacterString(GetCharacter(), string()), i_pIMParty->m_SPartyInfo.IsAppliedFormationSkill, i_pIMParty->m_SPartyInfo.FormationType);
///////////////////////////////////////////////////////////////////////////////
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 편대 탈퇴시,
if(i_pIMParty->m_SPartyInfo.IsAppliedFormationSkill)
{
i_pIMParty->m_SPartyInfo.IsAppliedFormationSkill = FALSE;
this->SendFieldServPartyChangeFormationSkill(i_pIMParty->GetMasterCharacterUniqueNumber(), FALSE);
}
// 2009-09-09 ~ 2010-01-27 by dhjin, 인피니티 - 강제 종료 유저 파티에서 탈퇴처리!, 밑과 같이 수정
// 2009-09-09 ~ 2010-01-27 by dhjin, 인피니티 - 자기 자신 전송만 IsUsing 체크 하도록 변경, 다른 유저들에겐 전송해서 파티 나간 사실을 알려주자
// if(this->IsUsing())
// {
// // Client에게 보내기
// INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_LEAVE_OK, T_IC_PARTY_LEAVE_OK, pICLeaveOK, pICLeaveOKBuf);
// pICLeaveOK->PartyID = i_pIMParty->m_PartyID;
// pICLeaveOK->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
//
// if(this->IsUsing()) {
// // 2009-09-09 ~ 2010-01-27 by dhjin, 인피니티 - 자기 자신 전송만 IsUsing 체크 하도록 변경, 다른 유저들에겐 전송해서 파티 나간 사실을 알려주자
// ///////////////////////////////////////////////////////////////////////////////
// // 자기 자신에게 전송한다
// this->SendAddData(pICLeaveOKBuf, MSG_SIZE(MSG_IC_PARTY_LEAVE_OK));
// }
//
// ///////////////////////////////////////////////////////////////////////////////
// // 남은 파티원들에게 전송
// i_pIMParty->SendMsgToMembers(pICLeaveOKBuf, MSG_SIZE(MSG_IC_PARTY_LEAVE_OK));
// }
// Client에게 보내기
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_LEAVE_OK, T_IC_PARTY_LEAVE_OK, pICLeaveOK, pICLeaveOKBuf);
pICLeaveOK->PartyID = i_pIMParty->m_PartyID;
pICLeaveOK->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
pICLeaveOK->bMoveToArena = a_bMoveToArena;
///////////////////////////////////////////////////////////////////////////////
// 남은 파티원들에게 전송
i_pIMParty->SendMsgToMembers(pICLeaveOKBuf, MSG_SIZE(MSG_IC_PARTY_LEAVE_OK));
if(this->IsUsing()) {
// 자기 자신에게 전송한다
this->SendAddData(pICLeaveOKBuf, MSG_SIZE(MSG_IC_PARTY_LEAVE_OK));
// Field Server에게 보내기
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_LEAVE_OK, T_FI_PARTY_LEAVE_OK, pFILeaveOK, pFILeaveOKBuf);
pFILeaveOK->PartyID = i_pIMParty->m_PartyID;
pFILeaveOK->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
pFILeaveOK->FieldPartyInfo.nTotalPartyMember = i_pIMParty->GetMemberCount(FALSE);
pFILeaveOK->FieldPartyInfo.lowestMemberLevel = i_pIMParty->GetLowestMemberLevel();
this->SendMsgToCurrentFieldServerSocket(pFILeaveOKBuf, MSG_SIZE(MSG_FI_PARTY_LEAVE_OK));
}
else {
// Field Server에게 보내기
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_DISCONNECT_LEAVE_OK, T_FI_PARTY_DISCONNECT_LEAVE_OK, pFILeaveOK, pFILeaveOKBuf);
pFILeaveOK->PartyID = i_pIMParty->m_PartyID;
pFILeaveOK->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
pFILeaveOK->FieldPartyInfo.nTotalPartyMember = i_pIMParty->GetMemberCount(FALSE);
pFILeaveOK->FieldPartyInfo.lowestMemberLevel = i_pIMParty->GetLowestMemberLevel();
this->SendMsgToCurrentFieldServerSocket(pFILeaveOKBuf, MSG_SIZE(MSG_FI_PARTY_DISCONNECT_LEAVE_OK));
}
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::ProcessPartyLeaveArenaEndNoLock(CIMParty *i_pIMParty)
/// \brief 아레나 서버에서 경기 종료후 파티 관련 처리
/// \author dhjin
/// \date 2008-02-28 ~ 2008-02-28
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::ProcessPartyLeaveArenaEndNoLock(CIMParty *i_pIMParty)
{
UID32_t tmOldUID = i_pIMParty->GetMasterCharacterUniqueNumber();
i_pIMParty->LeaveMember(m_character.CharacterUniqueNumber);
if (0 == i_pIMParty->GetMemberCount())
{// 유저가 없거나 Online유저가 없음
// Field Server에게 보내기
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_DISMEMBER_OK, T_FI_PARTY_DISMEMBER_OK, pFIDismemberOK, pFIDismemberOKBuf);
pFIDismemberOK->PartyID = i_pIMParty->m_PartyID;
ms_pIMIOCP->SendMessageToFieldServer(pFIDismemberOKBuf, MSG_SIZE(MSG_FI_PARTY_DISMEMBER_OK));
return FALSE;
}
if (tmOldUID != i_pIMParty->GetMasterCharacterUniqueNumber())
{
SendMsgPartyTransferMasterInfoNoLock(i_pIMParty, tmOldUID, i_pIMParty->GetMasterCharacterUniqueNumber());
}
if(this->IsUsing())
{
// Client에게 보내기
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_LEAVE_OK, T_IC_PARTY_LEAVE_OK, pICLeaveOK, pICLeaveOKBuf);
pICLeaveOK->PartyID = i_pIMParty->m_PartyID;
pICLeaveOK->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
///////////////////////////////////////////////////////////////////////////////
// 남은 파티원들에게 전송
i_pIMParty->SendMsgToMembers(pICLeaveOKBuf, MSG_SIZE(MSG_IC_PARTY_LEAVE_OK));
}
// Field Server에게 보내기
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_LEAVE_OK, T_FI_PARTY_LEAVE_OK, pFILeaveOK, pFILeaveOKBuf);
pFILeaveOK->PartyID = i_pIMParty->m_PartyID;
pFILeaveOK->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
pFILeaveOK->FieldPartyInfo.nTotalPartyMember = i_pIMParty->GetMemberCount(FALSE);
pFILeaveOK->FieldPartyInfo.lowestMemberLevel = i_pIMParty->GetLowestMemberLevel();
this->SendMsgToCurrentFieldServerSocket(pFILeaveOKBuf, MSG_SIZE(MSG_FI_PARTY_LEAVE_OK));
return TRUE;
}
BOOL CIMIOCPSocket::ProcessPartyGameEndNoLock(CIMParty *i_pIMParty)
{
UID32_t tmOldUID = i_pIMParty->GetMasterCharacterUniqueNumber();
i_pIMParty->SetOfflineMemberW(m_character.CharacterUniqueNumber);
if (0 == i_pIMParty->GetMemberCount())
{// 유저가 없거나 Online유저가 없음
// 파티 해산정보를 전송
if(this->IsUsing())
{
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_DISMEMBER_OK, T_IC_PARTY_DISMEMBER_OK, pICDismemberOK, pICDismemberOKBuf);
pICDismemberOK->PartyID = i_pIMParty->m_PartyID;
SendAddData(pICDismemberOKBuf, MSG_SIZE(MSG_IC_PARTY_DISMEMBER_OK));
}
// Field Server에게 보내기
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_DISMEMBER_OK, T_FI_PARTY_DISMEMBER_OK, pFIDismemberOK, pFIDismemberOKBuf);
pFIDismemberOK->PartyID = i_pIMParty->m_PartyID;
ms_pIMIOCP->SendMessageToFieldServer(pFIDismemberOKBuf, MSG_SIZE(MSG_FI_PARTY_DISMEMBER_OK));
return FALSE;
}
if (tmOldUID != i_pIMParty->GetMasterCharacterUniqueNumber())
{
SendMsgPartyTransferMasterInfoNoLock(i_pIMParty, tmOldUID, i_pIMParty->GetMasterCharacterUniqueNumber());
}
// // 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 임시용 로그
// g_pIMGlobal->WriteSystemLogEX(TRUE, " [TEMP] 090804 CIMIOCPSocket::ProcessPartyGameEndNoLock# %s CurIsOn(%d) FormationTy(%d) \r\n"
// , GetCharacterString(GetCharacter(), string()), i_pIMParty->m_SPartyInfo.IsAppliedFormationSkill, i_pIMParty->m_SPartyInfo.FormationType);
///////////////////////////////////////////////////////////////////////////////
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 편대 탈퇴시,
if(i_pIMParty->m_SPartyInfo.IsAppliedFormationSkill)
{
i_pIMParty->m_SPartyInfo.IsAppliedFormationSkill = FALSE;
this->SendFieldServPartyChangeFormationSkill(i_pIMParty->GetMasterCharacterUniqueNumber(), FALSE);
}
return TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::ProcessPartyFromMainServerToArenaServerNoLock(CIMParty *i_pIMParty)
/// \brief 아레나 통합 - 본 서버에서 아레나 서버로 이동 시 파티 처리 사항
/// \author dhjin
/// \date 2008-02-28 ~ 2008-02-28
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::ProcessPartyFromMainServerToArenaServerNoLock(CIMParty *i_pIMParty)
{
// 본섭 -> 아레나섭 이동 시 본섭 파티에서는 탈퇴처리로 수정. 2010.09.03. by hsLee.
return ProcessPartyLeaveNoLock ( i_pIMParty , true );
/*
UID32_t tmOldUID = i_pIMParty->GetMasterCharacterUniqueNumber();
i_pIMParty->SetOfflineMemberW( m_character.CharacterUniqueNumber );
if (0 == i_pIMParty->GetMemberCount())
{// 유저가 없거나 Online유저가 없음
// Field Server에게 보내기
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_DISMEMBER_OK, T_FI_PARTY_DISMEMBER_OK, pFIDismemberOK, pFIDismemberOKBuf);
pFIDismemberOK->PartyID = i_pIMParty->m_PartyID;
ms_pIMIOCP->SendMessageToFieldServer(pFIDismemberOKBuf, MSG_SIZE(MSG_FI_PARTY_DISMEMBER_OK));
return FALSE;
}
if (tmOldUID != i_pIMParty->GetMasterCharacterUniqueNumber())
{
SendMsgPartyTransferMasterInfoNoLock(i_pIMParty, tmOldUID, i_pIMParty->GetMasterCharacterUniqueNumber());
}
return TRUE;
*/
}
BOOL CIMIOCPSocket::SendMsgPartyTransferMasterInfoNoLock(CIMParty *i_pIMParty, UINT OldMaster, UINT NewMaster)
{
// send to Field Servers
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_TRANSFER_MASTER_OK, T_FI_PARTY_TRANSFER_MASTER_OK, pFITransMasterOK, pFITransMasterOKBuf);
pFITransMasterOK->PartyID = i_pIMParty->m_PartyID;
pFITransMasterOK->OldMasterCharacterUniqueNumber = OldMaster;
pFITransMasterOK->NewMasterCharacterUniqueNumber = NewMaster;
ms_pIMIOCP->SendMessageToFieldServer(pFITransMasterOKBuf, MSG_SIZE(MSG_FI_PARTY_TRANSFER_MASTER_OK));
// send to Party Members
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_TRANSFER_MASTER_OK, T_IC_PARTY_TRANSFER_MASTER_OK, pICTransMasterOK, pICTransMasterOKBuf);
pICTransMasterOK->PartyID = i_pIMParty->m_PartyID;
pICTransMasterOK->OldMasterCharacterUniqueNumber = OldMaster;
pICTransMasterOK->NewMasterCharacterUniqueNumber = NewMaster;
i_pIMParty->SendMsgToMembers(pICTransMasterOKBuf, MSG_SIZE(MSG_IC_PARTY_TRANSFER_MASTER_OK));
return TRUE;
}
void CIMIOCPSocket::ProcessPartyDismember(PartyID_t i_partyID)
{
ms_pIMIOCP->m_MapParties.lock();
{
CIMParty *pTmpParty = ms_pIMIOCP->m_MapParties.findLock(i_partyID);
if(NULL == pTmpParty)
{
ms_pIMIOCP->m_MapParties.unlock();
return;
}
pTmpParty->LockIMParty();
{
// send to Clients
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_DISMEMBER_OK, T_IC_PARTY_DISMEMBER_OK, pICDisMemberOK, pICDisMemberOKBuf);
pICDisMemberOK->PartyID = i_partyID;
pTmpParty->SendMsgToMembers(pICDisMemberOKBuf, MSG_SIZE(MSG_IC_PARTY_DISMEMBER_OK), INVALID_UNIQUE_NUMBER, TRUE);
// send to Field Server
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_DISMEMBER_OK, T_FI_PARTY_DISMEMBER_OK, pFIDismemberOK, pFIDismemberOKBuf);
pFIDismemberOK->PartyID = i_partyID;
ms_pIMIOCP->SendMessageToFieldServer(pFIDismemberOKBuf, MSG_SIZE(MSG_FI_PARTY_DISMEMBER_OK));
}
pTmpParty->UnlockIMParty();
}
// 파티 제거
ms_pIMIOCP->DeleteParty(i_partyID);
ms_pIMIOCP->m_MapParties.unlock();
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_LEAVE(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_PARTY_LEAVE *pMsgLeave = NULL;
nRecvTypeSize = sizeof(MSG_IC_PARTY_LEAVE);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_PARTY_LEAVE, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12022);
return RES_RETURN_FALSE;
}
pMsgLeave = (MSG_IC_PARTY_LEAVE*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
// error: 가입한 파티가 없음
SendErrorMessage(T_IC_PARTY_LEAVE, ERR_PROTOCOL_NOT_HAVE_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
if (ptmParty->m_PartyID != pMsgLeave->PartyID)
{
SendErrorMessage(T_IC_PARTY_LEAVE, ERR_PROTOCOL_PARTY_ID_NOT_MATCHED, pMsgLeave->PartyID, ptmParty->m_PartyID);
ptmParty->UnlockIMParty();
return RES_BREAK;
}
BOOL bReted = ProcessPartyLeaveNoLock(ptmParty);
ptmParty->UnlockIMParty();
if(FALSE == bReted)
{// 파티맵에서 제거해야한다
ProcessPartyDismember(pMsgLeave->PartyID);
}
///////////////////////////////////////////////////////////////////////////////
// 캐릭터의 파티 정보 삭제
this->SetIMParty(NULL);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_TRANSFER_MASTER(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_PARTY_TRANSFER_MASTER *pMsgTranMaster= NULL;
nRecvTypeSize = sizeof(MSG_IC_PARTY_TRANSFER_MASTER);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_PARTY_TRANSFER_MASTER, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x1201D);
return RES_RETURN_FALSE;
}
pMsgTranMaster = (MSG_IC_PARTY_TRANSFER_MASTER*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
if (m_character.CharacterUniqueNumber != pMsgTranMaster->OldMasterCharacterUniqueNumber)
{// 자신의 CharacterUniqueNumber와 다르다
SendErrorMessage(T_IC_PARTY_TRANSFER_MASTER, ERR_PROTOCOL_PARTY_MASTER_NOT_MATCHED);
return RES_BREAK;
}
if(pMsgTranMaster->NewMasterCharacterUniqueNumber == m_character.CharacterUniqueNumber)
{//
SendErrorMessage(T_IC_PARTY_TRANSFER_MASTER, ERR_COMMON_NOT_ALLOWED_TO_MYSELF);
return RES_BREAK;
}
CIMIOCPSocket *pIISoc = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgTranMaster->NewMasterCharacterUniqueNumber);
if(NULL == pIISoc
|| FALSE == pIISoc->IsValidCharacter())
{// 2007-10-24 by cmkwon, 새로운 파티장 유효 한지 체크 -
SendErrorMessage(T_IC_PARTY_TRANSFER_MASTER, ERR_PROTOCOL_NO_SUCH_PARTY_MEMBER, 0, 30);
return RES_BREAK;
}
if(m_character.MapChannelIndex != pIISoc->m_character.MapChannelIndex)
{// 2007-10-24 by cmkwon, 새로운 파티장 유효 한지 체크 - 같은 맵에 있는지 체크
SendErrorMessage(T_IC_PARTY_TRANSFER_MASTER, ERR_PROTOCOL_MAP_CHANNEL_NOT_MATCHED, 0, 40);
return RES_BREAK;
}
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL || ptmParty->m_PartyID != pMsgTranMaster->PartyID)
{// error
SendErrorMessage(T_IC_PARTY_TRANSFER_MASTER, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
{
if (ptmParty->GetMasterCharacterUniqueNumber() != pMsgTranMaster->OldMasterCharacterUniqueNumber)
{// error: 자신이 파티장이 아니므로 권한이 없음
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_TRANSFER_MASTER, ERR_PROTOCOL_PARTY_PERMISSION_DENIED);
return RES_BREAK;
}
if(FALSE == ptmParty->TransferMaster(pMsgTranMaster->NewMasterCharacterUniqueNumber))
{// error
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_TRANSFER_MASTER, ERR_PROTOCOL_NO_SUCH_PARTY_MEMBER);
return RES_BREAK;
}
SendMsgPartyTransferMasterInfoNoLock(ptmParty, pMsgTranMaster->OldMasterCharacterUniqueNumber, pMsgTranMaster->NewMasterCharacterUniqueNumber);
}
ptmParty->UnlockIMParty();
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_BAN_MEMBER(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_PARTY_BAN_MEMBER *pMsgBan = NULL;
nRecvTypeSize = sizeof(MSG_IC_PARTY_BAN_MEMBER);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_PARTY_BAN_MEMBER, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12020);
return RES_RETURN_FALSE;
}
pMsgBan = (MSG_IC_PARTY_BAN_MEMBER*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
if (pMsgBan->CharacterUniqueNumber == m_character.CharacterUniqueNumber)
{
SendErrorMessage(T_IC_PARTY_BAN_MEMBER, ERR_COMMON_NOT_ALLOWED_TO_MYSELF);
return RES_BREAK;
}
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
// error
SendErrorMessage(T_IC_PARTY_BAN_MEMBER, ERR_PROTOCOL_NOT_HAVE_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
{
if (ptmParty->m_PartyID != pMsgBan->PartyID)
{
// error
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_BAN_MEMBER, ERR_PROTOCOL_PARTY_ID_NOT_MATCHED);
return RES_BREAK;
}
if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
{
// error: 자신이 파티장이 아니므로 권한이 없음
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_BAN_MEMBER, ERR_PROTOCOL_PARTY_PERMISSION_DENIED);
return RES_BREAK;
}
// 찾아보기
IMPartyMember *pMember = ptmParty->GetMemberPtrByCharacterUniqueNumber(pMsgBan->CharacterUniqueNumber);
if (NULL == pMember)
{
// error
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_BAN_MEMBER, ERR_PROTOCOL_NO_SUCH_PARTY_MEMBER);
return RES_BREAK;
}
// 게임을 하지 않는 파티원인 경우 - 그냥 파티서 제거함
if (FALSE == pMember->IsOnlineMember() || FALSE == pMember->PM_pIMIOCPSocket->IsUsing())
{
// 추방할 아그 지우기
if (FALSE == ptmParty->LeaveMember(pMsgBan->CharacterUniqueNumber))
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_BAN_MEMBER, ERR_COMMON_NO_SUCH_CHARACTER, pMsgBan->CharacterUniqueNumber, 1);
return RES_BREAK;
}
// // 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 임시용 로그
// g_pIMGlobal->WriteSystemLogEX(TRUE, " [TEMP] 090804 CIMIOCPSocket::Process_IC_PARTY_BAN_MEMBER# 1 %s CurIsOn(%d) FormationTy(%d) \r\n"
// , GetCharacterString(GetCharacter(), string()), ptmParty->m_SPartyInfo.IsAppliedFormationSkill, ptmParty->m_SPartyInfo.FormationType);
///////////////////////////////////////////////////////////////////////////////
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 편대원 추방시, 오프라인 편대원 처리
if(ptmParty->m_SPartyInfo.IsAppliedFormationSkill)
{
ptmParty->m_SPartyInfo.IsAppliedFormationSkill = FALSE;
this->SendFieldServPartyChangeFormationSkill(m_character.CharacterUniqueNumber, FALSE);
}
// send to SERVER
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_BAN_MEMBER_OK, T_FI_PARTY_BAN_MEMBER_OK, pFIBanMemberOK, pFIBanMemberOKBuf);
pFIBanMemberOK->PartyID = pMsgBan->PartyID;
pFIBanMemberOK->CharacterUniqueNumber = pMsgBan->CharacterUniqueNumber;
pFIBanMemberOK->FieldPartyInfo.nTotalPartyMember = ptmParty->GetMemberCount(FALSE); // 주의: m_ListPartyMember에서 삭제 이후여야 함!
pFIBanMemberOK->FieldPartyInfo.lowestMemberLevel = ptmParty->GetLowestMemberLevel(); // 주의: m_ListPartyMember에서 삭제 이후여야 함!
ms_pIMIOCP->SendMessageToFieldServer(pFIBanMemberOKBuf, MSG_SIZE(MSG_FI_PARTY_BAN_MEMBER_OK));
// send to CLIENTS
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_BAN_MEMBER_OK, T_IC_PARTY_BAN_MEMBER_OK, pICBanMemberOK, pICBanMemberOKBuf);
pICBanMemberOK->PartyID = pMsgBan->PartyID;
pICBanMemberOK->CharacterUniqueNumber = pMsgBan->CharacterUniqueNumber;
ptmParty->SendMsgToMembers(pICBanMemberOKBuf, MSG_SIZE(MSG_IC_PARTY_BAN_MEMBER_OK));
}
else
{
// 추방 당할 아그 찾기
CIMIOCPSocket *pSocket = pMember->PM_pIMIOCPSocket; // 추방 당할 파티원
if (pSocket == NULL || !pSocket->IsUsing() || pSocket->m_character.CharacterUniqueNumber != pMember->PM_CharacterUniqueNumber)
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_BAN_MEMBER, ERR_COMMON_NO_SUCH_CHARACTER, pMsgBan->CharacterUniqueNumber, 2);
return RES_BREAK;
}
// 추방할 아그 지우기
if (FALSE == ptmParty->LeaveMember(pMsgBan->CharacterUniqueNumber))
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_BAN_MEMBER, ERR_COMMON_NO_SUCH_CHARACTER, pMsgBan->CharacterUniqueNumber, 1);
return RES_BREAK;
}
// // 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 임시용 로그
// g_pIMGlobal->WriteSystemLogEX(TRUE, " [TEMP] 090804 CIMIOCPSocket::Process_IC_PARTY_BAN_MEMBER# 2 %s CurIsOn(%d) FormationTy(%d) \r\n"
// , GetCharacterString(GetCharacter(), string()), ptmParty->m_SPartyInfo.IsAppliedFormationSkill, ptmParty->m_SPartyInfo.FormationType);
///////////////////////////////////////////////////////////////////////////////
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 편대원 추방시, 온라인 편대원 처리
if(ptmParty->m_SPartyInfo.IsAppliedFormationSkill)
{
ptmParty->m_SPartyInfo.IsAppliedFormationSkill = FALSE;
this->SendFieldServPartyChangeFormationSkill(m_character.CharacterUniqueNumber, FALSE);
}
// send to SERVER
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_BAN_MEMBER_OK, T_FI_PARTY_BAN_MEMBER_OK, pFIBanMemberOK, pFIBanMemberOKBuf);
pFIBanMemberOK->PartyID = pMsgBan->PartyID;
pFIBanMemberOK->CharacterUniqueNumber = pMsgBan->CharacterUniqueNumber;
pFIBanMemberOK->FieldPartyInfo.nTotalPartyMember = ptmParty->GetMemberCount(FALSE); // 주의: m_ListPartyMember에서 삭제 이후여야 함!
pFIBanMemberOK->FieldPartyInfo.lowestMemberLevel = ptmParty->GetLowestMemberLevel(); // 주의: m_ListPartyMember에서 삭제 이후여야 함!
pSocket->SendMsgToCurrentFieldServerSocket(pFIBanMemberOKBuf, MSG_SIZE(MSG_FI_PARTY_BAN_MEMBER_OK));
// send to CLIENTS
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_BAN_MEMBER_OK, T_IC_PARTY_BAN_MEMBER_OK, pICBanMemberOK, pICBanMemberOKBuf);
pICBanMemberOK->PartyID = pMsgBan->PartyID;
pICBanMemberOK->CharacterUniqueNumber = pMsgBan->CharacterUniqueNumber;
ptmParty->SendMsgToMembers(pICBanMemberOKBuf, MSG_SIZE(MSG_IC_PARTY_BAN_MEMBER_OK));
// 위에서 추방 당한 자 지웠으므로 따로 보냄
pSocket->SendAddData(pICBanMemberOKBuf, MSG_SIZE(MSG_IC_PARTY_BAN_MEMBER_OK));
// 추방 당한 아그에서 파티 정보 제거
pSocket->SetIMParty(NULL);
}
}// LockIMParty_end
ptmParty->UnlockIMParty();
return RES_RETURN_TRUE;
}
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 사용하지 않는 프로토콜임
// ProcessResult CIMIOCPSocket::Process_IC_PARTY_DISMEMBER(const char* pPacket, int nLength, int &nBytesUsed)
// {
// int nRecvTypeSize = 0;
// MSG_IC_PARTY_DISMEMBER *pMsgDismember = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_PARTY_DISMEMBER);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_PARTY_DISMEMBER, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x12021);
// return RES_RETURN_FALSE;
// }
// pMsgDismember = (MSG_IC_PARTY_DISMEMBER*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// CIMParty *ptmParty = this->GetIMParty();
// if (ptmParty == NULL)
// {
// // error
// SendErrorMessage(T_IC_PARTY_DISMEMBER, ERR_PROTOCOL_NOT_HAVE_PARTY);
// return RES_BREAK;
// }
//
// ptmParty->LockIMParty();
// {
// if (ptmParty->m_PartyID != pMsgDismember->PartyID)
// {// error
//
// ptmParty->UnlockIMParty();
// SendErrorMessage(T_IC_PARTY_DISMEMBER, ERR_PROTOCOL_PARTY_ID_NOT_MATCHED);
// return RES_BREAK;
// }
//
// if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
// {// error: 자신이 파티장이 아니므로 권한이 없음
//
// ptmParty->UnlockIMParty();
// SendErrorMessage(T_IC_PARTY_DISMEMBER, ERR_PROTOCOL_PARTY_PERMISSION_DENIED);
// return RES_BREAK;
// }
// }
// PartyID_t partyID = ptmParty->m_PartyID;
// ptmParty->UnlockIMParty();
//
// // 파티 해산
// ProcessPartyDismember(partyID);
//
// ///////////////////////////////////////////////////////////////////////////////
// // 캐릭터의 파티 정보 삭제
// this->SetIMParty(NULL);
// return RES_RETURN_TRUE;
// }
ProcessResult CIMIOCPSocket::Process_IC_PARTY_CHANGE_FLIGHT_FORMATION(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_PARTY_CHANGE_FLIGHT_FORMATION *pMsgChangeForm = NULL;
nRecvTypeSize = sizeof(MSG_IC_PARTY_CHANGE_FLIGHT_FORMATION);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_PARTY_CHANGE_FLIGHT_FORMATION, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12021);
return RES_RETURN_FALSE;
}
pMsgChangeForm = (MSG_IC_PARTY_CHANGE_FLIGHT_FORMATION*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
SendErrorMessage(T_IC_PARTY_CHANGE_FLIGHT_FORMATION, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
{
if (ptmParty->m_PartyID != pMsgChangeForm->PartyID)
{
SendErrorMessage(T_IC_PARTY_CHANGE_FLIGHT_FORMATION, ERR_PROTOCOL_PARTY_ID_NOT_MATCHED, LODWORD(ptmParty->m_PartyID), HIDWORD(pMsgChangeForm->PartyID));
ptmParty->UnlockIMParty();
return RES_BREAK;
}
if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
{
SendErrorMessage(T_IC_PARTY_CHANGE_FLIGHT_FORMATION, ERR_PROTOCOL_PARTY_PERMISSION_DENIED,
ptmParty->GetMasterCharacterUniqueNumber(), m_character.CharacterUniqueNumber);
ptmParty->UnlockIMParty();
return RES_BREAK;
}
// // 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 임시용 로그
// g_pIMGlobal->WriteSystemLogEX(TRUE, " [TEMP] 090804 CIMIOCPSocket::Process_IC_PARTY_CHANGE_FLIGHT_FORMATION# %s CurIsOn(%d) FormationTy(%d<-%d) \r\n"
// , GetCharacterString(GetCharacter(), string()), ptmParty->m_SPartyInfo.IsAppliedFormationSkill, pMsgChangeForm->Formation, ptmParty->m_SPartyInfo.FormationType);
///////////////////////////////////////////////////////////////////////////////
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 편대 대형 변경시, 현재 대형을 저장한다.
ptmParty->m_SPartyInfo.FormationType = pMsgChangeForm->Formation;
if(ptmParty->m_SPartyInfo.IsAppliedFormationSkill)
{
ptmParty->m_SPartyInfo.IsAppliedFormationSkill = FALSE;
this->SendFieldServPartyChangeFormationSkill(m_character.CharacterUniqueNumber, FALSE);
}
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_CHANGE_FLIGHT_FORMATION_OK, T_IC_PARTY_CHANGE_FLIGHT_FORMATION_OK, pChangeFormOK, pChangeFormOKBuf);
pChangeFormOK->PartyID = pMsgChangeForm->PartyID;
pChangeFormOK->Formation = pMsgChangeForm->Formation;
ptmParty->SendMsgToMembers(pChangeFormOKBuf, MSG_SIZE(MSG_IC_PARTY_CHANGE_FLIGHT_FORMATION_OK));
}
ptmParty->UnlockIMParty();
// 2004-08-09 by cmkwon
// // send to SERVER
// INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_CHANGE_FLIGHT_FORMATION_OK, T_FI_PARTY_CHANGE_FLIGHT_FORMATION_OK, pFIFormationOK, pFIFormationOKBuf);
// pFIFormationOK->PartyID = pMsgChangeForm->PartyID;
// pFIFormationOK->Formation = pMsgChangeForm->Formation;
// m_pIMParty->SendMsgToFieldServers(pFIFormationOKBuf, MSG_SIZE(MSG_FI_PARTY_CHANGE_FLIGHT_FORMATION_OK));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_GET_FLIGHT_POSITION(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_PARTY_GET_FLIGHT_POSITION *pMsgGetPosition = NULL;
nRecvTypeSize = sizeof(MSG_IC_PARTY_GET_FLIGHT_POSITION);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_PARTY_GET_FLIGHT_POSITION, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12021);
return RES_RETURN_FALSE;
}
pMsgGetPosition = (MSG_IC_PARTY_GET_FLIGHT_POSITION*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
if (m_character.CharacterUniqueNumber != pMsgGetPosition->CharacterUniqueNumber)
{
SendErrorMessage(T_IC_PARTY_GET_FLIGHT_POSITION, ERR_PROTOCOL_INVALID_CHARACTER_UNIQUENUMBER, m_character.CharacterUniqueNumber, pMsgGetPosition->CharacterUniqueNumber);
return RES_BREAK;
}
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
SendErrorMessage(T_IC_PARTY_GET_FLIGHT_POSITION, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
// 파티장에게 보내기
CIMIOCPSocket *pPartyMasterSock = ptmParty->GetMasterIMIOCPSocket();
if (NULL == pPartyMasterSock
|| FALSE == pPartyMasterSock->IsUsing())
{
SendErrorMessage(T_IC_PARTY_GET_FLIGHT_POSITION, ERR_PROTOCOL_PARTY_MASTER_NOT_MATCHED,
pPartyMasterSock->m_character.CharacterUniqueNumber, ptmParty->GetMasterCharacterUniqueNumber());
ptmParty->UnlockIMParty();
return RES_BREAK;
}
ptmParty->UnlockIMParty();
// 전송
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_GET_FLIGHT_POSITION, T_IC_PARTY_GET_FLIGHT_POSITION, pSend, pSendBuf);
pSend->CharacterUniqueNumber = pMsgGetPosition->CharacterUniqueNumber;
pPartyMasterSock->SendAddData(pSendBuf, MSG_SIZE(MSG_IC_PARTY_GET_FLIGHT_POSITION));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_CHANGE_FLIGHT_POSITION(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_PARTY_CHANGE_FLIGHT_POSITION *pMsgChangePos = NULL;
nRecvTypeSize = sizeof(MSG_IC_PARTY_CHANGE_FLIGHT_POSITION);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_PARTY_CHANGE_FLIGHT_POSITION, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12021);
return RES_RETURN_FALSE;
}
pMsgChangePos = (MSG_IC_PARTY_CHANGE_FLIGHT_POSITION*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
SendErrorMessage(T_IC_PARTY_CHANGE_FLIGHT_POSITION, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
{
if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
{
SendErrorMessage(T_IC_PARTY_CHANGE_FLIGHT_POSITION, ERR_PROTOCOL_PARTY_PERMISSION_DENIED, ptmParty->GetMasterCharacterUniqueNumber(), m_character.CharacterUniqueNumber);
ptmParty->UnlockIMParty();
return RES_BREAK;
}
// 파티원 찾기
IMPartyMember *pMember = ptmParty->GetMemberPtrByCharacterUniqueNumber(pMsgChangePos->CharacterUniqueNumber);
if (NULL == pMember
|| FALSE == pMember->IsOnlineMember()
|| FALSE == pMember->PM_pIMIOCPSocket->IsUsing()
|| pMember->PM_pIMIOCPSocket->m_character.CharacterUniqueNumber != pMember->PM_CharacterUniqueNumber)
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_PARTY_CHANGE_FLIGHT_POSITION, ERR_PROTOCOL_INVALID_CHARACTER_UNIQUENUMBER,
pMsgChangePos->CharacterUniqueNumber, pMember->PM_CharacterUniqueNumber);
return RES_BREAK;
}
// 전송
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_CHANGE_FLIGHT_POSITION, T_IC_PARTY_CHANGE_FLIGHT_POSITION, pSend, tmSendBuf);
pSend->CharacterUniqueNumber = pMsgChangePos->CharacterUniqueNumber;
pSend->FlightPosition = pMsgChangePos->FlightPosition;
ptmParty->SendMsgToMembers(tmSendBuf, MSG_SIZE(MSG_IC_PARTY_CHANGE_FLIGHT_POSITION));
}
ptmParty->UnlockIMParty();
// 2004-08-09 by cmkwon
// INIT_MSG(MSG_FI_PARTY_CHANGE_FLIGHT_POSITION, T_FI_PARTY_CHANGE_FLIGHT_POSITION, pFISend, tmSendBuf);
// pFISend->PartyID = m_pIMParty->m_PartyID;
// pFISend->CharacterUniqueNumber = pMsgChangePos->CharacterUniqueNumber;
// pFISend->FlightPosition = pMsgChangePos->FlightPosition;
// m_pIMParty->SendMsgToFieldServers(tmSendBuf, MSG_SIZE(MSG_FI_PARTY_CHANGE_FLIGHT_POSITION));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_CANCEL_FLIGHT_POSITION(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_PARTY_CANCEL_FLIGHT_POSITION *pMsgCancelPos = NULL;
nRecvTypeSize = sizeof(MSG_IC_PARTY_CANCEL_FLIGHT_POSITION);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_PARTY_CANCEL_FLIGHT_POSITION, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12021);
return RES_RETURN_FALSE;
}
pMsgCancelPos = (MSG_IC_PARTY_CANCEL_FLIGHT_POSITION*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
if (pMsgCancelPos->CharacterUniqueNumber != m_character.CharacterUniqueNumber)
{
SendErrorMessage(T_IC_PARTY_CANCEL_FLIGHT_POSITION, ERR_PROTOCOL_INVALID_CHARACTER_UNIQUENUMBER,
pMsgCancelPos->CharacterUniqueNumber, m_character.CharacterUniqueNumber);
return RES_BREAK;
}
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
SendErrorMessage(T_IC_PARTY_CANCEL_FLIGHT_POSITION, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
// 파티장에게 보내기
CIMIOCPSocket *pPartyMasterSock = ptmParty->GetMasterIMIOCPSocket();
// 2011-02-22 by shcho&hsSon, 편대버프 해제 안되는 버그 수정
CIMIOCPSocket *pPartyUserSock = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgCancelPos->CharacterUniqueNumber);
// end 2011-02-22 by shcho&hsSon, 편대버프 해제 안되는 버그 수정
if (pPartyMasterSock == NULL
|| FALSE == pPartyMasterSock->IsUsing())
{
SendErrorMessage(T_IC_PARTY_CANCEL_FLIGHT_POSITION, ERR_PROTOCOL_PARTY_MASTER_NOT_MATCHED,
ptmParty->GetMasterCharacterUniqueNumber());
ptmParty->UnlockIMParty();
return RES_BREAK;
}
ptmParty->UnlockIMParty();
// 2011-02-22 by shcho&hsSon, 편대버프 해제 안되는 버그 수정
// 마스터 전송
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_CANCEL_FLIGHT_POSITION, T_IC_PARTY_CANCEL_FLIGHT_POSITION, pCancel, tmSendBuf);
pCancel->Formation_On_Off = FORMATION_SKILL_NULL;
pCancel->CharacterUniqueNumber = pMsgCancelPos->CharacterUniqueNumber;
pPartyMasterSock->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_PARTY_CANCEL_FLIGHT_POSITION));
// 2012-02-23 by hskim, 편대 탈퇴 처리 중 서버 죽는 문제 수정
if( NULL == pPartyUserSock || FALSE == pPartyUserSock->IsUsing() )
{
return RES_BREAK;
}
// 2012-02-23 by hskim, 편대 탈퇴 처리 중 서버 죽는 문제 수정
// 해당 유저에게도 전송
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_CANCEL_FLIGHT_POSITION, T_IC_PARTY_CANCEL_FLIGHT_POSITION, pPartyUserCancel, tmSendBuf1);
pPartyUserCancel->Formation_On_Off = FORMATION_SKILL_OFF;
pPartyUserCancel->CharacterUniqueNumber = pMsgCancelPos->CharacterUniqueNumber;
pPartyUserSock->SendAddData(tmSendBuf1, MSG_SIZE(MSG_IC_PARTY_CANCEL_FLIGHT_POSITION));
// END 2011-02-22 by shcho&hsSon, 편대버프 해제 안되는 버그 수정
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_PARTY_ALL_FLIGHT_POSITION(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_PARTY_ALL_FLIGHT_POSITION *pRecvMsg = NULL;
nRecvTypeSize = sizeof(MSG_IC_PARTY_ALL_FLIGHT_POSITION);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_PARTY_ALL_FLIGHT_POSITION, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12021);
return RES_RETURN_FALSE;
}
pRecvMsg = (MSG_IC_PARTY_ALL_FLIGHT_POSITION*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
///////////////////////////////////////////////////////////////////////////////
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 대형 정렬 정보 전송시 오프라인유저체크
BOOL bIsAllPartyMemberOnline = TRUE;
for(int i=0; i < SIZE_MAX_PARTY_MEMBER-1; i++)
{
if(pRecvMsg->AllPartyMemberCharacterUniqueNumber[i])
{
CIMIOCPSocket *pIISoc = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pRecvMsg->AllPartyMemberCharacterUniqueNumber[i]);
if(NULL == pIISoc
|| FALSE == pIISoc->IsValidCharacter())
{
bIsAllPartyMemberOnline = FALSE;
}
}
}
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
SendErrorMessage(T_IC_PARTY_ALL_FLIGHT_POSITION, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
// // 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 - 임시용 로그
// g_pIMGlobal->WriteSystemLogEX(TRUE, "[TEMP] 090804 Process_IC_PARTY_ALL_FLIGHT_POSITION# %s IsOn(%d) FormationTy(%d) AllOnline(%d) (%d %d %d %d %d)\r\n"
// , GetCharacterString(GetCharacter(), string()), ptmParty->m_SPartyInfo.IsAppliedFormationSkill, ptmParty->m_SPartyInfo.FormationType, bIsAllPartyMemberOnline
// , pRecvMsg->AllPartyMemberCharacterUniqueNumber[0], pRecvMsg->AllPartyMemberCharacterUniqueNumber[1], pRecvMsg->AllPartyMemberCharacterUniqueNumber[2]
// , pRecvMsg->AllPartyMemberCharacterUniqueNumber[3], pRecvMsg->AllPartyMemberCharacterUniqueNumber[4]);
ptmParty->LockIMParty();
{
if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
{
SendErrorMessage(T_IC_PARTY_ALL_FLIGHT_POSITION, ERR_PROTOCOL_PARTY_PERMISSION_DENIED
, m_character.CharacterUniqueNumber, ptmParty->GetMasterCharacterUniqueNumber());
ptmParty->UnlockIMParty();
return RES_BREAK;
}
// 파티장 체크
CIMIOCPSocket *pPartyMasterSock = ptmParty->GetMasterIMIOCPSocket();
if (pPartyMasterSock == NULL
|| !pPartyMasterSock->IsUsing())
{
SendErrorMessage(T_IC_PARTY_ALL_FLIGHT_POSITION, ERR_PROTOCOL_PARTY_MASTER_NOT_MATCHED,
ptmParty->GetMasterCharacterUniqueNumber());
ptmParty->UnlockIMParty();
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 -
if(FALSE == bIsAllPartyMemberOnline
|| 0 == pRecvMsg->AllPartyMemberCharacterUniqueNumber[SIZE_MAX_PARTY_MEMBER-1-1]
|| FLIGHT_FORM_NONE == ptmParty->m_SPartyInfo.FormationType)
{
// 편대 대형 스킬을 끄는 처리를 해야함.
if(ptmParty->m_SPartyInfo.IsAppliedFormationSkill)
{
ptmParty->m_SPartyInfo.IsAppliedFormationSkill = FALSE;
this->SendFieldServPartyChangeFormationSkill(m_character.CharacterUniqueNumber, FALSE);
}
}
else
{
// 편대 대형 스킬을 키는 처리를 해야함.
if(FALSE == ptmParty->m_SPartyInfo.IsAppliedFormationSkill)
{
ptmParty->m_SPartyInfo.IsAppliedFormationSkill = TRUE;
this->SendFieldServPartyChangeFormationSkill(m_character.CharacterUniqueNumber, TRUE, ptmParty->m_SPartyInfo.FormationType);
}
}
// 파티장으로 부터 전송받은 편대 Position 정보를 편대장을 제외한 편대원 모두에게 전송한다
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_ALL_FLIGHT_POSITION, T_IC_PARTY_ALL_FLIGHT_POSITION, pSend, tmSendBuf);
*pSend = *pRecvMsg;
ptmParty->SendMsgToMembers(tmSendBuf, MSG_SIZE(MSG_IC_PARTY_ALL_FLIGHT_POSITION), m_character.CharacterUniqueNumber);
}
ptmParty->UnlockIMParty();
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_PARTY_REQUEST_PARTYINFO_FROM_A_TO_M(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief 아레나 통합 - 아레나 종료 후 메인 서버에 왔을 때 기존 파티 검사
/// \author dhjin
/// \date 2008-02-28 ~ 2008-02-28
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_PARTY_REQUEST_PARTYINFO_FROM_A_TO_M(const char* pPacket, int nLength, int &nBytesUsed)
{
if (this->m_character.LastPartyID != 0)
{
#ifdef _DEBUG
this->SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0005);
#endif
// 파티 검색
CIMParty *pParty = ms_pIMIOCP->FindParty(this->m_character.LastPartyID);
if (pParty == NULL)
{
// 파티가 이미 해산된 경우
this->SendErrorMessage(T_FI_CONNECT_NOTIFY_GAMESTART, ERR_PROTOCOL_NO_SUCH_PARTY, this->m_character.LastPartyID);
this->SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0006);
// Update DB
QPARAM_SAVELASTPARTYID *pQSavePartyID = new QPARAM_SAVELASTPARTYID;
pQSavePartyID->CharacterUniqueNumber = this->m_character.CharacterUniqueNumber;
pQSavePartyID->LastPartyID = 0;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_SaveLastPartyID, this, pQSavePartyID);
// Update CHARACTER
this->m_character.LastPartyID = 0;
return RES_RETURN_TRUE;
}
pParty->LockIMParty();
{
IMPartyMember *pMember = pParty->GetMemberPtrByCharacterUniqueNumber(this->m_character.CharacterUniqueNumber);
if (pMember == NULL)
{
// 파티원이 없는 경우
pParty->UnlockIMParty();
return RES_RETURN_TRUE;
}
// 사용자에게 파티 정보 할당
this->SetIMParty(pParty);
// validate party member
pMember->SetOnlineMember(this);
// 자기 자신에게 보냄
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_PUT_LAST_PARTY_INFO, T_IC_PARTY_PUT_LAST_PARTY_INFO, pLastPartyInfo, pLastPartyInfoBuf);
pLastPartyInfo->PartyID = pParty->m_PartyID;
this->SendAddData(pLastPartyInfoBuf, MSG_SIZE(MSG_IC_PARTY_PUT_LAST_PARTY_INFO));
this->SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0007);
}
pParty->UnlockIMParty();
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_PARTY_LEAVE_FROM_M_TO_A(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief 아레나 통합 - 아레나 시작을 위해 메인서버에서 파티 관련 처리
/// \author dhjin
/// \date 2008-02-28 ~ 2008-02-28
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_PARTY_LEAVE_FROM_M_TO_A(const char* pPacket, int nLength, int &nBytesUsed)
{
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty)
{
ptmParty->LockIMParty();
PartyID_t partyID = ptmParty->m_PartyID;
BOOL bReted = ProcessPartyFromMainServerToArenaServerNoLock(ptmParty);
ptmParty->UnlockIMParty();
if(FALSE == bReted)
{// 파티맵에서 제거해야한다
ProcessPartyDismember(partyID);
}
///////////////////////////////////////////////////////////////////////////////
// 캐릭터의 파티 정보 삭제
this->SetIMParty(NULL);
//본섭 파티는 탈퇴 처리로 수정되어 DB저장하지 않음. 2010.09.03. by hsLee.
/*
QPARAM_SAVELASTPARTYID *pQSavePartyID = new QPARAM_SAVELASTPARTYID;
pQSavePartyID->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
pQSavePartyID->LastPartyID = partyID;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_SaveLastPartyID, this, pQSavePartyID);
*/
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_PARTY_LEAVE_FROM_A_TO_M(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief 아레나 서버에서 메인서버로 복귀할때 아레나 서버에서 파티 탈퇴 처리 클라이언트에게 전송하지 않는다.
/// \author dhjin
/// \date 2008-02-28 ~ 2008-02-28
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_PARTY_LEAVE_FROM_A_TO_M(const char* pPacket, int nLength, int &nBytesUsed)
{
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
return RES_BREAK;
}
// 2008-10-28 by dhjin, 파티관련 lock변경
ptmParty->LockIMParty();
PartyID_t partyID = ptmParty->m_PartyID;
BOOL bReted = ProcessPartyLeaveArenaEndNoLock(ptmParty);
ptmParty->UnlockIMParty();
if(FALSE == bReted)
{// 파티맵에서 제거해야한다
// 2008-10-28 by dhjin, 파티관련 lock변경 - 아래와 같이 변경
// ProcessPartyDismember(ptmParty->m_PartyID);
ProcessPartyDismember(partyID);
}
///////////////////////////////////////////////////////////////////////////////
// 캐릭터의 파티 정보 삭제
this->SetIMParty(NULL);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_PARTY_LIST_INFO(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 편대 수정 - 편대 정보 리스트 요청
/// \author dhjin
/// \date 2008-06-02 ~ 2008-06-02
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_PARTY_LIST_INFO(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_PARTY_LIST_INFO,
MSG_IC_PARTY_LIST_INFO, pMsg);
m_bArenaIMServerCheck = g_pIMGlobal->m_bArenaIMServerCheck; // 2012-04-12 by jhseol, 아레나 추가개발 - 자동파티 : 아레나 서버인지 체크
this->SendPartyListInfo(pMsg->StartNum);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_PARTY_JOIN_FREE(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 편대 수정 - 편대 자유 참여
/// \author dhjin
/// \date 2008-06-03 ~ 2008-06-03
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_PARTY_JOIN_FREE(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_PARTY_JOIN_FREE,
MSG_IC_PARTY_JOIN_FREE, pMsg);
CIMParty *pParty = ms_pIMIOCP->FindParty(pMsg->PartyNum);
if (pParty == NULL
#ifdef FREEWAR_ // 2015-11-04 DevX does not let client in free war map join a party
|| isFreeForAllMap(this->m_character.MapChannelIndex.MapIndex)
#endif
)
{
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_PROTOCOL_NO_SUCH_PARTY, pMsg->PartyNum);
return RES_BREAK;
}
pParty->LockIMParty();
//////////////////////////////////////////////////////////////////////////
// 2008-06-03 by dhjin, 파티 입장 전 체크 사항들
if(NULL != this->m_pIMParty)
{
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_PROTOCOL_PARTY_MEMBER_ALREADY_EXISTS, pMsg->PartyNum);
pParty->UnlockIMParty();
return RES_BREAK;
}
// 2008-11-06 by cmkwon, 편대 자유 참여 관련 버그 수정(E0016695) -
if(PARTY_JOIN_TYPE_FREE != pParty->m_SPartyInfo.PartyJoinType)
{
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_PROTOCOL_NO_SUCH_PARTY, pMsg->PartyNum);
pParty->UnlockIMParty();
return RES_BREAK;
}
if(pParty->m_SPartyInfo.PartyLock)
{
if(strcmp(pMsg->PartyPW, pParty->m_SPartyInfo.PartyPW))
{
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_PROTOCOL_REQ_PW_NOT_MATCHED, pMsg->PartyNum);
pParty->UnlockIMParty();
return RES_BREAK;
}
}
if(SIZE_MAX_PARTY_MEMBER <= pParty->GetMemberCount(FALSE) )
{
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_PROTOCOL_ALREADY_MAX_PARTY_MEMBER, pMsg->PartyNum);
pParty->UnlockIMParty();
return RES_BREAK;
}
if(this->m_character.InfluenceType != pParty->m_SPartyInfo.PartyInfluence)
{
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_PROTOCOL_REQ_INFLUENCE_NOT_MATCHED, pMsg->PartyNum);
pParty->UnlockIMParty();
return RES_BREAK;
}
if(this->m_character.Level < pParty->m_SPartyInfo.MinLevel)
{
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_PROTOCOL_REQ_MINLEVEL_NOT_MATCHED, pMsg->PartyNum);
pParty->UnlockIMParty();
return RES_BREAK;
}
if(this->m_character.Level > pParty->m_SPartyInfo.MaxLevel)
{
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_PROTOCOL_REQ_MAXLEVEL_NOT_MATCHED, pMsg->PartyNum);
pParty->UnlockIMParty();
return RES_BREAK;
}
CIMIOCPSocket *pMasterSocket = pParty->GetMasterIMIOCPSocket();
if(NULL == pMasterSocket || FALSE == pMasterSocket->IsValidCharacter())
{// 2008-12-16 by dhjin, EP3 거부목록 - 거부목록과 관련하여 추가 보안 코드
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_PROTOCOL_PARTY_MASTER_NOT_MATCHED);
pParty->UnlockIMParty();
return RES_BREAK;
}
if(this->IsCharacterNameFromRejectList(pMasterSocket->m_character.CharacterName)
|| pMasterSocket->IsCharacterNameFromRejectList(this->m_character.CharacterName))
{// 2008-07-03 by dhjin, EP3 거부목록 -
SendErrorMessage(T_IC_PARTY_JOIN_FREE, ERR_FRIEND_REGISTERED_PEER_REJECTLIST);
pParty->UnlockIMParty();
return RES_BREAK;
}
// party 할당
this->SetIMParty(pParty);
// party원 삽입
IMPartyMember tmMember(this->m_character.CharacterName, this->m_character.CharacterUniqueNumber, this, pParty);
pParty->PushBackMember(tmMember);
// 2008-02-28 by dhjin, 아레나 통합 - LastPartyID에 값을 저장한다.
this->m_character.LastPartyID = pMsg->PartyNum;
// send to SERVER
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_ACCEPT_INVITE_OK, T_FI_PARTY_ACCEPT_INVITE_OK, pInviteOKFI, pInviteOKFIBuf);
pInviteOKFI->PartyID = pMsg->PartyNum;
pInviteOKFI->CharacterUniqueNumber = this->m_character.CharacterUniqueNumber;
pInviteOKFI->FieldPartyInfo.nTotalPartyMember = pParty->GetMemberCount(FALSE); // 주의: m_ListPartyMember에 삽입 이후여야 함!
pInviteOKFI->FieldPartyInfo.lowestMemberLevel = pParty->GetLowestMemberLevel(); // 주의: m_ListPartyMember에 삽입 이후여야 함!
this->SendMsgToCurrentFieldServerSocket(pInviteOKFIBuf, MSG_SIZE(MSG_FI_PARTY_ACCEPT_INVITE_OK));
// client들에게 전송하기
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_ACCEPT_INVITE_OK, T_IC_PARTY_ACCEPT_INVITE_OK, pInviteOKIC, pInviteOKICBuf);
pInviteOKIC->PartyID = pMsg->PartyNum;
pInviteOKIC->IMPartyMemberInfo = this->m_character;
pParty->SendMsgToMembers(pInviteOKICBuf, MSG_SIZE(MSG_IC_PARTY_ACCEPT_INVITE_OK));
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_INFO, T_IC_PARTY_INFO, pSendMsg, pSendBuf);
pSendMsg->PartyInfo = pParty->m_SPartyInfo;
this->SendAddData(pSendBuf, MSG_SIZE(MSG_IC_PARTY_INFO));
pParty->UnlockIMParty();
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_PARTY_CHANGE_INFO(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 편대 수정 - 편대 자유 참여
/// \author dhjin
/// \date 2008-06-04 ~ 2008-06-04
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_PARTY_CHANGE_INFO(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_PARTY_CHANGE_INFO,
MSG_IC_PARTY_CHANGE_INFO, pMsg);
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
SendErrorMessage(T_IC_PARTY_CHANGE_INFO, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
// 2008-06-02 by dhjin, EP3 편대 수정 - 편대 정보
// 2009-12-29 by cmkwon, 캐릭터 최대 레벨 상향(110으로) - 아래와 같이 수정
//if(pMsg->PartyInfo.MinLevel > pMsg->PartyInfo.MaxLevel
// || pMsg->PartyInfo.MinLevel <= 0
// || pMsg->PartyInfo.MaxLevel > 100
// )
///////////////////////////////////////////////////////////////////////////////
// 2009-12-29 by cmkwon, 캐릭터 최대 레벨 상향(110으로) -
if(pMsg->PartyInfo.MinLevel > pMsg->PartyInfo.MaxLevel
|| FALSE == util::in_range(1, pMsg->PartyInfo.MinLevel, CHARACTER_MAX_LEVEL)
|| FALSE == util::in_range(1, pMsg->PartyInfo.MaxLevel, CHARACTER_MAX_LEVEL)
)
{
SendErrorMessage(T_IC_PARTY_CHANGE_INFO, ERR_PROTOCOL_REQ_LEVEL_NOT_MATCHED, pMsg->PartyInfo.MinLevel, pMsg->PartyInfo.MaxLevel);
return RES_BREAK;
}
ptmParty->LockIMParty();
if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
{
SendErrorMessage(T_IC_PARTY_CHANGE_INFO, ERR_PROTOCOL_PARTY_PERMISSION_DENIED
, m_character.CharacterUniqueNumber, ptmParty->GetMasterCharacterUniqueNumber());
ptmParty->UnlockIMParty();
return RES_BREAK;
}
if(ptmParty->m_SPartyInfo.ExpDistributeType != pMsg->PartyInfo.ExpDistributeType)
{
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_CHANGE_EXP_DISTRIBUTE_TYPE, T_FI_PARTY_CHANGE_EXP_DISTRIBUTE_TYPE, pSendMsg, pSendBuf);
pSendMsg->PartyID = ptmParty->m_PartyID;
pSendMsg->ExpDistributeType = pMsg->PartyInfo.ExpDistributeType;
this->SendMsgToCurrentFieldServerSocket(pSendBuf, MSG_SIZE(MSG_FI_PARTY_CHANGE_EXP_DISTRIBUTE_TYPE));
}
if(ptmParty->m_SPartyInfo.ItemDistributeType != pMsg->PartyInfo.ItemDistributeType)
{
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_CHANGE_ITEM_DISTRIBUTE_TYPE, T_FI_PARTY_CHANGE_ITEM_DISTRIBUTE_TYPE, pSendMsg, pSendBuf);
pSendMsg->PartyID = ptmParty->m_PartyID;
pSendMsg->ItemDistributeType = pMsg->PartyInfo.ItemDistributeType;
this->SendMsgToCurrentFieldServerSocket(pSendBuf, MSG_SIZE(MSG_FI_PARTY_CHANGE_ITEM_DISTRIBUTE_TYPE));
}
ptmParty->SetPartyInfo(&(pMsg->PartyInfo));
this->SendAddMessageType(T_IC_PARTY_CHANGE_INFO_OK);
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_INFO, T_IC_PARTY_INFO, pSendMsg, pSendBuf);
pSendMsg->PartyInfo = pMsg->PartyInfo;
ptmParty->SendMsgToMembers(pSendBuf, MSG_SIZE(MSG_IC_PARTY_INFO));
ptmParty->UnlockIMParty();
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_PARTY_RECOMMENDATION_MEMBER(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 편대 수정 - 추천 케릭터 요청
/// \author dhjin
/// \date 2008-06-04 ~ 2008-06-04
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_PARTY_RECOMMENDATION_MEMBER(const char* pPacket, int nLength, int &nBytesUsed)
{
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL)
{
SendErrorMessage(T_IC_PARTY_RECOMMENDATION_MEMBER, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
{
SendErrorMessage(T_IC_PARTY_RECOMMENDATION_MEMBER, ERR_PROTOCOL_PARTY_PERMISSION_DENIED
, m_character.CharacterUniqueNumber, ptmParty->GetMasterCharacterUniqueNumber());
ptmParty->UnlockIMParty();
return RES_BREAK;
}
ptmParty->m_bArenaIMServerCheck = g_pIMGlobal->m_bArenaIMServerCheck; // 2012-04-12 by jhseol, 아레나 추가개발 - 자동파티 : 아레나 서버인지 체크
ptmParty->SendRecommendationMember(this);
ptmParty->UnlockIMParty();
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_PARTY_GET_AUTO_PARTY_INFO(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief 인피니티 - 자동 편대
/// \author dhjin
/// \date 2009-09-09 ~ 2010
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_PARTY_GET_AUTO_PARTY_INFO(const char* pPacket, int nLength, int &nBytesUsed) {
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_PARTY_GET_AUTO_PARTY_INFO,
MSG_IC_PARTY_GET_AUTO_PARTY_INFO, pMsg);
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty == NULL
|| ptmParty->m_PartyID != pMsg->PartyID) {
SendErrorMessage(T_IC_PARTY_GET_AUTO_PARTY_INFO, ERR_PROTOCOL_NO_SUCH_PARTY);
return RES_BREAK;
}
ptmParty->LockIMParty();
// 파티 및 파티원 정보 전송
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_GET_AUTO_PARTY_INFO_OK, T_IC_PARTY_GET_AUTO_PARTY_INFO_OK, pSendMsg, pSendBuf);
pSendMsg->PartyInfo = ptmParty->m_SPartyInfo;
pSendMsg->PartyID = ptmParty->m_PartyID;
pSendMsg->MasterUniqueNumber = ptmParty->GetMasterCharacterUniqueNumber();
ptmParty->MakeMsg_IC_PARTY_PUT_ALL_MEMBER(&pSendMsg->nNumOfPartyMembers, (IM_PARTY_MEMBER_INFO*)(pSendBuf+MSG_SIZE(MSG_IC_PARTY_GET_AUTO_PARTY_INFO_OK)), m_character.CharacterUniqueNumber);
ptmParty->UnlockIMParty(); // unlock
// 데이터 전송
SendAddData(pSendBuf, MSG_SIZE(MSG_IC_PARTY_GET_AUTO_PARTY_INFO_OK) + pSendMsg->nNumOfPartyMembers*sizeof(IM_PARTY_MEMBER_INFO));
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
// Guild
ProcessResult CIMIOCPSocket::Process_IC_GUILD_CREATE(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_GUILD_CREATE *pMsgCreate = NULL;
nRecvTypeSize = sizeof(MSG_IC_GUILD_CREATE);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_GUILD_CREATE, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12023);
return RES_RETURN_FALSE;
}
pMsgCreate = (MSG_IC_GUILD_CREATE*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
if(COMPARE_INFLUENCE(m_character.InfluenceType, INFLUENCE_TYPE_NORMAL))
{// 2005-12-06 by cmkwon, 일반세력은 여단 생성 불가, 세력선택 후 여단 생성 가능
SendErrorMessage(T_IC_GUILD_CREATE, ERR_REQ_CHOOSE_INFLUENCE_TYPE);
return RES_BREAK;
}
// 여단장의 레벨 확인
if (FALSE == GCheckLimitLevel(CHECK_TYPE_GUILD_CREATE, m_character.Level))
{
SendErrorMessage(T_IC_GUILD_CREATE, ERR_PROTOCOL_REQ_LEVEL_NOT_MATCHED);
return RES_BREAK;
}
if(FALSE == CAtumSJ::IsValidGuildName(pMsgCreate->GuildName))
{
SendErrorMessage(T_IC_GUILD_CREATE, ERR_PROTOCOL_INVLID_GUILDNAME, 1, 0, pMsgCreate->GuildName);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// 2009-01-21 by cmkwon, 유효한 여단명 체크시에 욕설, 금지어도 체크 추가 -
if (FALSE == g_pIMGlobal->CheckProhibitedName(pMsgCreate->GuildName))
{
SendErrorMessage(T_IC_GUILD_CREATE, ERR_PROTOCOL_INVLID_GUILDNAME, 2, 0, pMsgCreate->GuildName);
return RES_BREAK;
}
// 2008-06-04 by dhjin, EP3 - 여단 수정 - 파티 필요없이 생성가능 밑과 같이 수정
CAtumIMDBManager::MSG_DB_GUILD_CREATE *pDBCreate = new CAtumIMDBManager::MSG_DB_GUILD_CREATE;
util::zero(pDBCreate, sizeof(CAtumIMDBManager::MSG_DB_GUILD_CREATE));
CIMParty *ptmParty = this->GetIMParty();
if (NULL == ptmParty)
{
pDBCreate->arrGuildRank[0] = GUILD_RANK_COMMANDER;
pDBCreate->arrMemberCharacterUID[0] = this->m_character.CharacterUniqueNumber;
pDBCreate->nMemberCounts = 1;
util::strncpy(pDBCreate->szGuildName, pMsgCreate->GuildName, SIZE_MAX_GUILD_NAME);
pDBCreate->uidCommanderCharacter = this->m_character.CharacterUniqueNumber;
}
else
{
ptmParty->LockIMParty();
{
if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
{
// error: 파티장 불일치, 파티장만이 길드 생성 가능
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_GUILD_CREATE, ERR_PROTOCOL_PARTY_MASTER_NOT_MATCHED);
util::del(pDBCreate);
return RES_BREAK;
}
// 초기 길드 생성 사 파티원은 최소한 1명 이상이어야 함
if (!COMPARE_RACE(m_character.Race, RACE_OPERATION | RACE_GAMEMASTER)
&& ptmParty->GetMemberCount() < 1)
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_GUILD_CREATE, ERR_PROTOCOL_NOT_ENOUGH_PARTY_MEMBER);
util::del(pDBCreate);
return RES_BREAK;
}
int nRetedErrNum = ptmParty->MakeMsg_DB_GUILD_CREATE(&pDBCreate->nMemberCounts, pDBCreate->arrMemberCharacterUID);
switch(nRetedErrNum)
{
case ERR_NO_ERROR:
{
util::strncpy(pDBCreate->szGuildName, pMsgCreate->GuildName, SIZE_MAX_GUILD_NAME);
pDBCreate->uidCommanderCharacter = ptmParty->GetMasterCharacterUniqueNumber();
}
break;
case ERR_PROTOCOL_NO_SUCH_PARTY_MEMBER:
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_GUILD_CREATE, ERR_PROTOCOL_NO_SUCH_PARTY_MEMBER, 0, 0, STRMSG_S_I2NOTIFY_0010);
util::del(pDBCreate);
return RES_BREAK;
}
case ERR_PROTOCOL_GUILD_MEMBER_ALREADY_EXISTS:
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_GUILD_CREATE, ERR_PROTOCOL_GUILD_MEMBER_ALREADY_EXISTS, 0, 0, STRMSG_S_I2NOTIFY_0011);
util::del(pDBCreate);
return RES_BREAK;
}
break;
default:
{
ptmParty->UnlockIMParty();
SendErrorMessage(T_IC_GUILD_CREATE, ERR_COMMON_UNKNOWN_ERROR);
util::del(pDBCreate);
return RES_BREAK;
}
}
}
ptmParty->UnlockIMParty();
}
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildCreate, this, pDBCreate); // DB로 인증 절차를 넘긴다.
return RES_RETURN_TRUE;
}
// check: T_IC_GUILD_GET_GUILD_INFO로 통합, 필요하면 살림, 20040520, kelovon
//ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_MEMBER(const char* pPacket, int nLength, int &nBytesUsed)
//{
//
// assert(0);
//
// return RES_RETURN_TRUE;
//}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_GUILD_INFO(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_GET_GUILD_INFO,
MSG_IC_GUILD_GET_GUILD_INFO, pMsgGetGuildInfo);
if (FALSE == IS_VALID_UNIQUE_NUMBER(this->m_uidGuildUniqueNumber)
|| this->m_uidGuildUniqueNumber != pMsgGetGuildInfo->GuildUniqueNumber)
{
SendErrorMessage(T_IC_GUILD_GET_GUILD_INFO, ERR_PROTOCOL_NO_SUCH_GUILD
, this->m_uidGuildUniqueNumber, pMsgGetGuildInfo->GuildUniqueNumber);
return RES_BREAK;
}
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(this->m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
SendErrorMessage(T_IC_GUILD_GET_GUILD_INFO, ERR_PROTOCOL_NO_SUCH_GUILD, pMsgGetGuildInfo->GuildUniqueNumber, this->m_uidGuildUniqueNumber);
ms_pIMIOCP->m_MapGuild.unlock();
return RES_BREAK;
}
ptmGuild->Send_MSG_IC_GUILD_GET_GUILD_INFO_OK(this);
}
ms_pIMIOCP->m_MapGuild.unlock();
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_REQUEST_INVITE(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_REQUEST_INVITE,
MSG_IC_GUILD_REQUEST_INVITE, pMsgInvite);
if (FALSE == IS_VALID_UNIQUE_NUMBER(this->m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_PROTOCOL_NO_SUCH_GUILD);
return RES_BREAK;
}
CIMIOCPSocket *pInviteeSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(pMsgInvite->InviteeCharacterName);
if (NULL == pInviteeSocket
|| FALSE == pInviteeSocket->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_COMMON_NO_SUCH_CHARACTER);
return RES_BREAK;
}
CIMIOCPSocket *pCharacterSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(m_character.CharacterUniqueNumber);
if (pCharacterSocket == NULL || FALSE == pCharacterSocket->IsUsing())
{
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_COMMON_NO_SUCH_CHARACTER, m_character.CharacterUniqueNumber);
return RES_BREAK;
}
if (IS_VALID_UNIQUE_NUMBER(pInviteeSocket->m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_PROTOCOL_CANNOT_INVITE_USER);
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0012);
return RES_BREAK;
}
if(FALSE == GCheckRaceAndInfluenceType(CHECK_TYPE_GUILD_JOIN, m_character.Race, m_character.InfluenceType,
pInviteeSocket->GetCharacter()->Race, pInviteeSocket->GetCharacter()->InfluenceType))
{// 2005-12-07 by cmkwon, 일반세력은 여단 초대 불가, 다른 세력간은 초대 불가, 세력선택 후 여단 초대 가능
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_PROTOCOL_CANNOT_INVITE_USER);
return RES_BREAK;
}
if (strnicmp(pMsgInvite->InviteeCharacterName, m_character.CharacterName, SIZE_MAX_CHARACTER_NAME) == 0)
{
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_PROTOCOL_CANNOT_INVITE_USER);
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0013);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_REQUEST_INVITE_QUESTION, T_IC_GUILD_REQUEST_INVITE_QUESTION, msgInviteQuestion, SendBuf);
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_COMMON_NO_SUCH_CHARACTER);
return RES_BREAK;
}
// 2008-05-28 by dhjin, EP3 여단 수정 사항 -
CGuildMember *pMember = NULL;
if(!ptmGuild->GetGuildMember(this->m_character.CharacterUniqueNumber, pMember))
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if (FALSE == ptmGuild->IsGuildCommander(m_character.CharacterUniqueNumber)
&& GUILD_RANK_SUBCOMMANDER != pMember->m_Rank)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
if (ptmGuild->m_GuildState != GUILD_STATE_NORMAL)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0014);
return RES_BREAK;
}
// 2006-09-19 by dhjin, 여단 인원 캐쉬 아이템 삭제
// if (ptmGuild->m_nGuildMemberCapacity <= ptmGuild->m_ListGuildMember.size()
// || CAtumSJ::GetMaxGuildSize(pCharacterSocket->IsExistPremiumCard()) <= ptmGuild->m_ListGuildMember.size())
if (CAtumSJ::GetMaxGuildSize(ptmGuild->m_nGuildMemberCapacity, pCharacterSocket->IsExistPremiumCard()) <= ptmGuild->m_ListGuildMember.size()) // 2008-05-28 by dhjin, EP3 여단 수정 사항 - 여단원 증가 캐쉬 아이템
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0015);
return RES_BREAK;
}
// msg setting
util::strncpy(msgInviteQuestion->GuildName, ptmGuild->m_GuildName, SIZE_MAX_GUILD_NAME);
msgInviteQuestion->GuildUniqueNumber = ptmGuild->m_GuildUniqueNumber;
}
ms_pIMIOCP->m_MapGuild.unlock();
if(this->IsUsing() && pInviteeSocket->IsUsing())
{
util::strncpy(msgInviteQuestion->GuildCommanderCharacterName, m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
pInviteeSocket->SendAddData(SendBuf, MSG_SIZE(MSG_IC_GUILD_REQUEST_INVITE_QUESTION));
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_ACCEPT_INVITE(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_GUILD_ACCEPT_INVITE *pMsgAccept = NULL;
nRecvTypeSize = sizeof(MSG_IC_GUILD_ACCEPT_INVITE);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_GUILD_ACCEPT_INVITE, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x12026);
return RES_RETURN_FALSE;
}
pMsgAccept = new MSG_IC_GUILD_ACCEPT_INVITE;
*pMsgAccept = *(MSG_IC_GUILD_ACCEPT_INVITE*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(pMsgAccept->GuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_ACCEPT_INVITE, ERR_PROTOCOL_NOT_HAVE_GUILD);
util::del(pMsgAccept);
return RES_BREAK;
}
CGuildMember *pMember = NULL;
// Start 2012-01-05 by shcho, 게임 4G bugFix 길드가 있으므로 성공하면 안되는 처리 - 이미 여단에 가입된 유저 동시에 가입 버튼 눌럿을 경우 추가
if(NULL != m_character.GuildUniqueNumber) // 길드가 있는 사람이다.
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_PROTOCOL_CANNOT_INVITE_USER);
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0016);
util::del(pMsgAccept);
return RES_BREAK;
}
// End 2012-01-05 by shcho, 게임 4G bugFix 길드가 있으므로 성공하면 안되는 처리 - 이미 여단에 가입된 유저 동시에 가입 버튼 눌럿을 경우 추가
BOOL ret = ptmGuild->GetGuildMember(m_character.CharacterUniqueNumber, pMember);
if (ret)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_ACCEPT_INVITE, ERR_PROTOCOL_GUILD_MEMBER_ALREADY_EXISTS);
util::del(pMsgAccept);
return RES_BREAK;
}
if (ptmGuild->m_GuildState != GUILD_STATE_NORMAL)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0016);
util::del(pMsgAccept);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// 2007-01-31 by cmkwon, 여단원 최대 카운트 체크
// 2008-07-18 by dhjin, EP3 - 여단 수정 사항 - 밑과 같이 수정
// CGuildMember *ptmGMember = NULL;
// ptmGuild->GetGuildMember(ptmGuild->m_CommanderUniqueNumber, ptmGMember);
// if(NULL == ptmGMember
// || NULL == ptmGMember->m_pIMIOCPSocket
// || FALSE == ptmGMember->m_pIMIOCPSocket->IsValidCharacter())
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_GUILD_REQUEST_INVITE, ERR_COMMON_NO_SUCH_CHARACTER);
// util::del(pMsgAccept);
// return RES_BREAK;
// }
// if (CAtumSJ::GetMaxGuildSize(ptmGuild->m_nGuildMemberCapacity, ptmGMember->m_pIMIOCPSocket->IsExistPremiumCard()) <= ptmGuild->m_ListGuildMember.size()) // 2008-05-28 by dhjin, EP3 여단 수정 사항 - 여단원 증가 캐쉬 아이템
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0015);
// util::del(pMsgAccept);
// return RES_BREAK;
// }
CGuildMember *ptmGMember = NULL;
ptmGuild->GetGuildMember(ptmGuild->m_CommanderUniqueNumber, ptmGMember);
if(NULL == ptmGMember)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_ACCEPT_INVITE, ERR_COMMON_NO_SUCH_CHARACTER);
util::del(pMsgAccept);
return RES_BREAK;
}
if (CAtumSJ::GetMaxGuildSize(ptmGuild->m_nGuildMemberCapacity, ptmGuild->m_bMemberShip) <= ptmGuild->m_ListGuildMember.size()) // 2008-05-28 by dhjin, EP3 여단 수정 사항 - 여단원 증가 캐쉬 아이템
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0015);
util::del(pMsgAccept);
return RES_BREAK;
}
}
ms_pIMIOCP->m_MapGuild.unlock();
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildAddMember, this, pMsgAccept);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_REJECT_INVITE(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_REJECT_INVITE,
MSG_IC_GUILD_REJECT_INVITE, pMsgReject);
UID32_t uidGuildMaster = INVALID_GUILD_UID;
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(pMsgReject->GuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_REJECT_INVITE, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
uidGuildMaster = ptmGuild->m_CommanderUniqueNumber;
}
ms_pIMIOCP->m_MapGuild.unlock();
CIMIOCPSocket *pMasterSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(uidGuildMaster);
if (NULL == pMasterSocket || FALSE == pMasterSocket->IsUsing())
{
SendErrorMessage(T_IC_GUILD_REJECT_INVITE, ERR_COMMON_NO_SUCH_CHARACTER);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_REJECT_INVITE_OK, T_IC_GUILD_REJECT_INVITE_OK, msgRejectOK, SendBuf);
util::strncpy(msgRejectOK->CharacterName, m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
pMasterSocket->SendAddData(SendBuf, MSG_SIZE(MSG_IC_GUILD_REJECT_INVITE_OK));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_LEAVE(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_LEAVE,
MSG_IC_GUILD_LEAVE, pMsgLeave);
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_LEAVE, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_LEAVE, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if (m_character.CharacterUniqueNumber == ptmGuild->m_CommanderUniqueNumber)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_LEAVE, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0017);
return RES_BREAK;
}
if (ptmGuild->m_GuildState == GUILD_STATE_IN_GUILD_WAR)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0018);
return RES_BREAK;
}
if (pMsgLeave->GuildUniqueNumber != ptmGuild->m_GuildUniqueNumber)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_LEAVE, ERR_PROTOCOL_GUILD_NOT_MATCHED);
return RES_BREAK;
}
CGuildMember *pRetMember = NULL;
BOOL bRet = ptmGuild->GetGuildMember(m_character.CharacterUniqueNumber, pRetMember);
if (!bRet)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_LEAVE, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
}
ms_pIMIOCP->m_MapGuild.unlock();
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildLeaveMember, this, NULL, NULL,
m_character.CharacterUniqueNumber, this->m_uidGuildUniqueNumber);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_BAN_MEMBER(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_BAN_MEMBER,
MSG_IC_GUILD_BAN_MEMBER, pMsgBan);
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_BAN_MEMBER, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_BAN_MEMBER, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
CGuildMember *pMySelfMember = NULL;
if(!ptmGuild->GetGuildMember(this->m_character.CharacterUniqueNumber, pMySelfMember))
{// 2008-06-17 by dhjin, EP3 - 여단 수정 사항 -
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_BAN_MEMBER, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber
&& GUILD_RANK_SUBCOMMANDER != pMySelfMember->m_Rank // 2008-06-17 by dhjin, EP3 - 여단 수정 사항 -
)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_BAN_MEMBER, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
if (ptmGuild->m_GuildState == GUILD_STATE_IN_GUILD_WAR)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0019);
return RES_BREAK;
}
if (pMsgBan->MemberUniqueNumber == ptmGuild->m_CommanderUniqueNumber)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_BAN_MEMBER, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0020);
return RES_BREAK;
}
CGuildMember *pRetMember = NULL;
BOOL bRet = ptmGuild->GetGuildMember(pMsgBan->MemberUniqueNumber, pRetMember);
if (!bRet)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_BAN_MEMBER, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
}
ms_pIMIOCP->m_MapGuild.unlock();
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildBanMember, this, NULL, NULL, pMsgBan->MemberUniqueNumber, m_uidGuildUniqueNumber);
return RES_RETURN_TRUE;
}
// 2007-11-12 by dhjin, Process_IC_GUILD_DISMEMBER 함수명은 변경없이 T_FI_GUILD_DISMEMBER로 변경
ProcessResult CIMIOCPSocket::Process_IC_GUILD_DISMEMBER(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_IC_GUILD_DISMEMBER Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_FI_GUILD_DISMEMBER,
MSG_FI_GUILD_DISMEMBER, pMsgDismember);
if (FALSE == IS_VALID_UNIQUE_NUMBER(pMsgDismember->GuildUniqueNumber))
{
SendErrorMessage(T_FC_GUILD_DISMEMBER, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(pMsgDismember->GuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_FC_GUILD_DISMEMBER, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if (ptmGuild->m_GuildState == GUILD_STATE_IN_GUILD_WAR)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0021);
return RES_BREAK;
}
// 2007-11-12 by dhjin, Field서버에서 체크
// if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_GUILD_DISMEMBER, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
// return RES_BREAK;
// }
//
// if (pMsgDismember->GuildUniqueNumber != ptmGuild->m_GuildUniqueNumber)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_GUILD_DISMEMBER, ERR_PROTOCOL_NO_SUCH_GUILD);
// return RES_BREAK;
// }
}
ms_pIMIOCP->m_MapGuild.unlock();
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildDismember, this, NULL, NULL, pMsgDismember->GuildUniqueNumber);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_CANCEL_DISMEMBER(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_CANCEL_DISMEMBER,
MSG_IC_GUILD_CANCEL_DISMEMBER, pMsgCancelDismember);
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_CANCEL_DISMEMBER, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_CANCEL_DISMEMBER, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_CANCEL_DISMEMBER, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
if (pMsgCancelDismember->GuildUniqueNumber != ptmGuild->m_GuildUniqueNumber)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_CANCEL_DISMEMBER, ERR_PROTOCOL_NO_SUCH_GUILD);
return RES_BREAK;
}
if (ptmGuild->m_GuildState != GUILD_STATE_DISMEMBER_READY)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_CANCEL_DISMEMBER, ERR_PROTOCOL_NO_SUCH_GUILD);
return RES_BREAK;
}
}
ms_pIMIOCP->m_MapGuild.unlock();
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildCancelDismember, this, NULL, NULL, pMsgCancelDismember->GuildUniqueNumber);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_DISMEMBER_DATE(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_GET_DISMEMBER_DATE,
MSG_IC_GUILD_GET_DISMEMBER_DATE, pMsgGetDate);
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_GET_DISMEMBER_DATE, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_GET_DISMEMBER_DATE_OK, T_IC_GUILD_GET_DISMEMBER_DATE_OK, msgGetDateOK, msgGetDateOKBuf);
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_GET_DISMEMBER_DATE, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if (pMsgGetDate->GuildUniqueNumber != ptmGuild->m_GuildUniqueNumber)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_GET_DISMEMBER_DATE, ERR_PROTOCOL_NO_SUCH_GUILD);
return RES_BREAK;
}
msgGetDateOK->DismemberDateTime = ptmGuild->m_DismemberDate;
}
ms_pIMIOCP->m_MapGuild.unlock();
SendAddData(msgGetDateOKBuf, MSG_SIZE(MSG_IC_GUILD_GET_DISMEMBER_DATE_OK));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_CHANGE_GUILD_NAME(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_CHANGE_GUILD_NAME,
MSG_IC_GUILD_CHANGE_GUILD_NAME, pMsgChangeGuildName);
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_CHANGE_GUILD_NAME, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_CHANGE_GUILD_NAME, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_CHANGE_GUILD_NAME, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
if (strnicmp(ptmGuild->m_GuildName, pMsgChangeGuildName->NewGuildName, SIZE_MAX_GUILD_NAME) == 0)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0022);
return RES_BREAK;
}
if (ptmGuild->m_GuildState != GUILD_STATE_NORMAL)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0023);
return RES_BREAK;
}
}
ms_pIMIOCP->m_MapGuild.unlock();
QPARAM_CHANGE_GUILD_NAME *pQParamChangeGuildName = new QPARAM_CHANGE_GUILD_NAME;
pQParamChangeGuildName->GuildUniqueNumber = m_uidGuildUniqueNumber;
util::strncpy(pQParamChangeGuildName->NewGuildName, pMsgChangeGuildName->NewGuildName, SIZE_MAX_GUILD_NAME);
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildChangeGuildName, this, pQParamChangeGuildName, NULL, 0, m_uidGuildUniqueNumber);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_GUILD_MARK(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_GET_GUILD_MARK,
MSG_IC_GUILD_GET_GUILD_MARK, pMsgGetGuildMark);
if(FALSE == IS_VALID_UNIQUE_NUMBER(pMsgGetGuildMark->GuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_GET_GUILD_MARK, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_GET_GUILD_MARK_OK, T_IC_GUILD_GET_GUILD_MARK_OK, msgGetMarkOK, msgGetMarkOKBuf);
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(pMsgGetGuildMark->GuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
// 2005-12-02 by cmkwon, 필요 없음
// SendErrorMessage(T_IC_GUILD_GET_GUILD_MARK, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if (ptmGuild->m_GuildMark.nGuildMarkSize <= 0
|| ptmGuild->m_GuildMark.nGuildMarkSize > 1300 // 2007-08-02 by cmkwon, 버퍼 사이즈는 SIZE_MAX_GUILD_MARK_IMAGE이지만 소켓 최대사이즈(SIZE_MAX_PACKET)보다 작아야 하므로 임의로 1300Bytes로 체크함
|| ptmGuild->m_GuildMark.nGuildMarkVersion == 0)
{
ms_pIMIOCP->m_MapGuild.unlock();
return RES_BREAK;
}
if(GUILD_MARK_STATE_NORMAL != ptmGuild->m_GuildMark.byGuildMarkState)
{// 2007-08-02 by cmkwon, 여단 마크 심사 시스템 구현 - 여단마크상태 체크
ms_pIMIOCP->m_MapGuild.unlock();
return RES_BREAK;
}
msgGetMarkOK->GuildUniqueNumber = ptmGuild->m_GuildUniqueNumber;
msgGetMarkOK->GuildMarkVersion = ptmGuild->m_GuildMark.nGuildMarkVersion;
msgGetMarkOK->SizeOfGuildMark = ptmGuild->m_GuildMark.nGuildMarkSize;
memcpy(msgGetMarkOKBuf+MSG_SIZE(MSG_IC_GUILD_GET_GUILD_MARK_OK), ptmGuild->m_GuildMark.GuildMarkImage, ptmGuild->m_GuildMark.nGuildMarkSize);
}
ms_pIMIOCP->m_MapGuild.unlock();
SendAddData(msgGetMarkOKBuf, MSG_SIZE(MSG_IC_GUILD_GET_GUILD_MARK_OK)+msgGetMarkOK->SizeOfGuildMark);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_SET_GUILD_MARK(const char *pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_GUILD_SET_GUILD_MARK *msgSetGuildMark = NULL;
nRecvTypeSize = sizeof(MSG_IC_GUILD_SET_GUILD_MARK)
+ ((MSG_IC_GUILD_SET_GUILD_MARK*)(pPacket + nBytesUsed))->SizeOfGuildMark;
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_GUILD_SET_GUILD_MARK, ERR_PROTOCOL_INVALID_FIELD_DATA);
return RES_RETURN_FALSE;
}
msgSetGuildMark = (MSG_IC_GUILD_SET_GUILD_MARK*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize + msgSetGuildMark->SizeOfGuildMark;
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_SET_GUILD_MARK, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_SET_GUILD_MARK, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if (ptmGuild->m_GuildState != GUILD_STATE_NORMAL)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0024);
return RES_BREAK;
}
if(FALSE == util::in_range(0, msgSetGuildMark->SizeOfGuildMark, 1300))
{// 2007-08-02 by cmkwon, 버퍼 사이즈는 SIZE_MAX_GUILD_MARK_IMAGE이지만 소켓 최대사이즈(SIZE_MAX_PACKET)보다 작아야 하므로 임의로 1300Bytes로 체크함
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_SET_GUILD_MARK, ERR_PROTOCOL_INVLID_GuildMarkSize);
return RES_BREAK;
}
if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_SET_GUILD_MARK, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
// 2007-08-02 by cmkwon, 여단 마크 심사 시스템 구현 - 여기에서 할당하지 않고 QP_GuildSetGuildMark()에서 할당하는 것으로 변경한다
//memcpy(ptmGuild->m_GuildMark.GuildMarkImage, ((char*)msgSetGuildMark)+sizeof(MSG_IC_GUILD_SET_GUILD_MARK), msgSetGuildMark->SizeOfGuildMark);
}
ms_pIMIOCP->m_MapGuild.unlock();
///////////////////////////////////////////////////////////////////////////////
// 2007-08-02 by cmkwon, 여단 마크 심사 시스템 구현 - 여기에서 할당하지 않고 QP_GuildSetGuildMark()에서 할당하는 것으로 변경한다
GUILD_MARK *pGuildMark = new GUILD_MARK;
pGuildMark->nGuildMarkSize = msgSetGuildMark->SizeOfGuildMark;
memcpy(pGuildMark->GuildMarkImage, ((char*)msgSetGuildMark)+sizeof(MSG_IC_GUILD_SET_GUILD_MARK), msgSetGuildMark->SizeOfGuildMark);
pGuildMark->byGuildMarkState = GUILD_MARK_STATE_NORMAL;
if(0 >= msgSetGuildMark->SizeOfGuildMark)
{
pGuildMark->byGuildMarkState = GUILD_MARK_STATE_NONE;
}
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildSetGuildMark, this, pGuildMark, NULL, m_uidGuildUniqueNumber);
// 2007-08-02 by cmkwon, 여단 마크 심사 시스템 구현 - 기본값 허용
// ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildSetGuildMark, this, NULL, NULL,
// m_uidGuildUniqueNumber, msgSetGuildMark->SizeOfGuildMark);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_SET_RANK(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_SET_RANK,
MSG_IC_GUILD_SET_RANK, pMsgSetRank);
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_GUILD_SET_RANK, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_SET_RANK, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
CGuildMember *pMySelfMember = NULL;
if(!ptmGuild->GetGuildMember(this->m_character.CharacterUniqueNumber, pMySelfMember))
{// 2008-06-17 by dhjin, EP3 - 여단 수정 사항 -
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_SET_RANK, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber
&& GUILD_RANK_SUBCOMMANDER != pMySelfMember->m_Rank // 2008-06-17 by dhjin, EP3 - 여단 수정 사항 -
)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_SET_RANK, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
if(GUILD_RANK_SUBCOMMANDER == pMySelfMember->m_Rank
&& (GUILD_RANK_COMMANDER == pMsgSetRank->GuildRank
|| GUILD_RANK_SUBCOMMANDER == pMsgSetRank->GuildRank)
)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_SET_RANK, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
if (ptmGuild->m_GuildState != GUILD_STATE_NORMAL)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0025);
return RES_BREAK;
}
CGuildMember *pMember = NULL;
BOOL ret = ptmGuild->GetGuildMember(pMsgSetRank->MemberUniqueNumber, pMember);
if (!ret)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_GUILD_SET_RANK, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if (!ptmGuild->CheckRank(pMsgSetRank->MemberUniqueNumber, pMsgSetRank->GuildRank)
&& GUILD_RANK_SUBCOMMANDER != pMsgSetRank->GuildRank // 2008-06-17 by dhjin, EP3 - 여단 수정 사항 -
)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0026);
//////////////////////////////////////////////////////////////////////////
// 2008-06-17 by dhjin, EP3 - 여단 수정 사항 - 클라이언트 요청으로 정보 보내준다.
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_SET_RANK_OK, T_IC_GUILD_SET_RANK_OK, msgRank, msgRankBuf);
msgRank->MemberUniqueNumber = pMsgSetRank->MemberUniqueNumber;
msgRank->GuildRank = pMsgSetRank->GuildRank;
this->SendAddData(msgRankBuf, MSG_SIZE(MSG_IC_GUILD_SET_RANK_OK));
return RES_BREAK;
}
if (pMsgSetRank->GuildRank == GUILD_RANK_COMMANDER)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0027);
return RES_BREAK;
}
if (pMember->m_Rank == GUILD_RANK_COMMANDER)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0028);
return RES_BREAK;
}
if(GUILD_RANK_SUBCOMMANDER == pMsgSetRank->GuildRank)
{// 2008-06-17 by dhjin, EP3 - 여단 수정 사항 -
CGuildMember *pSubCommander = NULL;
if(ptmGuild->GetGuildMemberByRank(GUILD_RANK_SUBCOMMANDER, pSubCommander))
{
pSubCommander->m_Rank = GUILD_RANK_PRIVATE_NULL;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildSetRank, this, NULL
, (void*)GUILD_RANK_PRIVATE_NULL, pSubCommander->m_CharacterUniqueNumber, m_uidGuildUniqueNumber);
}
}
pMember->m_Rank = pMsgSetRank->GuildRank;
}
ms_pIMIOCP->m_MapGuild.unlock();
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildSetRank, this, NULL
, (void*)pMsgSetRank->GuildRank, pMsgSetRank->MemberUniqueNumber, m_uidGuildUniqueNumber);
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_OTHER_GUILD_INFO(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_GET_OTHER_GUILD_INFO,
MSG_IC_GUILD_GET_OTHER_GUILD_INFO, msgGetOtherGuildInfo);
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(msgGetOtherGuildInfo->GuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
// 2005-12-02 by cmkwon, 필요없음
// SendErrorMessage(T_IC_GUILD_GET_OTHER_GUILD_INFO, ERR_PROTOCOL_NO_SUCH_GUILD, msgGetOtherGuildInfo->GuildUniqueNumber);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_GET_OTHER_GUILD_INFO_OK, T_IC_GUILD_GET_OTHER_GUILD_INFO_OK,
msgGetOK, msgGetOKBuf);
msgGetOK->OtherGuildMemberInfo = *ptmGuild;
SendAddData(msgGetOKBuf, MSG_SIZE(MSG_IC_GUILD_GET_OTHER_GUILD_INFO_OK));
}
ms_pIMIOCP->m_MapGuild.unlock();
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_GUILD_SURRENDER_GUILD_WAR(const char *pPacket, int nLength, int &nBytesUsed)
{
ms_pIMIOCP->GuildWarEnd(BATTLE_END_SURRENDER, this->m_uidGuildUniqueNumber);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_NEW_COMMANDER(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 여단장 위임
/// \author dhjin
/// \date 2008-05-21 ~ 2008-05-21
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_NEW_COMMANDER(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_NEW_COMMANDER,
MSG_IC_GUILD_NEW_COMMANDER, pRMsg);
if(NULL == this
|| !this->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_NEW_COMMANDER, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(this->m_character.GuildUniqueNumber);
if (NULL == pGuild)
{// 여단 정보가 없다
SendErrorMessage(T_IC_GUILD_NEW_COMMANDER, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
if(this->m_character.CharacterUniqueNumber != pGuild->m_CommanderUniqueNumber)
{
SendErrorMessage(T_IC_GUILD_NEW_COMMANDER, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildUpdateCommander, this, NULL, (void*)pRMsg->NewCommanderUID);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_NOTICE_WRITE(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 여단 공지
/// \author dhjin
/// \date 2008-05-21 ~ 2008-05-21
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_NOTICE_WRITE(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_NOTICE_WRITE,
MSG_IC_GUILD_NOTICE_WRITE, pRMsg);
if(NULL == this
|| !this->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_NOTICE_WRITE, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(this->m_character.GuildUniqueNumber);
if (NULL == pGuild)
{// 여단 정보가 없다
SendErrorMessage(T_IC_GUILD_NOTICE_WRITE, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
CGuildMember *pMember = NULL;
if(!pGuild->GetGuildMember(this->m_character.CharacterUniqueNumber, pMember))
{
SendErrorMessage(T_IC_GUILD_NOTICE_WRITE, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if(this->m_character.CharacterUniqueNumber != pGuild->m_CommanderUniqueNumber
&& GUILD_RANK_SUBCOMMANDER != pMember->m_Rank)
{
SendErrorMessage(T_IC_GUILD_NOTICE_WRITE, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
QPARAM_GUILD_NOTICE *pQParam = new QPARAM_GUILD_NOTICE;
util::strncpy(pQParam->Notice, pRMsg->Notice, SIZE_MAX_NOTICE);
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildNotice, this, pQParam);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_APPLICANT(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 지원자 관리
/// \author dhjin
/// \date 2008-05-27 ~ 2008-05-27
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_APPLICANT(const char* pPacket, int nLength, int &nBytesUsed)
{
if(NULL == this
|| !this->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_GET_APPLICANT, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(this->m_character.GuildUniqueNumber);
if (NULL == pGuild)
{// 여단 정보가 없다
SendErrorMessage(T_IC_GUILD_GET_APPLICANT, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
CGuildMember *pMember = NULL;
if(!pGuild->GetGuildMember(this->m_character.CharacterUniqueNumber, pMember))
{
SendErrorMessage(T_IC_GUILD_GET_APPLICANT, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if(this->m_character.CharacterUniqueNumber != pGuild->m_CommanderUniqueNumber
&& GUILD_RANK_SUBCOMMANDER != pMember->m_Rank)
{
SendErrorMessage(T_IC_GUILD_GET_APPLICANT, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildGetApplicant, this, NULL);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_INTRODUCTION(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 여단 소개
/// \author dhjin
/// \date 2008-05-27 ~ 2008-05-27
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_INTRODUCTION(const char* pPacket, int nLength, int &nBytesUsed)
{
if(NULL == this
|| !this->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_GET_INTRODUCTION, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(this->m_character.GuildUniqueNumber);
if (NULL == pGuild)
{// 여단 정보가 없다
SendErrorMessage(T_IC_GUILD_GET_INTRODUCTION, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
CGuildMember *pMember = NULL;
if(!pGuild->GetGuildMember(this->m_character.CharacterUniqueNumber, pMember))
{
SendErrorMessage(T_IC_GUILD_GET_INTRODUCTION, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if(this->m_character.CharacterUniqueNumber != pGuild->m_CommanderUniqueNumber
&& GUILD_RANK_SUBCOMMANDER != pMember->m_Rank)
{
SendErrorMessage(T_IC_GUILD_GET_INTRODUCTION, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
pGuild->CheckOldIntroductionContent();
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_GET_INTRODUCTION_OK, T_IC_GUILD_GET_INTRODUCTION_OK, pMsg, SendBuf);
util::strncpy(pMsg->GuildIntroduction, pGuild->GetGuildIntroduction(), SIZE_MAX_NOTICE);
this->SendAddData(SendBuf, MSG_SIZE(MSG_IC_GUILD_GET_INTRODUCTION_OK));
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_SELF_INTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 여단 지원자 소개서
/// \author dhjin
/// \date 2008-05-27 ~ 2008-05-27
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_GET_SELF_INTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_GET_SELF_INTRODUCTION,
MSG_IC_GUILD_GET_SELF_INTRODUCTION, pRMsg);
if(NULL == this
|| !this->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_GET_SELF_INTRODUCTION, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GetSelfIntroduction, this, NULL, (void*)pRMsg->CharacterUID);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult Process_IC_GUILD_SEARCH_INTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 여단 소개 검색
/// \author dhjin
/// \date 2008-05-27 ~ 2008-05-27
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_SEARCH_INTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
{
if(NULL == this
|| !this->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_SEARCH_INTRODUCTION, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildSearchIntroduction, this, NULL);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_UPDATE_INTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 여단 소개 작성
/// \author dhjin
/// \date 2008-05-28 ~ 2008-05-28
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_UPDATE_INTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_UPDATE_INTRODUCTION,
MSG_IC_GUILD_UPDATE_INTRODUCTION, pRMsg);
if(NULL == this
|| !this->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_UPDATE_INTRODUCTION, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(this->m_character.GuildUniqueNumber);
if (NULL == pGuild)
{// 여단 정보가 없다
SendErrorMessage(T_IC_GUILD_UPDATE_INTRODUCTION, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
CGuildMember *pMember = NULL;
if(!pGuild->GetGuildMember(this->m_character.CharacterUniqueNumber, pMember))
{
SendErrorMessage(T_IC_GUILD_UPDATE_INTRODUCTION, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if(this->m_character.CharacterUniqueNumber != pGuild->m_CommanderUniqueNumber
&& GUILD_RANK_SUBCOMMANDER != pMember->m_Rank)
{
SendErrorMessage(T_IC_GUILD_UPDATE_INTRODUCTION, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
SGUILD_INTRODUCTION NewGuldIntroduction;
util::zero(&NewGuldIntroduction, sizeof(SGUILD_INTRODUCTION));
util::strncpy(NewGuldIntroduction.IntroductionContent, pRMsg->GuildIntroduction, SIZE_MAX_NOTICE);
NewGuldIntroduction.RegDate.SetCurrentDateTime();
pGuild->SetGuildIntroduction(&NewGuldIntroduction);
QPARAM_GUILD_UPDATE_INTRODUCTION *pQParam = new QPARAM_GUILD_UPDATE_INTRODUCTION;
util::strncpy(pQParam->GuildIntroduction, pRMsg->GuildIntroduction, SIZE_MAX_NOTICE);
pQParam->WriteDate = NewGuldIntroduction.RegDate;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildUpdateIntroduction, this, pQParam);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_DELETE_INTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 여단 소개 지우기
/// \author dhjin
/// \date 2008-05-28 ~ 2008-05-28
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_DELETE_INTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
{
if(NULL == this
|| !this->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_DELETE_INTRODUCTION, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *pGuild = ms_pIMIOCP->m_MapGuild.findLock(this->m_character.GuildUniqueNumber);
if (NULL == pGuild)
{// 여단 정보가 없다
SendErrorMessage(T_IC_GUILD_DELETE_INTRODUCTION, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
CGuildMember *pMember = NULL;
if(!pGuild->GetGuildMember(this->m_character.CharacterUniqueNumber, pMember))
{
SendErrorMessage(T_IC_GUILD_DELETE_INTRODUCTION, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if(this->m_character.CharacterUniqueNumber != pGuild->m_CommanderUniqueNumber
&& GUILD_RANK_SUBCOMMANDER != pMember->m_Rank)
{
SendErrorMessage(T_IC_GUILD_DELETE_INTRODUCTION, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
pGuild->InitGuildIntroduction();
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildDeleteIntroduction, NULL, NULL, (void*)pGuild->m_GuildUniqueNumber);
this->SendAddMessageType(T_IC_GUILD_DELETE_INTRODUCTION_OK);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_UPDATE_SELFINTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 자기 소개 작성
/// \author dhjin
/// \date 2008-05-28 ~ 2008-05-28
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_UPDATE_SELFINTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_UPDATE_SELFINTRODUCTION,
MSG_IC_GUILD_UPDATE_SELFINTRODUCTION, pRMsg);
if(NULL == this
|| !this->IsValidCharacter()
|| IS_VALID_UNIQUE_NUMBER(this->m_character.GuildUniqueNumber)
|| COMPARE_INFLUENCE(m_character.InfluenceType, INFLUENCE_TYPE_NORMAL)
)
{
SendErrorMessage(T_IC_GUILD_UPDATE_SELFINTRODUCTION, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
QPARAM_GUILD_UPDATE_SELFINTRODUCTION *pQParam = new QPARAM_GUILD_UPDATE_SELFINTRODUCTION;
pQParam->TargetGuildUID = pRMsg->TargetGuildUID;
util::strncpy(pQParam->SelfIntroduction, pRMsg->SelfIntroduction, SIZE_MAX_NOTICE);
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildUpdateSelfIntroduction, this, pQParam);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_DELETE_SELFINTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 자기 소개 지우기
/// \author dhjin
/// \date 2008-05-28 ~ 2008-05-28
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_DELETE_SELFINTRODUCTION(const char *pPacket, int nLength, int &nBytesUsed)
{
if(NULL == this
|| !this->IsValidCharacter())
{
SendErrorMessage(T_IC_GUILD_DELETE_SELFINTRODUCTION, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildDeleteSelfIntroduction, this, NULL);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_APPLICANT_INVITE(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 지원자 관리에서 여단원 초대
/// \author dhjin
/// \date 2008-06-12 ~ 2008-06-12
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_APPLICANT_INVITE(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_APPLICANT_INVITE,
MSG_IC_GUILD_APPLICANT_INVITE, pRMsg);
mt_auto_lock mtG(&ms_pIMIOCP->m_MapGuild);
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(this->m_character.GuildUniqueNumber);
if(NULL == ptmGuild)
{
SendErrorMessage(T_IC_GUILD_APPLICANT_INVITE, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
CGuildMember *pMember = NULL;
if(!ptmGuild->GetGuildMember(this->m_character.CharacterUniqueNumber, pMember))
{
SendErrorMessage(T_IC_GUILD_APPLICANT_INVITE, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
return RES_BREAK;
}
if(this->m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber
&& GUILD_RANK_SUBCOMMANDER != pMember->m_Rank)
{
SendErrorMessage(T_IC_GUILD_APPLICANT_INVITE, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
return RES_BREAK;
}
if (ptmGuild->m_GuildState != GUILD_STATE_NORMAL)
{
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0016);
return RES_BREAK;
}
CGuildMember *pInviteMember = NULL;
if(ptmGuild->GetGuildMember(pRMsg->CharacterUID, pInviteMember))
{
SendErrorMessage(T_IC_GUILD_APPLICANT_INVITE, ERR_PROTOCOL_GUILD_MEMBER_ALREADY_EXISTS);
return RES_BREAK;
}
if (CAtumSJ::GetMaxGuildSize(ptmGuild->m_nGuildMemberCapacity, this->IsExistPremiumCard()) <= ptmGuild->m_ListGuildMember.size()) // 2008-05-28 by dhjin, EP3 여단 수정 사항 - 여단원 증가 캐쉬 아이템
{
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0015);
return RES_BREAK;
}
CIMIOCPSocket * pIISock = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pRMsg->CharacterUID);
if(NULL != pIISock)
{
MSG_IC_GUILD_ACCEPT_INVITE *pMsgAccept = new MSG_IC_GUILD_ACCEPT_INVITE;
pMsgAccept->GuildUniqueNumber = ptmGuild->m_GuildUniqueNumber;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildAddMember, pIISock, pMsgAccept);
}
else
{
MSG_IC_GUILD_APPLICANT_INVITE * pMsgAccept = new MSG_IC_GUILD_APPLICANT_INVITE;
*pMsgAccept = *pRMsg;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildAddOffMember, this, pMsgAccept);
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_GUILD_APPLICANT_REJECT_INVITE(const char *pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 - 여단 수정 사항 - 지원자 관리에서 여단원 초대 거부
/// \author dhjin
/// \date 2008-06-12 ~ 2008-06-12
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_GUILD_APPLICANT_REJECT_INVITE(const char *pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_GUILD_APPLICANT_REJECT_INVITE,
MSG_IC_GUILD_APPLICANT_REJECT_INVITE, pRMsg);
CIMIOCPSocket * pIISock = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pRMsg->CharacterUID);
if(NULL != pIISock)
{
pIISock->SendString128(STRING_128_USER_ERR, STRMSG_080613_0001, pRMsg->GuildName);
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildDeleteSelfIntroduction, pIISock, NULL);
}
else
{
char NotifyMsgString[SIZE_MAX_NOTIFY_MSG_STRING];
sprintf(NotifyMsgString, STRMSG_080613_0001, pRMsg->GuildName);
SNOTIFY_MSG *pQParam = new SNOTIFY_MSG;
util::zero(pQParam, sizeof(SNOTIFY_MSG));
pQParam->CharacterUID = pRMsg->CharacterUID;
pQParam->NotifyMsgType = NOTIFY_MSG_TYPE_TEXT;
util::strncpy(pQParam->NotifyMsgString, NotifyMsgString,SIZE_MAX_NOTIFY_MSG_STRING);
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_InsertNotifyMsg, NULL, pQParam);
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildDeleteSelfIntroductionOffUser, NULL, NULL, (void*)pRMsg->CharacterUID);
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_ADMIN_GET_CHARACTER_INFO_OK(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_ADMIN_GET_CHARACTER_INFO_OK Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_ADMIN_GET_CHARACTER_INFO_OK *pMsgGetOK = NULL;
nRecvTypeSize = sizeof(MSG_FI_ADMIN_GET_CHARACTER_INFO_OK);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_FI_ADMIN_GET_CHARACTER_INFO_OK, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x1201C);
return RES_RETURN_FALSE;
}
pMsgGetOK = (MSG_FI_ADMIN_GET_CHARACTER_INFO_OK*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
CIMIOCPSocket *pAdminSock = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsgGetOK->AdminCharacterUniqueNumber);
if (NULL == pAdminSock || FALSE == pAdminSock->IsUsing())
{
// abnormal error, do nothing
return RES_BREAK;
}
if (pMsgGetOK->Type == ADMIN_GET_CHARAC_TYPE_SEND)
{
pAdminSock->SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0050,
pMsgGetOK->CharacterName,
pMsgGetOK->AccountName,
pMsgGetOK->MapChannelIndex.MapIndex,
pMsgGetOK->MapChannelIndex.ChannelIndex,
pMsgGetOK->Level);
}
else if (pMsgGetOK->Type == ADMIN_GET_CHARAC_TYPE_MOVETO)
{
INIT_MSG_WITH_BUFFER(MSG_FI_ADMIN_MOVETO_CHARACTER, T_FI_ADMIN_MOVETO_CHARACTER, pMsgAdminMoveTo, pMsgAdminMoveToBuf);
pMsgAdminMoveTo->AdminCharacterUniqueNumber = pMsgGetOK->AdminCharacterUniqueNumber;
pMsgAdminMoveTo->MapChannelIndex = pMsgGetOK->MapChannelIndex;
pMsgAdminMoveTo->Position = pMsgGetOK->Position;
if (FALSE == pAdminSock->SendMsgToCurrentFieldServerSocket(pMsgAdminMoveToBuf, MSG_SIZE(MSG_FI_ADMIN_MOVETO_CHARACTER)))
{
// current field server socket이 NULL이면 무시.
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL. at %s\r\n",
GetProtocolTypeString(T_FI_ADMIN_GET_CHARACTER_INFO_OK));
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
return RES_BREAK;
}
}
else
{
// do nothing
}
return RES_RETURN_TRUE;
}
BOOL CIMIOCPSocket::SendGuildInfoToFieldServer(UID32_t i_nGuildUniqueNumber, const char *i_szGuildName)
{
if (FALSE == this->IsUsing())
{
return FALSE;
}
INIT_MSG_WITH_BUFFER(MSG_FI_CHARACTER_UPDATE_GUILD_INFO, T_FI_CHARACTER_UPDATE_GUILD_INFO, msgUpdateGuild, msgUpdateGuildBuf);
msgUpdateGuild->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
msgUpdateGuild->GuildUniqueNumber = i_nGuildUniqueNumber;
if (NULL == i_szGuildName)
{
util::zero(msgUpdateGuild->GuildName, SIZE_MAX_GUILD_NAME);
}
else
{
util::strncpy(msgUpdateGuild->GuildName, i_szGuildName, SIZE_MAX_GUILD_NAME);
}
this->SendMsgToCurrentFieldServerSocket(msgUpdateGuildBuf, MSG_SIZE(MSG_FI_CHARACTER_UPDATE_GUILD_INFO));
return TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_ADMIN_CALL_CHARACTER(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_ADMIN_CALL_CHARACTER *pMsgCallCharac = NULL;
nRecvTypeSize = sizeof(MSG_IC_ADMIN_CALL_CHARACTER);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_ADMIN_CALL_CHARACTER, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x1201C);
return RES_RETURN_FALSE;
}
pMsgCallCharac = (MSG_IC_ADMIN_CALL_CHARACTER*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
if (!COMPARE_RACE(m_character.Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{
// 운영자용, 일반 사용자는 무시
return RES_BREAK;
}
// 자기 자신이면 무시
if ( strnicmp(m_character.CharacterName, pMsgCallCharac->CharacterName, SIZE_MAX_CHARACTER_NAME) == 0 )
{
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0051);
return RES_BREAK;
}
CIMIOCPSocket *pCharacSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(pMsgCallCharac->CharacterName);
if (pCharacSocket == NULL)
{
SendString128(STRING_128_ADMIN_CMD, "%s NOT PLAYING", pMsgCallCharac->CharacterName);
}
else
{
INIT_MSG_WITH_BUFFER(MSG_FI_ADMIN_CALL_CHARACTER, T_FI_ADMIN_CALL_CHARACTER, pMsgFICall, pMsgFICallBuf);
pMsgFICall->CharacterUniqueNumber = pCharacSocket->m_character.CharacterUniqueNumber;
pMsgFICall->MapChannelIndex = pMsgCallCharac->MapChannelIndex;
pMsgFICall->Position = pMsgCallCharac->Position;
if (FALSE == pCharacSocket->SendMsgToCurrentFieldServerSocket(pMsgFICallBuf, MSG_SIZE(MSG_FI_ADMIN_CALL_CHARACTER)))
{
// current field server socket이 NULL이면 무시.
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL, %s at %s\r\n",
GetCharacterString(&pCharacSocket->m_character, string()), GetProtocolTypeString(T_IC_ADMIN_CALL_CHARACTER));
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
return RES_BREAK;
}
}
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_ADMIN_CALL_GUILD(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_ADMIN_CALL_GUILD *pMsgCallGuild = NULL;
nRecvTypeSize = sizeof(MSG_IC_ADMIN_CALL_GUILD);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_ADMIN_CALL_GUILD, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x1201C);
return RES_RETURN_FALSE;
}
pMsgCallGuild = (MSG_IC_ADMIN_CALL_GUILD*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
// format: "/여단오기 [여단명]" - 해당 캐릭터를 불러옴
if (!COMPARE_RACE(m_character.Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{
// 운영자용, 일반 사용자는 무시
return RES_BREAK;
}
ms_pIMIOCP->WarpGulid(pMsgCallGuild->GuildName, pMsgCallGuild->MapChannelIndex, A2DX(pMsgCallGuild->Position));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_ADMIN_GET_SERVER_STAT(const char* pPacket, int nLength, int &nBytesUsed)
{
if (!COMPARE_RACE(m_character.Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_ADMIN_GET_SERVER_STAT_OK, T_IC_ADMIN_GET_SERVER_STAT_OK, pStatOK, pStatOKBuf);
pStatOK->TotalUserCount = ms_pIMIOCP->m_MapChactarterUniqueNumber.size();
mt_map<UID32_t, CIMIOCPSocket*>::iterator it;
int iBCUCount = 0;
int iANICount = 0;
for (it = ms_pIMIOCP->m_MapChactarterUniqueNumber.begin(); it != ms_pIMIOCP->m_MapChactarterUniqueNumber.end(); it++)
{
if (COMPARE_INFLUENCE(it->second->m_character.InfluenceType, INFLUENCE_TYPE_VCN))
{
iBCUCount++;
}
else if (COMPARE_INFLUENCE(it->second->m_character.InfluenceType, INFLUENCE_TYPE_ANI))
{
iANICount++;
}
}
pStatOK->ANIUSerCount = iANICount;
pStatOK->BCUUserCount = iBCUCount;
SendAddData(pStatOKBuf, MSG_SIZE(MSG_IC_ADMIN_GET_SERVER_STAT_OK));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IC_COUNTDOWN_DONE(const char* pPacket, int nLength, int &nBytesUsed)
{
int nRecvTypeSize = 0;
MSG_IC_COUNTDOWN_DONE *pRecvMsg = NULL;
nRecvTypeSize = sizeof(MSG_IC_COUNTDOWN_DONE);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_IC_COUNTDOWN_DONE, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x1201C);
return RES_RETURN_FALSE;
}
pRecvMsg = (MSG_IC_COUNTDOWN_DONE*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
///////////////////////////////////////////////////////////////////////////////
// 시간이 경과 되었는지 체크(향후 추가해야함)
// ERR_COUNTDOWN_NOT_ENOUGH_TIME
if (FALSE == m_countdownChecker.IsEndedCountDown(pRecvMsg->byCountdownType, timeGetTime()))
{
SendErrorMessage(T_IC_COUNTDOWN_DONE, ERR_COUNTDOWN_NOT_ENOUGH_TIME, pRecvMsg->byCountdownType);
INIT_MSG_WITH_BUFFER(MSG_IC_COUNTDOWN_START, T_IC_COUNTDOWN_START, pSMsg, pSendBuf);
pSMsg->byCountdownType = pRecvMsg->byCountdownType;
pSMsg->nWaitingSecond = SECOND_COUNTDOWN_TIME_GAP/2;
this->SendAddData(pSendBuf, MSG_SIZE(MSG_IC_COUNTDOWN_START));
return RES_BREAK;
}
switch(pRecvMsg->byCountdownType)
{
case COUNTDOWN_TYPE_GUILD_WAR:
{
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendErrorMessage(T_IC_COUNTDOWN_DONE, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
// 클라이언트로 전송
INIT_MSG_WITH_BUFFER(MSG_IC_GUILD_START_WAR, T_IC_GUILD_START_WAR, pMsgStart, pMsgStartBuf);
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(NULL == ptmGuild)
{
ms_pIMIOCP->m_MapGuild.unlock();
SendErrorMessage(T_IC_COUNTDOWN_DONE, ERR_PROTOCOL_NOT_HAVE_GUILD);
return RES_BREAK;
}
pMsgStart->PeerGuildUID = ptmGuild->m_uidWarPeerGuildUID;
}
ms_pIMIOCP->m_MapGuild.unlock();
this->SendAddData(pMsgStartBuf, MSG_SIZE(MSG_IC_GUILD_START_WAR));
}
break;
default:
{
SendErrorMessage(T_IC_COUNTDOWN_DONE, ERR_COUNTDOWN_INVALID_COUNTDOWN_TYPE, pRecvMsg->byCountdownType);
return RES_BREAK;
}
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_VOIP_SET(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 VOIP - 설정
/// \author dhjin
/// \date 2008-06-17 ~ 2008-06-17
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_SET(const char* pPacket, int nLength, int &nBytesUsed)
//{
// DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_VOIP_SET,
// MSG_IC_VOIP_SET, pRMsg);
//
// if(!this->IsValidCharacter())
// {
// SendErrorMessage(T_IC_VOIP_SET, ERR_INVALID_CHARACTER);
// return RES_BREAK;
// }
//
// this->SendVoipType(pRMsg->VoipType);
//
// m_VoipType = pRMsg->VoipType;
//
// return RES_RETURN_TRUE;
//}
//////////////////////////////////////////////////////////////////////////
// 2008-06-16 by dhjin, EP3 채팅방 -
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CREATE(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 생성
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CREATE(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_CREATE,
MSG_IC_CHATROOM_CREATE, pRMsg);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_CREATE, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
Err_t errCode = ms_pIMIOCP->m_ChatRoomManager.CreateChatRoom(this, pRMsg);
if(ERR_NO_ERROR != errCode)
{
SendErrorMessage(T_IC_CHATROOM_CREATE, errCode);
return RES_BREAK;
}
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_LIST_INFO(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 목록 가져오기
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_LIST_INFO(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_LIST_INFO,
MSG_IC_CHATROOM_LIST_INFO, pRMsg);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_LIST_INFO, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
this->SendChatRoomListInfo(pRMsg->StartNum);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_REQUEST_INVITE(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 초대 요청
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_REQUEST_INVITE(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_REQUEST_INVITE,
MSG_IC_CHATROOM_REQUEST_INVITE, pMsgInvite);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_REQUEST_INVITE, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
CIMIOCPSocket *pInviteeSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(pMsgInvite->InviteeCharacterName);
if (NULL == pInviteeSocket
|| FALSE == pInviteeSocket->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_REQUEST_INVITE, ERR_COMMON_NO_SUCH_CHARACTER);
return RES_BREAK;
}
if(this->m_character.InfluenceType != pInviteeSocket->m_character.InfluenceType)
{
SendErrorMessage(T_IC_CHATROOM_REQUEST_INVITE, ERR_PROTOCOL_CANNOT_INVITE_USER);
return RES_BREAK;
}
if (strnicmp(pMsgInvite->InviteeCharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME) == 0)
{
SendErrorMessage(T_IC_CHATROOM_REQUEST_INVITE, ERR_PROTOCOL_CANNOT_INVITE_USER);
SendString128(STRING_128_USER_ERR, STRMSG_S_I2NOTIFY_0013);
return RES_BREAK;
}
if(pInviteeSocket->m_bChatRoomUseing)
{
SendErrorMessage(T_IC_CHATROOM_REQUEST_INVITE, ERR_CHATROOM_ALREADY_USING);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_REQUEST_INVITE_QUESTION, T_IC_CHATROOM_REQUEST_INVITE_QUESTION, msgInviteQuestion, SendBuf);
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_REQUEST_INVITE, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsgInvite->ChatRoomNum == (*itr)->GetChatRoomNum())
{
if(this->m_character.CharacterUniqueNumber != (*itr)->GetChatRoomMasterCharacterUID())
{
SendErrorMessage(T_IC_CHATROOM_REQUEST_INVITE, ERR_CHATROOM_PERMISSION_DENIED);
return RES_BREAK;
}
if((*itr)->GetChatRoomMemberCount() >= (*itr)->GetChatRoomMaxMemberCount())
{
SendErrorMessage(T_IC_CHATROOM_REQUEST_INVITE, ERR_CHATROOM_FULL_MEMBER);
return RES_BREAK;
}
if(this->IsUsing() && pInviteeSocket->IsUsing())
{
msgInviteQuestion->ChatRoomNum = pMsgInvite->ChatRoomNum;
util::strncpy(msgInviteQuestion->ChatRoomMasterName, m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
pInviteeSocket->SendAddData(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_REQUEST_INVITE_QUESTION));
return RES_RETURN_TRUE;
}
}
}
SendErrorMessage(T_IC_CHATROOM_REQUEST_INVITE, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_JOIN(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 참여
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_JOIN(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_JOIN,
MSG_IC_CHATROOM_JOIN, pMsgJoin);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_JOIN, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
if(this->m_bChatRoomUseing)
{
SendErrorMessage(T_IC_CHATROOM_JOIN, ERR_CHATROOM_ALREADY_USING);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_JOIN, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsgJoin->ChatRoomNum == (*itr)->GetChatRoomNum())
{
if((*itr)->GetChatRoomLock())
{
if(strcmp(pMsgJoin->ChatRoomPW ,(*itr)->GetChatRoomPW()))
{
SendErrorMessage(T_IC_CHATROOM_JOIN, ERR_NOT_MATCH_PW);
return RES_BREAK;
}
}
if((*itr)->GetChatRoomMemberCount() >= (*itr)->GetChatRoomMaxMemberCount())
{
SendErrorMessage(T_IC_CHATROOM_JOIN, ERR_CHATROOM_FULL_MEMBER);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_ACCEPT_INVITE_OK, T_IC_CHATROOM_ACCEPT_INVITE_OK, msg, SendBuf);
util::strncpy(msg->CharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
msg->CharacterUID = this->m_character.CharacterUniqueNumber;
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_ACCEPT_INVITE_OK));
(*itr)->InsertNewMember(this);
this->m_bChatRoomUseing = TRUE;
this->m_nChatRoomNum = pMsgJoin->ChatRoomNum;
(*itr)->SendChatRoomMemberInfo(this);
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_JOIN, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_ACCEPT_INVITE(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 초대 수락
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_ACCEPT_INVITE(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_ACCEPT_INVITE,
MSG_IC_CHATROOM_ACCEPT_INVITE, pMsgInvite);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_ACCEPT_INVITE, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
if(this->m_bChatRoomUseing)
{
SendErrorMessage(T_IC_CHATROOM_ACCEPT_INVITE, ERR_CHATROOM_ALREADY_USING);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_ACCEPT_INVITE, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsgInvite->ChatRoomNum == (*itr)->GetChatRoomNum())
{
if((*itr)->GetChatRoomMemberCount() >= (*itr)->GetChatRoomMaxMemberCount())
{
SendErrorMessage(T_IC_CHATROOM_ACCEPT_INVITE, ERR_CHATROOM_FULL_MEMBER);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_ACCEPT_INVITE_OK, T_IC_CHATROOM_ACCEPT_INVITE_OK, msg, SendBuf);
util::strncpy(msg->CharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
msg->CharacterUID = this->m_character.CharacterUniqueNumber;
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_ACCEPT_INVITE_OK));
(*itr)->InsertNewMember(this);
this->m_bChatRoomUseing = TRUE;
this->m_nChatRoomNum = pMsgInvite->ChatRoomNum;
(*itr)->SendChatRoomMemberInfo(this);
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_ACCEPT_INVITE, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_REJECT_INVITE(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 초대 거절
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_REJECT_INVITE(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_REJECT_INVITE,
MSG_IC_CHATROOM_REJECT_INVITE, pMsg);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_REJECT_INVITE, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsg->ChatRoomNum == (*itr)->GetChatRoomNum())
{
CIMIOCPSocket * pMasterIISoc = (*itr)->GetMasterIISoc();
if(NULL != pMasterIISoc)
{
pMasterIISoc->SendAddMessageType(T_IC_CHATROOM_REJECT_INVITE_OK);
}
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_ACCEPT_INVITE, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_LEAVE(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 나가기
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_LEAVE(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_LEAVE,
MSG_IC_CHATROOM_LEAVE, pMsg);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_LEAVE, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
if(!this->m_bChatRoomUseing
|| this->m_nChatRoomNum != pMsg->ChatRoomNum)
{
SendErrorMessage(T_IC_CHATROOM_LEAVE, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_LEAVE, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsg->ChatRoomNum == (*itr)->GetChatRoomNum())
{
if(this->m_character.CharacterUniqueNumber == (*itr)->GetChatRoomMasterCharacterUID()
&& 1 < (*itr)->GetChatRoomMemberCount())
{
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_CHANGE_MASTER_OK, T_IC_CHATROOM_CHANGE_MASTER_OK, msg, SendBuf);
util::strncpy(msg->CharacterName, (*itr)->ChangeChatRoomMaster(), SIZE_MAX_CHARACTER_NAME);
if(NULL == msg->CharacterName)
{
SendErrorMessage(T_IC_CHATROOM_LEAVE, ERR_CHATROOM_NO_SUCH_NEW_MASTER);
return RES_BREAK;
}
msg->NewCharacterUID = (*itr)->GetChatRoomMasterCharacterUID();
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_CHANGE_MASTER_OK));
}
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_LEAVE_OK, T_IC_CHATROOM_LEAVE_OK, msg, SendBuf);
util::strncpy(msg->LeaveCharacterName, pMsg->LeaveCharacterName, SIZE_MAX_CHARACTER_NAME);
msg->CharacterUID = this->m_character.CharacterUniqueNumber;
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_LEAVE_OK));
if((*itr)->LeaveMemberAndCheckEmpty(this->m_character.CharacterUniqueNumber))
{
ms_pIMIOCP->m_ChatRoomManager.SetReserveChatNum((*itr)->GetChatRoomNum());
util::del(*itr);
itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.erase(itr);
}
this->m_bChatRoomUseing = FALSE;
this->m_nChatRoomNum = 0; // 2008-10-22 by cmkwon, 채팅방 버그 수정 -
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_LEAVE, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_BAN(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 추방
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_BAN(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_BAN,
MSG_IC_CHATROOM_BAN, pMsg);
if(!this->IsValidCharacter()
|| this->m_character.CharacterUniqueNumber == pMsg->BanCharacterUID)
{
SendErrorMessage(T_IC_CHATROOM_BAN, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
if(!this->m_bChatRoomUseing
|| this->m_nChatRoomNum != pMsg->ChatRoomNum)
{
SendErrorMessage(T_IC_CHATROOM_BAN, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_BAN, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsg->ChatRoomNum == (*itr)->GetChatRoomNum())
{
if(this->m_character.CharacterUniqueNumber != (*itr)->GetChatRoomMasterCharacterUID())
{
SendErrorMessage(T_IC_CHATROOM_BAN, ERR_CHATROOM_PERMISSION_DENIED);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_BAN_OK, T_IC_CHATROOM_BAN_OK, msg, SendBuf);
util::strncpy(msg->BanCharacterName, pMsg->BanCharacterName, SIZE_MAX_CHARACTER_NAME);
msg->BanCharacterUID = pMsg->BanCharacterUID;
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_BAN_OK));
if((*itr)->LeaveMemberAndCheckEmpty(pMsg->BanCharacterUID))
{
ms_pIMIOCP->m_ChatRoomManager.SetReserveChatNum((*itr)->GetChatRoomNum());
util::del(*itr);
itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.erase(itr);
}
CIMIOCPSocket * pBanFISoc = ms_pIMIOCP->GetIMIOCPSocketByCharacterUID(pMsg->BanCharacterUID);
if(NULL != pBanFISoc)
{
pBanFISoc->m_bChatRoomUseing = FALSE;
pBanFISoc->m_nChatRoomNum = 0; // 2008-10-22 by cmkwon, 채팅방 버그 수정 -
}
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_BAN, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CHANGE_NAME(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 이름 변경
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CHANGE_NAME(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_CHANGE_NAME,
MSG_IC_CHATROOM_CHANGE_NAME, pMsg);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_NAME, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
if(!this->m_bChatRoomUseing
|| this->m_nChatRoomNum != pMsg->ChatRoomNum)
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_NAME, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_NAME, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsg->ChatRoomNum == (*itr)->GetChatRoomNum())
{
if(this->m_character.CharacterUniqueNumber != (*itr)->GetChatRoomMasterCharacterUID())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_NAME, ERR_CHATROOM_PERMISSION_DENIED);
return RES_BREAK;
}
(*itr)->UpdateChatRoomName(pMsg->ChatRoomName);
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_CHANGE_NAME_OK, T_IC_CHATROOM_CHANGE_NAME_OK, msg, SendBuf);
util::strncpy(msg->ChatRoomName, pMsg->ChatRoomName, SIZE_MAX_CHATROOM_NAME);
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_CHANGE_NAME_OK));
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_CHANGE_NAME, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CHANGE_MASTER(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 방장 변경
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CHANGE_MASTER(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_CHANGE_MASTER,
MSG_IC_CHATROOM_CHANGE_MASTER, pMsg);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_MASTER, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
if(!this->m_bChatRoomUseing
|| this->m_nChatRoomNum != pMsg->ChatRoomNum)
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_MASTER, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_MASTER, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsg->ChatRoomNum == (*itr)->GetChatRoomNum())
{
if(this->m_character.CharacterUniqueNumber != (*itr)->GetChatRoomMasterCharacterUID())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_MASTER, ERR_CHATROOM_PERMISSION_DENIED);
return RES_BREAK;
}
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_CHANGE_MASTER_OK, T_IC_CHATROOM_CHANGE_MASTER_OK, msg, SendBuf);
util::strncpy(msg->CharacterName, (*itr)->ChangeChatRoomMaster(pMsg->NewCharacterUID), SIZE_MAX_CHARACTER_NAME);
if(NULL == msg->CharacterName)
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_MASTER, ERR_CHATROOM_NO_SUCH_NEW_MASTER);
return RES_BREAK;
}
msg->NewCharacterUID = pMsg->NewCharacterUID;
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_CHANGE_MASTER_OK));
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_CHANGE_MASTER, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CHANGE_LOCK_PW(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 비밀번호 변경
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CHANGE_LOCK_PW(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_CHANGE_LOCK_PW,
MSG_IC_CHATROOM_CHANGE_LOCK_PW, pMsg);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_LOCK_PW, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
if(!this->m_bChatRoomUseing
|| this->m_nChatRoomNum != pMsg->ChatRoomNum)
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_LOCK_PW, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_LOCK_PW, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsg->ChatRoomNum == (*itr)->GetChatRoomNum())
{
if(this->m_character.CharacterUniqueNumber != (*itr)->GetChatRoomMasterCharacterUID())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_LOCK_PW, ERR_CHATROOM_PERMISSION_DENIED);
return RES_BREAK;
}
(*itr)->UpdateChatRoomLock(pMsg->ChatRoomLock, pMsg->ChatRoomPW);
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_CHANGE_LOCK_PW_OK, T_IC_CHATROOM_CHANGE_LOCK_PW_OK, msg, SendBuf);
msg->ChatRoomLock = pMsg->ChatRoomLock;
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_CHANGE_LOCK_PW_OK));
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_CHANGE_LOCK_PW, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CHANGE_MAX_MEMBER(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 인원수 변경
/// \author dhjin
/// \date 2008-06-16 ~ 2008-06-16
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_CHANGE_MAX_MEMBER(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_CHANGE_MAX_MEMBER,
MSG_IC_CHATROOM_CHANGE_MAX_MEMBER, pMsg);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_MAX_MEMBER, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
if(!this->m_bChatRoomUseing
|| this->m_nChatRoomNum != pMsg->ChatRoomNum)
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_MAX_MEMBER, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_MAX_MEMBER, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsg->ChatRoomNum == (*itr)->GetChatRoomNum())
{
if(this->m_character.CharacterUniqueNumber != (*itr)->GetChatRoomMasterCharacterUID())
{
SendErrorMessage(T_IC_CHATROOM_CHANGE_MAX_MEMBER, ERR_CHATROOM_PERMISSION_DENIED);
return RES_BREAK;
}
(*itr)->UpdateChatRoomMaxMemberCount(pMsg->ChatRoomMaxMember);
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_CHANGE_MAX_MEMBER_OK, T_IC_CHATROOM_CHANGE_MAX_MEMBER_OK, msg, SendBuf);
msg->ChatRoomMaxMember = pMsg->ChatRoomMaxMember;
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_CHANGE_MAX_MEMBER_OK));
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_CHANGE_MAX_MEMBER, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_OTHER_MEMBER_INFO(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief EP3 채팅방 - 채팅방 맴버 정보 전송
/// \author dhjin
/// \date 2008-06-25 ~ 2008-06-25
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_IC_CHATROOM_OTHER_MEMBER_INFO(const char* pPacket, int nLength, int &nBytesUsed)
{
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_IC_CHATROOM_OTHER_MEMBER_INFO,
MSG_IC_CHATROOM_MEMBER_INFO, pMsg);
if(!this->IsValidCharacter())
{
SendErrorMessage(T_IC_CHATROOM_OTHER_MEMBER_INFO, ERR_INVALID_CHARACTER);
return RES_BREAK;
}
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
SendErrorMessage(T_IC_CHATROOM_OTHER_MEMBER_INFO, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(pMsg->ChatRoomNum == (*itr)->GetChatRoomNum())
{
(*itr)->SendOtherChatRoomMemberInfo(this);
return RES_RETURN_TRUE;
}
}
SendErrorMessage(T_IC_CHATROOM_MEMBER_INFO, ERR_CHATROOM_NO_SUCH);
return RES_BREAK;
}
// 2016-07-01 panoskj let's remove VOIP !!! HAYO
// VoIP 관련
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_GET_ACCOUNTUNIQUENUMBER(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_IC_VOIP_GET_ACCOUNTUNIQUENUMBER *pRecvMsg = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_VOIP_GET_ACCOUNTUNIQUENUMBER);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_VOIP_GET_ACCOUNTUNIQUENUMBER, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pRecvMsg = (MSG_IC_VOIP_GET_ACCOUNTUNIQUENUMBER*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// CIMIOCPSocket *pCalledSock = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(pRecvMsg->szCalledCharacterName);
// if (NULL == pCalledSock)
// {
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_ERROR, T_IC_VOIP_ERROR, pSendErr, tmSendBuf);
// pSendErr->nErrorNum = VOIPERR_1to1_NO_SUCH_CHARACTER;
// pSendErr->nSend2AccountUniqueNumber = this->m_character.AccountUniqueNumber;
// SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_VOIP_ERROR));
// return RES_BREAK;
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_GET_ACCOUNTUNIQUENUMBER_OK, T_IC_VOIP_GET_ACCOUNTUNIQUENUMBER_OK, pSendMsg, tmSendBuf);
// pSendMsg->nCalledAccountUniqueNumber = pCalledSock->m_character.AccountUniqueNumber;
// SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_VOIP_GET_ACCOUNTUNIQUENUMBER_OK));
//
// return RES_RETURN_TRUE;
//}
//
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_1to1_DIAL(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_IC_VOIP_1to1_DIAL *pRecvMsg = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_VOIP_1to1_DIAL);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_VOIP_1to1_DIAL, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pRecvMsg = (MSG_IC_VOIP_1to1_DIAL*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// CIMIOCPSocket *pCalledSock = ms_pIMIOCP->GetIMIOCPSocketByAccountUID(pRecvMsg->nCalledAccountUniqueNumber);
// if (NULL == pCalledSock)
// {
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_ERROR, T_IC_VOIP_ERROR, pSendErr, tmSendBuf);
// pSendErr->nErrorNum = VOIPERR_1to1_NO_SUCH_ACCOUNTUNIQUENUMBER;
// pSendErr->nSend2AccountUniqueNumber = this->m_character.AccountUniqueNumber;
// SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_VOIP_ERROR));
//
// return RES_BREAK;
// }
//
//// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
//// if (FALSE == COMPARE_CHATTYPE_BIT(pCalledSock->m_enableChatFlag8, CHAT_TYPE_PTOP))
// if (FALSE == COMPARE_CHATTYPE_BIT(pCalledSock->m_enableChatFlag32, CHAT_TYPE_PTOP))
// {
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_ERROR, T_IC_VOIP_ERROR, pSendErr, tmSendBuf);
// pSendErr->nErrorNum = VOIPERR_1to1_CANNOT_CALL;
// pSendErr->nSend2AccountUniqueNumber = this->m_character.AccountUniqueNumber;
// SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_VOIP_ERROR));
// return RES_BREAK;
// }
//
// ///////////////////////////////////////////////////////////////////////////////
// // 2005-12-07 by cmkwon, 세력체크
// if(FALSE == GCheckRaceAndInfluenceType(CHECK_TYPE_VOIP_1to1, m_character.Race, m_character.InfluenceType,
// pCalledSock->GetCharacter()->Race, pCalledSock->GetCharacter()->InfluenceType))
// {
// SendErrorMessage(T_IC_VOIP_1to1_DIAL, ERR_PROTOCOL_REQ_INFLUENCE_NOT_MATCHED);
// return RES_BREAK;
// }
//
// if(pCalledSock->IsCharacterNameFromRejectList(this->m_character.CharacterName))
// {// 상대방 거부리스트에 등록되어 있음
//
// SendErrorMessage(T_IC_VOIP_1to1_DIAL, ERR_FRIEND_REGISTERED_PEER_REJECTLIST);
// return RES_BREAK;
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_1to1_DIAL, T_IC_VOIP_1to1_DIAL, pSendMsg, tmSendBuf);
// *pSendMsg = *pRecvMsg;
// pCalledSock->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_VOIP_1to1_DIAL));
//
// return RES_RETURN_TRUE;
//}
//
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_1to1_DIAL_OK(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_IC_VOIP_1to1_DIAL_OK *pRecvMsg = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_VOIP_1to1_DIAL_OK);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_VOIP_1to1_DIAL_OK, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pRecvMsg = (MSG_IC_VOIP_1to1_DIAL_OK*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// CIMIOCPSocket *pCallerSock = ms_pIMIOCP->GetIMIOCPSocketByAccountUID(pRecvMsg->nCallerAccountUniqueNumber);
// if (NULL == pCallerSock)
// {
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_ERROR, T_IC_VOIP_ERROR, pSendErr, tmSendBuf);
// pSendErr->nErrorNum = VOIPERR_1to1_NO_SUCH_ACCOUNTUNIQUENUMBER;
// pSendErr->nSend2AccountUniqueNumber = this->m_character.AccountUniqueNumber;
// SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_VOIP_ERROR));
// return RES_BREAK;
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_1to1_DIAL_OK, T_IC_VOIP_1to1_DIAL_OK, pSendMsg, tmSendBuf);
// *pSendMsg = *pRecvMsg;
// pCallerSock->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_VOIP_1to1_DIAL_OK));
//
// return RES_RETURN_TRUE;
//}
//
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_1to1_END(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_IC_VOIP_1to1_END *pRecvMsg = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_VOIP_1to1_END);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_VOIP_ERROR, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pRecvMsg = (MSG_IC_VOIP_1to1_END*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// CIMIOCPSocket *pSend2Sock = ms_pIMIOCP->GetIMIOCPSocketByAccountUID(pRecvMsg->nSend2AccountUniqueNumber);
// if (NULL == pSend2Sock)
// {
// // Error를 Client로 전송할 필요 없음
// return RES_BREAK;
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_1to1_END, T_IC_VOIP_1to1_END, pSendMsg, tmSendBuf);
// *pSendMsg = *pRecvMsg;
// pSend2Sock->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_VOIP_1to1_END));
// return RES_RETURN_TRUE;
//}
//
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_NtoN_CREATEROOM_REQUEST(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_IC_VOIP_NtoN_CREATEROOM_REQUEST *pRecvMsg = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_VOIP_NtoN_CREATEROOM_REQUEST);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_VOIP_NtoN_CREATEROOM_REQUEST, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pRecvMsg = (MSG_IC_VOIP_NtoN_CREATEROOM_REQUEST*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// ///////////////////////////////////////////////////////////////////////////////
// // 1. 길드통화
// // 2. 편대통화
// if(FALSE == pRecvMsg->byIsPartyCall)
// {
// if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
// {
// SendErrorMessage(T_IC_VOIP_NtoN_CREATEROOM_REQUEST, ERR_PROTOCOL_NOT_HAVE_GUILD, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// ms_pIMIOCP->m_MapGuild.lock();
// {
// CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
// if(NULL == ptmGuild)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_NtoN_CREATEROOM_REQUEST, ERR_PROTOCOL_NOT_HAVE_GUILD);
// return RES_BREAK;
// }
//
// if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_NtoN_CREATEROOM_REQUEST, ERR_PROTOCOL_GUILD_PERMISSION_DENIED, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
// }
// ms_pIMIOCP->m_MapGuild.unlock();
// }
// else
// {
// CIMParty *ptmParty = this->GetIMParty();
// if (ptmParty == NULL)
// {
// // error
// SendErrorMessage(T_IC_VOIP_NtoN_CREATEROOM_REQUEST, ERR_PROTOCOL_NOT_HAVE_PARTY, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// ptmParty->LockIMParty();
// if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
// {
// // error: 자신이 파티장이 아니므로 권한이 없음
// ptmParty->UnlockIMParty();
// SendErrorMessage(T_IC_VOIP_NtoN_CREATEROOM_REQUEST, ERR_PROTOCOL_PARTY_PERMISSION_DENIED, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
// ptmParty->UnlockIMParty();
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_NtoN_CREATEROOM_REQUEST_OK, T_IC_VOIP_NtoN_CREATEROOM_REQUEST_OK, pSendMsg, pBuffer);
// pSendMsg->byIsPartyCall = pRecvMsg->byIsPartyCall;
// this->SendAddData(pBuffer, MSG_SIZE(MSG_IC_VOIP_NtoN_CREATEROOM_REQUEST_OK));
// return RES_RETURN_TRUE;
//}
//
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_NtoN_INVITE_ALL(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_IC_VOIP_NtoN_INVITE_ALL *pRecvMsg = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_VOIP_NtoN_INVITE_ALL);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_ALL, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pRecvMsg = (MSG_IC_VOIP_NtoN_INVITE_ALL*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// ///////////////////////////////////////////////////////////////////////////////
// // 1. 길드통화
// // 2. 편대통화
// if(FALSE == pRecvMsg->byIsPartyCall)
// {
// if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
// {
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_ALL, ERR_PROTOCOL_NOT_HAVE_GUILD, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// ms_pIMIOCP->m_MapGuild.lock();
// {
// CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
// if(NULL == ptmGuild)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_ALL, ERR_PROTOCOL_NOT_HAVE_GUILD);
// return RES_BREAK;
// }
//
// if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_ALL, ERR_PROTOCOL_GUILD_PERMISSION_DENIED, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_NtoN_INVITE_YOU, T_IC_VOIP_NtoN_INVITE_YOU, pSMsg, pBuffer);
// pSMsg->byIsPartyCall = pRecvMsg->byIsPartyCall;
// ptmGuild->SendMsgToGuildMembers(pBuffer, MSG_SIZE(MSG_IC_VOIP_NtoN_INVITE_YOU), this->m_character.CharacterUniqueNumber);
// }
// ms_pIMIOCP->m_MapGuild.unlock();
// }
// else
// {
// CIMParty *ptmParty = this->GetIMParty();
// if (ptmParty == NULL)
// {
// // error
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_ALL, ERR_PROTOCOL_NOT_HAVE_PARTY, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// ptmParty->LockIMParty();
// {
// if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
// {
// // error: 자신이 파티장이 아니므로 권한이 없음
// ptmParty->UnlockIMParty();
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_ALL, ERR_PROTOCOL_PARTY_PERMISSION_DENIED, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_NtoN_INVITE_YOU, T_IC_VOIP_NtoN_INVITE_YOU, pSMsg, pBuffer);
// pSMsg->byIsPartyCall = pRecvMsg->byIsPartyCall;
// ptmParty->SendMsgToMembers(pBuffer, MSG_SIZE(MSG_IC_VOIP_NtoN_INVITE_YOU), this->m_character.CharacterUniqueNumber);
// }
// ptmParty->UnlockIMParty();
// }
//
// return RES_RETURN_TRUE;
//}
//
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_NtoN_INVITE_USER(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_IC_VOIP_NtoN_INVITE_USER *pRecvMsg = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_VOIP_NtoN_INVITE_USER);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_USER, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pRecvMsg = (MSG_IC_VOIP_NtoN_INVITE_USER*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
//
// CIMIOCPSocket *pPeerSocket = NULL;
// ///////////////////////////////////////////////////////////////////////////////
// // 1. 길드통화
// // 2. 편대통화
// if(FALSE == pRecvMsg->byIsPartyCall)
// {
// if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
// {
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_USER, ERR_PROTOCOL_NOT_HAVE_GUILD, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// ms_pIMIOCP->m_MapGuild.lock();
// {
// CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
// if(NULL == ptmGuild)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_USER, ERR_PROTOCOL_NOT_HAVE_GUILD);
// return RES_BREAK;
// }
//
// if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_USER, ERR_PROTOCOL_GUILD_PERMISSION_DENIED, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// CGuildMember *pMember = NULL;
// BOOL bReted = ptmGuild->GetGuildMember(pRecvMsg->nCharacterUniqueNumber, pMember);
// if (!bReted)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_GUILD_LEAVE, ERR_PROTOCOL_NO_SUCH_GUILD_MEMBER);
// return RES_BREAK;
// }
//
// if(FALSE == pMember->m_bIsOnline
// || NULL == pMember->m_pIMIOCPSocket)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// return RES_BREAK;
// }
// pPeerSocket = pMember->m_pIMIOCPSocket;
// }
// ms_pIMIOCP->m_MapGuild.unlock();
//
// }
// else
// {
// CIMParty *ptmParty = this->GetIMParty();
// if (ptmParty == NULL)
// {
// // error
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_USER, ERR_PROTOCOL_NOT_HAVE_PARTY, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// ptmParty->LockIMParty();
// {
// if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
// {
// // error: 자신이 파티장이 아니므로 권한이 없음
// ptmParty->UnlockIMParty();
// SendErrorMessage(T_IC_VOIP_NtoN_INVITE_USER, ERR_PROTOCOL_PARTY_PERMISSION_DENIED, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// IMPartyMember *pIMMember = ptmParty->GetMemberPtrByCharacterUniqueNumber(pRecvMsg->nCharacterUniqueNumber);
// if(NULL == pIMMember)
// {
// // error: 상대방이 Party에 존재하지 않음, 에러 전송하지 않음
// ptmParty->UnlockIMParty();
// return RES_BREAK;
// }
// pPeerSocket = pIMMember->PM_pIMIOCPSocket;
// }
// ptmParty->UnlockIMParty();
//
// if(NULL == pPeerSocket || FALSE == pPeerSocket->IsUsing())
// {
// return RES_BREAK;
// }
// }
//
// if(pPeerSocket->IsUsing())
// {
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_NtoN_INVITE_YOU, T_IC_VOIP_NtoN_INVITE_YOU, pSMsg, pSBuffer);
// pSMsg->byIsPartyCall = pRecvMsg->byIsPartyCall;
// pPeerSocket->SendAddData(pSBuffer, MSG_SIZE(MSG_IC_VOIP_NtoN_INVITE_YOU));
// }
// return RES_RETURN_TRUE;
//}
//
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_NtoN_GOOUT_ALL(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_IC_VOIP_NtoN_GOOUT_ALL *pRecvMsg = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_VOIP_NtoN_GOOUT_ALL);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_VOIP_NtoN_GOOUT_ALL, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pRecvMsg = (MSG_IC_VOIP_NtoN_GOOUT_ALL*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// ///////////////////////////////////////////////////////////////////////////////
// // 1. 길드통화
// // 2. 편대통화
// if(FALSE == pRecvMsg->byIsPartyCall)
// {
// if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
// {
// SendErrorMessage(T_IC_VOIP_NtoN_GOOUT_ALL, ERR_PROTOCOL_NOT_HAVE_GUILD, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// ms_pIMIOCP->m_MapGuild.lock();
// {
// CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
// if(NULL == ptmGuild)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_NtoN_GOOUT_ALL, ERR_PROTOCOL_NOT_HAVE_GUILD);
// return RES_BREAK;
// }
//
// if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_NtoN_GOOUT_ALL, ERR_PROTOCOL_GUILD_PERMISSION_DENIED, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_NtoN_GOOUT_ALL, T_IC_VOIP_NtoN_GOOUT_ALL, pSMsg, pBuffer);
// pSMsg->byIsPartyCall = pRecvMsg->byIsPartyCall;
// ptmGuild->SendMsgToGuildMembers(pBuffer, MSG_SIZE(MSG_IC_VOIP_NtoN_GOOUT_ALL), this->m_character.CharacterUniqueNumber);
// }
// ms_pIMIOCP->m_MapGuild.unlock();
// }
// else
// {
// CIMParty *ptmParty = this->GetIMParty();
// if (ptmParty == NULL)
// {
// // error
// SendErrorMessage(T_IC_VOIP_NtoN_GOOUT_ALL, ERR_PROTOCOL_NOT_HAVE_PARTY, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// ptmParty->LockIMParty();
// {
// if (ptmParty->GetMasterCharacterUniqueNumber() != m_character.CharacterUniqueNumber)
// {
// // error: 자신이 파티장이 아니므로 권한이 없음
// ptmParty->UnlockIMParty();
// SendErrorMessage(T_IC_VOIP_NtoN_GOOUT_ALL, ERR_PROTOCOL_PARTY_PERMISSION_DENIED, pRecvMsg->byIsPartyCall);
// return RES_BREAK;
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_NtoN_GOOUT_ALL, T_IC_VOIP_NtoN_GOOUT_ALL, pSMsg, pBuffer);
// pSMsg->byIsPartyCall = pRecvMsg->byIsPartyCall;
// ptmParty->SendMsgToMembers(pBuffer, MSG_SIZE(MSG_IC_VOIP_NtoN_GOOUT_ALL), this->m_character.CharacterUniqueNumber);
// }
// ptmParty->UnlockIMParty();
// }
//
// return RES_RETURN_TRUE;
//}
//
//
//ProcessResult CIMIOCPSocket::Process_IC_VOIP_ERROR(const char* pPacket, int nLength, int &nBytesUsed)
//{
// int nRecvTypeSize = 0;
// MSG_IC_VOIP_ERROR *pRecvMsg = NULL;
//
// nRecvTypeSize = sizeof(MSG_IC_VOIP_ERROR);
// if(nLength - nBytesUsed < nRecvTypeSize)
// {
// SendErrorMessage(T_IC_VOIP_ERROR, ERR_PROTOCOL_INVALID_FIELD_DATA);
// Close(0x1201C);
// return RES_RETURN_FALSE;
// }
// pRecvMsg = (MSG_IC_VOIP_ERROR*)(pPacket + nBytesUsed);
// nBytesUsed += nRecvTypeSize;
//
// CIMIOCPSocket *pSend2Sock = ms_pIMIOCP->GetIMIOCPSocketByAccountUID(pRecvMsg->nSend2AccountUniqueNumber);
// if (NULL == pSend2Sock)
// {
// // Error를 Client로 전송할 필요 없음
// return RES_BREAK;
// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_ERROR, T_IC_VOIP_ERROR, pSendMsg, tmSendBuf);
// *pSendMsg = *pRecvMsg;
// pSend2Sock->SendAddData(tmSendBuf, MSG_SIZE(MSG_IC_VOIP_ERROR));
// return RES_RETURN_TRUE;
//}
ProcessResult CIMIOCPSocket::Process_IM_PRINT_DEBUG_MSG(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_IM_PRINT_DEBUG_MSG Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FM_PRINT_DEBUG_MSG *pRecvPrintDbg = NULL;
nRecvTypeSize = sizeof(MSG_FM_PRINT_DEBUG_MSG);
if(nLength - nBytesUsed < nRecvTypeSize)
{
// Protocl Error 처리
// - Client로 부터 받은 Data Size가 Field Type에 따른 Data Size보다 작다
// Error Code : ERR_PROTOCOL_INVALID_FIELD_DATA
SendErrorMessage(T_IM_PRINT_DEBUG_MSG, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x14056);
return RES_RETURN_FALSE;
}
pRecvPrintDbg = (MSG_FM_PRINT_DEBUG_MSG*)(pPacket+nBytesUsed);
nBytesUsed += nRecvTypeSize;
// 필드 서버들에게 전송
MessageType_t msgType = T_FI_ADMIN_PRINT_DEBUG_MSG;
ms_pIMIOCP->SendMessageToFieldServer((BYTE*)&msgType, SIZE_FIELD_TYPE_HEADER);
// 2004-10-21 by cmkwon, 위의 함수로 대체
// ms_pIMIOCP->m_MapFieldServer.lock();
// mt_map<SERVER_ID, FieldServerInfo*>::iterator itrServer = ms_pIMIOCP->m_MapFieldServer.begin();
// while(itrServer != ms_pIMIOCP->m_MapFieldServer.end())
// {
// FieldServerInfo *pServerInfo = itrServer->second;
// MessageType_t pMsgType = T_FI_ADMIN_PRINT_DEBUG_MSG;
// pServerInfo->pSocket->SendAddData((BYTE*)&pMsgType, SIZE_FIELD_TYPE_HEADER);
// itrServer++;
// }
// ms_pIMIOCP->m_MapFieldServer.unlock();
DBGOUT("=== START - DEBUG MESSAGE REQUESTED BY MONITOR SERVER ========\n");
DBGOUT(" Int Param1 : %d \n", pRecvPrintDbg->IntParam1);
DBGOUT(" Int Param2 : %d \n", pRecvPrintDbg->IntParam2);
DBGOUT(" Float Param1 : %d \n", (int)pRecvPrintDbg->FloatParam1);
DBGOUT(" Float Param2 : %d \n", (int)pRecvPrintDbg->FloatParam2);
DBGOUT(" String Param : \"%s\" \n", pRecvPrintDbg->StringParam);
//char msg[200000];
char *msg = NULL;
// 2008-08-29 by cmkwon, 전송 필요 없음
// PRINT_DEBUG_MESSAGE(msg);
DBGOUT("=== END --- DEBUG MESSAGE REQUESTED BY MONITOR SERVER ========\n");
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_IM_GET_TOTAL_USER_COUNTS(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_IM_GET_TOTAL_USER_COUNTS Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
INIT_MSG_WITH_BUFFER(MSG_IM_GET_TOTAL_USER_COUNTS_ACK, T_IM_GET_TOTAL_USER_COUNTS_ACK, pSeAck, SendBuf);
pSeAck->AccumulatedTotalUserCounts = ms_pIMIOCP->m_uiIMAccumulatedTotalUserCounts;
pSeAck->CurrentTotalUserCounts = ms_pIMIOCP->m_MapAccountUniqueNumber.size();
pSeAck->MaxTotalUserCounts = ms_pIMIOCP->m_uiIMMaxTotalUserCounts;
ms_pIMIOCP->SendMessageToMonitor(SendBuf, MSG_SIZE(MSG_IM_GET_TOTAL_USER_COUNTS_ACK));
return RES_RETURN_TRUE;
}
ProcessResult CIMIOCPSocket::Process_FI_GET_FIELD_USER_COUNTS_ACK(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_GET_FIELD_USER_COUNTS_ACK Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
int nRecvTypeSize = 0;
MSG_FI_GET_FIELD_USER_COUNTS_ACK *pMsgGetCountsAck = NULL;
nRecvTypeSize = sizeof(MSG_FI_GET_FIELD_USER_COUNTS_ACK);
if(nLength - nBytesUsed < nRecvTypeSize)
{
SendErrorMessage(T_FI_GET_FIELD_USER_COUNTS_ACK, ERR_PROTOCOL_INVALID_FIELD_DATA);
Close(0x1201D);
return RES_RETURN_FALSE;
}
pMsgGetCountsAck = (MSG_FI_GET_FIELD_USER_COUNTS_ACK*)(pPacket + nBytesUsed);
nBytesUsed += nRecvTypeSize;
// FieldServerInfo *pFSInfo = ms_pIMIOCP->m_MapFieldServer.findLock(pMsgGetCountsAck->FieldServerID);
// if (pFSInfo == NULL)
// {
// DBGOUT("[Error]ERR_PROTOCOL_NO_SUCH_FIELD_SERVER: %s\n", pMsgGetCountsAck->FieldServerID.GetString(string()));
// SendErrorMessage(T_FI_GET_FIELD_USER_COUNTS_ACK, ERR_PROTOCOL_NO_SUCH_FIELD_SERVER, pMsgGetCountsAck->FieldServerID.port, 0, pMsgGetCountsAck->FieldServerID.IP);
// return RES_BREAK;
// }
// pFSInfo->AccumulatedFieldUserCounts = pMsgGetCountsAck->AccumulatedFieldUserCounts;
// pFSInfo->CurrentFieldUserCounts = pMsgGetCountsAck->CurrentFieldUserCounts;
// pFSInfo->MaxFieldUserCounts = pMsgGetCountsAck->MaxFieldUserCounts;
// pFSInfo->AccumulatedFieldMonsterCounts = pMsgGetCountsAck->AccumulatedFieldMonsterCounts;
// pFSInfo->CurrentFieldMonsterCounts = pMsgGetCountsAck->CurrentFieldMonsterCounts;
//
// BYTE SendBuf[SIZE_MAX_PACKET];
// MSG_FIELDSERVER_USERCOUNTS *pFUserCounts = NULL;
//
// INIT_MSG(MSG_IM_GET_TOTAL_USER_COUNTS_ACK, T_IM_GET_TOTAL_USER_COUNTS_ACK, pSendTotalCounts, SendBuf);
// memset(pSendTotalCounts, 0x00, sizeof(MSG_IM_GET_TOTAL_USER_COUNTS_ACK));
// pFUserCounts = (MSG_FIELDSERVER_USERCOUNTS*)(SendBuf + MSG_SIZE(MSG_IM_GET_TOTAL_USER_COUNTS_ACK));
//
// ms_pIMIOCP->m_MapFieldServer.lock();
// mt_map<SERVER_ID, FieldServerInfo*>::iterator itr(ms_pIMIOCP->m_MapFieldServer.begin());
// while(itr != ms_pIMIOCP->m_MapFieldServer.end())
// {
// strncpy(pFUserCounts->FieldIP, itr->second->serverID.IP, SIZE_MAX_IPADDRESS);
// pFUserCounts->FieldListenPort = itr->second->serverID.port;
// pFUserCounts->AccumulatedFieldUserCounts = itr->second->AccumulatedFieldUserCounts;
// pFUserCounts->CurrentFieldUserCounts = itr->second->CurrentFieldUserCounts;
// pFUserCounts->MaxFieldUserCounts = itr->second->MaxFieldUserCounts;
// pFUserCounts->AccumulatedFieldMonsterCounts = itr->second->AccumulatedFieldMonsterCounts;
// pFUserCounts->CurrentFieldMonsterCounts = itr->second->CurrentFieldMonsterCounts;
//
// pSendTotalCounts->AccumulatedTotalUserCounts += pFUserCounts->AccumulatedFieldUserCounts;
// pSendTotalCounts->CurrentTotalUserCounts += pFUserCounts->CurrentFieldUserCounts;
// pSendTotalCounts->MaxTotalUserCounts += pFUserCounts->MaxFieldUserCounts;
// pSendTotalCounts->AccumulatedTotalMonsterCounts += pFUserCounts->AccumulatedFieldMonsterCounts;
// pSendTotalCounts->CurrentTotalMonsterCounts += pFUserCounts->CurrentFieldMonsterCounts;
//
// pSendTotalCounts->FieldServerCounts++;
// pFUserCounts++;
// itr++;
// }
// ms_pIMIOCP->m_MapFieldServer.unlock();
//
// ms_pIMIOCP->SendIMToMonitor(SendBuf, MSG_SIZE(MSG_IM_GET_TOTAL_USER_COUNTS_ACK) + sizeof(MSG_FIELDSERVER_USERCOUNTS) * pSendTotalCounts->FieldServerCounts);
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn ProcessResult CIMIOCPSocket::Process_FI_INFO_DECLARATION_MSWAR_SET_OK(const char* pPacket, int nLength, int &nBytesUsed)
/// \brief 선전 포고 - 선전포고 시간 및 포기 설정 F->I
/// \author dhjin
/// \date 2009-01-20 ~ 2009-01-20
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
ProcessResult CIMIOCPSocket::Process_FI_INFO_DECLARATION_MSWAR_SET_OK(const char* pPacket, int nLength, int &nBytesUsed)
{
if (FALSE == g_pIMGlobal->CheckAllowedToolIP(this->GetPeerIP()))
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "HACKUSER!! Connect Process_FI_INFO_DECLARATION_MSWAR_SET_OK Command Using: HackingIP(%15s)\r\n", this->GetPeerIP());
return RES_RETURN_FALSE;
}
DECLARE_MESSAGE_AND_CHECK_SIZE(pPacket, nLength, nBytesUsed, T_FI_INFO_DECLARATION_MSWAR_SET_OK,
MSG_FI_INFO_DECLARATION_MSWAR_SET_OK, pMsg);
INIT_MSG_WITH_BUFFER(MSG_IC_INFO_DECLARATION_MSWAR_SET_OK, T_IC_INFO_DECLARATION_MSWAR_SET_OK, pSendMsg, SendBuf);
pSendMsg->Influence = pMsg->Influence;
pSendMsg->MSWarStartTime = pMsg->MSWarStartTime;
pSendMsg->GiveUp = pMsg->GiveUp;
pSendMsg->SelectCount = pMsg->SelectCount;
this->ms_pIMIOCP->SendMessageToAllClients(SendBuf, MSG_SIZE(MSG_IC_INFO_DECLARATION_MSWAR_SET_OK));
return RES_RETURN_TRUE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn void CIMIOCPSocket::GameStartRoutineIM(MSG_FI_CONNECT_NOTIFY_GAMESTART *i_FINotifyGameStart, CIMIOCPSocket *i_pF2IISock)
/// \brief
/// \author cmkwon
/// \date 2006-05-09 ~ 2006-05-09
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
void CIMIOCPSocket::GameStartRoutineIM(MSG_FI_CONNECT_NOTIFY_GAMESTART *i_FINotifyGameStart, CIMIOCPSocket *i_pF2IISock)
{
if(this->GetCharacter()->CharacterUniqueNumber != i_FINotifyGameStart->CharacterUniqueNumber)
{// 2006-05-09 by cmkwon
return;
}
if (COMPARE_RACE(this->m_character.Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2006-05-08 by cmkwon,
///////////////////////////////////////////////////////////////////////////////
// 2006-11-14 by cmkwon, 기본적으로 /귓말 을 비활성화 한다
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// CLEAR_CHATTYPE_BIT(m_enableChatFlag8, CHAT_TYPE_PTOP);
CLEAR_CHATTYPE_BIT(m_enableChatFlag32, CHAT_TYPE_PTOP);
///////////////////////////////////////////////////////////////////////////////
// 2006-05-08 by cmkwon
ms_pIMIOCP->AddToAdminCharacter(this->GetCharacter()->CharacterUniqueNumber);
///////////////////////////////////////////////////////////////////////////////
// 2007-11-19 by cmkwon, 진정시스템 업데이트 -
if(ms_pIMIOCP->IsOnCallGMSystem())
{
this->SendString128(STRING_128_ADMIN_CMD, STRMSG_071120_0004
, ms_pIMIOCP->m_atCallGMStartTime.GetDateTimeString().GetBuffer()
, ms_pIMIOCP->m_atCallGMEndTime.GetDateTimeString().GetBuffer());
}
///////////////////////////////////////////////////////////////////////////////
// 2006-05-08 by cmkwon
int nCallGMCnt = ms_pIMIOCP->m_mtvectSCallGMList.size();
if(0 < nCallGMCnt)
{
INIT_MSG_WITH_BUFFER(MSG_IC_ADMIN_CALLGM_INFO_OK, T_IC_ADMIN_CALLGM_INFO_OK, pCallGMInfo, SendBuf);
pCallGMInfo->nCallGMTotalCount = nCallGMCnt;
this->SendAddData(SendBuf, MSG_SIZE(MSG_IC_ADMIN_CALLGM_INFO_OK));
}
}
this->m_bGameEndRoutineFlag = TRUE;
this->m_bFirstTimeLoadFriendList = TRUE; // 2009-03-05 by cmkwon, 통합 아레나 이용시 친구 리스트 보너스 경험치 관련 버그 수정 -
///////////////////////////////////////////////////////////////////////////
// MAP_CHANNEL_INDEX 할당
this->m_character.MapChannelIndex = i_FINotifyGameStart->MapChannelIndex;
///////////////////////////////////////////////////////////////////////////
// 길드 정보 로딩
if(IS_VALID_UNIQUE_NUMBER(this->m_character.GuildUniqueNumber))
{
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildLoadGuild, this, NULL, NULL, i_FINotifyGameStart->CharacterUniqueNumber);
// 2007-07-30 by cmkwon, SCAdminTool에서 여단명 변경 기능 추가 - 여단 정보 여단원 접속시마다 로딩하도록 위와 같이 수정
// ///////////////////////////////////////////////////////////////////////////////
// // 2007-02-06 by cmkwon, 기존에 하나의 DB에 여러개의 서버가 접속하는 시스템은 세력전으로 불가능하므로 아래와 같이 여단정보는 한번만 로딩하도록 수정한다
// mt_auto_lock mtGA(&ms_pIMIOCP->m_MapGuild);
//
// CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_character.GuildUniqueNumber);
// if(NULL == ptmGuild)
// {// 2007-02-06 by cmkwon, 로딩된 여단정보가 없다
// ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_GuildLoadGuild, this, NULL, NULL, i_FINotifyGameStart->CharacterUniqueNumber);
// }
// else
// {// 2007-02-06 by cmkwon, 여단정보가 이미 로딩 되어있다
// CGuildMember *pGMember = NULL;
// ptmGuild->GetGuildMember(m_character.CharacterUniqueNumber, pGMember);
// if(pGMember)
// {
// ptmGuild->SetOnlineGuildMember(this);
//
// this->SetGuildUniqueNumber(m_character.GuildUniqueNumber);
//
// INIT_MSG_WITH_BUFFER(MSG_FI_GUILD_RANK, T_FI_GUILD_RANK_OK, pGRank, SendBuf);
// pGRank->charUID = m_character.CharacterUniqueNumber;
// pGRank->GuildRank = pGMember->m_Rank;
// this->SendMsgToCurrentFieldServerSocket(SendBuf, MSG_SIZE(MSG_IC_GUILD_SET_RANK_OK));
//
// INIT_MSG(MSG_IC_GUILD_LOADING_GUILD_DONE, T_IC_GUILD_LOADING_GUILD_DONE, pGLoading, SendBuf);
// pGLoading->GuildUniqueNumber = m_character.GuildUniqueNumber;
// this->SendAddData(SendBuf, MSG_SIZE(MSG_IC_GUILD_LOADING_GUILD_DONE));
// }
// }
}
///////////////////////////////////////////////////////////////////////////
// 이전 파티 검사
///////////////////////////////////////////////////////////////////////////
if (this->m_character.LastPartyID != 0)
{
#ifdef _DEBUG
this->SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0005);
#endif
// 파티 검색
CIMParty *pParty = ms_pIMIOCP->FindParty(this->m_character.LastPartyID);
if (pParty == NULL)
{
// 파티가 이미 해산된 경우
this->SendErrorMessage(T_FI_CONNECT_NOTIFY_GAMESTART, ERR_PROTOCOL_NO_SUCH_PARTY, this->m_character.LastPartyID);
this->SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0006);
// Update DB
QPARAM_SAVELASTPARTYID *pQSavePartyID = new QPARAM_SAVELASTPARTYID;
pQSavePartyID->CharacterUniqueNumber = this->m_character.CharacterUniqueNumber;
pQSavePartyID->LastPartyID = 0;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_SaveLastPartyID, this, pQSavePartyID);
// Update CHARACTER
this->m_character.LastPartyID = 0;
return;
}
pParty->LockIMParty();
{
IMPartyMember *pMember = pParty->GetMemberPtrByCharacterUniqueNumber(i_FINotifyGameStart->CharacterUniqueNumber);
if (pMember == NULL)
{
// 파티원이 없는 경우
pParty->UnlockIMParty();
i_pF2IISock->SendErrorMessage(T_FI_CONNECT_NOTIFY_GAMESTART, ERR_PROTOCOL_NO_SUCH_PARTY_MEMBER, i_FINotifyGameStart->CharacterUniqueNumber);
return;
}
// 사용자에게 파티 정보 할당
this->SetIMParty(pParty);
// validate party member
pMember->SetOnlineMember(this);
// 자기 자신에게 보냄
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_PUT_LAST_PARTY_INFO, T_IC_PARTY_PUT_LAST_PARTY_INFO, pLastPartyInfo, pLastPartyInfoBuf);
pLastPartyInfo->PartyID = pParty->m_PartyID;
this->SendAddData(pLastPartyInfoBuf, MSG_SIZE(MSG_IC_PARTY_PUT_LAST_PARTY_INFO));
this->SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0007);
// 2008-06-10 by dhjin, EP3 편대 수정 - 편대 정보 전송
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_INFO, T_IC_PARTY_INFO, pSendMsg, pSendBuf);
pSendMsg->PartyInfo = pParty->m_SPartyInfo;
this->SendAddData(pSendBuf, MSG_SIZE(MSG_IC_PARTY_INFO));
}
pParty->UnlockIMParty();
}
}
///////////////////////////////////////////////////////////////////////////////
// return 할 때 unlock 수행하기! 20031103, kelovon
///////////////////////////////////////////////////////////////////////////////
void CIMIOCPSocket::GameEndRoutineIM(void)
{
this->m_mtCritSecForGameEndRoutine.Enter();
{
if (FALSE == m_bGameEndRoutineFlag
|| 0 == m_character.ClientIndex
|| 0 == m_character.CharacterUniqueNumber
|| 0 == m_character.AccountUniqueNumber
|| ST_INVALID_TYPE == m_PeerSocketType)
{
DBGOUT(" ClientIndex(%d)'s CIMIOCPSocket::GameEndRoutineIM()... ALREADY PROCESSED..\r\n", this->GetClientArrayIndex());
this->m_mtCritSecForGameEndRoutine.Leave();
return;
}
m_bGameEndRoutineFlag = FALSE;
}
this->m_mtCritSecForGameEndRoutine.Leave();
#ifdef _DEBUG
DBGOUT(" %s's CIMIOCPSocket::GameEndRoutineIM()...\r\n", GetCharacterString(&m_character, string()));
#endif
//////////////////////////////////////////////////////////////////////////
// 2008-06-18 by dhjin, EP3 채팅방 -
if(this->m_bChatRoomUseing)
{
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(this->m_nChatRoomNum == (*itr)->GetChatRoomNum())
{
if(this->m_character.CharacterUniqueNumber == (*itr)->GetChatRoomMasterCharacterUID()
&& 1 < (*itr)->GetChatRoomMemberCount())
{
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_CHANGE_MASTER_OK, T_IC_CHATROOM_CHANGE_MASTER_OK, msg, SendBuf);
util::strncpy(msg->CharacterName, (*itr)->ChangeChatRoomMaster(), SIZE_MAX_CHARACTER_NAME);
if(NULL == msg->CharacterName)
{
break;
}
msg->NewCharacterUID = (*itr)->GetChatRoomMasterCharacterUID();
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_CHANGE_MASTER_OK));
}
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_LEAVE_OK, T_IC_CHATROOM_LEAVE_OK, msg, SendBuf);
util::strncpy(msg->LeaveCharacterName, this->m_character.CharacterName, SIZE_MAX_CHARACTER_NAME);
msg->CharacterUID = this->m_character.CharacterUniqueNumber;
(*itr)->SendMessagetoChatRoomMember(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_LEAVE_OK));
if((*itr)->LeaveMemberAndCheckEmpty(this->m_character.CharacterUniqueNumber))
{
ms_pIMIOCP->m_ChatRoomManager.SetReserveChatNum((*itr)->GetChatRoomNum());
util::del(*itr);
itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.erase(itr);
}
break;
}
}
///////////////////////////////////////////////////////////////////////////////
// 2008-10-22 by cmkwon, 채팅방 버그 수정 -
this->m_bChatRoomUseing = FALSE;
this->m_nChatRoomNum = 0;
}
CIMParty *ptmParty = this->GetIMParty();
if (ptmParty)
{
ptmParty->LockIMParty();
PartyID_t partyID = ptmParty->m_PartyID;
//////////////////////////////////////////////////////////////////////////
// 2008-02-28 by dhjin, 아레나 통합 - 아레나 서버에서 종료는 바로 삭제로 처리해야한다.~!!!
if(ms_pIMIOCP->m_bArenaServerCheck)
{
BOOL bReted = ProcessPartyLeaveNoLock(ptmParty);
ptmParty->UnlockIMParty();
if(FALSE == bReted)
{// 파티맵에서 제거해야한다
ProcessPartyDismember(partyID);
}
}
else
{
BOOL bReted = ProcessPartyGameEndNoLock(ptmParty);
ptmParty->UnlockIMParty();
if(FALSE == bReted)
{// 파티맵에서 제거해야한다
ProcessPartyDismember(partyID);
}
else
{
// Update DB
QPARAM_SAVELASTPARTYID *pQSavePartyID = new QPARAM_SAVELASTPARTYID;
pQSavePartyID->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
pQSavePartyID->LastPartyID = partyID;
ms_pIMIOCP->m_pAtumIMDBManager->MakeAndEnqueueQuery(QT_SaveLastPartyID, this, pQSavePartyID);
}
}
///////////////////////////////////////////////////////////////////////////////
// 캐릭터의 파티 정보 삭제
this->SetIMParty(NULL);
}
if (IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
ms_pIMIOCP->m_MapGuild.lock();
{
///////////////////////////////////////////////////////////////////////////////
// 여단전 체크(오프라인 설정 전에 체크해야함)
ms_pIMIOCP->GuildWarCheck(m_uidGuildUniqueNumber, m_character.MapChannelIndex);
auto ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if (ptmGuild)
{
// 오프라인으로 설정
ptmGuild->SetOfflineGuildMember(m_character.CharacterUniqueNumber);
//ptmGuild->SetMemberVoipType(m_character.CharacterUniqueNumber, CHECK_TYPE_VOIP_NONE); // 2008-07-16 by dhjin, EP3 - Voip 정보
//INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_SET_OK, T_IC_VOIP_SET_OK, pSMsg, pBuffer);
//pSMsg->CharacterUID = m_character.CharacterUniqueNumber;
//pSMsg->VoipType = CHECK_TYPE_VOIP_NONE;
//ptmGuild->SendMsgToGuildMembers(pBuffer, MSG_SIZE(MSG_IC_VOIP_SET_OK));
if (ptmGuild->GetOnlineMemberCount(m_character.CharacterUniqueNumber) == 0)
{
ms_pIMIOCP->m_MapGuild.deleteLock(ptmGuild->m_GuildUniqueNumber);
util::del(ptmGuild);
}
}
}
ms_pIMIOCP->m_MapGuild.unlock();
this->SetGuildUniqueNumber(INVALID_GUILD_UID);
}
///////////////////////////////////////////////////////////////////////////////
// 2006-07-19 by cmkwon, 친구 리스트 정리
if(false == m_mtvectorFriendList.empty())
{
mt_auto_lock mtA(&m_mtvectorFriendList);
mtvectorFRIENDINFO::iterator itr(m_mtvectorFriendList.begin());
for(; itr != m_mtvectorFriendList.end(); itr++)
{
if(itr->byIsOnline)
{
CIMIOCPSocket *pIISockFriend = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(itr->szCharacterName);
if(pIISockFriend
&& pIISockFriend->IsValidCharacter()
&& pIISockFriend->DecreaseOnlineEachOtherFriendCnts(m_character.CharacterName))
{
///////////////////////////////////////////////////////////////////////////////
// 2006-07-18 by cmkwon, 서로 등록한 온라인 친구 카운트 FieldServer로 전송
pIISockFriend->SendOnlineEachOtherFriendCntsToFieldServer();
}
}
}
m_mtvectorFriendList.clear();
m_nEachOtherFriendCnts = 0; // 2006-07-19 by cmkwon
}
m_mtvectorRejectList.lock();
m_mtvectorRejectList.clear();
m_mtvectorRejectList.unlock();
// 각종 map에서 삭제
if (COMPARE_RACE(m_character.Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{
ms_pIMIOCP->DeleteFromAdminCharacter(m_character.CharacterUniqueNumber);
}
ms_pIMIOCP->m_mAccountName.deleteLock(m_character.AccountName);
ms_pIMIOCP->m_MapAccountUniqueNumber.deleteLock(m_character.AccountUniqueNumber);
char tmCharacterName[SIZE_MAX_CHARACTER_NAME];
ms_pIMIOCP->m_mCharacterName.deleteLock(GGetLowerCase(tmCharacterName, m_character.CharacterName, SIZE_MAX_CHARACTER_NAME));
ms_pIMIOCP->m_MapChactarterUniqueNumber.deleteLock(m_character.CharacterUniqueNumber);
memset(&m_character, 0x00, sizeof(CHARACTER));
this->SetIMParty(NULL);
this->SetGuildUniqueNumber(INVALID_GUILD_UID);
this->SetCurrentFieldServerSocket(NULL);
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// m_enableChatFlag8 = (BitFlag8_t)0xFF;
m_enableChatFlag32 = (BitFlag32_t)0xFFFF;
m_PeerSocketType = ST_INVALID_TYPE;
m_bSendMessgeTypeDBG = FALSE;
m_bGameEndRoutineFlag = FALSE;
m_VoipType = CHECK_TYPE_VOIP_NONE; // 2008-10-21 by cmkwon, 버그 수정
return;
}
void CIMIOCPSocket::CharacterDeadRoutine(UID32_t i_uidAttackerGuildUID)
{
if (IS_VALID_UNIQUE_NUMBER(this->m_uidGuildUniqueNumber)
&& IS_VALID_UNIQUE_NUMBER(i_uidAttackerGuildUID))
{
ms_pIMIOCP->GuildWarCheck(m_uidGuildUniqueNumber, m_character.MapChannelIndex, i_uidAttackerGuildUID);
}
///////////////////////////////////////////////////////////////////////////////
//
SET_BODYCON_BIT(m_character.BodyCondition, BODYCON_DEAD_MASK);
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::SendMsgToCurrentFieldServerSocket(BYTE *i_pData, int i_nLength)
/// \brief
/// \author cmkwon
/// \date 2004-10-21 ~ 2004-10-21
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::SendMsgToCurrentFieldServerSocket(BYTE *i_pData, int i_nLength)
{
CIMIOCPSocket *ptmIISocket = this->m_pCurrentFieldServerSocket;
if(NULL == ptmIISocket || FALSE == ptmIISocket->IsUsing())
{
return FALSE;
}
return ptmIISocket->SendAddData(i_pData, i_nLength);
}
///////////////////////////////////////////////////////////////////////////////
/// \fn void CIMIOCPSocket::SendOnlineEachOtherFriendCntsToFieldServer(void)
/// \brief
/// \author cmkwon
/// \date 2006-07-19 ~ 2006-07-19
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
void CIMIOCPSocket::SendOnlineEachOtherFriendCntsToFieldServer(void)
{
///////////////////////////////////////////////////////////////////////////////
// 2006-07-18 by cmkwon, 서로 등록한 온라인 친구 카운트 FieldServer로 전송
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_ONLINE_EACHOTHER_FRIEND_COUNT_OK, T_FI_CHAT_ONLINE_EACHOTHER_FRIEND_COUNT_OK, pSFriendCnts, SendBuf);
pSFriendCnts->CharacterUniqueNumber = this->GetCharacter()->CharacterUniqueNumber;
pSFriendCnts->OnlineFriendCnts = this->m_nEachOtherFriendCnts;
ms_pIMIOCP->SendMessageToFieldServer(SendBuf, MSG_SIZE(MSG_FI_CHAT_ONLINE_EACHOTHER_FRIEND_COUNT_OK));
//////////////////////////////////////////////////////////////////////////
// 2008-07-11 by dhjin, EP3 친구목록 -
INIT_MSG_WITH_BUFFER(MSG_IC_CHAT_ONLINE_EACHOTHER_FRIEND_COUNT, T_IC_CHAT_ONLINE_EACHOTHER_FRIEND_COUNT, pSICFriendCnts, ICSendBuf);
pSICFriendCnts->OnlineFriendCnts = this->m_nEachOtherFriendCnts;
this->SendAddData(ICSendBuf, MSG_SIZE(MSG_IC_CHAT_ONLINE_EACHOTHER_FRIEND_COUNT));
}
void CIMIOCPSocket::PRINT_DEBUG_MESSAGE(char*& msg)
{
char szTime[128];
time_t ltime;
struct tm *today = NULL;
time(<ime);
today = localtime(<ime);
strftime(szTime, 128, "[%m-%d %H:%M:%S]", today );
PRINT_DEBUG_MESSAGE_LOCK.lock();
///////////////////////////////////////////////////////////////////////////
// START - DEBUG MESSAGE
///////////////////////////////////////////////////////////////////////////
// 자기 자신의 정보
SendString128(STRING_128_ADMIN_CMD, "IM - AUN(%d) CUN(%d) CI(%d) MAP(%s)",
m_character.AccountUniqueNumber, m_character.CharacterUniqueNumber,
m_character.ClientIndex, GET_MAP_STRING(m_character.MapChannelIndex));
// check: DBGOUT에 문제 발생함, 확인 필요함, 20041101, kelovon
// DBGOUT2(DO2_ALL, "\n[Party Info] - %s\n", szTime);
//
// ms_pIMIOCP->m_MapParties.lock();
// mt_map<PartyID_t, CIMParty*>::iterator itr = ms_pIMIOCP->m_MapParties.begin();
// while(itr != ms_pIMIOCP->m_MapParties.end())
// {
// CIMParty *pParty = itr->second;
// DBGOUT2(DO2_ALL, "PARTY Master: %10s(%d, %d) - key: %d, MemberCounts: %d/%d\n"
// , ms_pIMIOCP->GetCharacterByArrayIndex(pParty->GetMasterClientIndex())->CharacterName
// , pParty->GetMasterCharacterUniqueNumber()
// , pParty->GetMasterClientIndex()
// , HIDWORD(pParty->m_PartyID)
// , pParty->GetMemberCount(TRUE)
// , pParty->GetMemberCount(FALSE)
// ); // check: DBGOUT에 문제 발생함, 확인 필요함, 20041101, kelovon
//
// pParty->m_ListPartyMember.lock();
// mt_list<IMPartyMember>::iterator itr2 = pParty->m_ListPartyMember.begin();
// while (itr2 != pParty->m_ListPartyMember.end())
// {
// if (FALSE == itr2->IsValidMember())
// {
// DBGOUT2(DO2_ALL, " Member: %10s(%6d, (N/A))\n"
// , itr2->PM_CharacterName
// , itr2->PM_CharacterUniqueNumber
// );
// }
// else
// {
// DBGOUT2(DO2_ALL, " Member: %10s(%6d, %4d)\n"
// , itr2->PM_CharacterName
// , itr2->PM_CharacterUniqueNumber
// , itr2->PM_pIMIOCPSocket->GetClientArrayIndex()
// );
// }
//
// itr2++;
// }
// pParty->m_ListPartyMember.unlock();
//
// itr++;
// }
// ms_pIMIOCP->m_MapParties.unlock();
///////////////////////////////////////////////////////////////////////////
// 주의: 서비스 돌릴 때는 계정 찍지 말자, 20031103, kelovon
///////////////////////////////////////////////////////////////////////////
PRINT_DEBUG_MESSAGE_LOCK.unlock();
return;
///////////////////////////////////////////////////////////////////////////
// 주의: 서비스 돌릴 때는 계정 찍지 말자, 20031103, kelovon
///////////////////////////////////////////////////////////////////////////
DBGOUT2(DO2_ALL, "[Character Info] - %s\n", szTime);
ms_pIMIOCP->m_mCharacterName.lock();
mt_map<string, CIMIOCPSocket* >::iterator itr3 = ms_pIMIOCP->m_mCharacterName.begin();
while(itr3 != ms_pIMIOCP->m_mCharacterName.end())
{
UINT master = 0;
CIMIOCPSocket *pSocke = itr3->second;
if (pSocke
&& pSocke->IsUsing()
&& pSocke->GetIMParty() != NULL)
{
master = pSocke->m_pIMParty->GetMasterCharacterUniqueNumber();
}
DBGOUT2(DO2_ALL, "%s at %s: PartyMaster(%d)\n", itr3->first.c_str(), GET_MAP_STRING(pSocke->m_character.MapChannelIndex), master);
itr3++;
}
ms_pIMIOCP->m_mCharacterName.unlock();
DBGOUT2(DO2_ALL, "\n");
///////////////////////////////////////////////////////////////////////////
// END - DEBUG MESSAGE
///////////////////////////////////////////////////////////////////////////
PRINT_DEBUG_MESSAGE_LOCK.unlock();
}
BOOL CIMIOCPSocket::FilterChattingString(char *chatString)
{
// check: 구현해야 함
return TRUE;
}
BOOL CIMIOCPSocket::CheckCommandExecutability(USHORT i_nAllowedRace, BOOL i_bAllowAdminTool /* = FALSE */)
{
BOOL bRet = COMPARE_RACE(m_character.Race, i_nAllowedRace)
|| (i_bAllowAdminTool && m_PeerSocketType == ST_ADMIN_TOOL);
return bRet;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn BOOL CIMIOCPSocket::HandleAdminCommands(char *cmd)
/// \brief
/// \author cmkwon
/// \date 2005-06-07 ~ 2005-06-07
/// \warning
///
/// \param
/// \return TRUE ==> 처리가 완료된 명령어로 더이상의 처리는 없다.
/// FALSE ==> 처리가 완료 되지 않은 명령어로 Field Server로 전송되어서 추가로 처리됨
///////////////////////////////////////////////////////////////////////////////
BOOL CIMIOCPSocket::HandleAdminCommands(char *cmd)
{
char *token;
char seps[] = " ";
char buffer[SIZE_MAX_CHAT_MESSAGE];
util::strncpy(buffer, cmd, SIZE_MAX_CHAT_MESSAGE);
token = strtok(buffer, seps);
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 추가 명령문 삭제
if( CheckAdminCommand(token) )
return FALSE;
if ( stricmp(token, STRCMD_CS_COMMAND_DEBUGPRINTDBG) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_DEBUGPRINTDBG_1))
{
if ( !CheckCommandExecutability(RACE_OPERATION) )
{// 2006-04-13 by cmkwon, 관리자만 사용 가능
return FALSE;
}
// 2008-02-14 by cmkwon, FieldServer 로 전송 되도록 FALSE 를 리턴한다.
// MessageType_t msgType = T_FI_ADMIN_PRINT_DEBUG_MSG;
// ms_pIMIOCP->SendMessageToFieldServer((BYTE*)&msgType, SIZE_FIELD_TYPE_HEADER);
//
// #ifdef _DEBUG
// char *dpm = NULL;
// PRINT_DEBUG_MESSAGE(dpm);
// #endif
// return TRUE;
return FALSE; // 2008-02-14 by cmkwon, FieldServer 로 전송 되도록 FALSE 를 리턴한다.
}
else if ( stricmp(token, STRCMD_CS_COMMAND_DEBUGSETPARAMI) == 0)
{
if ( !CheckCommandExecutability(RACE_OPERATION, TRUE) )
{
// 운영자용, 일반 사용자는 무시
return FALSE;
}
return TRUE;
}
else if ( stricmp(token, STRCMD_CS_COMMAND_WHO) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_WHO_1))
{
if (!CheckCommandExecutability(RACE_OPERATION|RACE_GAMEMASTER|RACE_MONITOR, TRUE))
{// 2006-04-13 by cmkwon, 관리자/운영자/SCMonitor/SCAdminTool만 사용 가능
return FALSE;
}
// format: "/누구있지 [# of users]" - 현재 서버에 있는 사용자(맵 무관)를 모두 출력
int nCount = 10;
token = strtok(NULL, seps);
if (token != NULL)
{
nCount = atoi(token);
}
ms_pIMIOCP->m_MapChactarterUniqueNumber.lock();
if(CheckCommandExecutability(RACE_OPERATION))
{// 2007-11-08 by cmkwon, GM 명령어 정리 - 관리자만 전체 유저수를 전송한다.
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0029,
ms_pIMIOCP->m_MapChactarterUniqueNumber.size(), nCount);
}
mt_map<UID32_t, CIMIOCPSocket*>::iterator itr3 = ms_pIMIOCP->m_MapChactarterUniqueNumber.begin();
while(itr3 != ms_pIMIOCP->m_MapChactarterUniqueNumber.end())
{
// UINT master = 0;
// if (itr3->second->m_pIMParty != NULL)
// {
// master = itr3->second->m_pIMParty->GetMasterCharacterUniqueNumber();
// }
CHARACTER *pCharacter = &itr3->second->m_character;
SendString128(STRING_128_ADMIN_CMD, "%s(%s) at %s",
pCharacter->CharacterName, pCharacter->AccountName,
GET_MAP_STRING(pCharacter->MapChannelIndex));
itr3++;
if (--nCount <= 0) { break; }
}
ms_pIMIOCP->m_MapChactarterUniqueNumber.unlock();
return TRUE;
}
else if ( stricmp(token, STRCMD_CS_COMMAND_REGISTERADMIN) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_REGISTERADMIN_1))
{
if ( !CheckCommandExecutability(RACE_OPERATION) )
{
// 운영자용, 일반 사용자는 무시
return FALSE;
}
// format: "/운영등록" - 운영자에게 일정 이벤트 발생 시 오는 메세지를 받도록 서버에 등록함
BOOL ret = ms_pIMIOCP->AddToAdminCharacter(m_character.CharacterUniqueNumber);
if (ret)
{
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0030);
}
else
{
ms_pIMIOCP->DeleteFromAdminCharacter(m_character.CharacterUniqueNumber);
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0031);
}
return TRUE;
}
else if ( stricmp(token, STRCMD_CS_COMMAND_DEBUGPRINTMSGI_0) == 0
|| stricmp(token, STRCMD_CS_COMMAND_DEBUGPRINTMSGI_1) == 0 )
{
if ( !CheckCommandExecutability(RACE_OPERATION) )
{// 2006-04-13 by cmkwon, 관리자만 사용 가능
return TRUE;
}
// format: "/messagei" - 클라이언트와 IM 서버가 주고 받는 프로토콜을 모두 출력함
if (m_bSendMessgeTypeDBG)
{
m_bSendMessgeTypeDBG = FALSE;
}
else
{
m_bSendMessgeTypeDBG = TRUE;
}
return TRUE;
}
else if ( stricmp(token, STRCMD_CS_COMMAND_USERSINFOTOTAL) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_USERSINFOTOTAL_1))
{
if (!CheckCommandExecutability(RACE_OPERATION|RACE_MONITOR, TRUE))
{// 2007-11-23 by cmkwon, GM 명령어 정리 - '/서버' 운영자 불가// 2006-04-13 by cmkwon, 관리자/운영자/SCMonitor/SCAdminTool만 사용 가능
return FALSE;
}
// format: "/서버" - 서버의 정보를 출력함
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0032, ms_pIMIOCP->m_szLocalIPAddress);
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0033, g_pIMGlobal->GetServerGroupName(), ms_pIMIOCP->m_MapChactarterUniqueNumber.size());
return FALSE; // 필드서버에도 전송해야 하므로 FALSE를 return한다.
}
else if ( stricmp(token, STRCMD_CS_COMMAND_SERVERDOWN) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_SERVERDOWN_1))
{
if (!CheckCommandExecutability(RACE_OPERATION))
{// 2006-04-13 by cmkwon, 관리자만 사용 가능
return FALSE;
}
// format: "/서버다운 [인증숫자]" - 서버를 종료시킴
token = strtok(NULL, seps);
if (token == NULL)
{
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_SERVERDOWN_HELP);
return TRUE;
}
USHORT nTmpNumber = atoi(token);
if (ms_pIMIOCP->m_nServerDownVerifyNumber != nTmpNumber)
{
ms_pIMIOCP->m_nServerDownVerifyNumber = RANDI(100, 999);
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0034,
ms_pIMIOCP->m_szLocalIPAddress,
ms_pIMIOCP->m_nServerDownVerifyNumber);
}
else
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 필드서버 명령
// PostMessage(g_pGlobal->GetMainWndHandle(), WM_CLOSE, 0, 0);
}
return TRUE;
}
else if ( strcmp(token, STRCMD_CS_COMMAND_LIST) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_LIST_1))
{
if (!CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_DEMO | RACE_MONITOR))
{
// 운영자용, 일반 사용자는 무시
return FALSE;
}
// check: 요구하면 살리자, kelovon
// SendString128(STRING_128_ADMIN_CMD, "서버 그룹 \'%s\'의 전체 접속자: %d명", g_szServerGroupName, ms_pIMIOCP->m_MapChactarterUniqueNumber.size());
return FALSE; // 필드서버에도 전송해야 하므로 FALSE를 return한다.
}
else if (stricmp(token, STRCMD_CS_COMMAND_WHOAREYOU) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_WHOAREYOU_1))
{
// format: "/누구 [character name]"
// 일반 사용자용
token = strtok(NULL, seps);
if (FALSE == CheckCommandExecutability(RACE_OPERATION|RACE_GAMEMASTER|RACE_MONITOR, TRUE))
{
if(NULL == token)
{
SendString128(STRING_128_USER_NOTICE, STRCMD_CS_COMMAND_WHOAREYOU_HELP);
return TRUE;
}
CIMIOCPSocket *pCharacSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(token);
if (NULL == pCharacSocket
|| FALSE == pCharacSocket->IsValidCharacter())
{
SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0035, token);
return TRUE;
}
if (COMPARE_RACE(pCharacSocket->GetCharacter()->Race, RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{
SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0035, token);
// 2006-11-14 by cmkwon, 위와 같이 구분 할 수 없도록 수정함
// SendString128(STRING_128_USER_NOTICE, "Permission denied !!");
return TRUE;
}
if (FALSE == COMPARE_INFLUENCE(m_character.InfluenceType, pCharacSocket->GetCharacter()->InfluenceType))
{// 2006-11-13 by dhjin, 다른 세력간에는 사용 금지
SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0035, token);
return TRUE;
}
if(FALSE == IS_VALID_UNIQUE_NUMBER(pCharacSocket->m_uidGuildUniqueNumber))
{
SendString128(STRING_128_USER_NOTICE, "\'%s\', \'%s\'"
, token
, CAtumSJ::GetMapName(pCharacSocket->m_character.MapChannelIndex.MapIndex));
}
else
{
SendString128(STRING_128_USER_NOTICE, "\'%s\'(%s), \'%s\'"
, token
, pCharacSocket->m_character.GuildName
, CAtumSJ::GetMapName(pCharacSocket->m_character.MapChannelIndex.MapIndex));
}
return TRUE;
}
// 운영자용
if (token != NULL)
{
// 사용자가 명시된 경우
char *CharacName = token;
CIMIOCPSocket *pCharacSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(CharacName);
if (NULL == pCharacSocket
|| FALSE == pCharacSocket->IsValidCharacter())
{
SendString128(STRING_128_ADMIN_CMD, "%s NOT PLAYING", CharacName);
return TRUE;
}
//SendString128(STRING_128_ADMIN_CMD, "%s PLAYING", CharacName, pCharacSocket->m_character.MapName);
INIT_MSG_WITH_BUFFER(MSG_FI_ADMIN_GET_CHARACTER_INFO, T_FI_ADMIN_GET_CHARACTER_INFO, pMsgAdminGetCharInfo, pMsgAdminGetCharInfoBuf);
pMsgAdminGetCharInfo->Type = ADMIN_GET_CHARAC_TYPE_SEND;
pMsgAdminGetCharInfo->AdminCharacterUniqueNumber = m_character.CharacterUniqueNumber;
pMsgAdminGetCharInfo->CharacterUniqueNumber = pCharacSocket->m_character.CharacterUniqueNumber;
if (FALSE == pCharacSocket->SendMsgToCurrentFieldServerSocket(pMsgAdminGetCharInfoBuf, MSG_SIZE(MSG_FI_ADMIN_GET_CHARACTER_INFO)))
{
// current field server socket이 NULL이면 무시.
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL, %s at %s\r\n",
GetCharacterString(&pCharacSocket->m_character, string()), STRCMD_CS_COMMAND_WHOAREYOU);
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
}
else
{
// 사용자가 명시되지 않은 경우
int nCount = 10;
ms_pIMIOCP->m_MapChactarterUniqueNumber.lock();
//SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0036,
//ms_pIMIOCP->m_MapChactarterUniqueNumber.size(), nCount);
mt_map<UID32_t, CIMIOCPSocket*>::iterator itr3 = ms_pIMIOCP->m_MapChactarterUniqueNumber.begin();
while(itr3 != ms_pIMIOCP->m_MapChactarterUniqueNumber.end())
{
CHARACTER *pCharacter = &itr3->second->m_character;
SendString128(STRING_128_ADMIN_CMD, "%s(%s) at %s",
pCharacter->CharacterName, pCharacter->AccountName,
GET_MAP_STRING(pCharacter->MapChannelIndex));
itr3++;
if (--nCount <= 0) { break; }
}
ms_pIMIOCP->m_MapChactarterUniqueNumber.unlock();
}
return TRUE;
}
else if (stricmp(token, STRCMD_CS_COMMAND_USERSEND) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_USERSEND_1))
{
if ( !CheckCommandExecutability(RACE_OPERATION|RACE_GAMEMASTER|RACE_MONITOR) )
{
// 운영자용, 일반 사용자는 무시
return FALSE;
}
// format: "/보내기 [character name] [map name]" - 캐릭터를 해당 맵으로 보냄
token = strtok(NULL, seps);
if (token == NULL)
{
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_USERSEND_HELP);
return TRUE;
}
char *CharacName = token;
CIMIOCPSocket *pCharacSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(CharacName);
if (NULL == pCharacSocket)
{
SendString128(STRING_128_ADMIN_CMD, "%s NOT PLAYING", CharacName);
return TRUE;
}
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_REGION, T_FI_CHAT_REGION, msgChatRegion, msgChatRegionBuf);
msgChatRegion->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
msgChatRegion->MessageLength = strlen(cmd) + 1; // + 마지막 null 포함
util::strncpy((char*)msgChatRegionBuf + MSG_SIZE(MSG_FI_CHAT_REGION), cmd, SIZE_MAX_CHAT_MESSAGE);
if (FALSE == pCharacSocket->SendMsgToCurrentFieldServerSocket(msgChatRegionBuf, MSG_SIZE(MSG_FI_CHAT_REGION) + msgChatRegion->MessageLength))
{
// current field server socket이 NULL이면 무시.
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL, %s at %s\r\n",
GetCharacterString(&pCharacSocket->m_character, string()), STRCMD_CS_COMMAND_USERSEND);
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
return TRUE;
}
else if (stricmp(token, STRCMD_CS_COMMAND_GOUSER) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_GOUSER_1))
{
if ( !CheckCommandExecutability(RACE_OPERATION|RACE_GAMEMASTER|RACE_MONITOR) )
{// 2008-09-09 by cmkwon, 모니터 권한 계정에 사용 권한 추가 - STRCMD_CS_COMMAND_GOUSER, // 2006-04-13 by cmkwon, 관리자/운영자만 사용 가능
return FALSE;
}
// format: "/가기 [character name]" - 해당 캐릭터가 있는 곳으로 이동함
token = strtok(NULL, seps);
if (token == NULL)
{
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_GOUSER_HELP);
return TRUE;
}
char *CharacName = token;
CIMIOCPSocket *pCharacSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(CharacName);
if (NULL == pCharacSocket)
{
SendString128(STRING_128_ADMIN_CMD, "%s NOT PLAYING", CharacName);
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
INIT_MSG_WITH_BUFFER(MSG_FI_ADMIN_GET_CHARACTER_INFO, T_FI_ADMIN_GET_CHARACTER_INFO, pMsgAdminGetCharInfo, pMsgAdminGetCharInfoBuf);
pMsgAdminGetCharInfo->Type = ADMIN_GET_CHARAC_TYPE_MOVETO;
pMsgAdminGetCharInfo->AdminCharacterUniqueNumber = m_character.CharacterUniqueNumber;
pMsgAdminGetCharInfo->CharacterUniqueNumber = pCharacSocket->m_character.CharacterUniqueNumber;
if (FALSE == pCharacSocket->SendMsgToCurrentFieldServerSocket(pMsgAdminGetCharInfoBuf, MSG_SIZE(MSG_FI_ADMIN_GET_CHARACTER_INFO)))
{
// current field server socket이 NULL이면...
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL, %s at %s\r\n",
GetCharacterString(&pCharacSocket->m_character, string()), STRCMD_CS_COMMAND_GOUSER);
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
return TRUE;
}
else if (stricmp(token, STRCMD_CS_COMMAND_COMEON) == 0)
{
// format: "/오기 [캐릭터명]" - 해당 캐릭터를 불러옴
// MSG_IC_ADMIN_CALL_CHARACTER 로 처리
return FALSE;
}
// 2006-07-25 by cmkwon, 클라이언트에서 T_IC_ADMIN_CALL_GUILD 프로토콜로 보내줘야 한다.
// else if (stricmp(token, STRCMD_CS_COMMAND_GUILDCOMEON) == 0
// || 0 == stricmp(token, STRCMD_CS_COMMAND_GUILDCOMEON_1))
// {
// if ( !CheckCommandExecutability(RACE_OPERATION|RACE_GAMEMASTER) )
// {
// // 운영자용, 일반 사용자는 무시
// return FALSE;
// }
//
// // format: "/여단오기 [여단명]" - 해당 여단을 불러옴
// token = strtok(NULL, seps);
// if (token == NULL)
// {
// SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_GUILDSEND_HELP);
// return TRUE;
// }
//
// return FALSE;
// }
else if (stricmp(token, STRCMD_CS_COMMAND_GUILDSEND) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_GUILDSEND_1))
{
if (!CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{
// 운영자용, 일반 사용자는 무시
return FALSE;
}
// format: "/여단보내기 [여단명] [map name]" - 캐릭터를 해당 맵으로 보냄
token = strtok(NULL, seps);
if (token == NULL)
{
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_GUILDSEND_HELP);
return TRUE;
}
char *szGuildName = token;
char *szMapName = strtok(NULL, seps);
if (szMapName == NULL)
{// 해당 맵이 없음
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_IMSERVER_050607_0001);
return TRUE;
}
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *pGuild = ms_pIMIOCP->GetGuildByName(szGuildName);
if (pGuild != NULL)
{
char szCmdBuffer[SIZE_MAX_CHAT_MESSAGE];
listGuildMember::iterator itr = pGuild->m_ListGuildMember.begin();
while (itr != pGuild->m_ListGuildMember.end())
{
CGuildMember *pGuildMember = &(*itr);
CIMIOCPSocket *pCharacSocket = pGuildMember->m_pIMIOCPSocket;
if (pCharacSocket == NULL || !pCharacSocket->IsUsing())
{
itr++;
continue;
}
sprintf(szCmdBuffer, "/%s %s %s", STRCMD_CS_COMMAND_USERSEND, pCharacSocket->m_character.CharacterName, szMapName);
INIT_MSG_WITH_BUFFER(MSG_FI_CHAT_REGION, T_FI_CHAT_REGION, msgChatRegion, msgChatRegionBuf);
msgChatRegion->CharacterUniqueNumber = m_character.CharacterUniqueNumber;
msgChatRegion->MessageLength = strlen(szCmdBuffer) + 1; // + 마지막 null 포함
util::strncpy((char*)msgChatRegionBuf + MSG_SIZE(MSG_FI_CHAT_REGION), szCmdBuffer, SIZE_MAX_CHAT_MESSAGE);
if (FALSE == pCharacSocket->SendMsgToCurrentFieldServerSocket(msgChatRegionBuf, MSG_SIZE(MSG_FI_CHAT_REGION) + msgChatRegion->MessageLength))
{
// current field server socket이 NULL이면 무시.
char szSystemLog[1024];
sprintf(szSystemLog, " Fatal Error: CurrentFieldServerSocket is NULL, %s at %s\r\n",
GetCharacterString(&pCharacSocket->m_character, string()), STRCMD_CS_COMMAND_GUILDSEND);
DBGOUT(szSystemLog);
g_pGlobal->WriteSystemLog(szSystemLog);
itr++;
continue;
}
itr++;
}// while_end
}
else
{
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0038);
}
}// lock_end
ms_pIMIOCP->m_MapGuild.unlock();
return TRUE;
}
else if (stricmp(token, STRCMD_CS_COMMAND_CHATPTOPFLAG) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_CHATPTOPFLAG_1))
{
// format: "/귓말" - 귓말을 받지 않음, toggle됨
// 모두 허용함
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// if (FALSE == COMPARE_CHATTYPE_BIT(m_enableChatFlag8, CHAT_TYPE_PTOP))
if (FALSE == COMPARE_CHATTYPE_BIT(m_enableChatFlag32, CHAT_TYPE_PTOP))
{
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// SET_CHATTYPE_BIT(m_enableChatFlag8, CHAT_TYPE_PTOP);
SET_CHATTYPE_BIT(m_enableChatFlag32, CHAT_TYPE_PTOP);
this->SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0039);
}
else
{
// 2008-05-15 by dhjin, EP3 - 채팅 시스템 변경
// CLEAR_CHATTYPE_BIT(m_enableChatFlag8, CHAT_TYPE_PTOP);
CLEAR_CHATTYPE_BIT(m_enableChatFlag32, CHAT_TYPE_PTOP);
this->SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0040);
}
this->SendToFieldServerChatBitFlag();
return TRUE;
}
else if (stricmp(token, STRCMD_CS_COMMAND_GUILDINFO) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_GUILDINFO_1))
{
// format: "/길드" - 길드 정보 출력
if (!CheckCommandExecutability(RACE_OPERATION))
{// 2006-04-13 by cmkwon, 관리자만 사용 가능
return FALSE;
}
if (FALSE == IS_VALID_UNIQUE_NUMBER(m_uidGuildUniqueNumber))
{
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0041);
}
else
{
ms_pIMIOCP->m_MapGuild.lock();
{
CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
if(ptmGuild)
{
ptmGuild->PrintGuildInfo(this);
}
else
{
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0042, m_uidGuildUniqueNumber);
}
}
ms_pIMIOCP->m_MapGuild.unlock();
}
return TRUE;
}
else if ( stricmp(token, STRCMD_CS_COMMAND_WEATHERSET) == 0
|| 0 == stricmp(token, STRCMD_CS_COMMAND_WEATHERSET_1))
{
// format: "/날씨 [기본|맑음|비|눈|흐림|안개] [전체|맵이름] [on|off]" - 날씨 조정
if (!CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER|RACE_MONITOR, TRUE))
{// 2006-04-13 by cmkwon, 관리자/SCAdminTool만 사용 가능
return FALSE;
}
INIT_MSG_WITH_BUFFER(MSG_FI_ADMIN_CHANGE_WEATHER, T_FI_ADMIN_CHANGE_WEATHER, pAdminChangerWeather, pAdminChangerWeatherBuf);
memset(pAdminChangerWeather, sizeof(MSG_FI_ADMIN_CHANGE_WEATHER), 0x00);
CIMIOCPSocket *pFieldServerSocket = NULL;
BOOL bAllMaps = FALSE; // 전체 맵 설정이면 TRUE
// 날씨 종류
token = strtok(NULL, seps);
if (token == NULL)
{
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_WEATHERSET_HELP);
return TRUE;
}
if (stricmp(token, STRCMD_CS_COMMAND_WEATHERSET_P1NORMAL)==0) // 2006-12-11 by cmkwon, 함수변경(strcmp->stricmp)
{
pAdminChangerWeather->MapWeather = WEATHER_DEFAULT;
}
else if (stricmp(token, STRCMD_CS_COMMAND_WEATHERSET_P1FINE)==0) // 2006-12-11 by cmkwon, 함수변경(strcmp->stricmp)
{
pAdminChangerWeather->MapWeather = WEATHER_SUNNY;
}
else if (stricmp(token, STRCMD_CS_COMMAND_WEATHERSET_P1RAIN)==0) // 2006-12-11 by cmkwon, 함수변경(strcmp->stricmp)
{
pAdminChangerWeather->MapWeather = WEATHER_RAINY;
}
else if (stricmp(token, STRCMD_CS_COMMAND_WEATHERSET_P1SNOW)==0) // 2006-12-11 by cmkwon, 함수변경(strcmp->stricmp)
{
pAdminChangerWeather->MapWeather = WEATHER_SNOWY;
}
else if (stricmp(token, STRCMD_CS_COMMAND_WEATHERSET_P1CLOUDY)==0) // 2006-12-11 by cmkwon, 함수변경(strcmp->stricmp)
{
pAdminChangerWeather->MapWeather = WEATHER_CLOUDY;
}
else if (stricmp(token, STRCMD_CS_COMMAND_WEATHERSET_P1FOG)==0) // 2006-12-11 by cmkwon, 함수변경(strcmp->stricmp)
{
pAdminChangerWeather->MapWeather = WEATHER_FOGGY;
}
else
{
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0043, token);
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
// map 이름
token = strtok(NULL, seps);
if (token != NULL)
{
if(NULL == ms_pIMIOCP->m_pFieldServerSocket || FALSE == ms_pIMIOCP->m_pFieldServerSocket->IsUsing())
{
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0044);
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
if (stricmp(STRCMD_CS_COMMAND_WEATHERSET_P2ALL, token) == 0) // 2006-12-11 by cmkwon, 함수변경(strcmp->stricmp)
{
bAllMaps = TRUE;
}
else
{
if( FALSE == ms_pIMIOCP->m_FieldServerInfo.IsExistMapIndex(atoi(token)) )
{
SendString128(STRING_128_ADMIN_CMD, STRMSG_S_I2NOTIFY_0045, token);
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
pFieldServerSocket = ms_pIMIOCP->m_pFieldServerSocket;
}
pAdminChangerWeather->MapIndex = atoi(token);
}
else
{
pFieldServerSocket = m_pCurrentFieldServerSocket;
pAdminChangerWeather->MapIndex = m_character.MapChannelIndex.MapIndex;
}
// on|off
token = strtok(NULL, seps);
if (token != NULL)
{
if (stricmp(token, STRCMD_CS_COMMAND_WEATHERSET_P3ON)==0) // 2006-12-11 by cmkwon, 함수변경(strcmp->stricmp)
{
pAdminChangerWeather->OnOff = TRUE;
}
else if (stricmp(token, STRCMD_CS_COMMAND_WEATHERSET_P3OFF)==0) // 2006-12-11 by cmkwon, 함수변경(strcmp->stricmp)
{
pAdminChangerWeather->OnOff = FALSE;
}
else
{
return FALSE;
}
}
else
{
pAdminChangerWeather->OnOff = TRUE;
}
if (bAllMaps)
{
// 전체 맵의 날씨를 변경
pAdminChangerWeather->MapIndex = MAP_INDEX_ALL; // 2006-12-11 by cmkwon
ms_pIMIOCP->SendMessageToFieldServer(pAdminChangerWeatherBuf, MSG_SIZE(MSG_FI_ADMIN_CHANGE_WEATHER));
}
else
{
// 특정 맵의 날씨를 변경
#ifdef _DEBUG
assert(pFieldServerSocket != NULL);
#endif
if (pFieldServerSocket == NULL)
{
g_pGlobal->WriteSystemLogEX(TRUE, "FATAL ERROR: NULL pFieldServerSocket(%s)\r\n", cmd);
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
pFieldServerSocket->SendAddData(pAdminChangerWeatherBuf, MSG_SIZE(MSG_FI_ADMIN_CHANGE_WEATHER));
}
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
else if (0 == stricmp(token, STRCMD_CS_COMMAND_CHATFORBID)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_CHATFORBID_1))
{
if (FALSE == CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR, TRUE))
{// 2006-04-13 by cmkwon, 관리자/운영자/SCAdminTool만 사용 가능
return FALSE;
}
// format: "/채금 [character name] [시간(분)]" - 채팅금지 설정하기
token = strtok(NULL, seps);
if (NULL == token)
{// CharacterName 이 없음
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_CHATFORBID_HELP);
return TRUE; // 필드 서버로 추가 전송 필요 없음
}
char szCharName[SIZE_MAX_CHARACTER_NAME];
int nMinutes = 1;
util::strncpy(szCharName, token, SIZE_MAX_CHARACTER_NAME);
token = strtok(NULL, seps);
if(token)
{
nMinutes = max(nMinutes, atoi(token));
}
CIMIOCPSocket *pIISock = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(szCharName);
if(pIISock
&& pIISock->IsValidCharacter())
{
pIISock->SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0046, nMinutes);
}
SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0047, szCharName, nMinutes);
ms_pIMIOCP->m_chatBlockManager.InsertChatBlockList(szCharName, nMinutes);
return TRUE;
}
else if (0 == stricmp(token, STRCMD_CS_COMMAND_CHATFORBIDRELEASE)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_CHATFORBIDRELEASE_1))
{
if (FALSE == CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR, TRUE))
{// 2006-04-13 by cmkwon, 관리자/운영자/SCAdminTool만 사용 가능
return FALSE;
}
// format: "/채금해제 [character name]" - 채팅금지 해제하기
token = strtok(NULL, seps);
if (NULL == token)
{// CharacterName 이 없음
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_CHATFORBIDRELEASE_HELP);
return TRUE;
}
CIMIOCPSocket *pIISock = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(token);
if(pIISock)
{
pIISock->SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0048);
}
SendString128(STRING_128_USER_NOTICE, STRMSG_S_I2NOTIFY_0049, token);
ms_pIMIOCP->m_chatBlockManager.DeleteChatBlockList(token);
return TRUE;
}
else if (stricmp(token, STRCMD_CS_COMMAND_COMMANDLIST_0) == 0
|| stricmp(token, STRCMD_CS_COMMAND_COMMANDLIST_1) == 0
|| stricmp(token, STRCMD_CS_COMMAND_COMMANDLIST_2) == 0)
{
// format: "/?" - 명령어 리스트 출력
// 2007-11-08 by cmkwon, GM 명령어 정리 - 일반유저 명령어 리스트 전송
int i;
for (i = 0; i < ms_pIMIOCP->m_vectstringCommandListforUser.size(); i++)
{
SendString128(STRING_128_USER_NOTICE, "%s", ms_pIMIOCP->m_vectstringCommandListforUser[i].c_str());
}
if (FALSE == CheckCommandExecutability(RACE_OPERATION|RACE_GAMEMASTER|RACE_MONITOR))
{// 2007-11-08 by cmkwon, 일반 유저는 여기에서 리턴
return TRUE;
}
// 2007-11-08 by cmkwon, GM 명령어 정리 - 운영자 명령어 리스트 전송
SendString128(STRING_128_USER_NOTICE, "[%s] command list.", GetRaceString(RACE_GAMEMASTER));
for (i = 0; i < ms_pIMIOCP->m_vectstringGameMasterCommandList.size(); i++)
{
SendString128(STRING_128_USER_NOTICE, "%s", ms_pIMIOCP->m_vectstringGameMasterCommandList[i].c_str());
}
if(FALSE == CheckCommandExecutability(RACE_OPERATION))
{// 2007-11-08 by cmkwon, 운영자는 여기에서 리턴
return TRUE;
}
// 2007-11-08 by cmkwon, GM 명령어 정리 - 관리자 명령어 리스트 전송
SendString128(STRING_128_USER_NOTICE, "[%s] command list.", GetRaceString(RACE_OPERATION));
for (i = 0; i < ms_pIMIOCP->m_vectstringCommandList.size(); i++)
{
SendString128(STRING_128_USER_NOTICE, "%s", ms_pIMIOCP->m_vectstringCommandList[i].c_str());
}
return TRUE;
}
else if(0 == stricmp(token, STRCMD_CS_COMMAND_CALLGM_0)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_CALLGM_1)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_CALLGM_2))
{
// 2007-11-19 by cmkwon, 진정시스템 업데이트 - 시스템 켜진 상태 체크
if(FALSE == ms_pIMIOCP->IsOnCallGMSystem())
{
this->SendString128(STRING_128_USER_NOTICE, STRMSG_071120_0001);
return TRUE;
}
// "format: /도우미 [상당내용] - GM과 상담을 신청한다."
token = strtok(NULL, "");
if(NULL == token)
{
this->SendString128(STRING_128_USER_NOTICE, STRCMD_CS_COMMAND_CALLGM_HELP);
return TRUE;
}
// 2007-11-19 by cmkwon, 진정시스템 업데이트 - CIMIOCP::CallGMInsertRequest() 함수에 세력 인자 추가
int nReqCnt = ms_pIMIOCP->CallGMInsertRequest(m_character.CharacterUniqueNumber, m_character.InfluenceType, m_character.CharacterName, token);
if(0 >= nReqCnt)
{
this->SendString128(STRING_128_USER_NOTICE, "CallGM overflow !!");
return TRUE;
}
// 2006-05-26 by cmkwon, temporay in english
this->SendString128(STRING_128_USER_NOTICE, STRMSG_060526_0000);
INIT_MSG_WITH_BUFFER(MSG_IC_ADMIN_CALLGM_INFO_OK, T_IC_ADMIN_CALLGM_INFO_OK, pCallGMInfo, SendBuf);
pCallGMInfo->nCallGMTotalCount = nReqCnt;
SendAddData(SendBuf, MSG_SIZE(MSG_IC_ADMIN_CALLGM_INFO_OK));
return TRUE;
}
else if(0 == stricmp(token, STRCMD_CS_COMMAND_VIEWCALLGM_0)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_VIEWCALLGM_1)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_VIEWCALLGM_2))
{// 2006-05-08 by cmkwon
if (FALSE == CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2006-05-08 by cmkwon, 관리자/운영자만 사용 가능
return TRUE;
}
// "format: /도우미보기 [|개수(1~10)] - GM 상담 요청 리스트를 지정한 개수 만큼 살펴본다"
int nReqCount = SIZE_MAX_CALLGM_BRING_COUNT;
token = strtok(NULL, seps);
if(token)
{
nReqCount = atoi(token);
nReqCount = min(nReqCount, SIZE_MAX_CALLGM_BRING_COUNT);
nReqCount = max(nReqCount, 1);
}
INIT_MSG_WITH_BUFFER(MSG_IC_ADMIN_CALLGM_VIEW_OK, T_IC_ADMIN_CALLGM_VIEW_OK, pViewOK, SendBuf);
if(ms_pIMIOCP->CallGMMake_MSG_IC_ADMIN_CALLGM_VIEW_OK(pViewOK, nReqCount))
{
SendAddData(SendBuf, MSG_SIZE(MSG_IC_ADMIN_CALLGM_VIEW_OK) + sizeof(SCALLGM)*pViewOK->nCallGMCount);
}
return TRUE;
}
else if(0 == stricmp(token, STRCMD_CS_COMMAND_BRINGCALLGM_0)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_BRINGCALLGM_1)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_BRINGCALLGM_2))
{// 2006-05-08 by cmkwon
if (FALSE == CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2006-05-08 by cmkwon, 관리자/운영자만 사용 가능
return TRUE;
}
// "format: /도우미가져오기 [|개수(1~10)] - GM 상담 요청 리스트를 지정한 개수 만큼 가져온다(서버에서 삭제됨)"
int nReqCount = SIZE_MAX_CALLGM_BRING_COUNT;
token = strtok(NULL, seps);
if(token)
{
nReqCount = atoi(token);
nReqCount = min(nReqCount, SIZE_MAX_CALLGM_BRING_COUNT);
nReqCount = max(nReqCount, 1);
}
INIT_MSG_WITH_BUFFER(MSG_IC_ADMIN_CALLGM_BRING_OK, T_IC_ADMIN_CALLGM_BRING_OK, pBringOK, SendBuf);
if(ms_pIMIOCP->CallGMMake_MSG_IC_ADMIN_CALLGM_BRING_OK(pBringOK, nReqCount))
{
SendAddData(SendBuf, MSG_SIZE(MSG_IC_ADMIN_CALLGM_BRING_OK) + sizeof(SCALLGM)*pBringOK->nCallGMCount);
}
return TRUE;
}
else if(0 == stricmp(token, STRCMD_CS_COMMAND_PrepareShutdown_0)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_PrepareShutdown_1)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_PrepareShutdown_2))
{// 2007-08-27 by cmkwon, 서버다운준비 명령어 추가(SCAdminTool에서 SCMonitor의 PrepareShutdown을 진행 할 수 있게)
if (FALSE == CheckCommandExecutability(RACE_OPERATION, TRUE) )
{// 2008-08-18 by dhjin, 관리자만 사용가능 // 관리자/운영자/SCAdminTool만 사용 가능
return TRUE;
}
// "format: /[서버다운준비|PrepareShutdown|PrepareShutdown] [Start|Release] - 서버 종료 준비, 모든 유저 연결 강제 종료됨"
token = strtok(NULL, seps);
if (NULL == token)
{// Parma1 없음
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_PrepareShutdown_HELP);
return TRUE;
}
INIT_MSG_WITH_BUFFER(MSG_FI_CONNECT_PREPARE_SHUTDOWN, T_FI_CONNECT_PREPARE_SHUTDOWN, pPreShutdown, SendBuf);
if(0 == stricmp(token, STRCMD_CS_COMMAND_PrepareShutdown_P1Start))
{
// 2011-11-18 by shcho, 서버다운 프리페어서버다운 제거 처리 - 커맨드 처리 제거
// pPreShutdown->bPrepareShutdown = TRUE; // TURE면 서버다운 준비 시작
}
else if(0 == stricmp(token, STRCMD_CS_COMMAND_PrepareShutdown_P1Release))
{
pPreShutdown->bPrepareShutdown = FALSE; // FALSE이면 서버다운 준비 해제
}
else
{
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_PrepareShutdown_HELP);
return TRUE;
}
// FieldServer로 전송한다.
ms_pIMIOCP->SendMessageToFieldServer(SendBuf, MSG_SIZE(MSG_FI_CONNECT_PREPARE_SHUTDOWN));
return TRUE;
}
else if(0 == stricmp(token, STRCMD_CS_COMMAND_STARTCALLGM_0)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_STARTCALLGM_1)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_STARTCALLGM_2))
{// 2007-11-19 by cmkwon, 진정시스템 업데이트 - '/도우미시작' 명령어 처리
if (FALSE == CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2007-11-19 by cmkwon, 관리자/운영자만 사용 가능
return TRUE;
}
// "format: /도우미시작 [|시간(단위:분)] - 진정 시스템 시작"
int nTermMinute = 20160; // 2007-11-19 by cmkwon, 20160분 = 336시간 = 14일
token = strtok(NULL, seps);
if(token)
{
if(0 >= atoi(token))
{
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_STARTCALLGM_HELP);
return TRUE;
}
nTermMinute = atoi(token);
}
ATUM_DATE_TIME atSTime { true };
ATUM_DATE_TIME atETime;
atETime = atSTime;
atETime.AddDateTime(0, 0, 0, 0, nTermMinute);
atETime.Second = 0;
ms_pIMIOCP->SetCallGMSystemTime(&atSTime, &atETime);
return TRUE;
}
else if(0 == stricmp(token, STRCMD_CS_COMMAND_ENDCALLGM_0)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_ENDCALLGM_1)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_ENDCALLGM_2))
{// 2007-11-19 by cmkwon, 진정시스템 업데이트 - '/도우미종료' 명령어 처리
if (FALSE == CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2007-11-19 by cmkwon, 관리자/운영자만 사용 가능
return TRUE;
}
// "format: /도우미종료 - 진정 시스템 종료"
ATUM_DATE_TIME atSTime;
ATUM_DATE_TIME atETime;
atSTime = ms_pIMIOCP->m_atCallGMStartTime;
atETime.SetCurrentDateTime(TRUE);
ms_pIMIOCP->SetCallGMSystemTime(&atSTime, &atETime);
return TRUE;
}
else if(0 == stricmp(token, STRCMD_CS_COMMAND_CHATFORBIDRELEASE_LEADER_0)
|| 0 == stricmp(token, STRCMD_CS_COMMAND_CHATFORBIDRELEASE_LEADER_1))
{// 2008-12-30 by cmkwon, 지도자 채팅 제한 카드 구현 - 지도자채금해제 명령어 처리
if (FALSE == CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{// 2008-12-30 by cmkwon, 관리자/운영자만 사용 가능
return TRUE;
}
// "format: /지도자채금해제 [CharacterName] - 지도자 채금 설정이 해제된다."
token = strtok(NULL, seps);
if (NULL == token)
{// CharacterName 이 없음
SendString128(STRING_128_ADMIN_CMD, STRCMD_CS_COMMAND_CHATFORBIDRELEASE_LEADER_HELP);
return TRUE;
}
int nRemainMinutes = 0;
if(FALSE == ms_pIMIOCP->m_chatBlockManagerByLeader.IsExistChatBlockList(&nRemainMinutes, token))
{
SendString128(STRING_128_ADMIN_CMD, "The CharacterName isn't in blocked list.");
return TRUE;
}
// 2008-12-31 by cmkwon, 채금 리스트에서 삭제
ms_pIMIOCP->m_chatBlockManagerByLeader.DeleteChatBlockList(token);
// 2008-12-31 by cmkwon, 접속 중인 유저면 메시지 전송
CIMIOCPSocket *pIISock = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(token);
if(pIISock && pIISock->IsValidCharacter())
{
pIISock->SendString128(STRING_128_USER_NOTICE, STRMSG_081230_0003);
}
return TRUE;
}
else if (0 == stricmp(token, STRCMD_CS_COMMAND_TOGGLE_CNC))
{
if (FALSE == CheckCommandExecutability(RACE_OPERATION | RACE_GAMEMASTER | RACE_MONITOR))
{
return TRUE;
}
ms_pIMIOCP->m_bEnableCNC = !ms_pIMIOCP->m_bEnableCNC;
if (ms_pIMIOCP->m_bEnableCNC)
{
SendString128(STRING_128_ADMIN_CMD, "Cross Nation Chat is now \\gENABLED\\g.");
}
else
{
SendString128(STRING_128_ADMIN_CMD, "Cross Nation Chat is now \\rDISABLED\\r.");
}
return TRUE;
}
return FALSE;
}
// error 메세지를 전송
void CIMIOCPSocket::SendErrorMessage(MessageType_t msgType, Err_t err, int errParam1, int errParam2, char* errMsg, BOOL bCloseConnection)
{
MSG_ERROR *pMsgError;
BYTE SendBuf[SIZE_MAX_PACKET];
char szSystemLog[256];
sprintf(szSystemLog, " SendErrorMsg to %s %s ==> %s(%#04x) AT %s Param1(%d) Param2(%d) Msg(%s)\r\n",
GetCharacterString(&m_character, string()), m_szPeerIP,
GetErrorString(err), err, GetProtocolTypeString(msgType), errParam1, errParam2, errMsg);
g_pIMGlobal->WriteSystemLog(szSystemLog);
#ifdef _DEBUG
// if (err != ERR_PROTOCOL_INVALID_MAP_EVENT_INFO)
{
DBGOUT(szSystemLog);
}
#endif
*(MessageType_t*)SendBuf = T_ERROR;
pMsgError = (MSG_ERROR*)(SendBuf+SIZE_FIELD_TYPE_HEADER);
pMsgError->CloseConnection = bCloseConnection;
pMsgError->ErrorCode = err;
pMsgError->MsgType = msgType;
pMsgError->ErrParam1 = errParam1;
pMsgError->ErrParam2 = errParam2;
if (errMsg == NULL)
{
pMsgError->StringLength = 0;
}
else
{
pMsgError->StringLength = (USHORT)(strlen(errMsg) + 1);
util::strncpy((char*)SendBuf + MSG_SIZE(MSG_ERROR), errMsg, SIZE_MAX_ERROR_STRING);
}
SendAddData(SendBuf, MSG_SIZE(MSG_ERROR) + pMsgError->StringLength);
}
BOOL CIMIOCPSocket::IsExistPremiumCard()
{
if(FALSE != m_MembershipInfo.nCardItemNum1)
{
return TRUE;
}
return FALSE;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn void CIMIOCPSocket::SendFieldCreateGuildBySubLeader()
/// \brief 부지도자가 여단 생성시 필드서버로 정보 전송
/// \author dhjin
/// \date 2007-10-06 ~ 2007-10-06
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
void CIMIOCPSocket::SendFieldCreateGuildBySubLeader()
{
if (FALSE == this->IsUsing())
{
return;
}
INIT_MSG_WITH_BUFFER(MSG_FI_CREATE_GUILD_BY_SUBLEADER, T_FI_CREATE_GUILD_BY_SUBLEADER, SendMsg, SendBuf);
SendMsg->Influence = this->m_character.InfluenceType;
SendMsg->CharacterUID = this->m_character.CharacterUniqueNumber;
if(ms_pIMIOCP->CheckInfluenceSubLeader1(this->m_character.InfluenceType, this->m_character.CharacterUniqueNumber))
{
SendMsg->SubLeaderRank = 1;
}
else if(ms_pIMIOCP->CheckInfluenceSubLeader2(this->m_character.InfluenceType, this->m_character.CharacterUniqueNumber))
{
SendMsg->SubLeaderRank = 2;
}
else
{
return;
}
this->SendMsgToCurrentFieldServerSocket(SendBuf, MSG_SIZE(MSG_FI_CREATE_GUILD_BY_SUBLEADER));
}
///////////////////////////////////////////////////////////////////////////////
/// \fn void CIMIOCPSocket::SendPartyListInfo(PartyID_t i_nStartNum)
/// \brief EP3 편대 수정 - 편대 정보 리스트
/// \author dhjin
/// \date 2008-06-02 ~ 2008-06-02
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
void CIMIOCPSocket::SendPartyListInfo(PartyID_t i_nStartNum)
{
INIT_MSG_WITH_BUFFER(MSG_IC_PARTY_LIST_INFO_OK, T_IC_PARTY_LIST_INFO_OK, pSMsg, SendBuf);
pSMsg->PartyInfoListCount = this->MakeMSG_IC_PARTY_LIST_INFO_OK((SPARTY_LIST_INFO*)(SendBuf+MSG_SIZE(MSG_IC_PARTY_LIST_INFO_OK)), i_nStartNum, &pSMsg->PartyInfoTotalCount);
if(0 >= pSMsg->PartyInfoListCount)
{
this->SendErrorMessage(T_IC_PARTY_LIST_INFO, ERR_PROTOCOL_NO_SUCH_PARTY);
return;
}
//////////////////////////////////////////////////////////////////////////
// 2008-06-02 by dhjin, 편대 목록 전송
this->SendAddData(SendBuf, MSG_SIZE(MSG_IC_PARTY_LIST_INFO_OK)+pSMsg->PartyInfoListCount*sizeof(SPARTY_LIST_INFO));
}
///////////////////////////////////////////////////////////////////////////////
/// \fn INT CIMIOCPSocket::MakeMSG_IC_PARTY_LIST_INFO_OK(SPARTY_LIST_INFO * o_pPartyListInfo, PartyID_t i_nStartNum, INT * o_nTotalCount)
/// \brief EP3 편대 수정 - 편대 정보 리스트
/// \author dhjin
/// \date 2008-06-02 ~ 2008-06-02
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
INT CIMIOCPSocket::MakeMSG_IC_PARTY_LIST_INFO_OK(SPARTY_LIST_INFO * o_pPartyListInfo, PartyID_t i_nStartNum, INT * o_nTotalCount)
{
INT nPartyListCount = 0;
INT Count = 0;
ms_pIMIOCP->m_MapParties.lock();
if(ms_pIMIOCP->m_MapParties.empty())
{
ms_pIMIOCP->m_MapParties.unlock();
return nPartyListCount;
}
mt_map<PartyID_t, CIMParty*>::iterator itr = ms_pIMIOCP->m_MapParties.begin();
for(; itr != ms_pIMIOCP->m_MapParties.end(); itr++)
{
if(this->m_character.InfluenceType != itr->second->m_SPartyInfo.PartyInfluence
|| PARTY_JOIN_TYPE_INVITE_MASTER == itr->second->m_SPartyInfo.PartyJoinType)
{
continue;
}
(*o_nTotalCount)++;
}
itr = ms_pIMIOCP->m_MapParties.begin();
for(; itr != ms_pIMIOCP->m_MapParties.end(); itr++)
{
if(i_nStartNum >= itr->first
|| Count >= 13 // 2008-07-18 by cmkwon, 임시로 버그 수정
|| this->m_character.InfluenceType != itr->second->m_SPartyInfo.PartyInfluence
|| PARTY_JOIN_TYPE_INVITE_MASTER == itr->second->m_SPartyInfo.PartyJoinType)
{
continue;
}
//////////////////////////////////////////////////////////////////////
// 2012-04-12 by jhseol, 아레나 추가개발 - 자동파티 : 아레나 IM 서버는 팀번호가 같은 파티들만 리스트업 한다.
if(m_bArenaIMServerCheck)
{
CIMIOCPSocket *MasterIOCP = itr->second->GetMasterIMIOCPSocket();
if( NULL == MasterIOCP )
{
continue;
}
if(m_nTeamNum != MasterIOCP->m_nTeamNum)
{
continue;
}
}
// end 2012-04-12 by jhseol, 아레나 추가개발 - 자동파티 : 아레나 IM 서버는 팀번호가 같은 파티들만 리스트업 한다.
o_pPartyListInfo[nPartyListCount].PartyNum = itr->first;
o_pPartyListInfo[nPartyListCount].ExpDistributeType = itr->second->m_SPartyInfo.ExpDistributeType;
o_pPartyListInfo[nPartyListCount].ItemDistributeType = itr->second->m_SPartyInfo.ItemDistributeType;
o_pPartyListInfo[nPartyListCount].MinLevel = itr->second->m_SPartyInfo.MinLevel;
o_pPartyListInfo[nPartyListCount].MaxLevel = itr->second->m_SPartyInfo.MaxLevel;
o_pPartyListInfo[nPartyListCount].PartyLock = itr->second->m_SPartyInfo.PartyLock;
util::strncpy(o_pPartyListInfo[nPartyListCount].PartyName, itr->second->m_SPartyInfo.PartyName, SIZE_MAX_PARTY_NAME);
util::strncpy(o_pPartyListInfo[nPartyListCount].PartyPW, itr->second->m_SPartyInfo.PartyPW, SIZE_MAX_TEAM_PW);
util::strncpy(o_pPartyListInfo[nPartyListCount].PartyMasterName, itr->second->GetMasterCharacterName(), SIZE_MAX_CHARACTER_NAME);
o_pPartyListInfo[nPartyListCount].Membercount = itr->second->GetMemberCount(FALSE);
o_pPartyListInfo[nPartyListCount].VoipCheck = itr->second->CheckVoipUse();
nPartyListCount++;
Count++;
}
ms_pIMIOCP->m_MapParties.unlock();
return nPartyListCount;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn void CIMIOCPSocket::SendVoipType(EN_CHECK_TYPE i_NewVoipType)
/// \brief EP3 VOIP -
/// \author dhjin
/// \date 2008-06-17 ~ 2008-06-17
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
//void CIMIOCPSocket::SendVoipType(EN_CHECK_TYPE i_NewVoipType)
//{
// switch(i_NewVoipType)
// {
// case CHECK_TYPE_VOIP_PARTY:
// {
// CIMParty *ptmParty = this->GetIMParty();
// if (ptmParty == NULL)
// {
// SendErrorMessage(T_IC_VOIP_SET, ERR_PROTOCOL_NO_SUCH_PARTY);
// return;
// }
// ptmParty->LockIMParty();
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_SET_OK, T_IC_VOIP_SET_OK, pSendMsg, pSendBuf);
// pSendMsg->CharacterUID = this->m_character.CharacterUniqueNumber;
// pSendMsg->VoipType = CHECK_TYPE_VOIP_PARTY;
// ptmParty->SendMsgToMembers(pSendBuf, MSG_SIZE(MSG_IC_VOIP_SET_OK));
// ptmParty->UnlockIMParty();
// }
// break;
// case CHECK_TYPE_VOIP_GUILD:
// {
// ms_pIMIOCP->m_MapGuild.lock();
//
// CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
// if(NULL == ptmGuild)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_SET, ERR_PROTOCOL_NOT_HAVE_GUILD);
// return;
// }
//
//// if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
//// {
//// ms_pIMIOCP->m_MapGuild.unlock();
//// SendErrorMessage(T_IC_VOIP_SET, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
//// return;
//// }
//
// ptmGuild->SetMemberVoipType(m_character.CharacterUniqueNumber, CHECK_TYPE_VOIP_GUILD); // 2008-07-16 by dhjin, EP3 - Voip 정보
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_SET_OK, T_IC_VOIP_SET_OK, pSMsg, pBuffer);
// pSMsg->CharacterUID = this->m_character.CharacterUniqueNumber;
// pSMsg->VoipType = CHECK_TYPE_VOIP_GUILD;
// ptmGuild->SendMsgToGuildMembers(pBuffer, MSG_SIZE(MSG_IC_VOIP_SET_OK));
//
// ms_pIMIOCP->m_MapGuild.unlock();
// }
// break;
// default:
// {
// }
// }
//
// if(CHECK_TYPE_VOIP_NONE == i_NewVoipType)
// {
// switch(this->m_VoipType)
// {
// case CHECK_TYPE_VOIP_PARTY:
// {
// CIMParty *ptmParty = this->GetIMParty();
// if (ptmParty == NULL)
// {
// SendErrorMessage(T_IC_VOIP_SET, ERR_PROTOCOL_NO_SUCH_PARTY);
// return;
// }
// ptmParty->LockIMParty();
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_SET_OK, T_IC_VOIP_SET_OK, pSendMsg, pSendBuf);
// pSendMsg->CharacterUID = this->m_character.CharacterUniqueNumber;
// pSendMsg->VoipType = CHECK_TYPE_VOIP_NONE;
// ptmParty->SendMsgToMembers(pSendBuf, MSG_SIZE(MSG_IC_VOIP_SET_OK));
// ptmParty->UnlockIMParty();
// }
// break;
// case CHECK_TYPE_VOIP_GUILD:
// {
// ms_pIMIOCP->m_MapGuild.lock();
//
// CGuild *ptmGuild = ms_pIMIOCP->m_MapGuild.findLock(m_uidGuildUniqueNumber);
// if(NULL == ptmGuild)
// {
// ms_pIMIOCP->m_MapGuild.unlock();
// SendErrorMessage(T_IC_VOIP_SET, ERR_PROTOCOL_NOT_HAVE_GUILD);
// return;
// }
//
//// if (m_character.CharacterUniqueNumber != ptmGuild->m_CommanderUniqueNumber)
//// {
//// ms_pIMIOCP->m_MapGuild.unlock();
//// SendErrorMessage(T_IC_VOIP_SET, ERR_PROTOCOL_GUILD_PERMISSION_DENIED);
//// return;
//// }
//
// INIT_MSG_WITH_BUFFER(MSG_IC_VOIP_SET_OK, T_IC_VOIP_SET_OK, pSMsg, pBuffer);
// pSMsg->CharacterUID = this->m_character.CharacterUniqueNumber;
// pSMsg->VoipType = CHECK_TYPE_VOIP_NONE;
// ptmGuild->SendMsgToGuildMembers(pBuffer, MSG_SIZE(MSG_IC_VOIP_SET_OK));
//
// ms_pIMIOCP->m_MapGuild.unlock();
// }
// break;
// default:
// {
// }
// }
// }
//
//}
///////////////////////////////////////////////////////////////////////////////
/// \fn void CIMIOCPSocket::SendChatRoomListInfo(INT i_nStartNum)
/// \brief EP3 채팅방 -
/// \author dhjin
/// \date 2008-06-17 ~ 2008-06-17
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
void CIMIOCPSocket::SendChatRoomListInfo(INT i_nStartNum)
{
INIT_MSG_WITH_BUFFER(MSG_IC_CHATROOM_LIST_INFO_OK, T_IC_CHATROOM_LIST_INFO_OK, pSMsg, SendBuf);
pSMsg->ChatRoomInfoListCount = this->MakeMSG_IC_CHATROOM_LIST_INFO_OK((SCHATROOM_LIST_INFO*)(SendBuf+MSG_SIZE(MSG_IC_CHATROOM_LIST_INFO_OK)), i_nStartNum, &pSMsg->ChatRoomInfoTotalCount);
if(0 >= pSMsg->ChatRoomInfoListCount)
{
this->SendErrorMessage(T_IC_CHATROOM_LIST_INFO, ERR_CHATROOM_NO_SUCH);
return;
}
//////////////////////////////////////////////////////////////////////////
// 2008-06-02 by dhjin, 편대 목록 전송
this->SendAddData(SendBuf, MSG_SIZE(MSG_IC_CHATROOM_LIST_INFO_OK)+pSMsg->ChatRoomInfoListCount*sizeof(SCHATROOM_LIST_INFO));
}
///////////////////////////////////////////////////////////////////////////////
/// \fn INT CIMIOCPSocket::MakeMSG_IC_CHATROOM_LIST_INFO_OK(SCHATROOM_LIST_INFO * o_pChatRoomListInfo, INT i_nStartNum, INT * o_nTotalCount)
/// \brief EP3 채팅방 -
/// \author dhjin
/// \date 2008-06-17 ~ 2008-06-17
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
INT CIMIOCPSocket::MakeMSG_IC_CHATROOM_LIST_INFO_OK(SCHATROOM_LIST_INFO * o_pChatRoomListInfo, INT i_nStartNum, INT * o_nTotalCount)
{
INT nChatRoomListCount = 0;
INT Count = 0;
mt_auto_lock mta(&(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom));
if(ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.empty())
{
return nChatRoomListCount;
}
// 같은 세력 전체 채팅방 수
mtListChatRoom::iterator itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(this->m_character.InfluenceType != (*itr)->GetChatRoomInfluenceType())
{
continue;
}
(*o_nTotalCount)++;
}
// 같은 세력 시작 채팅방 보내기 위해 처음 보낼 방 생성 시간으로 찾기
ATUM_DATE_TIME CheckTime;
itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
if(i_nStartNum)
{
CheckTime = *((*itr)->GetChatRoomCreateTime());
}
else
{
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(i_nStartNum == (*itr)->GetChatRoomNum())
{
CheckTime = *((*itr)->GetChatRoomCreateTime());
break;
}
}
}
// 시간으로 비교하여 채팅방 목록 보내기
itr = ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.begin();
for(; itr != ms_pIMIOCP->m_ChatRoomManager.m_mtlistChatRoom.end(); itr++)
{
if(0 < CheckTime.GetTimeDiffTimeInSeconds(*((*itr)->GetChatRoomCreateTime()))
|| Count >= ARENA_MAX_REQUEST_TEAM
|| this->m_character.InfluenceType != (*itr)->GetChatRoomInfluenceType()
)
{
continue;
}
o_pChatRoomListInfo[nChatRoomListCount].ChatRoomNum = (*itr)->GetChatRoomNum();
o_pChatRoomListInfo[nChatRoomListCount].ChatRoomLock = (*itr)->GetChatRoomLock();
o_pChatRoomListInfo[nChatRoomListCount].Membercount = (*itr)->GetChatRoomMemberCount();
o_pChatRoomListInfo[nChatRoomListCount].MaxMembercount = (*itr)->GetChatRoomMaxMemberCount();
util::strncpy(o_pChatRoomListInfo[nChatRoomListCount].ChatRoomName, (*itr)->GetChatRoomName(), SIZE_MAX_CHATROOM_NAME);
util::strncpy(o_pChatRoomListInfo[nChatRoomListCount].ChatRoomMasterName, (*itr)->GetChatRoomMasterCharacterName(), SIZE_MAX_CHARACTER_NAME);
nChatRoomListCount++;
Count++;
}
return nChatRoomListCount;
}
///////////////////////////////////////////////////////////////////////////////
/// \fn
/// \brief // 2009-08-03 by cmkwon, EP3-4 편대 대형 스킬 구현 -
/// \author cmkwon
/// \date 2009-08-12 ~ 2009-08-12
/// \warning
///
/// \param
/// \return
///////////////////////////////////////////////////////////////////////////////
void CIMIOCPSocket::SendFieldServPartyChangeFormationSkill(UID32_t i_PartyMasterCharcUID, BOOL i_bOnFlag, BYTE i_byFormationTy/*=FLIGHT_FORM_NONE*/)
{
INIT_MSG_WITH_BUFFER(MSG_FI_PARTY_CHANGE_FORMATION_SKILL, T_FI_PARTY_CHANGE_FORMATION_SKILL, pSendFS, SendBuf);
pSendFS->PartyMasterCharcUID = i_PartyMasterCharcUID;
pSendFS->Is_On_or_Off = i_bOnFlag;
pSendFS->FlightFormation = i_byFormationTy;
ms_pIMIOCP->SendMessageToFieldServer(SendBuf, MSG_SIZE(MSG_FI_PARTY_CHANGE_FORMATION_SKILL));
}
void CIMIOCPSocket::SendCNC(MSG_IC_CHAT_CNC* msgCnC)
{
#ifdef _CROSS_NATION_CHAT
// Log Chatting
char szChatting[1024];
sprintf(szChatting, "Chat_Cross_Nation|%s|%d|%d|%s\r\n",
msgCnC->FromCharacterName, m_character.MapChannelIndex.MapIndex,
m_character.MapChannelIndex.ChannelIndex, ((char*)msgCnC) + sizeof(MSG_IC_CHAT_CNC));
g_pIMGlobal->WriteChattingLog(szChatting, m_character.Race);
////////////////////////////////////////////////////////////////
// 2014-08-04 Future, start building response to Client
// 2014-08-04 Future, get the small (max 12 chars) Race or Influence String of the current character and put it to the Cnc Chat
CIMIOCPSocket* senderSocket = this;
if (this == ms_pIMIOCP->m_pFieldServerSocket)
{
// Sender is the Field Server not a client! Aquire client socket
senderSocket = ms_pIMIOCP->GetIMIOCPSocketByCharacterName(msgCnC->FromCharacterName);
if (!senderSocket)
{
g_pIMGlobal->WriteSystemLogEX(TRUE, "ERROR: Cannot find Cross Nation Chat sender. Sender Name (%s)", msgCnC->FromCharacterName);
return;
}
}
util::strncpy(msgCnC->InfluenceOrStaffPrefix, GetSmallRaceOrInfluenceString(senderSocket->m_character.Race, senderSocket->m_character.InfluenceType), SIZE_MAX_INFLUENCE_OR_STAFFPREFIX);
#if defined(_DEBUG) || defined(F_DEBUG)
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: CNC Chat About to be sent\r\n");
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: ****Struct Data****\r\n");
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: From Character Name -> %s\r\n", msgCnC->FromCharacterName);
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: Influence of Staff Prefix -> %s\t\t(Users Race: %d)\t(Users Masked Race: %d)\t(Users Influence: %d)\r\n"
, msgCnC->InfluenceOrStaffPrefix
, m_character.Race
, m_character.Race&RACE_ACCOUNT_TYPE_MASK
, m_character.InfluenceType);
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: Message Length: %d\r\n", msgCnC->MessageLength);
g_pIMGlobal->WriteSystemLogEX(TRUE, "DEBUG: Chat String: %s\r\n", ((char*)msgCnC) + sizeof(MSG_IC_CHAT_CNC));
#endif
// Make sure the packet has the correct header
SET_MSG_TYPE(((BYTE*)msgCnC) - SIZE_FIELD_TYPE_HEADER, T_IC_CHAT_CNC)
// Send Chat to all clients
ms_pIMIOCP->SendChatMsgToAllClients(CHAT_TYPE_CNC
, ((BYTE*)msgCnC) - SIZE_FIELD_TYPE_HEADER
, MSG_SIZE(MSG_IC_CHAT_CNC) + msgCnC->MessageLength
, INFLUENCE_TYPE_ALL_MASK); // 2014-08-04 Future, adding Influence Type All mask, for the chat message to be delivered to ALL clients (nation independent)
#endif // _CROSS_NATION_CHAT
}
|
01ac6f672290dfcdea151ed0e35c5fb28d2f28b9 | a5a99f646e371b45974a6fb6ccc06b0a674818f2 | /FWCore/Utilities/interface/CPUTimer.h | 7b1bc09622ab7abe05ab671bb196b3bb959639eb | [
"Apache-2.0"
] | permissive | cms-sw/cmssw | 4ecd2c1105d59c66d385551230542c6615b9ab58 | 19c178740257eb48367778593da55dcad08b7a4f | refs/heads/master | 2023-08-23T21:57:42.491143 | 2023-08-22T20:22:40 | 2023-08-22T20:22:40 | 10,969,551 | 1,006 | 3,696 | Apache-2.0 | 2023-09-14T19:14:28 | 2013-06-26T14:09:07 | C++ | UTF-8 | C++ | false | false | 1,732 | h | CPUTimer.h | #ifndef FWCore_Utilities_CPUTimer_h
#define FWCore_Utilities_CPUTimer_h
// -*- C++ -*-
//
// Package: Utilities
// Class : CPUTimer
//
/**\class CPUTimer CPUTimer.h FWCore/Utilities/interface/CPUTimer.h
Description: Timer which measures the CPU and wallclock time
Usage:
<usage>
*/
//
// Original Author: Chris Jones
// Created: Sun Apr 16 20:32:13 EDT 2006
//
// system include files
#ifdef __linux__
//clock_gettime is not available on OS X
#define USE_CLOCK_GETTIME
#endif
#ifdef USE_CLOCK_GETTIME
#include <ctime>
#else
#include <sys/time.h>
#endif
// user include files
// forward declarations
namespace edm {
class CPUTimer {
public:
CPUTimer();
~CPUTimer();
CPUTimer(CPUTimer&&) = default;
CPUTimer(const CPUTimer&) = delete;
CPUTimer& operator=(const CPUTimer&) = delete;
struct Times {
Times() : real_(0), cpu_(0) {}
double real_;
double cpu_;
};
// ---------- const member functions ---------------------
double realTime() const;
double cpuTime() const;
// ---------- static member functions --------------------
// ---------- member functions ---------------------------
void start();
Times stop(); //returns delta time
void reset();
void add(const Times& t);
private:
Times calculateDeltaTime() const;
// ---------- member data --------------------------------
enum State { kRunning, kStopped } state_;
#ifdef USE_CLOCK_GETTIME
struct timespec startRealTime_;
struct timespec startCPUTime_;
#else
struct timeval startRealTime_;
struct timeval startCPUTime_;
#endif
double accumulatedRealTime_;
double accumulatedCPUTime_;
};
} // namespace edm
#endif
|
78ba06fe01365a0f3a9361d39ad747a43177c2a7 | 6216b581d066329f5dd90e6f4bf6a41499b45de9 | /Binary Tree/Binary Tree/TreeEdge.h | 9d575096e27b99b9bdc7b45774490fd1a867d66c | [] | no_license | HoHoHoson/AIE_2018_MidYear | 9340978168541cca30975376039178f7e8d28081 | 7de00c2e97dffca785e94e8e77264294f5d573d1 | refs/heads/master | 2021-06-07T18:43:13.340874 | 2019-12-02T06:31:35 | 2019-12-02T06:31:50 | 141,499,735 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 191 | h | TreeEdge.h | #pragma once
template<typename T>
class TreeNode;
template<typename T>
struct TreeEdge
{
TreeEdge()
{
m_Cost = 1.0f;
m_ToNode = nullptr;
}
float m_Cost;
TreeNode<T>* m_ToNode;
}; |
963a4c65b3e79e332c39c016d2493af2ec2e6f24 | 27858142e5947ac7a519e0cfd5f79275e6496d35 | /graphlabapi/src/graphlab/distributed2/distributed_chromatic_engine.hpp | 1e6b564fae330865765b974d8cbe4790eb717a73 | [
"LicenseRef-scancode-unknown-license-reference",
"Apache-2.0"
] | permissive | greeness/graphlab_CMU | 97c4d74a967619ba803eb4f28fdd3458f29746b1 | 90f6565d45e6aa2ad7507e9d7c9528cab95c8a40 | refs/heads/master | 2021-01-21T19:28:16.403305 | 2011-11-08T20:19:07 | 2011-11-08T20:19:07 | 2,736,580 | 0 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 29,682 | hpp | distributed_chromatic_engine.hpp | /**
* Copyright (c) 2009 Carnegie Mellon University.
* 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.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License 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.
*
* For more about this software visit:
*
* http://www.graphlab.ml.cmu.edu
*
*/
#ifndef DISTRIBUTED_CHROMATIC_ENGINE_HPP
#define DISTRIBUTED_CHROMATIC_ENGINE_HPP
#include <functional>
#include <algorithm>
#include <ext/functional> // for select1st
#include <boost/bind.hpp>
#include <graphlab/parallel/pthread_tools.hpp>
#include <graphlab/parallel/atomic.hpp>
#include <graphlab/util/timer.hpp>
#include <graphlab/util/random.hpp>
#include <graphlab/util/dense_bitset.hpp>
#include <graphlab/util/mutable_queue.hpp>
#include <graphlab/engine/iengine.hpp>
#include <graphlab/scope/iscope.hpp>
#include <graphlab/tasks/update_task.hpp>
#include <graphlab/logger/logger.hpp>
#include <graphlab/metrics/metrics.hpp>
#include <graphlab/schedulers/support/redirect_scheduler_callback.hpp>
#include <graphlab/rpc/dc.hpp>
#include <graphlab/distributed2/distributed_glshared_manager.hpp>
#include <graphlab/distributed2/graph/dgraph_scope.hpp>
#include <graphlab/macros_def.hpp>
namespace graphlab {
/**
All processes must receive the same options at the same time.
i.e. if set_cpu_affinities is called, all processes mus call it at the same time.
This is true for all set_* functions.
*/
template <typename Graph>
class distributed_chromatic_engine : public iengine<Graph> {
public:
typedef iengine<Graph> iengine_base;
typedef typename iengine_base::update_task_type update_task_type;
typedef typename iengine_base::update_function_type update_function_type;
typedef typename iengine_base::termination_function_type termination_function_type;
typedef typename iengine_base::iscope_type iscope_type;
typedef typename iengine_base::sync_function_type sync_function_type;
typedef typename iengine_base::merge_function_type merge_function_type;
// unused
typedef imonitor<Graph> imonitor_type;
typedef redirect_scheduler_callback<Graph,
distributed_chromatic_engine<Graph> > callback_type;
typedef icallback<Graph> icallback_type;
private:
// the local rmi instance
dc_dist_object<distributed_chromatic_engine<Graph> > rmi;
// the graph we are processing
Graph &graph;
callback_type callback;
// The manager will automatically attach to all the glshared variables
distributed_glshared_manager glshared_manager;
/** Number of cpus to use */
size_t ncpus;
/** Use processor affinities */
bool use_cpu_affinity;
/** Use schedule yielding when waiting on the scheduler*/
bool use_sched_yield;
/** Track the number of updates */
std::vector<size_t> update_counts;
atomic<size_t> numsyncs;
/** terminators */
std::vector<termination_function_type> term_functions;
/** The timeout time in millis */
size_t timeout_millis;
timer ti;
/// Used to identify when the engine is stopped through stop
bool force_stop;
/** The total number of tasks that should be executed */
size_t task_budget;
size_t randomize_schedule;
/** If dynamic scheduling is used, the number of scheduled tasks */
atomic<size_t> num_pending_tasks;
/** The cause of the last termination condition */
exec_status termination_reason;
scope_range::scope_range_enum default_scope_range;
std::vector<std::vector<vertex_id_t> > color_block; // set of localvids in each color
dense_bitset scheduled_vertices; // take advantage that local vertices
// are always the first N
update_function_type update_function;
size_t max_iterations;
double barrier_time;
size_t num_dist_barriers_called;
// other optimizations
bool const_nbr_vertices, const_edges;
struct sync_task {
sync_function_type sync_fun;
merge_function_type merge_fun;
distributed_glshared_base::apply_function_type apply_fun;
size_t sync_interval;
size_t next_time;
any zero;
vertex_id_t rangelow;
vertex_id_t rangehigh;
distributed_glshared_base *sharedvariable;
any mergeval;
std::vector<any> thread_intermediate;
sync_task() :
sync_fun(NULL), merge_fun(NULL), apply_fun(NULL),
sync_interval(-1),
next_time(0), rangelow(0),
rangehigh(vertex_id_t(-1)), sharedvariable(NULL) { }
};
/// A list of all registered sync tasks
std::vector<sync_task> sync_tasks;
/// The list of tasks which are currently being evaluated
std::vector<sync_task*> active_sync_tasks;
metrics engine_metrics;
public:
distributed_chromatic_engine(distributed_control &dc,
Graph& graph,
size_t ncpus = 1):
rmi(dc, this),
graph(graph),
callback(this),
glshared_manager(dc),
ncpus( std::max(ncpus, size_t(1)) ),
use_cpu_affinity(false),
use_sched_yield(true),
update_counts(std::max(ncpus, size_t(1)), 0),
timeout_millis(0),
force_stop(false),
task_budget(0),
randomize_schedule(0),
termination_reason(EXEC_UNSET),
scheduled_vertices(graph.owned_vertices().size()),
update_function(NULL),
max_iterations(0),
barrier_time(0.0),
const_nbr_vertices(true),
const_edges(false),
engine_metrics("engine"),
thread_color_barrier(ncpus){
rmi.barrier();
}
~distributed_chromatic_engine() {
rmi.barrier();
}
//! Get the number of cpus
size_t get_ncpus() const { return ncpus; }
//! set sched yield
void set_sched_yield(bool value) {
use_sched_yield = value;
rmi.barrier();
}
void set_cpu_affinities(bool value) {
use_cpu_affinity = value;
rmi.barrier();
}
/**
* Set the default scope range. The scope ranges are defined in
* iscope.hpp
*/
void set_default_scope(scope_range::scope_range_enum default_scope_range_) {
default_scope_range = default_scope_range_;
rmi.barrier();
}
using iengine<Graph>::exec_status_as_string;
/**
* Return the reason why the engine last terminated
*/
exec_status last_exec_status() const {
return termination_reason;
}
/**
* This function computes the last update count by adding all the
* update counts of the individual threads. This is an underestimate
* if the engine is currently running.
*/
size_t thisproc_update_counts() const {
size_t sum = 0;
for(size_t i = 0; i < update_counts.size(); ++i)
sum += update_counts[i];
return sum;
}
/**
* Returns the total number of updates executed
*/
size_t last_update_count() const {
return total_update_count;
} // end of last_update_count
/**
* Add a terminator to the engine.
* Must be called by all machines simultaneously.
*/
void add_terminator(termination_function_type term) {
term_functions.push_back(term);
rmi.barrier();
}
/**
* Clear all terminators from the engine
* Must be called by all machines simultaneously.
*/
void clear_terminators() {
term_functions.clear();
rmi.barrier();
}
/**
* Set a timeout. Disabled if set to 0.
* Must be called by all machines simultaneously.
*/
void set_timeout(size_t timeout_seconds = 0) {
timeout_millis = timeout_seconds * 1000;
rmi.barrier();
}
/**
* Sets a Task budget - max number of tasks to allow.
* Disabled if set to 0.
* Must be called by all machines simultaneously.
*/
void set_task_budget(size_t max_tasks) {
task_budget = max_tasks;
rmi.barrier();
}
/**
* \brief Adds an update task with a particular priority.
* add_task on any vertex can be called by any machine.
* The call is asynchronous and may not be completed until
* a full_barrier is issued.
*/
void add_task(update_task_type task, double priority) {
if (update_function != NULL) assert(update_function == task.function());
else update_function = task.function();
if (graph.is_owned(task.vertex())) {
num_pending_tasks.inc(!
scheduled_vertices.set_bit(graph.globalvid_to_localvid(task.vertex()))
);
//std::cout << "add task to " << task.vertex() << std::endl;
}
else {
rmi.remote_call(graph.globalvid_to_owner(task.vertex()),
&distributed_chromatic_engine<Graph>::add_task,
task,
priority);
}
}
/**
* \brief Creates a collection of tasks on all the vertices in
* 'vertices', and all with the same update function and priority
* This function is forwarded to the scheduler.
*/
void add_tasks(const std::vector<vertex_id_t>& vertices,
update_function_type func, double priority) {
// not the most efficient way to do it...
for (size_t i = 0;i < vertices.size(); ++i) {
add_task(update_task_type(vertices[i], func), priority);
}
}
/// \internal
void add_task_to_all_from_remote(size_t func,
double priority) {
add_task_to_all_impl(reinterpret_cast<update_function_type>(func), priority);
}
/// \internal
void add_task_to_all_impl(update_function_type func,
double priority) {
if (update_function != NULL) assert(update_function == func);
else update_function = func;
scheduled_vertices.fill();
num_pending_tasks.value = graph.owned_vertices().size();
}
/**
* \brief Creates a collection of tasks on all the vertices in the graph,
* with the same update function and priority
* Must be called by all machines simultaneously
*/
void add_task_to_all(update_function_type func,
double priority) {
add_task_to_all_impl(func,priority);
// forward add_task_to_all to all machines
/*for (size_t i = 0;i < rmi.numprocs(); ++i) {
if (i != rmi.procid()) {
rmi.remote_call(i,
&distributed_chromatic_engine<Graph>::add_task_to_all_from_remote,
reinterpret_cast<size_t>(func),
priority);
}
}*/
rmi.barrier();
}
/**
Registers a sync operation.
Must be called by all machine simultaneously
*/
void set_sync(glshared_base& shared,
sync_function_type sync,
glshared_base::apply_function_type apply,
const any& zero,
size_t sync_interval = 0,
merge_function_type merge = NULL,
vertex_id_t rangelow = 0,
vertex_id_t rangehigh = -1) {
ASSERT_MSG(merge != NULL, "merge is required for the distributed engine");
sync_task st;
st.sync_fun = sync;
st.merge_fun = merge;
st.apply_fun = apply;
st.sync_interval = sync_interval;
st.next_time = 0;
st.zero = zero;
st.rangelow = rangelow;
st.rangehigh = rangehigh;
st.sharedvariable = dynamic_cast<distributed_glshared_base*>(&shared) ;
sync_tasks.push_back(st);
rmi.barrier();
}
void generate_color_blocks() {
// construct for each color, the set of vertices as well as the
// number of replicas for that vertex.
// the number of replicas - 1 is the amount of communication
// we have to perform to synchronize modifications to that vertex
std::vector<std::vector<std::pair<size_t, vertex_id_t> > > color_block_and_weight;
const size_t num_colors(graph.recompute_num_colors());
// the list of vertices for each color
color_block_and_weight.resize(num_colors);
foreach(vertex_id_t v, graph.owned_vertices()) {
color_block_and_weight[graph.get_color(v)].push_back(
std::make_pair(graph.globalvid_to_replicas(v).size(),
graph.globalvid_to_localvid(v)));
}
color_block.clear();
color_block.resize(num_colors);
if (randomize_schedule) {
for (size_t i = 0; i < color_block_and_weight.size(); ++i) {
random::shuffle(color_block_and_weight[i].begin(),
color_block_and_weight[i].end());
}
}
else {
// optimize ordering. Sort in descending order
// put all those which need a lot of communication in the front
// to give communication the maximum amount if time possible.
for (size_t i = 0; i < color_block_and_weight.size(); ++i) {
std::sort(color_block_and_weight[i].rbegin(),
color_block_and_weight[i].rend());
}
}
// insert the sorted vertices into the final color_block
for (size_t i = 0;i < color_block_and_weight.size(); ++i ) {
std::transform(color_block_and_weight[i].begin(),
color_block_and_weight[i].end(),
std::back_inserter(color_block[i]),
__gnu_cxx::select2nd<std::pair<size_t, vertex_id_t> >());
}
}
/************ Actual Execution Engine ****************/
private:
atomic<size_t> curidx;
barrier thread_color_barrier;
public:
struct termination_evaluation{
size_t pending_tasks;
size_t executed_tasks;
bool terminator;
bool timeout;
bool force_stop;
termination_evaluation(): pending_tasks(0),
executed_tasks(0),
terminator(false),
timeout(false),
force_stop(false) { }
void save(oarchive &oarc) const {
oarc << pending_tasks
<< executed_tasks
<< terminator
<< timeout
<< force_stop;
}
void load(iarchive &iarc) {
iarc >> pending_tasks
>> executed_tasks
>> terminator
>> timeout
>> force_stop;
}
};
/**
* Initialize the sync tasks. Called by start()
*/
void init_syncs() {
active_sync_tasks.clear();
// setup the intermediate values. initialize them to zero
for (size_t i = 0;i < sync_tasks.size(); ++i) {
sync_tasks[i].thread_intermediate.clear();
sync_tasks[i].thread_intermediate.resize(ncpus, sync_tasks[i].zero);
// everyone runs at the start even if scheduling interval is 0
active_sync_tasks.push_back(&(sync_tasks[i]));
}
}
/**
* Called whenever a vertex is executed.
* Accumulates the available syncs
*/
void eval_syncs(vertex_id_t curvertex, iscope_type& scope, size_t threadid) {
// go through all the active sync tasks
foreach(sync_task* task, active_sync_tasks) {
// if in range, sync!
if (task->rangelow <= curvertex && curvertex <= task->rangehigh) {
task->sync_fun(scope, task->thread_intermediate[threadid]);
}
}
}
/** Called at the end of the iteration. Called by all threads after a barrier*/
void sync_end_iteration(size_t threadid) {
// merge and apply all the syncs. distribute the work among the threads
for (size_t curtask = threadid; curtask < active_sync_tasks.size(); curtask += ncpus) {
sync_task* task = active_sync_tasks[curtask];
task->mergeval = task->thread_intermediate[0];
task->thread_intermediate[0] = task->zero;
for(size_t i = 1; i < task->thread_intermediate.size(); ++i) {
task->merge_fun(task->mergeval, task->thread_intermediate[i]);
task->thread_intermediate[i] = task->zero;
}
// zero out the intermediate
task->thread_intermediate.clear();
task->thread_intermediate.resize(ncpus, sync_tasks[curtask].zero);
// for efficiency, lets merge each sync task to the prefered machine
}
thread_color_barrier.wait();
// one thread of each machine participates in |active_sync_tasks| gathers
if (threadid == 0) {
for (size_t i = 0;i < active_sync_tasks.size(); ++i) {
sync_task* task = active_sync_tasks[i];
procid_t target = task->sharedvariable->preferred_machine();
std::vector<any> gathervals(rmi.numprocs());
gathervals[rmi.procid()] = task->mergeval;
rmi.gather(gathervals, target);
// now if I am target I need to do the final merge and apply
if (target == rmi.procid()) {
task->mergeval = gathervals[0];
for (size_t i = 1; i < gathervals.size(); ++i) {
task->merge_fun(task->mergeval, gathervals[i]);
}
// apply!!!
task->sharedvariable->apply(task->apply_fun, task->mergeval);
numsyncs.inc();
}
}
}
thread_color_barrier.wait();
}
/** clears the active sync tasks and figure out what syncs to run next.
Called by one thread from each machine after sync_end_iteration */
void compute_sync_schedule(size_t num_executed_tasks) {
// update the next time variable
for (size_t i = 0;i < active_sync_tasks.size(); ++i) {
sync_tasks[i].next_time = num_executed_tasks + sync_tasks[i].sync_interval;
// if it is within the next iteration
if (sync_tasks[i].next_time < num_executed_tasks + graph.num_vertices()) sync_tasks[i].next_time = num_executed_tasks;
// if sync interval of 0, this was the first iteration.
// then I just set next time to infinity and it will never be run again
if (sync_tasks[i].sync_interval == 0) {
sync_tasks[i].next_time = size_t(-1);
}
}
active_sync_tasks.clear();
// figure out what to run next
for (size_t i = 0;i < sync_tasks.size(); ++i) {
if (sync_tasks[i].next_time <= num_executed_tasks) {
active_sync_tasks.push_back(&(sync_tasks[i]));
}
}
}
/** Checks all machines for termination and sets the termination reason.
Also returns the number of update tasks completed globally */
size_t check_global_termination(bool check_dynamic_schedule) {
std::vector<termination_evaluation> termination_test;
termination_test.resize(rmi.numprocs());
if (check_dynamic_schedule) {
termination_test[rmi.procid()].pending_tasks = num_pending_tasks.value;
}
size_t numupdates = 0;
for (size_t i = 0; i < update_counts.size(); ++i) numupdates += update_counts[i];
termination_test[rmi.procid()].executed_tasks = numupdates;
if (timeout_millis > 0 && ti.current_time_millis() > timeout_millis) {
termination_test[rmi.procid()].timeout = true;
}
for (size_t i = rmi.procid(); i < term_functions.size(); i += rmi.numprocs()) {
if (term_functions[i]()) {
termination_test[rmi.procid()].terminator = true;
break;
}
}
termination_test[rmi.procid()].force_stop = force_stop;
// gather all to 0.
// machine 0 evaluates termiation
rmi.gather(termination_test, 0);
// used to globally evaluate termination
termination_evaluation aggregate;
if (rmi.procid() == 0) {
for (size_t i = 0;i < termination_test.size(); ++i) {
aggregate.pending_tasks += termination_test[i].pending_tasks;
aggregate.executed_tasks += termination_test[i].executed_tasks;
aggregate.terminator |= termination_test[i].terminator;
aggregate.timeout |= termination_test[i].timeout;
aggregate.force_stop |= termination_test[i].force_stop;
}
if (check_dynamic_schedule && aggregate.pending_tasks == 0) {
termination_reason = EXEC_TASK_DEPLETION;
}
else if (task_budget > 0 && aggregate.executed_tasks >= task_budget) {
termination_reason = EXEC_TASK_BUDGET_EXCEEDED;
}
else if (timeout_millis > 0 && aggregate.timeout) {
termination_reason = EXEC_TIMEOUT;
}
else if (aggregate.terminator) {
termination_reason = EXEC_TERM_FUNCTION;
}
else if (aggregate.force_stop) {
termination_reason = EXEC_FORCED_ABORT;
}
}
size_t treason = termination_reason;
// note this is OK because only machine 0 will have the right value for
// executed_tasks. And everyone is receiving from machine 0
std::pair<size_t, size_t> reason_and_task(treason, aggregate.executed_tasks);
rmi.broadcast(reason_and_task, rmi.procid() == 0);
termination_reason = exec_status(reason_and_task.first);
return reason_and_task.second;
}
void start_thread(size_t threadid) {
// create the scope
dgraph_scope<Graph> scope;
timer ti;
// loop over iterations
size_t iter = 0;
bool usestatic = max_iterations > 0;
while(1) {
// if max_iterations is defined, quit
if (usestatic && iter >= max_iterations) {
termination_reason = EXEC_TASK_DEPLETION;
break;
}
bool hassynctasks = active_sync_tasks.size() > 0;
// loop over colors
for (size_t c = 0;c < color_block.size(); ++c) {
// internal loop over vertices in the color
while(1) {
// grab a vertex
size_t i = curidx.inc_ret_last();
// if index out of scope, we are done with this color. break
if (i >= color_block[c].size()) break;
// otherwise, get the local and globalvid
vertex_id_t localvid = color_block[c][i];
vertex_id_t globalvid = graph.localvid_to_globalvid(color_block[c][i]);
if (usestatic || scheduled_vertices.clear_bit(localvid)) {
if (!usestatic) num_pending_tasks.dec();
// otherwise. run the vertex
// create the scope
scope.init(&graph, globalvid);
// run the update function
update_function(scope, callback);
// check if there are tasks to run
if (hassynctasks) eval_syncs(globalvid, scope, threadid);
scope.commit_async_untracked();
update_counts[threadid]++;
}
else {
// ok this vertex is not scheduled. But if there are syncs
// to run I will still need to get the scope
scope.init(&graph, globalvid);
if (hassynctasks) eval_syncs(globalvid, scope, threadid);
scope.commit_async_untracked();
}
}
// wait for all threads to synchronize on this color.
thread_color_barrier.wait();
curidx.value = 0;
// full barrier on the color
// this will complete synchronization of all add tasks as well
if (threadid == 0) {
ti.start();
graph.wait_for_all_async_syncs();
// TODO! If synchronize() calls were made then this barrier is necessary
// but the time needed to figure out if a synchronize call is required
// could be as long as the barrier itself
if (const_nbr_vertices == false || const_edges == false) rmi.dc().barrier();
rmi.dc().full_barrier();
num_dist_barriers_called++;
//std::cout << rmi.procid() << ": Full Barrier at end of color" << std::endl;
barrier_time += ti.current_time();
}
thread_color_barrier.wait();
}
sync_end_iteration(threadid);
thread_color_barrier.wait();
if (threadid == 0) {
ti.start();
//std::cout << rmi.procid() << ": End of all colors" << std::endl;
size_t numtasksdone = check_global_termination(!usestatic);
//std::cout << numtasksdone << " tasks done" << std::endl;
compute_sync_schedule(numtasksdone);
barrier_time += ti.current_time();
}
// all threads must wait for 0
thread_color_barrier.wait();
++iter;
if (termination_reason != EXEC_UNSET) {
//std::cout << rmi.procid() << ": Termination Reason: " << termination_reason << std::endl;
break;
}
}
}
void set_const_edges(bool const_edges_ = true) {
const_edges = const_edges_;
}
void set_const_nbr_vertices(bool const_nbr_vertices_ = true) {
const_nbr_vertices = const_nbr_vertices_;
}
/** Execute the engine */
void start() {
assert(update_function != NULL);
if (default_scope_range == scope_range::FULL_CONSISTENCY) {
const_nbr_vertices = false;
}
// generate colors then
// wait for everyone to enter start
generate_color_blocks();
init_syncs();
termination_reason = EXEC_UNSET;
barrier_time = 0.0;
force_stop = false;
numsyncs.value = 0;
num_dist_barriers_called = 0;
std::fill(update_counts.begin(), update_counts.end(), 0);
// two full barrers to complete flush replies
rmi.dc().full_barrier();
rmi.dc().full_barrier();
// reset indices
curidx.value = 0;
ti.start();
// spawn threads
thread_group thrgrp;
for (size_t i = 0;i < ncpus; ++i) {
size_t aff = use_cpu_affinity ? i : -1;
thrgrp.launch(boost::bind(
&distributed_chromatic_engine<Graph>::start_thread,
this, i), aff);
}
thrgrp.join();
rmi.barrier();
// proc 0 gathers all update counts
std::vector<size_t> procupdatecounts(rmi.numprocs(), 0);
procupdatecounts[rmi.procid()] = thisproc_update_counts();
rmi.gather(procupdatecounts, 0);
std::vector<double> barrier_times(rmi.numprocs(), 0);
barrier_times[rmi.procid()] = barrier_time;
rmi.gather(barrier_times, 0);
// get RMI statistics
std::map<std::string, size_t> ret = rmi.gather_statistics();
if (rmi.procid() == 0) {
engine_metrics.add("runtime",
ti.current_time(), TIME);
total_update_count = 0;
for(size_t i = 0; i < procupdatecounts.size(); ++i) {
engine_metrics.add_vector_entry("updatecount", i, procupdatecounts[i]);
total_update_count += procupdatecounts[i];
}
total_barrier_time = 0;
for(size_t i = 0; i < barrier_times.size(); ++i) {
engine_metrics.add_vector_entry("barrier_time", i, barrier_times[i]);
total_barrier_time += barrier_times[i];
}
engine_metrics.set("termination_reason",
exec_status_as_string(termination_reason));
engine_metrics.add("dist_barriers_issued",
num_dist_barriers_called, INTEGER);
engine_metrics.set("num_vertices", graph.num_vertices(), INTEGER);
engine_metrics.set("num_edges", graph.num_edges(), INTEGER);
engine_metrics.add("num_syncs", numsyncs.value, INTEGER);
engine_metrics.set("isdynamic", max_iterations == 0, INTEGER);
engine_metrics.add("iterations", max_iterations, INTEGER);
engine_metrics.set("total_calls_sent", ret["total_calls_sent"], INTEGER);
engine_metrics.set("total_bytes_sent", ret["total_bytes_sent"], INTEGER);
total_bytes_sent = ret["total_bytes_sent"];
}
}
/**
* Performs a sync immediately. This function requires that the shared
* variable already be registered with the engine.
* and that the engine is not currently running
* All processes must call simultaneously
*/
void sync_now(glshared_base& shared) {
// TODO
}
/** \brief Update the scheduler options. */
void set_engine_options(const scheduler_options& opts) {
opts.get_int_option("max_iterations", max_iterations);
opts.get_int_option("randomize_schedule", randomize_schedule);
any uf;
if (opts.get_any_option("update_function", uf)) {
update_function = uf.as<update_function_type>();
}
rmi.barrier();
}
void set_scheduler_options(const scheduler_options& opts) {
}
void set_randomize_schedule(bool randomize_schedule_) {
randomize_schedule = randomize_schedule_;
rmi.barrier();
}
static void print_options_help(std::ostream &out) {
out << "max_iterations = [integer, default = 0]\n";
out << "randomize_schedule = [integer, default = 0]\n";
out << "update_function = [update_function_type,"
"default = set on add_task]\n";
};
void stop() {
force_stop = true;
}
void register_monitor(imonitor_type* listener) {
logger(LOG_FATAL, "distributed engine does not support register monitor");
}
size_t total_update_count;
size_t get_tasks_done() const {
return total_update_count;
}
double total_barrier_time;
double get_barrier_time() const {
return total_barrier_time;
}
long long int total_bytes_sent;
long long int get_total_bytes_sent() {
return total_bytes_sent;
}
metrics get_metrics() {
return engine_metrics;
}
void reset_metrics() {
engine_metrics.clear();
}
};
} // namespace graphlab
#include <graphlab/macros_undef.hpp>
#endif // DISTRIBUTED_CHROMATIC_ENGINE_HPP
|
3e5bdb2cc482f40b43d9b2f2d6d09ce8651d8a23 | 00ef39027b2de3f62b66ba9cc6015bf1a2293a6f | /Luces/Led.cpp | 4746a16a61b096c31c738fecd1518db6b4a013dc | [] | no_license | miguinarry/Proyecto | e52d183da566eca1e2e1ac7f3aff8da72fd418bb | 0c29f36dc7d421604fed7aa2cd82ae147aef7ddc | refs/heads/master | 2021-01-22T23:53:34.083705 | 2017-03-21T08:29:31 | 2017-03-21T08:29:31 | 85,677,142 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 664 | cpp | Led.cpp | // Led.cpp : implementation file
//
#include "stdafx.h"
#include "Luces.h"
#include "Led.h"
// CLed
IMPLEMENT_DYNAMIC(CLed, CWnd)
CLed::CLed()
{
IsOn = false;
rojo = RGB(255, 0, 0);
verde = RGB(0, 255, 0);
ambar = RGB(255, 126, 0);
gris = RGB(140, 140, 140);
color = gris;
}
CLed::~CLed()
{
}
BEGIN_MESSAGE_MAP(CLed, CWnd)
ON_WM_PAINT()
END_MESSAGE_MAP()
// CLed message handlers
void CLed::OnPaint()
{
CPaintDC dc(this); // device context for painting
// TODO: Add your message handler code here
// Do not call CWnd::OnPaint() for painting messages
CRect r;
GetClientRect(r);
dc.FillSolidRect(r, color);
}
|
015a7dafc6c9b53052d498cef50d43b6e771f0f3 | 5e558709a2bce21e7f0e000f03d1f5ea8f9fef1f | /Part 1 - Jumping Into C++/Ch 5 - Loops/PracticeProblems3 - Running Sums/practiceProblem5_3.cpp | 7ba00e473ea34ad5f8013177babd520a3dafcf8d | [] | no_license | jaikumarAJ/Jumping-Into-CPlusPlus | ce4fda5010716e98cc3e25d92f9f7f13023f51f1 | 3937e64289c95f3377a523706764ebf805dde45c | refs/heads/master | 2020-04-21T02:20:17.884095 | 2018-05-11T18:55:33 | 2018-05-11T18:55:33 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 269 | cpp | practiceProblem5_3.cpp | #include <iostream>
#include <string>
using namespace std;
int main()
{
double sum = 0;
double inputValue = 0;
do
{
cout << "Please provide a number to add to the sum of " << sum << "\n";
cin >> inputValue;
sum += inputValue;
}
while (inputValue != 0);
} |
bdc6670701c27abb9b044ae7923ae4558ebaf8c3 | d389e4b5e7a914f592d26bd4676d1d877e98a591 | /KiCad/LDR/LDR.ino | 83b9656277928db927fc11ad414bff7f8062be7d | [] | no_license | ZheTioS/ee_design | 405b56b9e17c5cb740499f15445f4bcce65a5bcf | 4ffb600a1c6a0cda3cfa7374bac11ec8f990de1f | refs/heads/main | 2023-04-04T03:02:42.390082 | 2021-04-20T15:46:20 | 2021-04-20T15:46:20 | 351,209,722 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 723 | ino | LDR.ino | const int LDRPin = 0;
const int LEDPin = 9;
int intensity = 0;
int tmp = 0;
void setup()
{
Serial.begin(9600); // initiate Serial monitor for troubleshooting
pinMode(LEDPin, OUTPUT); // set button to OUTPUT
pinMode(LDRPin, INPUT); // set ldr to INPUT
}
void loop()
{
intensity = analogRead(LDRPin); // read LDR pin light level
Serial.println(intensity); // print brightness to Serial monitor for troubleshooting
analogWrite(LEDPin, tmp); // set LED to brightness value 'tmp'
tmp = intensity; // reads the value of the potentiometer (value between 0 and 1023)
tmp = map(tmp, 255, 0, 0, 255); // scale it to use it with the servo (value between 0 and 180)
delay(15); // delay before begining loop again
}
|
a63edbf4bbfff9fa52f9235deb04b1217d96f227 | d093e5dbdf4fb08eacbe2ec3cfc070e4c58c0f3e | /Source/Core/TornadoEngine/Components/Shared/GlobalMatrixComponent.h | 287ab66a95e3dd0e5506649f8d0206c5f3e7c279 | [
"MIT"
] | permissive | RamilGauss/MMO-Framework | 3bd57e800f20b6447b494009eb3d7a49dfeb1402 | fa4ec6427a3a891954f97311af626f8753023ec2 | refs/heads/master | 2023-09-02T17:50:25.742920 | 2023-09-01T09:17:26 | 2023-09-01T09:17:26 | 15,496,543 | 32 | 20 | MIT | 2023-05-11T07:10:07 | 2013-12-28T17:54:28 | C++ | UTF-8 | C++ | false | false | 602 | h | GlobalMatrixComponent.h | /*
Author: Gudakov Ramil Sergeevich a.k.a. Gauss
Гудаков Рамиль Сергеевич
Contacts: [ramil2085@mail.ru, ramil2085@gmail.com]
See for more information LICENSE.md.
*/
#pragma once
#include <string>
#include "TypeDef.h"
#include <ECS/include/IComponent.h>
#include <GraphicEngine/RenderableObject.h>
#include "MathStructs.h"
#include "PropertyOf.h"
namespace nsCommonWrapper
{
struct DllExport TGlobalMatrixComponent :
nsTornadoEngine::TPropertyOf<nsGraphicEngine::TRenderableObject>, nsECSFramework::IComponent
{
nsMathTools::TMatrix16 value;
};
} |
d356e18b51eb6b6122210385b218c325edb2786f | 0d7fda4a7393e1b1d0db7b04a6894dab091da027 | /benchmark.cpp | 44b0d7812fee846515ae51f0dced55b86d842b8e | [] | no_license | JingruLuo/BenchmarkOMP | 686e5cc59cf7b76e0c838de44ab361bac18a8b80 | 575518be44f8194e197bfbfbebfb45f09a99e62e | refs/heads/master | 2016-09-05T09:37:49.166656 | 2014-09-15T02:28:33 | 2014-09-15T02:28:33 | 24,034,864 | 1 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 7,542 | cpp | benchmark.cpp | /*
* benchmark.cpp
*
* Created on: Jan 14, 2014
* Author: Jingru
*/
#include <ompl/base/SpaceInformation.h>
#include <ompl/base/spaces/RealVectorStateSpace.h>
#include <ompl/geometric/planners/rrt/RRTConnect.h>
#include <ompl/geometric/SimpleSetup.h>
#include <ompl/geometric/planners/rrt/RRT.h>
#include <ompl/geometric/planners/rrt/RRTstar.h>
//#include <ompl/contrib/rrt_star/RRTstar.h>
#include <ompl/base/PlannerTerminationCondition.h>
#include "ompl/datastructures/NearestNeighbors.h"
#include <ompl/config.h>
#include <iostream>
#include <stdio.h>
#include <math.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <errno.h>
#include <Timer.h>
#include "RRTOMPL.h"
#include "RRTStarOMPL.h"
#include "CEntropy.h"
#include "FMM.h"
#include "PolyhedronStateChecker.h"
#include "EnvironmentSettings.h"
#include "Polyhedron.h"
#include "PlannerEntrance.h"
#include "PlannerSettings.h"
#include "BenchmarkSettings.h"
using namespace std;
namespace ob = ompl::base;
namespace og = ompl::geometric;
/**
* benchmark entrance
* two summary files are generated:
* best-path-cost.txt: the best cost given a scenario parameters
* summary.txt: benchmarking, planner, environment information
*
*/
int main() {
srand(time(NULL));
double t1 = elapsedTime();
for(int l = 0; l < num_scenarios_to_test; l++){
ScenarioIndex scenarioIndex = scenarios_to_test[l];
time_t t = time(0);// get time now
struct tm * now = localtime( & t );
//===================create directories=================
char experimentDir[100];
sprintf(experimentDir, "%s-%d-%d-%d",scenario_names[(int)scenarioIndex].c_str(),now->tm_year+1900, now->tm_mon+1, now->tm_mday);
createTopDirs(experimentDir);
cout<<"Scenario:"<<scenario_names[(int)scenarioIndex]<<endl;
//===================write experiment info=================
writeExperimentInfo(experimentDir,scenarioIndex);
//===================start experiment=================
for (int i = 0; i < num_nD_to_test; i++) {
int nD = nD_to_test[i];
for (int j = 0; j < num_width_to_test; j++) {
double width = width_to_test[j];
for (int k = 0; k < num_thin_to_test; k++) {
double thin = thin_to_test[k];
//---------------set up problem definition--------------
//construct space
ob::StateSpacePtr space(new ob::RealVectorStateSpace(nD));
// set the bounds for the R^2
double low, high;
getScenarioBounds(scenarioIndex,low, high);
ob::RealVectorBounds bounds(nD);
bounds.setLow(low);
bounds.setHigh(high);
space->as<ob::RealVectorStateSpace>()->setBounds(bounds);
// construct an instance of space information from this state space
ob::SpaceInformationPtr si(new ob::SpaceInformation(space));
// set state validity checking for this space
ob::StateValidityChecker* myChecker = setupNarrowPassage(scenarioIndex, si, nD, width, thin);
// create a start state
ob::ScopedState<> start(space);
ob::ScopedState<> goal(space);
setupStartandGoal(scenarioIndex, nD, thin, start, goal);
si->setStateValidityChecker(ob::StateValidityCheckerPtr(myChecker));
si->setStateValidityCheckingResolution(
stateCheckResolution / si->getStateSpace()->getMaximumExtent());
si->setup();
ob::ProblemDefinitionPtr pdef(new ob::ProblemDefinition(si));
// set the start and goal states, goal region radius is set to zero
pdef->setStartAndGoalStates(start, goal);
//////////////////////////////////////////////////////////////////////
char pLength[100];
//---------------Multiple RRT---------------------------
if(runMRRT){
sprintf(pLength,"%s/%s/nD-%d-w-%.3f-t-%.3f",experimentDir, MRRTFolder.c_str(), nD, width, thin);
createDir(pLength);
double avg = 0;
for (int i = 1; i <= nRuns; i++) {
std::cout<<"in multiple-rrt, this is runs:"<<i<<"; nD:"<<nD<<";width:"<<width<<";thin:"<<thin<<std::endl;
avg += MRRTPlan(pLength,i, pdef, false);
}
cout<<"avg:"<<avg/(double)nRuns<<endl;
}
//---------------Multiple RRT with Shortcut---------------------------
if(runMRRT_shortcut){
sprintf(pLength,"%s/%s/nD-%d-w-%.3f-t-%.3f",experimentDir, MRRTFolder_shortcut.c_str(), nD, width, thin);
createDir(pLength);
double avg = 0;
for (int i = 1; i <= nRuns; i++) {
std::cout<<"in multiple-rrt+s, this is runs:"<<i<<"; nD:"<<nD<<";width:"<<width<<";thin:"<<thin<<std::endl;
avg += MRRTPlan(pLength,i, pdef, true);
}
cout<<"avg:"<<avg/(double)nRuns<<endl;
}
//---------------rrt star ---------------------------
if(runRRTStar){
sprintf(pLength,"%s/%s/nD-%d-w-%.3f-t-%.3f",experimentDir, RRTStarFolder.c_str(), nD, width, thin);
createDir(pLength);
for (int i = 1; i <= nRuns; i++) {
std::cout<<"in rrt-star, this is runs:"<<i<<"; nD:"<<nD<<";width:"<<width<<";thin:"<<thin<<std::endl;
RRTStarPlan(pLength, i, pdef);
}
}
//----------------Cross Entropy-------------------------
if(runCE){
sprintf(pLength,"%s/%s/nD-%d-w-%.3f-t-%.3f",experimentDir, CEFolder.c_str(), nD, width, thin);
createDir(pLength);
double avg = 0;
for (int i = 1; i <= nRuns; i++) {
std::cout<<"in cross entropy, this is runs:"<<i<<"; nD:"<<nD<<";width:"<<width<<";thin:"<<thin<<std::endl;
avg += CEPlan(pLength, i, pdef, myChecker);
cout<<"avg:"<<avg/(double)i<<endl;
}
cout<<"avg:"<<avg/(double)nRuns<<endl;
}
//----------------PRM star-------------------------
if(runPRMStar){
sprintf(pLength,"%s/%s/nD-%d-w-%.3f-t-%.3f",experimentDir, PRMStarFolder.c_str(), nD, width, thin);
createDir(pLength);
for (int i = 1; i <= nRuns; i++) {
std::cout<<"in prm-star, this is runs:"<<i<<"; nD:"<<nD<<";width:"<<width<<";thin:"<<thin<<std::endl;
PRMStarPlan(pLength, i, pdef, false);
}
}
//----------------Lazy PRM star-------------------------
if(runPRMStar_Lazy){
sprintf(pLength,"%s/%s/nD-%d-w-%.3f-t-%.3f",experimentDir, PRMStarFolder_Lazy.c_str(), nD, width, thin);
createDir(pLength);
for (int i = 1; i <= nRuns; i++) {
std::cout<<"in lazy-prm-star, this is runs:"<<i<<"; nD:"<<nD<<";width:"<<width<<";thin:"<<thin<<std::endl;
PRMStarPlan(pLength, i, pdef, true);
}
}
//----------------FMM without offset-------------------------
if(runFMM){
sprintf(pLength,"%s/%s/nD-%d-w-%.3f-t-%.3f",experimentDir, FMMFolder.c_str(), nD, width, thin);
createDir(pLength);
for (int i = 1; i <= 1; i++) {
std::cout<<"in fmm, this is runs:"<<i<<"; nD:"<<nD<<";width:"<<width<<";thin:"<<thin<<std::endl;
FMMPlan(pLength,i, pdef, myChecker, false);
}
}
//----------------FMM with offset-------------------------
if(runFMMOffset){
sprintf(pLength,"%s/%s/nD-%d-w-%.3f-t-%.3f",experimentDir, FMMOffsetFolder.c_str(), nD, width, thin);
createDir(pLength);
for (int i = 1; i <= nRuns; i++) {
std::cout<<"in fmm-offset, this is runs:"<<i<<"; nD:"<<nD<<";width:"<<width<<";thin:"<<thin<<std::endl;
bool do_offset = true;
if(scenarioIndex == PlanaryLinkage)
do_offset = false;
FMMPlan(pLength,i, pdef, myChecker, do_offset);
}
}
}
}
}
}
double t2 = elapsedTime();
cout<<"Used time:"<<t2-t1<<"(seconds) = "<<(t2-t1)/3600.0<<"(hours)"<<endl;
cout<<"=====================All Done!====================="<<endl;
return 0;
}
|
8736e90c6e2a81a34d427aba2bdd83d10b9a313f | 465a316d0e32348f2d44f6ce29f36c95c1d8a2d8 | /night.h | 45ce07acce5cbabd4635ad3f7b9b74db0a6a357d | [] | no_license | jamat13/record | d56a4fc92312145cb845eb40322bb646ff6aafa4 | b25112c84de651be7de08489ce848eb1a40eafc1 | refs/heads/master | 2021-01-09T06:06:02.486150 | 2017-02-04T12:53:04 | 2017-02-04T12:53:04 | 80,913,191 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 415 | h | night.h | #ifndef NIGHT_H
#define NIGHT_H
#include <QDialog>
#include "ui_night.h"
class QSqlError;
class Record;
class NightDialog : public QDialog, public Ui::NightDialog
{
Q_OBJECT
public:
NightDialog(QWidget *parent = 0);
private slots:
void on_pushButtonSubmit_pressed ();
void on_pushButtonQuit_pressed ();
private:
bool empty;
void sqlError (QString sql, QSqlError err);
};
#endif
|
778dd2bfb2e8675ce8a663eaefcd4cf252e3a625 | e894292a153ed025d88df88dbb8188315caa01aa | /test_core/memory/allocator.cpp | 8719dac7a309b0fdd4efd4a6da39abaf9caeb42c | [
"MIT",
"BSL-1.0"
] | permissive | stefan-wolfsheimer/LispPlusPlus | 8e9fc9aba68da0122cf607531a11324a0cab6b48 | f99612ef859b6a2b94cff26b386b11bcbfc299bd | refs/heads/master | 2021-10-12T07:14:06.943424 | 2021-10-02T17:15:40 | 2021-10-02T17:15:40 | 107,277,460 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 45,609 | cpp | allocator.cpp | /******************************************************************************
Copyright (c) 2018-2019, Stefan Wolfsheimer
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice, this
list of conditions and the following disclaimer.
2. 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.
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 OR CONTRIBUTORS 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.
The views and conclusions contained in the software and documentation are those
of the authors and should not be interpreted as representing official policies,
either expressed or implied, of the FreeBSD Project.
******************************************************************************/
#include <limits>
#include <vector>
#include <unordered_set>
#include <iostream>
#include <sstream>
#include <catch.hpp>
#include <lpp/core/memory/allocator.h>
#include <lpp/core/types/cons.h>
#include <lpp/core/types/array.h>
#include <lpp/core/types/symbol.h>
#include <lpp/core/object.h>
#include <lpp/simul/collectible_graph.h>
#include <lpp/simul/collectible_edge.h>
#include <lpp/simul/collectible_node.h>
// helper types
using Allocator = Lisp::Allocator;
using Cons = Lisp::Cons;
using Cell = Lisp::Cell;
using Collectible = Lisp::Collectible;
using Color = Lisp::Color;
using Object = Lisp::Object;
using Nil = Lisp::Nil;
using CollectibleGraph = Lisp::CollectibleGraph;
using Array = Lisp::Array;
using Symbol = Lisp::Symbol;
// helper constants
static const std::size_t undef = std::numeric_limits<std::size_t>::max();
static const std::size_t error = std::numeric_limits<std::size_t>::max() - 1;
// helper functions
static std::shared_ptr<Allocator> makeCollector(std::size_t pageSize=12);
static std::pair<Color, std::size_t> operator==(Color, std::size_t);
static std::vector<std::pair<Color, std::size_t> > fillMissingColor(const std::vector<std::pair<Color, std::size_t> > & input);
static bool checkCollectible(std::shared_ptr<Allocator> factory,
const std::vector<std::pair<Color, std::size_t> > & rootConses,
const std::vector<std::pair<Color, std::size_t> > & conses);
static bool checkCollectible(std::shared_ptr<Allocator> factory,
std::size_t disposed,
const std::vector<std::pair<Color, std::size_t> > & rootConses,
const std::vector<std::pair<Color, std::size_t> > & conses);
static std::unordered_set<Cell> Set();
static std::unordered_set<Cell> Set(const Cell & c);
template<typename... ARGS>
static std::unordered_set<Cell> Set(const Cell & c, ARGS... rest);
static std::unordered_set<Cell> Set(const std::vector<Cell> & cells);
static std::unordered_set<Cell> Parents(const CollectibleGraph & graph,
const Cell & cell);
SCENARIO("cons_life_cycle", "[Allocator]")
{
GIVEN("An empty cons factory")
{
auto coll = makeCollector(8);
REQUIRE(checkCollectible(coll, 0u, {}, {}));
REQUIRE(coll->numDisposedCollectible() == 0u);
REQUIRE(coll->numVoidCollectible() == 0u);
REQUIRE(coll->getCycles() == 0);
WHEN("gc cycle is performed")
{
coll->cycle();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(coll->numVoidCollectible() == 0u);
REQUIRE(checkCollectible(coll, 0u, {}, {}));
}
WHEN("step is performed")
{
coll->enableCollector();
coll->enableRecycling();
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(coll->numVoidCollectible() == 0u);
REQUIRE(coll->numDisposedCollectible() == 0u);
REQUIRE(checkCollectible(coll, 0u, {}, {}));
coll->recycle();
}
}
}
SCENARIO("one cons without children", "[Allocator]")
{
GIVEN("A root cons")
{
/*
+
/ \
*/
auto coll = makeCollector(8);
auto obj = std::make_shared<Object>(coll->makeRoot<Cons>(Lisp::nil, Lisp::nil));
auto cons = obj->as<Cons>();
CollectibleGraph graph(*coll);
REQUIRE(obj->isRoot());
REQUIRE(obj->getColor() == Color::White);
REQUIRE(obj->getRefCount() == 1u);
REQUIRE(Parents(graph, *obj) == Set());
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(Cell(cons)));
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u, { Color::White == 1u}, {}));
WHEN("the cons is unrooted")
{
obj.reset();
CollectibleGraph graph(*coll);
REQUIRE_FALSE(cons->isRoot());
REQUIRE(cons->getColor() == Color::Grey);
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u, {}, { Color::Grey == 1u }));
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set());
THEN("Allocator::cycle() cleans it up")
{
coll->cycle();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(coll->numVoidCollectible() == 8u);
REQUIRE(checkCollectible(coll, 0u, {}, {}));
}
THEN("Allocator::step() cleans it up")
{
coll->enableCollector();
coll->enableRecycling();
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, {}, {Color::Black == 1}));
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, 0u, {}, {Color::White == 1}));
coll->step();
REQUIRE(checkCollectible(coll, 1u, {}, {}));
coll->recycle();
REQUIRE(checkCollectible(coll, 0u, {}, {}));
}
}
}
}
SCENARIO("one cons with self-ref", "[Allocator]")
{
GIVEN("A root cons with children referring to itself")
{
/*
+
/ \
*/
auto coll = makeCollector(8);
auto obj = std::make_shared<Object>(coll->makeRoot<Cons>(Lisp::nil, Lisp::nil));
auto cons = obj->as<Cons>();
cons->setCar(*obj);
cons->setCdr(*obj);
CollectibleGraph graph(*coll);
REQUIRE(cons->getCarCell().isA<Cons>());
REQUIRE(cons->getCdrCell().isA<Cons>());
REQUIRE(cons->getCarCell().as<Cons>() == cons);
REQUIRE(cons->getCdrCell().as<Cons>() == cons);
REQUIRE(cons->getRefCount() == 1u);
REQUIRE(Parents(graph, *obj) == Set(Cell(cons)));
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(Cell(cons)));
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u, {Color::Black==1}, {}));
THEN("Allocator::cycle() turns it white")
{
coll->cycle();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u, {Color::White==1}, {}));
CollectibleGraph graph(*coll);
REQUIRE(Parents(graph, *obj) == Set(Cell(cons)));
}
THEN("Allocator::step() turns it white")
{
coll->enableCollector();
coll->enableRecycling();
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u, {Color::White==1}, {}));
coll->recycle();
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u, {Color::White==1}, {}));
CollectibleGraph graph(*coll);
REQUIRE(Parents(graph, *obj) == Set(Cell(cons)));
}
THEN("unsetting")
{
REQUIRE(checkCollectible(coll, 0u, {Color::Black==1}, {}));
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(Cell(cons)));
obj.reset();
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set());
REQUIRE(checkCollectible(coll, 0u, {}, {Color::Black==1}));
THEN("Allocator::cycle() removes it")
{
coll->cycle();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(coll->numVoidCollectible() == 8u);
REQUIRE(checkCollectible(coll, 0u, {}, {}));
}
THEN("Allocator::step() removes it")
{
coll->enableCollector();
coll->enableRecycling();
REQUIRE(coll->getCycles() == 0u);
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u, {}, {Color::White==1}));
coll->step();
REQUIRE(coll->getCycles() == 2u);
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 1u, {}, {}));
coll->recycle();
REQUIRE(coll->numVoidCollectible() == 8u);
}
}
}
}
SCENARIO("a cons with 2 children", "[Allocator]")
{
/*
o
/ \
o o
*/
GIVEN("A cons coll with 2 children")
{
auto coll = makeCollector(8);
//@todo check if we can use Cell(coll->makeCons)
auto obj = Object(coll->makeRoot<Cons>(Object(coll->makeRoot<Cons>(Lisp::nil, Lisp::nil)),
Object(coll->makeRoot<Cons>(Lisp::nil, Lisp::nil))));
auto cons = obj.as<Cons>();
CollectibleGraph graph(*coll);
REQUIRE(cons);
REQUIRE(cons->isRoot());
REQUIRE(cons->getColor() == Color::White);
REQUIRE(cons->getRefCount() == 1u);
REQUIRE(Parents(graph, cons) == Set());
REQUIRE(Parents(graph, cons->getCarCell()) == Set(Cell(cons)));
REQUIRE(Parents(graph, cons->getCdrCell()) == Set(Cell(cons)));
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(Cell(cons),
cons->getCarCell(),
cons->getCdrCell()));
REQUIRE(coll->numVoidCollectible() == 5u);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 1u},
{ Color::Grey == 2u}));
WHEN("There are references to its children")
{
{
auto car = cons->getCar();
auto cdr = cons->getCdr();
CollectibleGraph graph(*coll);
REQUIRE(car.as<Cons>()->getRefCount() == 1u);
REQUIRE(cdr.as<Cons>()->getRefCount() == 1u);
REQUIRE(coll->numVoidCollectible() == 5u);
REQUIRE(checkCollectible(coll, 0u, { Color::White == 3u }, {}));
REQUIRE(Parents(graph, car) == Set(obj));
REQUIRE(Parents(graph, cdr) == Set(obj));
}
REQUIRE(coll->numVoidCollectible() == 5u);
REQUIRE(checkCollectible(coll,
0u,
{ Color::White == 1u},
{ Color::Grey == 2u}));
THEN("Allocator::cycle() does not remove it")
{
coll->cycle();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, {Color::White == 2u}));
}
THEN("Allocator::step() does not remove it")
{
coll->enableCollector();
coll->enableRecycling();
REQUIRE(coll->getCycles() == 0u);
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, {Color::Black==1}, {Color::Grey==2}));
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, {Color::Black==1}, {Color::Grey==1, Color::Black==1}));
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, {Color::Black==1}, {Color::Black==2}));
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, 0u, {Color::White==1}, {Color::White==2}));
}
THEN("unsetting one child")
{
cons->unsetCar();
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(Cell(cons),
cons->getCdrCell()));
REQUIRE(checkCollectible(coll, 0u, {Color::White==1}, {Color::Grey==2}));
THEN("Allocator::cycle() does remove it")
{
coll->cycle();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(coll->numVoidCollectible() == 6u);
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, {Color::White == 1u}));
}
THEN("Allocator::step() does remove it")
{
REQUIRE(checkCollectible(coll, 0u, {Color::White==1}, {Color::Grey==2}));
coll->enableCollector();
coll->enableRecycling();
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, { Color::Black == 1u}, { Color::Grey == 2u}));
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, { Color::Black == 1u}, { Color::Grey == 1u, Color::Black == 1u}));
coll->step();
REQUIRE(checkCollectible(coll, 0u, { Color::Black == 1u}, { Color::Black == 2u}));
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, 0u, { Color::White == 1u}, { Color::White == 2}));
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, 0u, { Color::Black == 1u }, { Color::White == 1, Color::Grey == 1}));
coll->step();
REQUIRE(checkCollectible(coll, 0u, { Color::Black == 1u }, { Color::White == 1, Color::Black == 1}));
coll->step();
REQUIRE(coll->getCycles() == 2u);
REQUIRE(checkCollectible(coll, 1u, { Color::White == 1u }, { Color::White == 1}));
coll->recycle();
REQUIRE(checkCollectible(coll, 0u, { Color::White == 1u }, { Color::White == 1}));
}
THEN("setting other child to itself and gc step is executed")
{
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, {Color::Grey == 2u}));
cons->setCdr(obj);
REQUIRE(checkCollectible(coll, 0u, {Color::Black == 1u}, {Color::White == 0u, Color::Grey == 2}));
coll->enableCollector();
coll->enableRecycling();
coll->step();
REQUIRE(checkCollectible(coll, 0u, {Color::Black == 1u}, {Color::Black == 1u, Color::Grey == 1}));
coll->step();
REQUIRE(checkCollectible(coll, 0u, {Color::Black == 1u}, {Color::Black == 2u}));
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, {Color::White == 2u}));
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, 0u, {Color::Black == 1u}, {Color::White == 2u}));
coll->step();
REQUIRE(coll->getCycles() == 2u);
REQUIRE(checkCollectible(coll, 2u, {Color::White == 1u}, {}));
coll->recycle();
REQUIRE(checkCollectible(coll, 1u, {Color::White == 1u}, {}));
coll->recycle();
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, {}));
}
}
}
}
}
SCENARIO("3 conses with 4 children", "[Allocator]")
{
GIVEN("2 conses")
{
/*
o o
/ \ / \
o o o o
*/
auto coll = makeCollector(8);
Object cons1(coll->makeRoot<Cons>(Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil)),
Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil))));
Object cons2(coll->makeRoot<Cons>(Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil)),
Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil))));
CollectibleGraph graph(*coll);
REQUIRE(coll->numVoidCollectible() == 2u);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 2u},
{ Color::Grey == 4u}));
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(cons1,
cons1.as<Cons>()->getCarCell(),
cons1.as<Cons>()->getCdrCell(),
cons2,
cons2.as<Cons>()->getCarCell(),
cons2.as<Cons>()->getCdrCell()));
WHEN("there are 2 conses with 4 children")
{
/*
o o o
/ \ / \ / \
o o o o
*/
Object cons3(coll->makeRoot<Cons>(cons2.as<Cons>()->getCar(), Lisp::nil));
CollectibleGraph graph(*coll);
REQUIRE(coll->numVoidCollectible() == 1u);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 3u},
{ Color::Grey == 4u}));
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(cons1,
cons1.as<Cons>()->getCarCell(),
cons1.as<Cons>()->getCdrCell(),
cons2,
cons2.as<Cons>()->getCarCell(),
cons2.as<Cons>()->getCdrCell(),
cons3,
cons3.as<Cons>()->getCarCell()));
WHEN("cons2 is unset")
{
/*
o o
/ \ / \
o o o
*/
cons2 = Lisp::nil;
CollectibleGraph graph(*coll);
REQUIRE(coll->numVoidCollectible() == 1u);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 2u },
{ Color::Grey == 5u }));
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(cons1,
cons1.as<Cons>()->getCarCell(),
cons1.as<Cons>()->getCdrCell(),
cons3.as<Cons>(),
cons3.as<Cons>()->getCarCell()));
REQUIRE(coll->getCycles() == 0);
coll->cycle();
REQUIRE(coll->getCycles() == 1);
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(cons1,
cons1.as<Cons>()->getCarCell(),
cons1.as<Cons>()->getCdrCell(),
cons3.as<Cons>(),
cons3.as<Cons>()->getCarCell()));
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 2u },
{ Color::White == 3u }));
REQUIRE(coll->numVoidCollectible() == 3u);
}
}
}
}
SCENARIO("copy cons object with object copy constructor", "[Allocator]")
{
GIVEN("A cons with 2 children")
{
auto coll = makeCollector(8);
Object cons1(coll->makeRoot<Cons>(Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil)),
Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil))));
REQUIRE(cons1.isA<Cons>());
REQUIRE(cons1.as<Cons>()->getRefCount() == 1u);
WHEN("there is a copy of the cons")
{
Object cons2(cons1);
REQUIRE(cons2.isA<Cons>());
REQUIRE(cons2.as<Cons>() == cons1.as<Cons>());
REQUIRE(cons2.as<Cons>()->getRefCount() == 2u);
REQUIRE(coll->numVoidCollectible() == 5u);
REQUIRE(checkCollectible(coll, 0u, { Color::White == 1u}, { Color::Grey == 2u}));
WHEN("copy is unset")
{
cons2 = Lisp::nil;
REQUIRE(cons1.as<Cons>()->getRefCount() == 1u);
REQUIRE(coll->numVoidCollectible() == 5u);
REQUIRE(checkCollectible(coll, 0u, { Color::White == 1u}, { Color::Grey == 2u}));
WHEN("both conses are unset")
{
cons1 = Lisp::nil;
REQUIRE(cons1.isA<Nil>());
REQUIRE(coll->numVoidCollectible() == 5u);
REQUIRE(checkCollectible(coll, 0u, { Color::White == 0u}, { Color::Grey == 3u}));
WHEN("cycle garbage location")
{
coll->cycle();
REQUIRE(coll->numVoidCollectible() == 8u);
}
}
}
}
}
}
SCENARIO("copy cons object with object assignement operator", "[Allocator]")
{
GIVEN("conses with 4 children")
{
auto coll = makeCollector(8);
Object cons1(coll->makeRoot<Cons>(Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil)),
Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil))));
Object cons2(coll->makeRoot<Cons>(Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil)),
Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil))));
WHEN("cons1 is set to cons2")
{
REQUIRE(cons2.as<Cons>()->getRefCount() == 1u);
cons1 = cons2;
REQUIRE(cons2.as<Cons>()->getRefCount() == 2u);
REQUIRE(coll->numVoidCollectible() == 2u);
REQUIRE(checkCollectible(coll,
0u,
{ Color::White == 1u},
{ Color::Grey == 5u}));
WHEN("cycle garbage collector")
{
coll->cycle();
REQUIRE(coll->numVoidCollectible() == 5u);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 1u},
{ Color::White == 2u}));
}
}
}
}
TEST_CASE("automatic collection with lots of temporary objects", "[Allocator]")
{
auto coll = makeCollector(512);
coll->enableCollector();
coll->enableRecycling();
{
auto obj = Object(coll->makeRoot<Cons>(Lisp::nil,
Object(coll->makeRoot<Cons>(Lisp::nil,
Object(coll->makeRoot<Cons>(Lisp::nil,
Object(coll->makeRoot<Cons>(Lisp::nil,
Lisp::nil))))))));
REQUIRE(coll->getCycles() == 2u);
REQUIRE(checkCollectible(coll, 0u,
{ Color::Black == 1u},
{ Color::White == 1u, Color::Grey == 2u}));
REQUIRE(coll->checkSanity());
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(obj,
obj.as<Cons>()->getCdrCell(),
obj.as<Cons>()->getCdrCell().as<Cons>()->getCdrCell(),
obj.as<Cons>()->getCdrCell().as<Cons>()->getCdrCell().as<Cons>()->getCdrCell()));
REQUIRE(obj.as<Cons>()->getCar().isA<Nil>());
REQUIRE(coll->checkSanity());
REQUIRE(obj.as<Cons>()->getCdr().isA<Cons>());
REQUIRE(coll->checkSanity());
REQUIRE(obj.as<Cons>()
->getCdr().as<Cons>()
->getCar().isA<Nil>());
REQUIRE(coll->checkSanity());
REQUIRE(obj.as<Cons>()
->getCdr().as<Cons>()
->getCdr().as<Cons>()
->getCar().isA<Nil>());
REQUIRE(coll->checkSanity());
REQUIRE(obj.as<Cons>()
->getCdr().as<Cons>()
->getCdr().as<Cons>()
->getCdr().as<Cons>()
->getCar().isA<Nil>());
}
REQUIRE(coll->checkSanity());
}
////////////////////////////////////////////////////////////////////////////////
//
// Array tests
//
////////////////////////////////////////////////////////////////////////////////
SCENARIO("one_array_with_cons_children", "[Allocator]")
{
auto coll = makeCollector(8);
GIVEN("A root array")
{
auto cons1 = Object(coll->makeRoot<Cons>(Object(coll->makeRoot<Cons>(Lisp::nil, Lisp::nil)),
Object(coll->makeRoot<Cons>(Lisp::nil, Lisp::nil))));
REQUIRE(cons1.getColor() == Color::White);
REQUIRE(cons1.as<Cons>()->getCarCell().getColor() == Color::Grey);
REQUIRE(cons1.as<Cons>()->getCarCell().getColor() == Color::Grey);
auto obj = Object(coll->makeRoot<Array>());
auto array = obj.as<Array>();
REQUIRE(array->isRoot());
REQUIRE(array->getColor() == Color::White);
REQUIRE(array->getRefCount() == 1u);
array->append(Cell(coll->make<Cons>(Lisp::nil, Lisp::nil)),
Object(1),
Cell(coll->make<Cons>(Lisp::nil, Lisp::nil)),
Object(3),
coll->make<Cons>(Lisp::nil, Lisp::nil));
REQUIRE(array->atCell(0).isA<Cons>());
REQUIRE(array->atCell(0).isRoot() == false);
REQUIRE(array->atCell(0).getColor() == Color::Grey);
REQUIRE(array->atCell(2).isA<Cons>());
REQUIRE(array->atCell(2).isRoot() == false);
REQUIRE(array->atCell(2).getColor() == Color::Grey);
REQUIRE(array->atCell(4).isA<Cons>());
REQUIRE(array->atCell(4).isRoot() == false);
REQUIRE(array->atCell(4).getColor() == Color::Grey);
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(Cell(array),
array->atCell(0),
array->atCell(2),
array->atCell(4),
cons1,
cons1.as<Cons>()->getCarCell(),
cons1.as<Cons>()->getCdrCell()));
WHEN("There are references to its children")
{
{
auto child2 = array->at(0);
auto child4 = array->at(4);
CollectibleGraph graph(*coll);
REQUIRE(array->atCell(0).isRoot());
REQUIRE(array->atCell(4).isRoot());
REQUIRE(array->atCell(0).getRefCount() == 1u);
REQUIRE(array->atCell(4).getRefCount() == 1u);
REQUIRE(checkCollectible(coll, 0u, { Color::White == 4u }, { Color::Grey == 3u}));
REQUIRE(Parents(graph, child2) == Set(obj));
REQUIRE(Parents(graph, child4) == Set(obj));
}
REQUIRE(array->atCell(0).isRoot() == false);
REQUIRE(array->atCell(4).isRoot() == false);
REQUIRE(array->atCell(0).getRefCount() == 0u);
REQUIRE(array->atCell(4).getRefCount() == 0u);
REQUIRE(checkCollectible(coll, 0u, { Color::White == 2u }, { Color::Grey == 5u}));
}
WHEN("collected stepwise")
{
REQUIRE(array->getGcPosition() == 0u);
coll->enableCollector();
coll->enableRecycling();
//////////////////////////
// gc position 0 -> 1
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(array->getGcPosition() == 1u);
REQUIRE(array->getColor() == Color::White);
REQUIRE(cons1.getColor() == Color::Black);
REQUIRE(cons1.as<Cons>()->getCarCell().getColor() == Color::Grey);
REQUIRE(cons1.as<Cons>()->getCdrCell().getColor() == Color::Grey);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 1u, Color::Black == 1u },
{ Color::White == 0u, Color::Grey == 5u }));
//////////////////////////
// gc position 1 -> 2, grey -> black
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(array->getGcPosition() == 2u);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 1u, Color::Black == 1u },
{ Color::Black == 1u, Color::Grey == 4u}));
//////////////////////////
// gc position 2 -> 3, grey -> black
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(array->getGcPosition() == 3u);
REQUIRE(array->getColor() == Color::White);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 1u, Color::Black == 1u },
{ Color::Black == 2u, Color::Grey == 3u}));
//////////////////////////
// gc position 3 -> 4, grey -> black
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(array->getGcPosition() == 4u);
REQUIRE(array->getColor() == Color::White);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 1u, Color::Black == 1u },
{ Color::Black == 3u, Color::Grey == 2u }));
/////////////////////////
// add grey
coll->disableCollector();
array->set(1, Object(coll->makeRoot<Cons>(Lisp::nil, Lisp::nil)));
REQUIRE(array->getGcPosition() == 4u);
REQUIRE(array->getColor() == Color::White);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 1u, Color::Black == 1u },
{ Color::Black == 3u, Color::Grey == 3u }));
REQUIRE(array->atCell(1).getColor() == Color::Grey);
coll->enableCollector();
//////////////////////////
// gc position 4 -> 0, grey -> black, white root -> black root
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(array->getGcPosition() == 0u);
REQUIRE(array->getColor() == Color::Black);
REQUIRE(array->atCell(1).getColor() == Color::Black);
REQUIRE(checkCollectible(coll, 0u,
{ Color::Black == 2u },
{ Color::Black == 4u, Color::Grey == 2u }));
//////////////////////////
// grey -> black
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(array->getGcPosition() == 0u);
REQUIRE(array->getColor() == Color::Black);
REQUIRE(checkCollectible(coll, 0u,
{ Color::Black == 2u },
{ Color::Black == 5u, Color::Grey == 1u }));
//////////////////////////
// grey -> black
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(array->getGcPosition() == 0u);
REQUIRE(array->getColor() == Color::Black);
REQUIRE(checkCollectible(coll, 0u,
{ Color::Black == 2u },
{ Color::Black == 6u }));
//////////////////////////
// swap
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(array->getGcPosition() == 0u);
REQUIRE(array->getColor() == Color::White);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 2u },
{ Color::White == 6u }));
//////////////////////////
obj = Lisp::nil;
cons1 = Lisp::nil;
REQUIRE(checkCollectible(coll, 0u,
{ },
{ Color::White == 2, Color::Grey == 4, Color::Black == 2 }));
coll->step();
REQUIRE(checkCollectible(coll, 0u,
{ },
{ Color::White == 1, Color::Grey == 4, Color::Black == 3 }));
coll->step();
REQUIRE(checkCollectible(coll, 0u,
{ },
{ Color::White == 1, Color::Grey == 3, Color::Black == 4 }));
coll->step();
REQUIRE(checkCollectible(coll, 0u,
{ },
{ Color::Grey == 2, Color::Black == 6 }));
coll->step();
REQUIRE(checkCollectible(coll, 0u,
{ },
{ Color::Grey == 1, Color::Black == 7 }));
coll->step();
REQUIRE(checkCollectible(coll, 0u,
{ },
{ Color::Black == 8 }));
coll->step();
REQUIRE(checkCollectible(coll, 0u,
{ },
{ Color::White == 8 }));
coll->step();
REQUIRE(checkCollectible(coll, 8u, {}, {}));
for(std::size_t i = 0; i < 8u; ++i)
{
coll->recycle();
}
REQUIRE(checkCollectible(coll, 0u, {}, {}));
}
WHEN("recycled")
{
obj = Lisp::nil;
cons1 = Lisp::nil;
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set());
REQUIRE(array->getGcPosition() == 0u);
coll->enableCollector();
coll->enableRecycling();
coll->cycle();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, {}, {}));
}
}
}
SCENARIO("a cons with 2 array children", "[Allocator]")
{
/*
o
/ \
o o
*/
GIVEN("A cons coll with 2 children")
{
auto coll = makeCollector(8);
auto obj = Object(coll->makeRoot<Cons>(Cell(coll->make<Array>(Lisp::nil, Lisp::nil)),
Cell(coll->make<Array>(Lisp::nil, Lisp::nil))));
auto cons = obj.as<Cons>();
REQUIRE(cons->isRoot());
REQUIRE(cons->getColor() == Color::White);
REQUIRE(cons->getRefCount() == 1u);
CollectibleGraph graph(*coll);
REQUIRE(cons);
REQUIRE(cons->isRoot());
REQUIRE(cons->getColor() == Color::White);
REQUIRE(cons->getRefCount() == 1u);
REQUIRE(Parents(graph, cons) == Set());
REQUIRE(Parents(graph, cons->getCarCell()) == Set(Cell(cons)));
REQUIRE(Parents(graph, cons->getCdrCell()) == Set(Cell(cons)));
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(Cell(cons),
cons->getCarCell(),
cons->getCdrCell()));
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u,
{ Color::White == 1u},
{ Color::White == 2u}));
WHEN("There are references to its children")
{
{
auto car = cons->getCar();
auto cdr = cons->getCdr();
CollectibleGraph graph(*coll);
REQUIRE(car.as<Array>()->getRefCount() == 1u);
REQUIRE(cdr.as<Array>()->getRefCount() == 1u);
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u, { Color::White == 3u }, {}));
REQUIRE(Parents(graph, car) == Set(obj));
REQUIRE(Parents(graph, cdr) == Set(obj));
}
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll,
0u,
{ Color::White == 1u},
{ Color::Grey == 2u}));
THEN("Allocator::cycle() does not remove it")
{
coll->cycle();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, {Color::White == 2u}));
}
THEN("Allocator::step() does not remove it")
{
coll->enableCollector();
coll->enableRecycling();
REQUIRE(coll->getCycles() == 0u);
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, {Color::Black==1}, {Color::Grey==2}));
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, {Color::Black==1}, {Color::Grey==1, Color::Black==1}));
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, {Color::Black==1}, {Color::Black==1, Color::Grey==1}));
coll->step();
REQUIRE(coll->getCycles() == 0u);
REQUIRE(checkCollectible(coll, 0u, {Color::Black==1}, {Color::Black==2}));
coll->step();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(checkCollectible(coll, 0u, {Color::White==1}, {Color::White==2}));
}
THEN("unsetting one child")
{
cons->unsetCar();
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(Cell(cons),
cons->getCdrCell()));
REQUIRE(checkCollectible(coll, 0u, {Color::White==1}, {Color::Grey==2}));
THEN("Allocator::cycle() does remove it")
{
coll->cycle();
REQUIRE(coll->getCycles() == 1u);
REQUIRE(coll->numVoidCollectible() == 7u);
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, {Color::White == 1u}));
}
THEN("Allocator::step() does remove it")
{
REQUIRE(checkCollectible(coll, 0u, {Color::White==1}, {Color::Grey==2}));
coll->enableCollector();
coll->enableRecycling();
for(std::size_t c = coll->getCycles(); coll->getCycles() == c;)
{
coll->step();
}
REQUIRE(checkCollectible(coll, 0u, { Color::White == 1u }, { Color::White == 2}));
for(std::size_t c = coll->getCycles(); coll->getCycles() == c;)
{
coll->step();
}
REQUIRE(checkCollectible(coll, 1u, { Color::White == 1u }, { Color::White == 1}));
coll->recycle();
REQUIRE(checkCollectible(coll, 0u, { Color::White == 1u }, { Color::White == 1}));
}
THEN("setting other child to itself and gc step is executed")
{
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, {Color::Grey == 2u}));
cons->setCdr(obj);
REQUIRE(Set(coll->get(&Allocator::forEachReachable)) == Set(Cell(cons)));
REQUIRE(checkCollectible(coll, 0u, {Color::Black == 1u}, {Color::White == 0u, Color::Grey == 2}));
coll->enableCollector();
coll->enableRecycling();
for(std::size_t c = coll->getCycles(); coll->getCycles() == c;)
{
coll->step();
}
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, { Color::White == 2}));
for(std::size_t c = coll->getCycles(); coll->getCycles() == c;)
{
coll->step();
}
REQUIRE(coll->getCycles() == 2u);
REQUIRE(checkCollectible(coll, 2u, {Color::White == 1u}, {}));
REQUIRE(checkCollectible(coll, 2u, {Color::White == 1u}, {}));
coll->recycle();
REQUIRE(checkCollectible(coll, 1u, {Color::White == 1u}, {}));
coll->recycle();
REQUIRE(checkCollectible(coll, 1u, {Color::White == 1u}, {}));
coll->recycle();
REQUIRE(checkCollectible(coll, 0u, {Color::White == 1u}, {}));
}
}
}
}
}
TEST_CASE("simul", "[Allocator]")
{
auto coll = makeCollector(8);
coll->enableCollector();
coll->enableRecycling();
auto obj = std::make_shared<Object>(coll->makeRoot<Cons>(Lisp::nil, Lisp::nil));
obj->as<Cons>()->setCar(Cell(coll->make<Array>()));
}
//////////////////////////////////////////////////////////
// Symbol
/////////////////////////////////////////////////////////
TEST_CASE("symbol_life_cycle", "[Allcator]")
{
Allocator alloc;
Symbol * psymb = alloc.makeRoot<Symbol>("symb1");
REQUIRE(psymb->getRefCount() == 0);
Object symb1(psymb);
REQUIRE(psymb->getRefCount() == 1);
REQUIRE(symb1.isA<Symbol>());
REQUIRE(symb1.as<Symbol>() == psymb);
REQUIRE(symb1.as<Lisp::Symbol>()->getName() == "symb1");
{
Object symb1Copy1(symb1);
REQUIRE(symb1Copy1.isA<Symbol>());
REQUIRE(symb1Copy1.as<Lisp::Symbol>() == psymb);
REQUIRE(psymb->getRefCount() == 2);
Object symb1Copy2(alloc.makeRoot<Symbol>("symb1"));
REQUIRE(symb1Copy2.isA<Symbol>());
REQUIRE(psymb->getRefCount() == 3);
REQUIRE(symb1Copy2.as<Lisp::Symbol>() == psymb);
}
REQUIRE(psymb->getRefCount() == 1);
}
//////////////////////////////////////////////////////////
/// implementation
//////////////////////////////////////////////////////////
static std::shared_ptr<Allocator> makeCollector(std::size_t pageSize)
{
auto ret = std::make_shared<Allocator>(pageSize, 1, 1);
ret->disableRecycling();
ret->disableCollector();
return ret;
}
std::pair<Color, std::size_t> operator==(Color color, std::size_t n)
{
return std::pair<Color, std::size_t>(color, n);
}
bool checkCollectible(std::shared_ptr<Allocator> coll,
std::size_t disposed,
const std::vector<std::pair<Color, std::size_t> > & root,
const std::vector<std::pair<Color, std::size_t> > & bulk)
{
CHECK(coll->numDisposedCollectible() == disposed);
if(coll->numDisposedCollectible() != disposed)
{
return false;
}
return checkCollectible(coll, root, bulk);
}
static std::vector<std::pair<Color, std::size_t> > fillMissingColor(const std::vector<std::pair<Color, std::size_t> > & input)
{
std::size_t white = 0;
std::size_t black = 0;
std::size_t grey = 0;
for(auto p : input)
{
switch(p.first)
{
case Color::White: white = p.second; break;
case Color::Black: black = p.second; break;
case Color::Grey: grey = p.second; break;
}
}
return std::vector<std::pair<Color, std::size_t> >({
Color::White == white, Color::Grey == grey, Color::Black == black});
}
static std::string asString(const std::vector<std::pair<Color, std::size_t> > & input)
{
std::stringstream ss;
ss << "{";
bool first = true;
for(auto p : input)
{
if(!first) ss << ",";
else first = false;
ss << p.first << ":" << p.second;
}
ss << "}";
return ss.str();
}
bool checkCollectible(std::shared_ptr<Allocator> coll,
const std::vector<std::pair<Color, std::size_t> > & root,
const std::vector<std::pair<Color, std::size_t> > & bulk)
{
auto givenRoot = asString(std::vector<std::pair<Color, std::size_t> >({
Color::White == coll->numRootCollectible(Color::White),
Color::Grey == coll->numRootCollectible(Color::Grey),
Color::Black == coll->numRootCollectible(Color::Black) }));
auto givenBulk = asString(std::vector<std::pair<Color, std::size_t> >({
Color::White == coll->numBulkCollectible(Color::White),
Color::Grey == coll->numBulkCollectible(Color::Grey),
Color::Black == coll->numBulkCollectible(Color::Black)}));
CHECK(coll->checkRootSanity(Color::Black));
CHECK(coll->checkRootSanity(Color::Grey));
CHECK(coll->checkRootSanity(Color::White));
CHECK(coll->checkBulkSanity(Color::Black));
CHECK(coll->checkBulkSanity(Color::Grey));
CHECK(coll->checkBulkSanity(Color::White));
CHECK(givenRoot == asString(fillMissingColor(root)));
CHECK(givenBulk == asString(fillMissingColor(bulk)));
return
coll->checkRootSanity(Color::Black) &
coll->checkRootSanity(Color::Grey) &
coll->checkRootSanity(Color::White) &
coll->checkBulkSanity(Color::Black) &
coll->checkBulkSanity(Color::Grey) &
coll->checkBulkSanity(Color::White) &
( givenRoot == asString(fillMissingColor(root))) &
( givenBulk == asString(fillMissingColor(bulk)));
}
std::unordered_set<Cell> Set()
{
return std::unordered_set<Cell>();
}
std::unordered_set<Cell> Set(const Cell & c)
{
return std::unordered_set<Cell>({c});
}
template<typename... ARGS>
std::unordered_set<Cell> Set(const Cell & c, ARGS... rest)
{
auto tmp = Set(rest...);
tmp.insert(c);
return tmp;
}
std::unordered_set<Cell> Set(const std::vector<Cell> & cells)
{
return std::unordered_set<Cell>(cells.begin(), cells.end());
}
static std::unordered_set<Cell> Parents(const CollectibleGraph & graph,
const Cell & cell)
{
auto node = graph.findNode(cell);
if(node)
{
std::unordered_set<Cell> ret;
for(auto & p : node->getParents())
{
ret.insert(p.first);
}
return ret;
}
else
{
return Set();
}
}
|
9014942a9def82802a845229d1505ead45ff277f | a91796ab826878e54d91c32249f45bb919e0c149 | /modules/gapi/src/executor/gexecutor.cpp | bf25302b758eeeaf7aa685e6bc6624eeb93762e5 | [
"Apache-2.0"
] | permissive | opencv/opencv | 8f1c8b5a16980f78de7c6e73a4340d302d1211cc | a308dfca9856574d37abe7628b965e29861fb105 | refs/heads/4.x | 2023-09-01T12:37:49.132527 | 2023-08-30T06:53:59 | 2023-08-30T06:53:59 | 5,108,051 | 68,495 | 62,910 | Apache-2.0 | 2023-09-14T17:37:48 | 2012-07-19T09:40:17 | C++ | UTF-8 | C++ | false | false | 15,303 | cpp | gexecutor.cpp | // This file is part of OpenCV project.
// It is subject to the license terms in the LICENSE file found in the top-level directory
// of this distribution and at http://opencv.org/license.html.
//
// Copyright (C) 2018-2020 Intel Corporation
#include "precomp.hpp"
#include <ade/util/zip_range.hpp>
#include <opencv2/gapi/opencv_includes.hpp>
#include "api/gproto_priv.hpp" // ptr(GRunArgP)
#include "executor/gexecutor.hpp"
#include "compiler/passes/passes.hpp"
cv::gimpl::GExecutor::GExecutor(std::unique_ptr<ade::Graph> &&g_model)
: GAbstractExecutor(std::move(g_model))
{
// NB: Right now GIslandModel is acyclic, so for a naive execution,
// simple unrolling to a list of triggers is enough
// Naive execution model is similar to current CPU (OpenCV) plugin
// execution model:
// 1. Allocate all internal resources first (NB - CPU plugin doesn't do it)
// 2. Put input/output GComputation arguments to the storage
// 3. For every Island, prepare vectors of input/output parameter descs
// 4. Ask every GIslandExecutable to prepare its internal states for a new stream
// 5. Iterate over a list of operations (sorted in the topological order)
// 6. For every operation, form a list of input/output data objects
// 7. Run GIslandExecutable
// 8. writeBack
auto sorted = m_gim.metadata().get<ade::passes::TopologicalSortData>();
for (auto nh : sorted.nodes())
{
switch (m_gim.metadata(nh).get<NodeKind>().k)
{
case NodeKind::ISLAND:
{
std::vector<RcDesc> input_rcs;
std::vector<RcDesc> output_rcs;
input_rcs.reserve(nh->inNodes().size());
output_rcs.reserve(nh->outNodes().size());
auto xtract = [&](ade::NodeHandle slot_nh, std::vector<RcDesc> &vec) {
const auto orig_data_nh
= m_gim.metadata(slot_nh).get<DataSlot>().original_data_node;
const auto &orig_data_info
= m_gm.metadata(orig_data_nh).get<Data>();
vec.emplace_back(RcDesc{ orig_data_info.rc
, orig_data_info.shape
, orig_data_info.ctor});
};
// (3)
for (auto in_slot_nh : nh->inNodes()) xtract(in_slot_nh, input_rcs);
for (auto out_slot_nh : nh->outNodes()) xtract(out_slot_nh, output_rcs);
m_ops.emplace_back(OpDesc{ std::move(input_rcs)
, std::move(output_rcs)
, m_gim.metadata(nh).get<IslandExec>().object
});
}
break;
case NodeKind::SLOT:
{
const auto orig_data_nh
= m_gim.metadata(nh).get<DataSlot>().original_data_node;
// (1)
initResource(nh, orig_data_nh);
m_slots.emplace_back(DataDesc{nh, orig_data_nh});
}
break;
default:
GAPI_Error("InternalError");
break;
} // switch(kind)
} // for(gim nodes)
// (4)
prepareForNewStream();
}
namespace cv {
namespace gimpl {
namespace magazine {
namespace {
void bindInArgExec(Mag& mag, const RcDesc &rc, const GRunArg &arg)
{
if (rc.shape != GShape::GMAT)
{
bindInArg(mag, rc, arg);
return;
}
auto& mag_rmat = mag.template slot<cv::RMat>()[rc.id];
switch (arg.index())
{
case GRunArg::index_of<Mat>() :
mag_rmat = make_rmat<RMatOnMat>(util::get<Mat>(arg)); break;
case GRunArg::index_of<cv::RMat>() :
mag_rmat = util::get<cv::RMat>(arg); break;
default: util::throw_error(std::logic_error("content type of the runtime argument does not match to resource description ?"));
}
// FIXME: has to take extra care about meta here for this particuluar
// case, just because this function exists at all
mag.meta<cv::RMat>()[rc.id] = arg.meta;
}
void bindOutArgExec(Mag& mag, const RcDesc &rc, const GRunArgP &arg)
{
if (rc.shape != GShape::GMAT)
{
bindOutArg(mag, rc, arg);
return;
}
auto& mag_rmat = mag.template slot<cv::RMat>()[rc.id];
switch (arg.index())
{
case GRunArgP::index_of<Mat*>() :
mag_rmat = make_rmat<RMatOnMat>(*util::get<Mat*>(arg)); break;
case GRunArgP::index_of<cv::RMat*>() :
mag_rmat = *util::get<cv::RMat*>(arg); break;
default: util::throw_error(std::logic_error("content type of the runtime argument does not match to resource description ?"));
}
}
cv::GRunArgP getObjPtrExec(Mag& mag, const RcDesc &rc)
{
if (rc.shape != GShape::GMAT)
{
return getObjPtr(mag, rc);
}
return GRunArgP(&mag.slot<cv::RMat>()[rc.id]);
}
void writeBackExec(const Mag& mag, const RcDesc &rc, GRunArgP &g_arg)
{
if (rc.shape != GShape::GMAT)
{
writeBack(mag, rc, g_arg);
return;
}
switch (g_arg.index())
{
case GRunArgP::index_of<cv::Mat*>() : {
// If there is a copy intrinsic at the end of the graph
// we need to actually copy the data to the user buffer
// since output runarg was optimized to simply point
// to the input of the copy kernel
// FIXME:
// Rework, find a better way to check if there should be
// a real copy (add a pass to StreamingBackend?)
// NB: In case RMat adapter not equal to "RMatOnMat" need to
// copy data back to the host as well.
auto& out_mat = *util::get<cv::Mat*>(g_arg);
const auto& rmat = mag.template slot<cv::RMat>().at(rc.id);
auto* adapter = rmat.get<RMatOnMat>();
if ((adapter != nullptr && out_mat.data != adapter->data()) ||
(adapter == nullptr)) {
auto view = rmat.access(RMat::Access::R);
asMat(view).copyTo(out_mat);
}
break;
}
case GRunArgP::index_of<cv::RMat*>() : /* do nothing */ break;
default: util::throw_error(std::logic_error("content type of the runtime argument does not match to resource description ?"));
}
}
void assignMetaStubExec(Mag& mag, const RcDesc &rc, const cv::GRunArg::Meta &meta) {
switch (rc.shape)
{
case GShape::GARRAY: mag.meta<cv::detail::VectorRef>()[rc.id] = meta; break;
case GShape::GOPAQUE: mag.meta<cv::detail::OpaqueRef>()[rc.id] = meta; break;
case GShape::GSCALAR: mag.meta<cv::Scalar>()[rc.id] = meta; break;
case GShape::GFRAME: mag.meta<cv::MediaFrame>()[rc.id] = meta; break;
case GShape::GMAT:
mag.meta<cv::Mat>() [rc.id] = meta;
mag.meta<cv::RMat>()[rc.id] = meta;
#if !defined(GAPI_STANDALONE)
mag.meta<cv::UMat>()[rc.id] = meta;
#endif
break;
default: util::throw_error(std::logic_error("Unsupported GShape type")); break;
}
}
} // anonymous namespace
}}} // namespace cv::gimpl::magazine
void cv::gimpl::GExecutor::initResource(const ade::NodeHandle & nh, const ade::NodeHandle &orig_nh)
{
const Data &d = m_gm.metadata(orig_nh).get<Data>();
if ( d.storage != Data::Storage::INTERNAL
&& d.storage != Data::Storage::CONST_VAL)
return;
// INTERNALS+CONST only! no need to allocate/reset output objects
// to as it is bound externally (e.g. already in the m_res)
switch (d.shape)
{
case GShape::GMAT:
{
// Let island allocate it's outputs if it can,
// allocate cv::Mat and wrap it with RMat otherwise
GAPI_Assert(!nh->inNodes().empty());
const auto desc = util::get<cv::GMatDesc>(d.meta);
auto& exec = m_gim.metadata(nh->inNodes().front()).get<IslandExec>().object;
auto& rmat = m_res.slot<cv::RMat>()[d.rc];
if (exec->allocatesOutputs()) {
rmat = exec->allocate(desc);
} else {
Mat mat;
createMat(desc, mat);
rmat = make_rmat<RMatOnMat>(mat);
}
}
break;
case GShape::GSCALAR:
if (d.storage == Data::Storage::CONST_VAL)
{
auto rc = RcDesc{d.rc, d.shape, d.ctor};
magazine::bindInArg(m_res, rc, m_gm.metadata(orig_nh).get<ConstValue>().arg);
}
break;
case GShape::GARRAY:
if (d.storage == Data::Storage::CONST_VAL)
{
auto rc = RcDesc{d.rc, d.shape, d.ctor};
magazine::bindInArg(m_res, rc, m_gm.metadata(orig_nh).get<ConstValue>().arg);
}
break;
case GShape::GOPAQUE:
// Constructed on Reset, do nothing here
break;
case GShape::GFRAME: {
// Should be defined by backend, do nothing here
break;
}
default:
GAPI_Error("InternalError");
}
}
class cv::gimpl::GExecutor::Input final: public cv::gimpl::GIslandExecutable::IInput
{
cv::gimpl::Mag &mag;
virtual StreamMsg get() override
{
cv::GRunArgs res;
for (const auto &rc : desc()) { res.emplace_back(magazine::getArg(mag, rc)); }
return StreamMsg{std::move(res)};
}
virtual StreamMsg try_get() override { return get(); }
public:
Input(cv::gimpl::Mag &m, const std::vector<RcDesc> &rcs) : mag(m) { set(rcs); }
};
class cv::gimpl::GExecutor::Output final: public cv::gimpl::GIslandExecutable::IOutput
{
cv::gimpl::Mag &mag;
std::unordered_map<const void*, int> out_idx;
std::exception_ptr eptr;
GRunArgP get(int idx) override
{
auto r = magazine::getObjPtrExec(mag, desc()[idx]);
// Remember the output port for this output object
out_idx[cv::gimpl::proto::ptr(r)] = idx;
return r;
}
void post(GRunArgP&&, const std::exception_ptr& e) override
{
if (e)
{
eptr = e;
}
}
void post(EndOfStream&&) override {} // Do nothing here too
void post(Exception&& ex) override
{
eptr = std::move(ex.eptr);
}
void meta(const GRunArgP &out, const GRunArg::Meta &m) override
{
const auto idx = out_idx.at(cv::gimpl::proto::ptr(out));
magazine::assignMetaStubExec(mag, desc()[idx], m);
}
public:
Output(cv::gimpl::Mag &m, const std::vector<RcDesc> &rcs)
: mag(m)
{
set(rcs);
}
void verify()
{
if (eptr)
{
std::rethrow_exception(eptr);
}
}
};
void cv::gimpl::GExecutor::run(cv::gimpl::GRuntimeArgs &&args)
{
// (2)
const auto proto = m_gm.metadata().get<Protocol>();
// Basic check if input/output arguments are correct
// FIXME: Move to GCompiled (do once for all GExecutors)
if (proto.inputs.size() != args.inObjs.size()) // TODO: Also check types
{
util::throw_error(std::logic_error
("Computation's input protocol doesn\'t "
"match actual arguments!"));
}
if (proto.outputs.size() != args.outObjs.size()) // TODO: Also check types
{
util::throw_error(std::logic_error
("Computation's output protocol doesn\'t "
"match actual arguments!"));
}
namespace util = ade::util;
// ensure that output Mat parameters are correctly allocated
// FIXME: avoid copy of NodeHandle and GRunRsltComp ?
for (auto index : util::iota(proto.out_nhs.size()))
{
auto& nh = proto.out_nhs.at(index);
const Data &d = m_gm.metadata(nh).get<Data>();
if (d.shape == GShape::GMAT)
{
using cv::util::get;
const auto desc = get<cv::GMatDesc>(d.meta);
auto check_rmat = [&desc, &args, &index]()
{
auto& out_mat = *get<cv::RMat*>(args.outObjs.at(index));
GAPI_Assert(desc.canDescribe(out_mat));
};
#if !defined(GAPI_STANDALONE)
// Building as part of OpenCV - follow OpenCV behavior In
// the case of cv::Mat if output buffer is not enough to
// hold the result, reallocate it
if (cv::util::holds_alternative<cv::Mat*>(args.outObjs.at(index)))
{
auto& out_mat = *get<cv::Mat*>(args.outObjs.at(index));
createMat(desc, out_mat);
}
// In the case of RMat check to fit required meta
else
{
check_rmat();
}
#else
// Building standalone - output buffer should always exist,
// and _exact_ match our inferred metadata
if (cv::util::holds_alternative<cv::Mat*>(args.outObjs.at(index)))
{
auto& out_mat = *get<cv::Mat*>(args.outObjs.at(index));
GAPI_Assert(out_mat.data != nullptr &&
desc.canDescribe(out_mat));
}
// In the case of RMat check to fit required meta
else
{
check_rmat();
}
#endif // !defined(GAPI_STANDALONE)
}
}
// Update storage with user-passed objects
for (auto it : ade::util::zip(ade::util::toRange(proto.inputs),
ade::util::toRange(args.inObjs)))
{
magazine::bindInArgExec(m_res, std::get<0>(it), std::get<1>(it));
}
for (auto it : ade::util::zip(ade::util::toRange(proto.outputs),
ade::util::toRange(args.outObjs)))
{
magazine::bindOutArgExec(m_res, std::get<0>(it), std::get<1>(it));
}
// Reset internal data
for (auto &sd : m_slots)
{
const auto& data = m_gm.metadata(sd.data_nh).get<Data>();
magazine::resetInternalData(m_res, data);
}
// Run the script (5)
for (auto &op : m_ops)
{
// (6), (7)
Input i{m_res, op.in_objects};
Output o{m_res, op.out_objects};
op.isl_exec->run(i, o);
// NB: Check if execution finished without exception.
o.verify();
}
// (8)
for (auto it : ade::util::zip(ade::util::toRange(proto.outputs),
ade::util::toRange(args.outObjs)))
{
magazine::writeBackExec(m_res, std::get<0>(it), std::get<1>(it));
}
}
bool cv::gimpl::GExecutor::canReshape() const
{
// FIXME: Introduce proper reshaping support on GExecutor level
// for all cases!
return std::all_of(m_ops.begin(), m_ops.end(),
[](const OpDesc& op) { return op.isl_exec->canReshape(); });
}
void cv::gimpl::GExecutor::reshape(const GMetaArgs& inMetas, const GCompileArgs& args)
{
GAPI_Assert(canReshape());
auto& g = *m_orig_graph.get();
ade::passes::PassContext ctx{g};
passes::initMeta(ctx, inMetas);
passes::inferMeta(ctx, true);
// NB: Before reshape islands need to re-init resources for every slot.
for (auto slot : m_slots)
{
initResource(slot.slot_nh, slot.data_nh);
}
for (auto& op : m_ops)
{
op.isl_exec->reshape(g, args);
}
}
void cv::gimpl::GExecutor::prepareForNewStream()
{
for (auto &op : m_ops)
{
op.isl_exec->handleNewStream();
}
}
|
8387c0cc27a55f31e0cc24d14b7a5238b3d03fbb | 3635df8d74077ff1d51e468f545d21a7a73a584e | /Anima/include/AnimaGraphicsDrawingContextDesc.h | 0e5e783f1c3c0220903f4388f01118830a43bd55 | [] | no_license | edamiani/Anima-Engine | 2615ee632b10e35dceb82b902661acd988aa9396 | 14b99b71bf5ea5c4b19d08037ca56298a36f6288 | refs/heads/master | 2021-12-14T10:38:18.883495 | 2021-12-02T20:08:08 | 2021-12-02T20:08:08 | 18,024,642 | 4 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 318 | h | AnimaGraphicsDrawingContextDesc.h | #ifndef __AE_GRAPHICS_DRAWING_CONTEXT_DESC__
#define __AE_GRAPHICS_DRAWING_CONTEXT_DESC__
#include "AnimaGraphicsEnums.h"
#include "AnimaMathPoint2.h"
namespace AE
{
namespace Graphics
{
struct DrawingContextDesc
{
AE::Math::Point2 dimensions;
AE::Graphics::SurfaceFormat surfaceFormat;
};
}
}
#endif |
f9709742f0722d73066290d8b533ffab0d3d24c3 | ee4cd6f541b64b805a723197edca46f2ae13af0a | /Contest/bellaciao.cpp | 38c49de87051963fa1edcf665462033a4343ed4c | [] | no_license | Swagat47/CP | c6841a039ab8a0942be842f95a9d5d72ad1c206e | 2392c271210b0ae7cd36e3dc92a13a3f1b36b857 | refs/heads/master | 2023-07-11T21:16:39.115549 | 2021-08-24T15:03:34 | 2021-08-24T15:03:34 | 395,440,715 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 303 | cpp | bellaciao.cpp | #include <iostream>
using namespace std;
#define ll long long
int main() {
int tc;
cin>>tc;
while(tc--){
ll D,d,P,Q;
cin >>D>>d>>P>>Q;
ll n = D/d;
ll r = D%d;
ll sum = (d*n*(2*P + (n-1)*Q))/2 + r*(P+n*Q);
cout<<sum<<endl;
}
return 0;
}
|
32de22a60b1743e6eae34b501868597b220aef8f | 73a07d9252bf2c06b920a9d51508ac06f1313d0c | /30_day_leetcode/maY_cousins_in_a_binary_tree.cpp | 657dc0b0c674d05589808f45f01d379ca5f7d966 | [] | no_license | Shrutikatyal/leetcode | 2478a2b1aac457cf9a2f71608d6c7c87c1e1605d | 9390cf53573e02aeda2f87f2987b3536974ea452 | refs/heads/master | 2022-12-19T15:11:06.375081 | 2020-05-23T08:50:17 | 2020-05-23T08:50:17 | 300,181,158 | 0 | 0 | null | 2020-10-01T07:06:23 | 2020-10-01T07:06:22 | null | UTF-8 | C++ | false | false | 1,655 | cpp | maY_cousins_in_a_binary_tree.cpp | /**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* TreeNode *left;
* TreeNode *right;
* TreeNode() : val(0), left(nullptr), right(nullptr) {}
* TreeNode(int x) : val(x), left(nullptr), right(nullptr) {}
* TreeNode(int x, TreeNode *left, TreeNode *right) : val(x), left(left), right(right) {}
* };
*/
class Solution {
public:
pair<int,int>* dfs(TreeNode* root,int value,int depth=0,int parent=-1){
pair<int,int>* p=new pair<int,int>; //pair consist of paent and depth
if(root->val==value){
p->first=depth; //if we found the value just make pair of parent and depth
p->second=parent;
return p;
}
if(root->left){
p=dfs(root->left,value,depth+1,root->val);//traversev to left subtree
if(p!=nullptr)//if we get p just return it
return p;
}
if(root->right){
p=dfs(root->right,value,depth+1,root->val);//traverse to right subtree
if(p!=nullptr)//if we get p just return it
return p;
}
return nullptr;
}
bool isCousins(TreeNode* root, int x, int y) {
if(root==nullptr)
return false;
pair<int,int>* check_x=dfs(root,x,0,-1);
pair<int,int>* check_y=dfs(root,y,0,-1);
if(!check_x||!check_y)//if one of them is nullptr means we dont get that value
return false;
//checking for same depth and not same parent
if(check_x->first==check_y->first&&check_x->second!=check_y->second)
return true;
return false;
}
}; |
93be1573c028f8eb586e27e96a3aa4a4c8c0805b | 104bb715e79636216ec29608e1b131da7c69da0d | /Source/Utilities/Strings/Variadicstring.cpp | 2a3216456e19b592a88ca38daa3d33e1f45ffa32 | [
"MIT"
] | permissive | msfwaifu/Extension_Template | 8c1babf00af2cb16457a160dd0365f9259a06b2c | f07ce7ad4050648d77d668642d961a8ddd3500c3 | refs/heads/master | 2020-05-21T14:19:45.706626 | 2016-11-07T13:09:10 | 2016-11-07T13:09:10 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,645 | cpp | Variadicstring.cpp | /*
Initial author: (https://github.com/)Convery for Ayria.se
License: MIT
Started: 2016-10-20
Notes:
Creates a new string from variadic arguments.
va("%i", 42) == "42"
*/
#include "Variadicstring.h"
#include <cstdarg>
#include <array>
#include <mutex>
// The buffer-size is the total size for each specialized version.
#define BUFFER_SIZE 4096
#define SMALL_COUNT 16 // 16 buffers of 256 bytes each.
#define LARGE_COUNT 4 // 4 buffers of 1024 bytes each.
// The buffers for the output strings.
std::array<std::array<char, BUFFER_SIZE / SMALL_COUNT>, SMALL_COUNT> Smallbuffers;
std::array<std::array<char, BUFFER_SIZE / LARGE_COUNT>, LARGE_COUNT> Largebuffers;
const char *AYRIA::va(const char *Format, ...)
{
char Resultbuffer[BUFFER_SIZE / LARGE_COUNT]{};
std::va_list Varlist;
int Resultlength;
// Create a string from the arguments and truncate if needed.
va_start(Varlist, Format);
Resultlength = std::vsnprintf(Resultbuffer, BUFFER_SIZE / LARGE_COUNT, Format, Varlist);
va_end(Varlist);
// Send the string to the specialized version for storage.
if (Resultlength > BUFFER_SIZE / SMALL_COUNT) return va_large(Resultbuffer);
else return va_small(Resultbuffer);
}
const char *AYRIA::va_small(const char *Format, ...)
{
static uint32_t Index = 0;
static std::mutex Guard;
std::va_list Varlist;
char *Resultbuffer;
// Prevent other threads from modifying the index.
Guard.lock();
{
// Get a pointer to the preallocated buffer.
Resultbuffer = Smallbuffers[Index].data();
// Update the index and release the mutex.
Index = (Index + 1) % SMALL_COUNT;
}
Guard.unlock();
// Create a string from the arguments and truncate if needed.
va_start(Varlist, Format);
std::vsnprintf(Resultbuffer, BUFFER_SIZE / SMALL_COUNT, Format, Varlist);
va_end(Varlist);
return Resultbuffer;
}
const char *AYRIA::va_large(const char *Format, ...)
{
static uint32_t Index = 0;
static std::mutex Guard;
std::va_list Varlist;
char *Resultbuffer;
// Prevent other threads from modifying the index.
Guard.lock();
{
// Get a pointer to the preallocated buffer.
Resultbuffer = Largebuffers[Index].data();
// Update the index and release the mutex.
Index = (Index + 1) % LARGE_COUNT;
}
Guard.unlock();
// Create a string from the arguments and truncate if needed.
va_start(Varlist, Format);
std::vsnprintf(Resultbuffer, BUFFER_SIZE / LARGE_COUNT, Format, Varlist);
va_end(Varlist);
return Resultbuffer;
}
|
57d3797c6a6e33468ef6af65f8f9381d257a1991 | a7dab63324ab28eb24937bdd429c1828cd835306 | /include/nifty/tools/block_access.hxx | a170cf445713a49aa149a39b1126299220ac3c22 | [
"MIT"
] | permissive | DerThorsten/nifty | e8005325467430bc8eb60517756c0eadf1669d4a | c4bd4cd90f20e68f0dbd62587aba28e4752a0ac1 | refs/heads/master | 2022-04-29T01:07:05.914460 | 2021-12-20T23:20:15 | 2021-12-20T23:20:15 | 50,250,104 | 42 | 20 | MIT | 2022-03-29T10:34:50 | 2016-01-23T17:43:51 | C++ | UTF-8 | C++ | false | false | 1,588 | hxx | block_access.hxx | #pragma once
#include "xtensor/xarray.hpp"
#include "nifty/xtensor/xtensor.hxx"
#include "nifty/array/arithmetic_array.hxx"
#include "nifty/parallel/threadpool.hxx"
namespace nifty{
namespace tools{
template<class T>
class BlockStorage{
public:
typedef xt::xarray<T> ArrayType;
template<class SHAPE>
BlockStorage(
const SHAPE & maxShape,
const std::size_t numberOfBlocks
)
: arrayVec_(numberOfBlocks, ArrayType(maxShape)){
std::fill(zeroCoord_.begin(), zeroCoord_.end(), 0);
}
template<class SHAPE>
BlockStorage(
nifty::parallel::ThreadPool & threadpool,
const SHAPE & maxShape,
const std::size_t numberOfBlocks
)
: arrayVec_(numberOfBlocks),
zeroCoord_(maxShape.size(),0)
{
std::vector<std::size_t> arrayShape(maxShape.begin(), maxShape.end());
nifty::parallel::parallel_foreach(threadpool, numberOfBlocks, [&](const int tid, const int i){
arrayVec_[i] = ArrayType(arrayShape);
});
}
template<class SHAPE>
inline auto getView(const SHAPE & shape, const std::size_t blockIndex) {
auto & array = arrayVec_[blockIndex];
xt::xstrided_slice_vector slice;
xtensor::sliceFromRoi(slice, zeroCoord_, shape);
return xt::strided_view(array, slice);
}
inline auto & getView(const std::size_t blockIndex) {
return arrayVec_[blockIndex];
}
private:
std::vector<uint64_t> zeroCoord_;
std::vector<ArrayType> arrayVec_;
};
} // end namespace nifty::tools
} // end namespace nifty
|
55136c1308724db6f4c5d22f01a5cb80839421d6 | 381be92cee68c38a197a794dbe3f8b8db6b0ddb3 | /lab5/CatCommand.cpp | 8f94c3ea17d41120d00b1d0d1aff06f314dc4f53 | [] | no_license | clairehyq/linux-fsystem | f7967d7ee887619b4b44738dcb3cd2f075b71bb3 | 32ffa4a2a03678708bd9d82d505f5a12361ccdb2 | refs/heads/master | 2023-08-22T08:29:35.121490 | 2021-09-30T00:54:21 | 2021-09-30T00:54:21 | 411,872,714 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,225 | cpp | CatCommand.cpp | /*
* unlike the cat in linux,
* this cat is responsible for writing to a file
*/
#include <iostream>
#include <vector>
#include <string>
#include "CatCommand.h"
#include "AbstractFileSystem.h"
#include "AbstractFile.h"
#include "ErrorCodes.h"
#include "CloseGuard.h"
#include "util.h"
using namespace std;
/* constructor */
CatCommand::CatCommand(AbstractFileSystem *fs):
file_system(fs) {}
/*
* cat <filename> : overwrite
* cat <filename> -a : append
*/
int CatCommand::execute(string argstr)
{
if (argstr.empty()) return COMMAND_SYNTAX_ERR;
auto args = splitBySpace(argstr);
if (args.size() == 0 || args.size() > 2) return COMMAND_SYNTAX_ERR;
// parse
bool intentToAppend;
string filename;
if (args.size() == 1) { // cat <filename>
if (args[0] == "-a") return COMMAND_SYNTAX_ERR;
intentToAppend = false;
filename = args[0];
} else { // cat -a <filename>
bool flag0 = args[0] == "-a";
bool flag1 = args[1] == "-a";
if (flag0 == flag1) return COMMAND_SYNTAX_ERR;
intentToAppend = true;
filename = flag0 ? args[1] : args[0];
}
// open file
AbstractFile *file = file_system->openFile(filename);
if (!file) return CANT_OPEN_FILE;
CloseGuard guard(file_system, file);
if (intentToAppend) cout << file->read();
// get user input
vector<char> input;
bool intentToSave = false;
for (string line; getline(cin, line); ) {
if (line == ":wq") {
intentToSave = true;
if (input.size()) input.pop_back(); // get rid of the last \n
break;
}
else if (line == ":q") {
intentToSave = false;
break;
}
else {
input.insert(input.end(), line.begin(), line.end());
input.push_back('\n');
}
}
// save
if (intentToSave) {
int err = intentToAppend
? file->append(input)
: file->write(input);
if (err != OK) return err;
}
return OK;
}
void CatCommand::displayInfo()
{
static const char usage[] = "cat <filename>: overwrite a file\n"
"cat <filename> -a: append a file\n"
"the input is read line by line, util either of these is read\n"
" :wq\tsave and quit\n"
" :q\tquit, discard all changes";
cout << usage << endl;
}
|
49515b53185a6f6de2bf038603decdfbe83685f1 | af9848641bbb736b8be6d4243db925ba2a8d3f45 | /P9095.cc | 5454f8875b98f39402104702ba43664214aeed8d | [
"Unlicense"
] | permissive | daily-boj/kiwiyou | 3f650e4bf02762e157d2953a51f1f85b72d7bb6e | ceca96ddfee95708871af67d1682048e0bed0257 | refs/heads/master | 2021-05-25T15:53:48.580941 | 2020-07-13T14:14:49 | 2020-07-13T14:14:49 | 253,815,816 | 6 | 2 | null | null | null | null | UTF-8 | C++ | false | false | 383 | cc | P9095.cc | #include <bits/stdc++.h>
using namespace std;
int main() {
int t;
cin >> t;
while (t--) {
int prev[3] = {1, 1, 0};
int n;
cin >> n;
while (--n) {
int next = prev[0] + prev[1] + prev[2];
prev[2] = prev[1];
prev[1] = prev[0];
prev[0] = next;
}
cout << prev[0] << '\n';
}
} |
1de90de72aff95c941d372b1e31fc4cf62775512 | 02fd60cf7d8f330db49512ec155aea5312140fe8 | /include/Enemy.h | 9d5c9d5759a8b0231481772167243922078f29bf | [] | no_license | DurkoMatko/SFML_PacLikeGame | 55e556be9249787dd1e922aafefdbfab6070f567 | 3784ffacb0c91d8defee6c5d8e35b88755b210aa | refs/heads/master | 2021-01-11T05:38:15.581819 | 2016-10-20T19:54:40 | 2016-10-20T19:54:40 | 69,350,421 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 643 | h | Enemy.h | #ifndef ENEMY_H
#define ENEMY_H
#include <SFML/Graphics.hpp>
#include <iostream>
#include <cstdlib>
#include <ctime>
#define HYPOTENUSE 25
using namespace std;
using namespace sf;
class Enemy
{
public:
Enemy();
virtual ~Enemy();
Sprite getEnemyPicture();
Vector2f randomPosition();
void printCurrentPosition();
bool chasePlayer(Vector2i playerRelativePosition,Vector2f playerPicturePosition,int enemySpeed);
void moveEnemy(Vector2f change);
protected:
private:
Vector2f relativePosition;
Texture eTexture;
Sprite enemyImage;
};
#endif // ENEMY_H
|
8aa464d3c6eb3b6c6fc1620fc12a7e6851b2c132 | 974d04d2ea27b1bba1c01015a98112d2afb78fe5 | /paddle/phi/kernels/impl/pool_kernel_impl.h | a2a6705a68302bd1e3a208e175119e59a3268b29 | [
"Apache-2.0"
] | permissive | PaddlePaddle/Paddle | b3d2583119082c8e4b74331dacc4d39ed4d7cff0 | 22a11a60e0e3d10a3cf610077a3d9942a6f964cb | refs/heads/develop | 2023-08-17T21:27:30.568889 | 2023-08-17T12:38:22 | 2023-08-17T12:38:22 | 65,711,522 | 20,414 | 5,891 | Apache-2.0 | 2023-09-14T19:20:51 | 2016-08-15T06:59:08 | C++ | UTF-8 | C++ | false | false | 12,002 | h | pool_kernel_impl.h | /* Copyright (c) 2022 PaddlePaddle Authors. 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.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License 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 <algorithm>
#include "paddle/phi/core/ddim.h"
#include "paddle/phi/kernels/funcs/pooling.h"
#include "paddle/phi/kernels/pool_kernel.h"
#if defined(__HIPCC__) || defined(__NVCC__)
#include "paddle/phi/kernels/funcs/reduce_function.h"
#include "paddle/phi/kernels/primitive/functor_primitives.h"
#endif
namespace phi {
inline int GetReduceNum(const DenseTensor& input,
const DenseTensor* output,
const bool channel_last,
std::vector<int>* reduce_dim) {
int reduce_num = 0;
const int output_height =
channel_last ? output->dims()[1] : output->dims()[2];
const int output_width = channel_last ? output->dims()[2] : output->dims()[3];
if ((output_height == 1) && (output_width == 1)) {
if (channel_last) {
reduce_dim->push_back(1);
reduce_dim->push_back(2);
reduce_num = input.dims()[1] * input.dims()[2];
} else {
reduce_dim->push_back(2);
reduce_dim->push_back(3);
reduce_num = input.dims()[2] * input.dims()[3];
}
}
return reduce_num;
}
template <typename T, typename Context>
void PoolRawKernel(const Context& ctx,
const DenseTensor& x,
const std::vector<int>& kernel_size,
const std::vector<int>& strides,
const std::vector<int>& paddings,
bool exclusive,
const std::string& data_format,
const std::string& pooling_type,
bool global_pooling,
bool adaptive,
const std::string& padding_algorithm,
DenseTensor* out) {
const bool channel_last = (data_format == "NHWC" || data_format == "NDHWC");
std::vector<int> paddings_ = paddings;
std::vector<int> kernel_size_ = kernel_size;
// update paddings
auto x_dims = x.dims();
DDim data_dims;
if (channel_last) {
data_dims = slice_ddim(x_dims, 1, x_dims.size() - 1);
} else {
data_dims = slice_ddim(x_dims, 2, x_dims.size());
}
funcs::UpdatePadding(&paddings_,
global_pooling,
adaptive,
padding_algorithm,
data_dims,
strides,
kernel_size_);
if (data_dims.size() * 2 == static_cast<int>(paddings_.size())) {
for (int i = 0; i < data_dims.size(); ++i) {
paddings_.erase(paddings_.begin() + i + 1);
}
}
if (global_pooling) {
funcs::UpdateKernelSize(&kernel_size_, data_dims);
}
switch (kernel_size_.size()) {
case 2: {
if (pooling_type == "max") {
funcs::Pool2dFunctor<Context, funcs::MaxPool<T>, T> pool2d_forward;
funcs::MaxPool<T> pool_process;
pool2d_forward(ctx,
x,
kernel_size_,
strides,
paddings_,
data_format,
true,
false,
out,
pool_process);
} else if (pooling_type == "avg") {
std::vector<int> reduce_dim;
int reduce_num = GetReduceNum(x, out, channel_last, &reduce_dim);
if (reduce_num > 0 &&
adaptive) { // for adaptive_avg_pool2d && output_size == 1
#if defined(__HIPCC__) || defined(__NVCC__)
auto stream = ctx.stream();
funcs::ReduceKernel<T, T, kps::AddFunctor, kps::DivideFunctor<T>>(
ctx, x, out, kps::DivideFunctor<T>(reduce_num), reduce_dim);
#else // for cpu
funcs::Pool2dFunctor<Context, funcs::AvgPool<T>, T> pool2d_forward;
funcs::AvgPool<T> pool_process;
pool2d_forward(ctx,
x,
kernel_size_,
strides,
paddings_,
data_format,
exclusive,
adaptive,
out,
pool_process);
#endif
} else { // avgpool_2d or adaptive_avg_pool2d && output_size != 1
funcs::Pool2dFunctor<Context, funcs::AvgPool<T>, T> pool2d_forward;
funcs::AvgPool<T> pool_process;
pool2d_forward(ctx,
x,
kernel_size_,
strides,
paddings_,
data_format,
exclusive,
adaptive,
out,
pool_process);
}
}
} break;
case 3: {
if (pooling_type == "max") {
funcs::Pool3dFunctor<Context, funcs::MaxPool<T>, T> pool3d_forward;
funcs::MaxPool<T> pool_process;
pool3d_forward(ctx,
x,
kernel_size_,
strides,
paddings_,
data_format,
true,
false,
out,
pool_process);
} else if (pooling_type == "avg") {
funcs::Pool3dFunctor<Context, funcs::AvgPool<T>, T> pool3d_forward;
funcs::AvgPool<T> pool_process;
pool3d_forward(ctx,
x,
kernel_size_,
strides,
paddings_,
data_format,
exclusive,
adaptive,
out,
pool_process);
}
} break;
default: {
PADDLE_THROW(
errors::InvalidArgument("Pool op only supports 2D and 3D input."));
}
}
}
template <typename Context, typename T1, typename T2 = int>
void MaxPoolWithIndexRawKernel(const Context& ctx,
const DenseTensor& x,
const std::vector<int>& kernel_size,
const std::vector<int>& strides,
const std::vector<int>& paddings,
bool global_pooling,
bool adaptive,
DenseTensor* out,
DenseTensor* mask) {
std::vector<int> paddings_ = paddings;
std::vector<int> kernel_size_ = kernel_size;
if (global_pooling) {
for (size_t i = 0; i < kernel_size_.size(); ++i) {
paddings_[i] = 0;
kernel_size_[i] = static_cast<int>(x.dims()[i + 2]);
}
}
switch (kernel_size_.size()) {
case 2: {
funcs::MaxPool2dWithIndexFunctor<Context, T1, T2> pool2d_forward;
pool2d_forward(
ctx, x, kernel_size_, strides, paddings_, adaptive, out, mask);
} break;
case 3: {
funcs::MaxPool3dWithIndexFunctor<Context, T1, T2> pool3d_forward;
pool3d_forward(
ctx, x, kernel_size_, strides, paddings_, adaptive, out, mask);
} break;
default: {
PADDLE_THROW(
errors::InvalidArgument("Pool op only supports 2D and 3D input."));
}
}
}
template <typename T, typename Context>
void Pool2dKernel(const Context& ctx,
const DenseTensor& x,
const IntArray& kernel_size,
const std::vector<int>& strides,
const std::vector<int>& paddings,
bool ceil_mode UNUSED,
bool exclusive,
const std::string& data_format,
const std::string& pooling_type,
bool global_pooling,
bool adaptive,
const std::string& padding_algorithm,
DenseTensor* out) {
std::vector<int> kernel_size_val(kernel_size.GetData().begin(),
kernel_size.GetData().end());
PoolRawKernel<T, Context>(ctx,
x,
kernel_size_val,
strides,
paddings,
exclusive,
data_format,
pooling_type,
global_pooling,
adaptive,
padding_algorithm,
out);
}
template <typename T, typename Context>
void MaxPool2dWithIndexKernel(const Context& ctx,
const DenseTensor& x,
const std::vector<int>& kernel_size,
const std::vector<int>& strides,
const std::vector<int>& paddings,
bool global_pooling,
bool adaptive,
DenseTensor* out,
DenseTensor* mask) {
MaxPoolWithIndexRawKernel<Context, T>(ctx,
x,
kernel_size,
strides,
paddings,
global_pooling,
adaptive,
out,
mask);
}
template <typename T, typename Context>
void Pool3dKernel(const Context& ctx,
const DenseTensor& x,
const std::vector<int>& kernel_size,
const std::vector<int>& strides,
const std::vector<int>& paddings,
bool ceil_mode UNUSED,
bool exclusive,
const std::string& data_format,
const std::string& pooling_type,
bool global_pooling,
bool adaptive,
const std::string& padding_algorithm,
DenseTensor* out) {
PoolRawKernel<T, Context>(ctx,
x,
kernel_size,
strides,
paddings,
exclusive,
data_format,
pooling_type,
global_pooling,
adaptive,
padding_algorithm,
out);
}
template <typename T, typename Context>
void MaxPool3dWithIndexKernel(const Context& ctx,
const DenseTensor& x,
const std::vector<int>& kernel_size,
const std::vector<int>& strides,
const std::vector<int>& paddings,
bool global_pooling,
bool adaptive,
DenseTensor* out,
DenseTensor* mask) {
MaxPoolWithIndexRawKernel<Context, T>(ctx,
x,
kernel_size,
strides,
paddings,
global_pooling,
adaptive,
out,
mask);
}
} // namespace phi
|
79f3006ef4fedf6c0abc7f4bbba5c00a5c0fa82d | 72a6f6f3304cd939423c2382a9334d7ec6695f1a | /三子棋/源.cpp | 24cf0a92924526236839ab3aed66e4cf158e1cfd | [] | no_license | Ding123456/test2 | 914085c9d26dd48584e3b4e5f9e4f0216b98e7da | 33203c12e8bc3a8230c44aca44950aaee3e2c702 | refs/heads/master | 2021-04-23T21:52:04.926312 | 2020-03-25T15:21:45 | 2020-03-25T15:21:45 | 250,013,624 | 0 | 0 | null | null | null | null | GB18030 | C++ | false | false | 3,364 | cpp | 源.cpp | #include<stdio.h>
#include<stdlib.h>
#define MAX_ROW 3
#define MAX_COL 3
//全局变量,如果不初始化也会被自动初始化成全为0
char chess_board[MAX_ROW][MAX_COL];
void Init()
{
for (int row = 0; row < MAX_ROW; row++)
{
for (int col = 0; col < MAX_COL; col++)
{
chess_board[row][col] = ' ';
}
}
}
void PrintChessBoard()
{
printf("+---+---+---+\n");
for (int row = 0; row < MAX_ROW; row++)
{
printf("| %c | %c | %c |\n", chess_board[row][0], chess_board[row][1], chess_board[row][2]);
printf("+---+---+---+\n");
}
system("pause");
}
void playMove() {
printf("玩家落子!\n");
while(1)
{
printf("请输入要落子位置的坐标(行,列):");
int row = 0;
int col = 0;
scanf_s("%d %d", &row, &col);
//用户输入的内容有没有可能shi9非法内容?
if (row < 0 || row >= MAX_ROW || col < 0 || col >= MAX_COL)
printf("您的输入有误,请重新输入!\n");
continue;
if (chess_board[row][col] != ' ')
{
printf("您的输入位置已有棋子!\n");
continue;
}
//真的进行落子
chess_board[row][col] = 'x';
break;
}
}
void ComputerMove()
{
printf("电脑落子\n");
while (1) {
int row = rand() % MAX_ROW;
int col = rand() % MAX_COL;
if (chess_board[row][col] != ' ')
{
continue;
}
chess_board[row][col] = 'o';
break;
}
}
//棋盘如果满了,返回1,没满返回0
int IsFull()
{
//循环遍历整个棋盘,只要找到一个空格,就没满,遍历完没找到空格表示满了
for (int row = 0; row < MAX_ROW; row++)
{
for (int col = 0; col < MAX_COL; col++)
{
if (chess_board[row][col] == ' ')
return 0;
}
}
return 1;
}
//返回‘x’表示玩家获胜
//返回‘o’表示电脑获胜
//返回‘ ’表示胜负未分
//返回‘q’表示和棋
char CheckWinner()
{
//1.检查所有行
for (int row = 0; row < MAX_ROW; row++)
{
if (chess_board[row][0] != ' '&&chess_board[row][0] == chess_board[row][1] && chess_board[row][0] == chess_board[row][2])
{
return chess_board[row][0];
}
}
//2.检测所有列
for (int col = 0; col < MAX_COL; col++)
{
if (chess_board[0][col] != ' '&&chess_board[0][col] == chess_board[1][col] && chess_board[0][col] == chess_board[2][col])
{
return chess_board[0][col];
}
}
//3.再检测对角线
if (chess_board[0][2] != ' '&&chess_board[0][0] == chess_board[1][1] && chess_board[0][0] == chess_board[2][2])
{
}
if (chess_board[0][2] != ' '&&chess_board[0][2] == chess_board[1][1] && chess_board[0][2] == chess_board[2][0])
{
return chess_board[0][2];
}
//4.是否和棋
if (IsFull())
{
return 'q';
}
return ' ';
}
int main()
{
//1.创建棋盘,并初始化,全是空格
Init();
char winner = ' ';
while (1)
{
//2.打印棋盘
PrintChessBoard();
//3.要求玩家落子,用户输入坐标
playMove();
//4.判定游戏胜负
winner = CheckWinner();
if (winner != ' ')
{
break;
}
//5.要求电脑落子,随机落子
ComputerMove();
//6.判定游戏胜负
char winner = CheckWinner();
if (winner != ' ')
{
break;
}
if (winner == 'x')
{
printf("恭喜你,你赢了!\n");
}
else if (winner == 'o')
{
printf("真菜,赢不过电脑!\n");
}
else {
printf("你还是菜,和电脑一个水平!\n");
}
system("pause");
return 0;
// 7.回到2循环执行
}
system("pause");
return 0;
} |
8c16b037125e88ac71c24106a19694f779899545 | cb1ab922f3877fbf3b068b93ea74a29c998a7ccf | /FieldLine.h | de3e23bb7dc357bc6b2aab1a6f40b24301f89d76 | [] | no_license | burlen/SciberQuestToolKit | ab29d2dd98372257dfc80649a4bbe0bb21531f65 | 19666561661ddc863397c21e707be87e1c5dd8ca | refs/heads/master | 2021-03-24T10:04:21.685793 | 2012-06-18T22:19:46 | 2012-06-18T22:19:46 | 4,422,926 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 5,836 | h | FieldLine.h | /*
____ _ __ ____ __ ____
/ __/___(_) / ___ ____/ __ \__ _____ ___ / /_ / _/__ ____
_\ \/ __/ / _ \/ -_) __/ /_/ / // / -_|_-</ __/ _/ // _ \/ __/
/___/\__/_/_.__/\__/_/ \___\_\_,_/\__/___/\__/ /___/_//_/\__(_)
Copyright 2012 SciberQuest Inc.
*/
#ifndef __FieldLine_h
#define __FieldLine_h
#include "vtkFloatArray.h"
// Data type to collect streamline points during a trace. The
// streamline is expected mapped in two steps, a backward and
// forward trace.
//=============================================================================
class FieldLine
{
public:
FieldLine();
FieldLine(float p[3], unsigned long long seedId=0);
FieldLine(double p[3], unsigned long long seedId=0);
FieldLine(const FieldLine &other) { *this=other; }
~FieldLine() { this->DeleteTrace(); }
// Decscription:
// Internal allocate/free data structures for stream line trace,
void AllocateTrace();
void DeleteTrace();
// Description:
// Copy the field line. Does a shallow copy of internal data
// structures.
const FieldLine &operator=(const FieldLine &other);
// Description:
// Set seed point for coming trace and clear out internal data
// structures.
void Initialize(double p[3], unsigned long long seedId);
// Description:
// Get seed point and it's id.
unsigned long long GetSeedId() const { return this->SeedId; }
double *GetSeedPoint() { return this->Seed; }
// const double *GetSeedPoint() const{ return this->Seed; }
void GetSeedPoint(double p[3]) const;
// Description:
// Add a point to the trace in the given direction.
void PushPoint(int dir,float *p)
{
(dir==0?BwdTrace:FwdTrace)->InsertNextTuple(p);
}
void PushPoint(int dir,double *p)
{
(dir==0?BwdTrace:FwdTrace)->InsertNextTuple(p);
}
// Description:
// Set/Get the code indicating why the trace in the given direction
// terminated.
void SetTerminator(int dir, int code)
{
*(dir==0?&this->BwdTerminator:&this->FwdTerminator)=code;
}
int GetForwardTerminator() const { return this->FwdTerminator; }
int GetBackwardTerminator() const { return this->BwdTerminator; }
// Description:
// Return the number of points in the trace data.
vtkIdType GetNumberOfPoints();
// Description:
// Copy the trace data into the supplied bufffer. The buffer must be
// big enough to hold them all. In the Line variant the the backward trace
// data is reveresed.
vtkIdType CopyPoints(float *pts);
// Description:
// Compute the displacement between the first and last point
// in the Line.
void GetDisplacement(float *d);
// Description:
// Get end points on the filed line.
void GetForwardEndPoint(float *d);
void GetBackwardEndPoint(float *d);
private:
vtkFloatArray *FwdTrace; // streamline trace along V
vtkFloatArray *BwdTrace; // streamline trace along -V
double Seed[3]; // seed point TODO - should be a float.
unsigned long long SeedId; // cell id in origniating dataset
int FwdTerminator; // code indicating how fwd trace ended
int BwdTerminator; // code indicating how bwd trace ended
};
//-----------------------------------------------------------------------------
inline
FieldLine::FieldLine()
:
FwdTrace(0),
BwdTrace(0),
SeedId(0),
FwdTerminator(0),
BwdTerminator(0)
{
this->Seed[0]=0.0;
this->Seed[1]=0.0;
this->Seed[2]=0.0;
}
//-----------------------------------------------------------------------------
inline
FieldLine::FieldLine(double p[3], unsigned long long seedId)
:
FwdTrace(0),
BwdTrace(0),
SeedId(seedId),
FwdTerminator(0),
BwdTerminator(0)
{
this->Seed[0]=p[0];
this->Seed[1]=p[1];
this->Seed[2]=p[2];
}
//-----------------------------------------------------------------------------
inline
FieldLine::FieldLine(float p[3], unsigned long long seedId)
:
FwdTrace(0),
BwdTrace(0),
SeedId(seedId),
FwdTerminator(0),
BwdTerminator(0)
{
this->Seed[0]=p[0];
this->Seed[1]=p[1];
this->Seed[2]=p[2];
}
//-----------------------------------------------------------------------------
inline
void FieldLine::AllocateTrace()
{
this->FwdTrace=vtkFloatArray::New();
this->FwdTrace->SetNumberOfComponents(3);
this->FwdTrace->Allocate(128);
this->BwdTrace=vtkFloatArray::New();
this->BwdTrace->SetNumberOfComponents(3);
this->BwdTrace->Allocate(128);
}
//-----------------------------------------------------------------------------
inline
void FieldLine::DeleteTrace()
{
if (this->FwdTrace){ this->FwdTrace->Delete(); }
if (this->BwdTrace){ this->BwdTrace->Delete(); }
this->FwdTrace=0;
this->BwdTrace=0;
}
//-----------------------------------------------------------------------------
inline
void FieldLine::Initialize(double p[3], unsigned long long seedId)
{
this->Seed[0]=p[0];
this->Seed[1]=p[1];
this->Seed[2]=p[2];
this->SeedId=seedId;
if (this->FwdTrace) this->FwdTrace->SetNumberOfTuples(0);
if (this->BwdTrace) this->BwdTrace->SetNumberOfTuples(0);
this->BwdTerminator=this->FwdTerminator=0;
}
// //-----------------------------------------------------------------------------
// inline
// void FieldLine::GetSeedPoint(float p[3]) const
// {
// p[0]=this->Seed[0];
// p[1]=this->Seed[1];
// p[2]=this->Seed[2];
// }
//-----------------------------------------------------------------------------
inline
void FieldLine::GetSeedPoint(double p[3]) const
{
p[0]=this->Seed[0];
p[1]=this->Seed[1];
p[2]=this->Seed[2];
}
//-----------------------------------------------------------------------------
inline
vtkIdType FieldLine::GetNumberOfPoints()
{
vtkIdType total=0;
total+=(this->FwdTrace?this->FwdTrace->GetNumberOfTuples():0);
total+=(this->BwdTrace?this->BwdTrace->GetNumberOfTuples():0);
return total;
}
#endif
|
0cb7c10e5fd515424799c33579fab63384f94922 | e3e32827587066fc1d60f216684143539d5ec43c | /src/midi.cpp | 0ce0b3c362d1b6ca64a65b88bbbef20b25ae6650 | [] | no_license | gcohara/greesy | 273bbc0466d59df24b5ff95a4e767671d5342735 | 06f1313d4b457666d705408db71c3ded19420448 | refs/heads/main | 2023-03-08T08:50:54.362341 | 2021-03-01T10:15:21 | 2021-03-01T10:15:21 | 327,068,833 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,830 | cpp | midi.cpp | #include "../inc/midi.hpp"
#include <cstdint>
namespace {
bool is_status_byte(std::uint8_t byte) noexcept {
return (byte & 0x80);
}
bool is_note_on(std::uint8_t byte) noexcept {
return (byte == 0x90);
}
bool is_note_off(std::uint8_t byte) noexcept {
return (byte == 0x80);
}
// This is gross and hacky. Surely there's a better way?
void wait_for_next_byte(MidiBuffer& midi_buffer) noexcept {
while(midi_buffer.buffer_empty());
}
}
namespace MIDI {
ParserReturnType parse_midi_data(MidiBuffer& midi_buffer) noexcept {
ParserReturnType output;
// If the do fits, wear it
std::uint8_t first_byte;
do {
if (midi_buffer.buffer_empty()) {
output.instruction_type = InstructionType::NoData;
output.instruction_data.no_data = true;
break;
}
first_byte = midi_buffer.read();
} while (!is_status_byte(first_byte));
if (is_note_on(first_byte)) {
output.instruction_type = InstructionType::NoteOn;
// Need to wait for the next value in buffer
wait_for_next_byte(midi_buffer);
output.instruction_data.note_data.note_number = midi_buffer.read();
wait_for_next_byte(midi_buffer);
output.instruction_data.note_data.velocity = midi_buffer.read();
}
else if (is_note_off(first_byte)) {
output.instruction_type = InstructionType::NoteOff;
wait_for_next_byte(midi_buffer);
output.instruction_data.note_data.note_number = midi_buffer.read();
wait_for_next_byte(midi_buffer);
output.instruction_data.note_data.velocity = midi_buffer.read();
}
return output;
}
}
|
d2a43ba973d6e396976ceb40fc78491d3351942c | 232767d21db4e52a9f76c6023f7e0cbec739b5d7 | /node/src/HttpSocket.cc | cbaa456c04b6e3e7080d2fbf0459b534e899e140 | [
"Zlib"
] | permissive | Sourabh-Pandit/cc | 27a73f1d565c5cd7149fe1eeaef9e814a2e3a79c | 73a2eef31c21c624f1c77340b05cec0ac44793c4 | refs/heads/master | 2021-02-16T02:50:44.365556 | 2020-02-16T23:27:42 | 2020-02-16T23:27:42 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 3,121 | cc | HttpSocket.cc | /*
* Copyright (C) 2007-2019 Frank Mertens.
*
* Distribution and use is allowed under the terms of the zlib license
* (see cc/LICENSE-zlib).
*
*/
#include <cc/assert>
#include <cc/node/HttpSocket>
namespace cc {
namespace node {
HttpSocket::HttpSocket(const SocketAddress *address, int mode):
StreamSocket{address},
mode_{mode}
{}
int HttpSocket::read(CharArray *data)
{
if (data->count() == 0) return 0;
if (!(mode_ & Secure)) {
if (!waitInput()) throw RequestTimeout{};
return StreamSocket::read(data);
}
int ret = gnutls_record_recv(session_, data->bytes(), data->count());
gnuTlsCheckError(ret);
CC_ASSERT(ret >= 0);
return ret;
}
void HttpSocket::write(const CharArray *data)
{
if (data->count() == 0) return;
if (!(mode_ & Secure)) {
StreamSocket::write(data);
return;
}
String pending = data;
while (true) {
int ret = gnutls_record_send(session_, pending->bytes(), pending->count());
if (ret == pending->count()) break;
gnuTlsCheckError(ret);
CC_ASSERT(ret > 0);
if (ret < pending->count())
pending = pending->select(ret, pending->count());
}
}
void HttpSocket::write(const StringList *parts)
{
if (mode_ & Secure)
write(parts->join());
else
StreamSocket::write(parts);
}
void HttpSocket::initTransport()
{
gnutls_transport_set_ptr(session_, this);
gnutls_transport_set_pull_function(session_, gnuTlsPull);
gnutls_transport_set_vec_push_function(session_, gnuTlsPushVec);
}
bool HttpSocket::gnuTlsCheckSuccess(int ret)
{
return gnuTlsCheckSuccess(ret, address());
}
void HttpSocket::gnuTlsCheckError(int ret)
{
gnuTlsCheckError(ret, address());
}
bool HttpSocket::gnuTlsCheckSuccess(int ret, const SocketAddress *peerAddress)
{
if (ret != GNUTLS_E_SUCCESS) throw SecurityError{ret, peerAddress};
return true;
}
void HttpSocket::gnuTlsCheckError(int ret, const SocketAddress *peerAddress)
{
if (ret < 0) throw SecurityError{ret, peerAddress};
}
ssize_t HttpSocket::gnuTlsPull(gnutls_transport_ptr_t ctx, void *data, size_t size)
{
HttpSocket *socket = (HttpSocket *)ctx;
ssize_t n = -1;
try {
if (socket->waitInput()) n = SystemIo::read(socket->fd(), data, size);
else n = -1;
}
catch (Exception &ex) {
socket->ioException(ex);
}
return n;
}
ssize_t HttpSocket::gnuTlsPushVec(gnutls_transport_ptr_t ctx, const giovec_t *iov, int iovcnt)
{
CC_STATIC_ASSERT(offsetof(struct iovec, iov_base) == offsetof(giovec_t, iov_base));
CC_STATIC_ASSERT(offsetof(struct iovec, iov_len) == offsetof(giovec_t, iov_len));
CC_STATIC_ASSERT(sizeof(struct iovec) == sizeof(giovec_t));
HttpSocket *socket = (HttpSocket *)ctx;
try {
SystemIo::writev(socket->fd(), (const struct iovec *)iov, iovcnt);
}
catch (Exception &ex) {
socket->ioException(ex);
return -1;
}
ssize_t total = 0;
for (int i = 0; i < iovcnt; ++i)
total += iov[i].iov_len;
return total;
}
}} // namespace cc::node
|
60af1689725aa5e8da24e624abf5eb2d19e8b630 | b028aee920bb0e326bbc521f6a558aee92de7955 | /src/Classes/CovidInfo/CovidInfo.h | 979efce12338f0299c2203172043e01a240d4284 | [] | no_license | hdnexus/Segunda-parte-Trabalho-ED2-2020-5 | 45848a4db0d1de15f1cefb0d3eebada6ba28f339 | 47096cd79cbfdc63deed3571dfef3121c9bdb084 | refs/heads/main | 2023-03-15T01:43:14.062810 | 2021-03-19T22:34:38 | 2021-03-19T22:34:38 | null | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 894 | h | CovidInfo.h |
#ifndef COVIDINFO_H_INCLUDED
#define COVIDINFO_H_INCLUDED
#include <iostream>
#include <vector>
#include <fstream>
#include <stdlib.h>
#include <stdio.h>
#include <fstream>
using namespace std;
/*Classe para armazenar cada registro(linha) do CSV*/
class CovidInfo
{
private:
public:
string date;
string state;
string city;
float code;
int cases;
int deaths;
int totalCases;
//Função de processamento do csv
CovidInfo();
CovidInfo(string date, string state, string city, int code, int cases, int deaths);
CovidInfo(string date, string state, string city, int code, int cases, int totalCases, int deaths);
~CovidInfo();
void print();
void printInFile(ofstream &file);
bool operator < (const CovidInfo& c) const //Overload do operador < para servir a propositos de ordenação de vetores de objetos desta classe
{
return (city < c.city);
}
};
#endif |
adff7fa68d13568e7f338ba134407f4aa2da7eb6 | b5206449cd89ee9861c83d1bbace55c908996f7e | /code/include/DStrip.h | 388917860f6dfcb2281bb02bfdf779f7505b0539 | [] | no_license | jeromebaudot/taf | 396d0b86277f111ba04e3adbeecef2fae6595c70 | 92f3ea52e545b4509ad3c810041332b5e49c57db | refs/heads/master | 2022-05-16T02:29:07.372117 | 2022-02-19T16:08:42 | 2022-02-19T16:08:42 | 129,721,599 | 1 | 6 | null | 2021-06-14T12:25:45 | 2018-04-16T09:52:37 | C | UTF-8 | C++ | false | false | 8,039 | h | DStrip.h | #ifndef _DStrip_included_
#define _DStrip_included_
#include <math.h>
// ROOT classes
#include "TObject.h"
#include "TH1.h"
#include "DR3.h"
//#include "DPixel.h" //YV 04/06/09
class DSetup;
class DPlane;
class TH1F;
//YV 04/06/09 make DStrip class inherit from DPixel
class DStrip : public TObject {
//class DStrip : public DPixel {
public:
DStrip();
DStrip(DPlane& aPlane, const Int_t aStripIndex, DR3& aPosition, DR3& aSize);
~DStrip();
Int_t Introduce( DStrip &aStrip);
Float_t Distance( DStrip &aStrip);
Float_t Distance(const DR3& aPosition);
Float_t DistanceU(DStrip& aStrip);
Float_t DistanceU(const DR3& aPosition);
Float_t DistanceV(DStrip& aStrip);
Float_t DistanceV(const DR3& aPosition);
void SumValue(); // sums the value and increments a counter
void SumSquareValue(); // sums the square of the value and increments counter
void InitPedestal();
void InitNoiseAndPedestal();
void SetNoise(Float_t tNV ); // set noise to the value
void SetPedestal(Float_t tPV); // set pedestal to the value
void InitNoise();
void SetCommonMode(Float_t tCM) { fCommonMode = tCM; }
void SetRawValue(Float_t tRV); // sets raw value and updates;
//---addition 10/1/01
void SetRawFrame1Value(Float_t tRF1); // sets raw value and updates;
void SetRawFrame2Value(Float_t tRF2); // sets raw value and updates;
Float_t GetRawFrame1Value() { return fRawFrame1Value; }
Float_t GetRawFrame2Value() { return fRawFrame2Value; }
void Update();
void UpdatePedestalAndNoise();
void UpdatePedestal(Float_t tRV);
void UpdateSignal();
void UpdateSignal(Float_t tRV);
void UpdateNoise(Float_t tSV);
Int_t GetStripIndex() { return fStripIndex; }
Int_t GetPixelIndex() { return fPixelIndex; } // JB 2012/08/18
void SetPixelIndex( Int_t anIndex) { fPixelIndex = anIndex; } // JB 2012/08/18
Int_t GetPlaneNumber() { return fPlaneNumber; }
Float_t GetRawValue() { return fRawValue; }
Float_t GetPulseHeight() { return fPulseHeight; }
Float_t GetPulseHeightToNoise();
Float_t GetNoise() { return fNoise; }
Float_t GetPedestal() { return fPedestal; }
Float_t GetCommonMode() { return fCommonMode; }
Int_t GetPedestalCounts() { return fSumCount; } // JB 2010/10/16
Int_t GetNoiseCounts() { return fSumSquareCount;} // JB 2010/10/16
/*
//YV 04/06/09 change floats to double
Double_t GetRawValue() { return fRawValue; }
Double_t GetPulseHeight() { return fPulseHeight; }
Double_t GetPulseHeightToNoise();
Double_t GetNoise() { return fNoise; }
Double_t GetPedestal() { return fPedestal; }
Double_t GetCommonMode() { return fCommonMode; }
*/
DR3& GetPosition() { return fPosition; }
DR3& GetSize() { return fSize; }
DPlane *GetPlane() { return fPlane; }
//---abesson september 2005
DSetup *GetSetup() { return fc; }
DStrip *GetNeighbour(Int_t aNI);
Int_t GetNeighbourCount() { return fNeighbourCount;}
Bool_t Found() { return fFound; }
void SetFound(Bool_t b) { fFound = b; }
Bool_t KillNoise();
private:
Int_t fDebugStrip;
Float_t fRawValue; // the rawvalue
//Double_t fRawValue; // the rawvalue YV 04/06/09
Float_t fRawFrame1Value; // the rawvalue w/o CDS (1st frame)
Float_t fRawFrame2Value; // the rawvalue w/o CDS (2nd frame)
Float_t fSumValue; // sum of values for pedestal/noise initialization
Float_t fSumSquareValue; // sum of squares of raw values for noise initialization
Float_t fInitialPedestal; // initial pedestal value
Float_t fInitialTMS; // initial variance (the mean square)
Int_t fSumCount; // counter for raw signal summation
Int_t fSumSquareCount; // counter for squared raw signal summation
Int_t fPlaneNumber; // number of the plane
DPlane *fPlane; // pointer to the plane
DSetup *fc; // pointer to the configuration
DR3 fPosition; // position in uvw coordinates in the plane
DR3 fSize; // size in uvw directions
Int_t fStripIndex; // number of this strip
Int_t fPixelIndex; // corresponding index in the pixel List, JB 2012/08/18
Float_t fPulseHeight; // pulseheight on strip
Float_t fNoise; // noise on strip
Float_t fCommonMode; // the common mode value
Float_t fPedestal;
/*
//YV 04/06/09
Double_t fPulseHeight; // pulseheight on strip
Double_t fNoise; // noise on strip
Double_t fCommonMode; // the common mode value
Double_t fPedestal;
*/
Int_t fWeightPedestal; // a weight (e.g. 100) for pedestal follower
Int_t fWeightNoise; // a weight (e.g. 100) for pedestal follower
//YV ends
Int_t fCallCount; // Number of events in long term noise calc.
Int_t fCallCountMaximum; // how many events to include
Bool_t fFound; // flag, that strip is found in hit
Bool_t fUsePulse; // flag, that strip can be used in analysis
DStrip** fNeighbourList; //! array of strips in the neighbourhood
Int_t fNeighbourCount;
Int_t fNeighbourCountMaximum; // max. # of neighbours in bound
Float_t fBound; // circle in mm around seed center
Float_t aSignalSupressedValue(Float_t* data, const Int_t entries);
Int_t extremumIndex(const Float_t* data, const Int_t N);
Int_t fCacheSize; // the size for the noise and pedestal buffer = 5;
Float_t fNoiseCache[50]; // FIFO buffer for noise measurement
Int_t fNoiseCacheIndex; // counter
Float_t fPedestalCache[50]; // FIFO buffer for noise measurement
Int_t fPedestalCacheIndex; // counter
Float_t median(Float_t* data, const Int_t N);
ClassDef(DStrip,3) // Strip or Pixel of a Detector Plane
};
#endif
|
b46e8b31741332edde5bee817bbf5f85e09a32d6 | 65dbb24e3bb420bb645523fb985f1b7b24eb5377 | /OLDASFUCK/jugadaLight.cpp | e7de995b125f11fca570eb46390bb6b87303e5d2 | [] | no_license | EddyVegaGarcia/TP-n-2 | 992aa969361ee1691976c069ce668a9f52594127 | 1b01b05ec953c0a4791449722dd7ee706ae62fa1 | refs/heads/master | 2021-08-28T07:16:48.255816 | 2017-12-11T15:09:29 | 2017-12-11T15:09:29 | 104,817,166 | 1 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 1,211 | cpp | jugadaLight.cpp | /*
* jugadaLight.cpp
*
* Created on: Nov 28, 2017
* Author: ghost
*/
#include "jugadaLight.h"
using namespace std;
JugadaLight::JugadaLight(char opcion, char jugador, int fila, int columna){
this->fila = fila;
this->columna = columna;
this->jugador = jugador;
this->opcion=opcion;
}
int JugadaLight::obtenerFila(){
return this->fila;
}
int JugadaLight::obtenerColumna(){
return this->columna;
}
char JugadaLight::obtenerOpcion(){
return this->opcion;
}
char JugadaLight::obtenerJugador(){
return this->jugador;
}
void JugadaLight::asignarOpcion(char opcionDeUsuario){
this->opcion = opcionDeUsuario;
}
void JugadaLight::asignarFila(int filaDeUsuario){
this->fila = filaDeUsuario;
}
void JugadaLight::asignarColumna(int columnaDeUsuario){
this->columna = columnaDeUsuario;
}
void JugadaLight::asignarJugador(char jugador){
this->jugador = jugador;
}
bool JugadaLight::operator == ( JugadaLight b) {
bool sonIguales = false;
if((this->fila == b.obtenerFila())&&(this->columna == b.obtenerColumna())&&
(this->opcion == b.obtenerOpcion())){
sonIguales = true;
}
return sonIguales;
}
|
7e7411bacc8876a90bc0e1bd8868d3c484928fea | 1258ccc86aba3dd32c957dcb584939bcf5a9ffff | /src/robot_driver/src/pioneerLaser.cpp | c12ce60b1e4f911b9e0b1af25a0d9d183cb884ff | [] | no_license | toncas/RobotCode | f5cea3a77b9e06a6d279dbbe261a9c482c8e4deb | a6d401a89036deb5cce3ffc58cb24d113e17931e | refs/heads/master | 2021-01-01T03:53:17.139531 | 2016-04-13T02:47:21 | 2016-04-13T02:47:21 | 56,114,942 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 5,491 | cpp | pioneerLaser.cpp | #include "ros/ros.h"
#include "geometry_msgs/Twist.h"
#include "sensor_msgs/LaserScan.h"
#define LASER_SCAN_DIVISION 9
#define OBSTACLE_DISTANCE 0.2f
#define MAX_POLE_DISTANCE 0.5f
#define EDGE_DISTANCE 0.3f
#define MAX_LINEAR_SPEED 0.15f
#define MAX_ANGULAR_SPEED 0.35f
geometry_msgs::Twist velocityCommand;
bool turn_enable = false; //flag for enabling 180 turn
bool turn_complete = true;
int checkprint = 0;
int pole_print = 0;
void laserScanCallback(const sensor_msgs::LaserScan::ConstPtr& laserScanData)
{
int print_val;
int pole_print_val;
bool obstacle_array[LASER_SCAN_DIVISION];
bool pole_detected[2];
// Example of using some of the non-range data-types
float rangeDataNum = 1 + (laserScanData->angle_max - laserScanData->angle_min) /
(laserScanData->angle_increment);
float scanSector[LASER_SCAN_DIVISION];
for (int i = 0; i < LASER_SCAN_DIVISION; i++)
{
scanSector[i] = i * rangeDataNum/(LASER_SCAN_DIVISION - 1);
}
/**Initialising the obstacle array**/
if(laserScanData->ranges[scanSector[0]] < EDGE_DISTANCE)
{
obstacle_array[0] = true;
}
else
{
obstacle_array[0] = false;
}
printf("%d, ", obstacle_array[0] );
// Go through the laser data
for(int j = 1; j < LASER_SCAN_DIVISION - 1; ++j)
{
if(laserScanData->ranges[scanSector[j]] < OBSTACLE_DISTANCE) //obstacle present
{
obstacle_array[j] = true;
}
else
{
obstacle_array[j] = false;
}
printf("%d, ", obstacle_array[j] );
}
if(laserScanData->ranges[scanSector[8]] < EDGE_DISTANCE)
{
obstacle_array[8] = true;
}
else
{
obstacle_array[8] = false;
}
printf("%d, ", obstacle_array[8] );
printf("\n");
/**OBSTACLE ARRAY SETUP END**/
/*Pole Detection*/
if((laserScanData->ranges[scanSector[1]] > OBSTACLE_DISTANCE && laserScanData->ranges[scanSector[1]] <= MAX_POLE_DISTANCE)
|| (laserScanData->ranges[scanSector[2]] > OBSTACLE_DISTANCE && laserScanData->ranges[scanSector[2]] <= MAX_POLE_DISTANCE)
|| (laserScanData->ranges[scanSector[3]] > OBSTACLE_DISTANCE && laserScanData->ranges[scanSector[3]] <= MAX_POLE_DISTANCE))
{
pole_detected[0] = true;
}
else
{
pole_detected[0] = false;
}
if((laserScanData->ranges[scanSector[5]] > OBSTACLE_DISTANCE && laserScanData->ranges[scanSector[5]] <= MAX_POLE_DISTANCE)
|| (laserScanData->ranges[scanSector[6]] > OBSTACLE_DISTANCE && laserScanData->ranges[scanSector[6]] <= MAX_POLE_DISTANCE)
|| (laserScanData->ranges[scanSector[7]] > OBSTACLE_DISTANCE && laserScanData->ranges[scanSector[7]] <= MAX_POLE_DISTANCE))
{
pole_detected[1] = true;
}
else
{
pole_detected[1] = false;
}
if(pole_detected[1] && pole_detected[0])
{
pole_print_val = 1;
if(pole_print != pole_print_val)
{
pole_print = pole_print_val;
printf("LEFT and RIGHT pole detected");
}
}
else if(pole_detected[0])
{
pole_print_val = 2;
if(pole_print != pole_print_val)
{
pole_print = pole_print_val;
printf("RIGHT ONLY pole detected");
}
}
else if (pole_detected[1])
{
pole_print_val = 3;
if(pole_print != pole_print_val)
{
pole_print = pole_print_val;
printf("LEFT ONLY pole detected");
}
}
else
{
pole_print_val = 4;
if(pole_print != pole_print_val)
{
pole_print = pole_print_val;
printf("NO pole detected");
}
//turn_enable = true;
}
if (!turn_enable)
{
print_val = 1;
if(checkprint != print_val)
{
checkprint = print_val;
printf("GOING STRAIGHT\n");
}
velocityCommand.linear.x = MAX_LINEAR_SPEED;
velocityCommand.angular.z = 0;
if((obstacle_array[1] || obstacle_array[2]) || (obstacle_array[3] || obstacle_array[0]))
{
print_val = 2;
if(checkprint != print_val)
{
checkprint = print_val;
printf("SLIGHT LEFT\n");
}
velocityCommand.linear.x = (2 / 3) * MAX_LINEAR_SPEED;
velocityCommand.angular.z = MAX_ANGULAR_SPEED;
}
else if ((obstacle_array[5] || obstacle_array[6]) || (obstacle_array[8] || obstacle_array[7]))
{
print_val = 3;
if(checkprint != print_val)
{
checkprint = print_val;
printf("SLIGHT RIGHT\n");
}
velocityCommand.linear.x = (2 / 3) * MAX_LINEAR_SPEED;
velocityCommand.angular.z = -MAX_ANGULAR_SPEED;
}
//else if(obstacle_array[4])
//{
// if(laserScanData->ranges[obstacle_array[2]] > laserScanData->ranges[obstacle_array[]]
//}
}
else //turn enable
{
printf("TURNING \n");
if (laserScanData->ranges[obstacle_array[1]] > laserScanData->ranges[obstacle_array[7]])
{
velocityCommand.linear.x = MAX_LINEAR_SPEED;
velocityCommand.angular.z = -MAX_ANGULAR_SPEED;
}
else if(laserScanData->ranges[obstacle_array[7]] > laserScanData->ranges[obstacle_array[1]])
{
velocityCommand.linear.x = MAX_LINEAR_SPEED;
velocityCommand.angular.z = MAX_ANGULAR_SPEED;
}
else
{
turn_enable = false;
printf("turn done \n");
}
}
}
int main (int argc, char **argv)
{
// command line ROS arguments
ros::init(argc, argv, "pioneer_laser_node");
// ROS comms access point
ros::NodeHandle my_handle;
// loop 10 Hz
ros::Rate loop_rate(10);
ros::Publisher vel_pub_object = my_handle.advertise<geometry_msgs::Twist>("/RosAria/cmd_vel",1);
// subscribe to the scan topic and define a callback function to process the data
ros::Subscriber laser_sub_object = my_handle.subscribe("/scan", 1, laserScanCallback);
// publish the velocity set in the call back
while(ros::ok())
{
ros::spinOnce();
loop_rate.sleep();
// publish
vel_pub_object.publish(velocityCommand);
}
return 0;
} |
9b63ded88a285b07cec57fec7ab6c904544dd2b5 | 94516a020ccdb5b154669c96bdcdbd17ef0bc5a2 | /Source/Canvas/transformanchor.h | 2792fbb5b3876d65b528bf892f86152dca8d2281 | [
"Zlib"
] | permissive | raydelto/Turquoise2D | d5380e01fa9cc8a8685ca0e385d67df080274ece | 247a0e747d8750248db12f830c9408a85d4712bc | refs/heads/master | 2022-09-06T13:59:32.477183 | 2020-05-28T02:51:28 | 2020-05-28T02:51:28 | 266,917,031 | 0 | 0 | Zlib | 2020-05-26T01:35:20 | 2020-05-26T01:35:19 | null | UTF-8 | C++ | false | false | 1,052 | h | transformanchor.h | #pragma once
#include "QGraphicsItem"
#include "Canvas/selectiontransformitem.h"
#include "Canvas/transformtypes.h"
#include "QPainter"
#include "QtMath"
#include "QApplication"
#include "QGraphicsSceneHoverEvent"
#include "QGraphicsDropShadowEffect"
class SelectionTransformItem;
class TransformAnchor : public QGraphicsItem
{
public:
TransformAnchor(SelectionTransformItem *_transformGroup,TransformTypes _type);
SelectionTransformItem *transformGroup;
int scaleAnchorSize=8;
int originAnchorSize=2;
QPointF *deltaFromOrigin=new QPointF();
int distanceFromOrigin=0;
void UpdateDeltaFromOrigin();
QPointF GetDeltaFromOrigin();
float GetDistanceFromOrigin(QPointF delta);
QPointF CalculateScaleRate(QPointF otherDelta);
bool checkRotationDistance(QPointF targetPoint);
TransformTypes type;
//Overriding paint()
void paint(QPainter * painter, const QStyleOptionGraphicsItem * option, QWidget * widget = 0);
QRectF boundingRect() const;
//virtual reload
bool pressedShift=false;
};
|
0b41ef19287749b3924fbda9274f9eedee38f432 | b30e76c6d3e17aa313b21563b6ecffb093fff974 | /examples/chat/chatsrv.h | e94a50ba9790a033d833fd6c848d5c654c164e54 | [] | no_license | gitobhub/netlib | 7b594377fbdfd9ad0e40706f8b11a9c328fe4510 | 1f38930b348f053c00a35ff553836183490c0001 | refs/heads/master | 2020-03-07T17:11:30.849951 | 2018-06-11T06:13:57 | 2018-06-11T06:13:57 | 127,604,726 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 420 | h | chatsrv.h | #ifndef CHATSRV_H
#define CHATSRV_H
#include <iostream>
#include <netdb.h>
#include "loop.h"
#include "inetaddr.h"
#include "server.h"
class ChatSrv : public Server
{
public:
ChatSrv(Loop &lp, const InetAddr &addr);
private:
void onMessage(const ConnectionPtr& conn, Buffer &buf) override;
// void onConnection(const ConnectionPtr& conn) override;
void print();
time_t startTime_ = 0;
};
#endif //CHATSRV_H
|
4237d4bb8513c986119f1975f718c260c08a6cdc | a5e629ce72b394307ae700abf914e63f7589d4a5 | /SimplePly.cpp | 82e81424672c219917e7b3ad89335273fbbfa3e7 | [] | no_license | johnnyflame/RANSACPlanefinder | f5bc26f63c91c118c2dae4cc7f0511678c091e16 | 4a4384b64ac4f68b651e640946e4b4f7c15042b1 | refs/heads/master | 2021-06-23T20:14:15.394291 | 2020-08-24T08:02:45 | 2020-08-24T08:02:45 | 89,882,346 | 2 | 1 | null | null | null | null | UTF-8 | C++ | false | false | 2,690 | cpp | SimplePly.cpp | #include "SimplePly.h"
#include "rply.h"
#include <iostream>
#include <fstream>
int vertexHandler(p_ply_argument argument) {
long elemIx, vertIx;
std::vector<PlyPoint> *points;
ply_get_argument_element(argument, NULL, &vertIx);
ply_get_argument_user_data(argument, (void**)(&points), &elemIx);
switch(elemIx) {
case 0:
(*points)[vertIx].location(0) = ply_get_argument_value(argument);
break;
case 1:
(*points)[vertIx].location(1) = ply_get_argument_value(argument);
break;
case 2:
(*points)[vertIx].location(2) = ply_get_argument_value(argument);
break;
case 3:
(*points)[vertIx].colour(0) = ply_get_argument_value(argument);
break;
case 4:
(*points)[vertIx].colour(1) = ply_get_argument_value(argument);
break;
case 5:
(*points)[vertIx].colour(2) = ply_get_argument_value(argument);
break;
default:
std::cerr << "Unrecognised element type " << elemIx << std::endl;
return 0;
}
return 1;
}
bool SimplePly::read(const std::string& filename) {
p_ply ply = ply_open(filename.c_str(), NULL, 0, NULL);
if (!ply) {
std::cerr << "Failed to open PLY file" << std::endl;
return false;
}
if (!ply_read_header(ply)) {
std::cerr << "Failed to read PLY header" << std::endl;
return false;
}
long nVerts = ply_set_read_cb(ply, "vertex", "x", vertexHandler, &points_, 0);
ply_set_read_cb(ply, "vertex", "y", vertexHandler, &points_, 1);
ply_set_read_cb(ply, "vertex", "z", vertexHandler, &points_, 2);
ply_set_read_cb(ply, "vertex", "r", vertexHandler, &points_, 3);
ply_set_read_cb(ply, "vertex", "g", vertexHandler, &points_, 4);
ply_set_read_cb(ply, "vertex", "b", vertexHandler, &points_, 5);
ply_set_read_cb(ply, "vertex", "red", vertexHandler, &points_, 3);
ply_set_read_cb(ply, "vertex", "green", vertexHandler, &points_, 4);
ply_set_read_cb(ply, "vertex", "blue", vertexHandler, &points_, 5);
points_.resize(nVerts);
ply_read(ply);
return true;
}
bool SimplePly::write(const std::string& filename) {
std::ofstream fout(filename);
if (!fout) {
std::cerr << "Failed to open PLY file " << filename << " for writing" << std::endl;
return false;
}
fout << "ply\n"
<< "format ascii 1.0\n"
<< "element vertex " << size() << "\n"
<< "property float x\n"
<< "property float y\n"
<< "property float z\n"
<< "property uchar red\n"
<< "property uchar green\n"
<< "property uchar blue\n"
<< "end_header\n";
for (size_t ix = 0; ix < size(); ++ix) {
fout << points_[ix].location.transpose() << " " << points_[ix].colour.transpose() << "\n";
}
fout.close();
return true;
}
|
84480cdd6cbc8be77f2c7466b5a49db4b4e6d090 | e836b973d7993fb589a5c9b9823d686e1cb7cc5c | /cpp/L200/LeetCode0241.cc | 1ec5a59fb453ae4adfab09c3b032eaf5e622a003 | [] | no_license | lsry/LeetCode | 5ec3dddca8500f2f7766002275a644a037f3d656 | a7488eb6a3bc2764f3040f34a4c4745c6321d57b | refs/heads/master | 2023-08-30T22:33:50.484281 | 2023-08-27T18:20:37 | 2023-08-27T18:20:37 | 231,709,838 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 2,117 | cc | LeetCode0241.cc | #include <vector>
using std::vector;
#include <string>
using std::string;
#include <unordered_set>
class Solution {
private:
vector<int> dfs(vector<vector<vector<int>>> &mem, vector<int> &ops, int left, int right) {
if (mem[left][right].empty()) {
if (left == right) {
mem[left][right].push_back(ops[left]);
} else {
for (int i{left + 1}; i < right;i += 2) {
vector<int> lc = dfs(mem, ops, left, i - 1);
vector<int> rc = dfs(mem, ops, i + 1, right);
for (int ln : lc) {
for (int rn : rc) {
int n = 0;
if (ops[i] == -1) {
n = rn + ln;
} else if (ops[i] == -2) {
n = ln - rn;
} else if (ops[i] == -3) {
n = ln * rn;
}
mem[left][right].push_back(n);
}
}
}
}
}
return mem[left][right];
}
public:
vector<int> diffWaysToCompute(string expression) {
vector<int> ops;
std::size_t ez{expression.size()};
for (std::size_t i{0};i < ez;++i) {
if (expression[i] >= '0' && expression[i] <= '9') {
int num = 0;
while (i < ez && expression[i] >= '0' && expression[i] <= '9') {
num = num * 10 + (expression[i] - '0');
++i;
}
--i;
ops.push_back(num);
} else if (expression[i] == '+') {
ops.push_back(-1);
} else if (expression[i] == '-') {
ops.push_back(-2);
} else if (expression[i] == '*') {
ops.push_back(-3);
}
}
vector<vector<vector<int>>> mem(ops.size(), vector<vector<int>>(ops.size()));
return dfs(mem, ops, 0, ops.size() - 1);
}
}; |
fbb055770dba8060ad8eb45a98f058bf91af6575 | 367664d2c0467a5f8f53136cc8ecfcddbcd914cd | /http_conn/http_conn.h | fab8a44311b518555919dad44bd1c6597d6f4199 | [] | no_license | YAO0747/httpserver_reactor | 5db264980ee22054c9ac085727d2162f2accf9cf | 6f089d1265538d7d3ddea50df0fc8fa85f4c7d8a | refs/heads/master | 2022-07-31T20:17:22.876325 | 2020-05-18T05:23:09 | 2020-05-18T05:23:09 | 264,826,786 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 3,750 | h | http_conn.h | #ifndef HTTP_CONN_H
#define HTTP_CONN_H
#include<unistd.h>
#include<signal.h>
#include <sys/types.h>
#include <sys/epoll.h>
#include <fcntl.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <assert.h>
#include <sys/stat.h>
#include <string.h>
#include <pthread.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/mman.h>
#include <stdarg.h>
#include <errno.h>
#include <sys/wait.h>
#include <sys/uio.h>
#include "../pub/pub.h"
#include "../log/log.h"
class http_conn
{
//全部的连接共享
public:
static int m_epollfd;
static int m_user_count;
public:
void init(int sockfd,const sockaddr_in &addr);
void init();
bool m_read();
bool m_write();
void close_conn();
char*get_client();
//读写缓冲区
public:
static const int READ_BUFFER_SIZE = 2048;
static const int WRITE_BUFFER_SIZE=1024;//响应状态行,响应头
static const int FILENAME_LEN = 200;
private:
int m_sockfd;
struct sockaddr_in m_addr;
char m_client_info[100];//客户端的IP地址和端口信息等
//读缓冲区
char m_read_buf[READ_BUFFER_SIZE];
int m_read_idx;//当前读缓冲区数据的长度
//写缓冲区
char m_write_buf[WRITE_BUFFER_SIZE];
int m_write_idx;//当前写缓冲区数据的长度
int m_bytes_to_send;
int m_bytes_have_send;
//事件类型
int m_event;
public:
void set_event(int e)
{
m_event = e;
}
int get_event()
{
return m_event;
}
//http状态机
public:
enum METHOD
{GET = 0,POST};
//主状态机的三种状态:正在分析请求行,正在分析请求头部,正
//在分析请求内容
enum CHECK_STATE{CHECK_STATE_REQUESTLINE = 0,
CHECK_STATE_HEADER,CHECK_STATE_CONTENT};
//从状态机:读取到一个完整的行,行出错,行数据尚未完整
enum LINE_STATUS{LINE_OK = 0,LINE_BAD,LINE_OPEN};
//服务器处理HTTP请求过程中可能产生的状态:
//NO_REQUEST:请求数据不完整,需要继续获取请求数据;
//GET_REQUEST:获得了一个完整的请求;
//BAD_REQUEST:用户请求语法错误;
//NO_RESOURCE: 请求的URL文件名不存在
//FORBIDDEN_REQUEST:对资源没有访问权限
//FILE_REQUEST: 表示这是文件请求
//INTERNAL_ERROR:服务器内部错误
//CLOSED_CONNECTION:客户已经关闭连接了
enum HTTP_CODE
{NO_REQUEST,GET_REQUEST,BAD_REQUEST,NO_RESOURCE,
FORBIDDEN_REQUEST,FILE_REQUEST,
INTERNAL_ERROR,CLOSE_CONNECTION};
private:
//解析请求报文
int m_checked_idx;
int m_start_line;
CHECK_STATE m_check_state;
METHOD m_method;
char *m_version;
char *m_host;
int m_content_length; //请求报文中的content-length
bool m_linger; //keep-alive
char m_string[50]; //账号,密码
//响应报文
char m_real_file[FILENAME_LEN];//目标文件绝对路径名
char *m_url; //请求报文中的目标文件url
char *m_file_address; //目标文件被mmap到内存中的地址
struct stat m_file_stat; //目标文件的状态
//m_iv[0]:响应状态行,响应头
//m_iv[1]:响应内容(即目标文件)
struct iovec m_iv[2];
int m_iv_count; //请求目标文件时为2,否则为1
public:
//分析HTTP请求
HTTP_CODE parse_requestline(char* text);
HTTP_CODE parse_headers(char*text);
HTTP_CODE parse_content(char*text);
HTTP_CODE do_request();
LINE_STATUS parse_line();
HTTP_CODE process_read();
bool process_write(HTTP_CODE ret);
void process();
void unmap();
//生成HTTP响应
bool add_response(const char* format,...);
bool add_content(const char *content);
bool add_status_line(int status, const char *title);
bool add_headers(int content_length);
bool add_content_type();
bool add_content_length(int content_length);
bool add_linger();
bool add_blank_line();
};
#endif
|
9d2ef5770231ad924fa133ec3330c92a949b8c74 | 7fd64b86c7e8f63d6238fe93ccf6e62a4b8ebc66 | /codeforces/1338/B.cpp | 8f8057d2e7897e87b708898434808c77b3a2d326 | [] | no_license | Mohammad-Yasser/harwest | 775ba71303cc2849f71e82652263f31e79bd8e04 | d01834a9a41c828c8c548a115ecefd77ff2d6adc | refs/heads/master | 2023-02-02T23:37:54.186079 | 2013-09-19T19:28:00 | 2020-12-21T14:30:32 | 323,233,072 | 0 | 0 | null | null | null | null | UTF-8 | C++ | false | false | 1,600 | cpp | B.cpp | #ifndef Local
#pragma GCC optimize("O3")
#pragma GCC optimize("unroll-loops")
#pragma GCC target( \
"sse,sse2,sse3,ssse3,sse4,sse4.2,popcnt,abm,mmx,avx,tune=native")
#pragma comment(linker, "/STACK:1024000000,1024000000")
#endif
#include <bits/stdc++.h>
#include <ext/numeric>
#include <ext/pb_ds/assoc_container.hpp>
using namespace __gnu_pbds;
using namespace __gnu_cxx;
using namespace std;
#define popCnt(x) (__builtin_popcountll(x))
#define sz(x) ((int)(x.size()))
#define all(v) begin(v), end(v)
typedef long long Long;
typedef vector<int> vi;
const int N = 1e5 + 5;
vector<int> adj[N];
bool dist[N];
void dfs(int node, int parent) {
for (int v : adj[node]) {
if (v == parent) continue;
dist[v] = !dist[node];
dfs(v, node);
}
}
int main() {
ios_base::sync_with_stdio(0), cin.tie(0), cout.tie(0);
#ifdef Local
freopen("test.in", "r", stdin);
#else
#define endl '\n'
#endif
int n;
cin >> n;
for (int i = 1; i < n; ++i) {
int a, b;
cin >> a >> b;
adj[a].emplace_back(b);
adj[b].emplace_back(a);
}
vector<int> leaves;
map<int, int> children_leaves_cnt;
for (int i = 1; i <= n; ++i) {
if (adj[i].size() == 1) {
leaves.emplace_back(i);
++children_leaves_cnt[adj[i].back()];
}
}
dfs(leaves.back(), -1);
int mn = 1;
for (int x : leaves) {
if (dist[x]) {
mn = 3;
}
}
int mx = n - 1;
for (auto& p : children_leaves_cnt) {
mx -= max(0, p.second - 1);
}
cout << mn << " " << mx << endl;
return 0;
} |
faac1f3f08d5e6b61176601060fb3ab325891d49 | 90dad138e79e27ba25ef4503fa51abb88edb7911 | /src/math/MsnhHomTransMatS.cpp | 418bfe502c850daee06aa53aa2509432a41cd2fe | [
"LicenseRef-scancode-proprietary-license",
"MIT"
] | permissive | wllkk/Msnhnet | 9bc21882aceef2c790afcd4bb2787c09a2ed1d9a | 8b472a94a3be6a8ac6a79f48c393900c2a3ba447 | refs/heads/master | 2023-06-25T04:05:39.757952 | 2021-07-23T06:35:09 | 2021-07-23T06:35:09 | 390,257,723 | 1 | 0 | MIT | 2021-07-28T07:33:46 | 2021-07-28T07:33:46 | null | UTF-8 | C++ | false | false | 2,576 | cpp | MsnhHomTransMatS.cpp |
#include "Msnhnet/math/MsnhHomTransMatS.h"
namespace Msnhnet
{
void HomTransMatDS::print()
{
std::vector<double> data = {rotMat(0,0), rotMat(0,1), rotMat(0,2),trans[0],
rotMat(1,0), rotMat(1,1), rotMat(1,2),trans[1],
rotMat(2,0), rotMat(2,1), rotMat(2,2),trans[2],
0,0,0,1};
MatS<4,4,double> mat(4,4,data);
mat.print();
}
string HomTransMatDS::toString() const
{
std::stringstream buf;
std::vector<double> data = {rotMat(0,0), rotMat(0,1), rotMat(0,2),trans[0],
rotMat(1,0), rotMat(1,1), rotMat(1,2),trans[1],
rotMat(2,0), rotMat(2,1), rotMat(2,2),trans[2],
0,0,0,1};
MatS<4,4,double> mat(4,4,data);
buf<<mat.toString();
return buf.str();
}
string HomTransMatDS::toHtmlString() const
{
std::stringstream buf;
std::vector<double> data = {rotMat(0,0), rotMat(0,1), rotMat(0,2),trans[0],
rotMat(1,0), rotMat(1,1), rotMat(1,2),trans[1],
rotMat(2,0), rotMat(2,1), rotMat(2,2),trans[2],
0,0,0,1};
MatS<4,4,double> mat(4,4,data);
buf<<mat.toHtmlString();
return buf.str();
}
void HomTransMatFS::print()
{
std::vector<float> data = {rotMat(0,0), rotMat(0,1), rotMat(0,2),trans[0],
rotMat(1,0), rotMat(1,1), rotMat(1,2),trans[1],
rotMat(2,0), rotMat(2,1), rotMat(2,2),trans[2],
0,0,0,1};
MatS<4,4,float> mat(4,4,data);
mat.print();
}
string HomTransMatFS::toString() const
{
std::stringstream buf;
std::vector<float> data = {rotMat(0,0), rotMat(0,1), rotMat(0,2),trans[0],
rotMat(1,0), rotMat(1,1), rotMat(1,2),trans[1],
rotMat(2,0), rotMat(2,1), rotMat(2,2),trans[2],
0,0,0,1};
MatS<4,4,float> mat(4,4,data);
buf<<mat.toString();
return buf.str();
}
string HomTransMatFS::toHtmlString() const
{
std::stringstream buf;
std::vector<float> data = {rotMat(0,0), rotMat(0,1), rotMat(0,2),trans[0],
rotMat(1,0), rotMat(1,1), rotMat(1,2),trans[1],
rotMat(2,0), rotMat(2,1), rotMat(2,2),trans[2],
0,0,0,1};
MatS<4,4,float> mat(4,4,data);
buf<<mat.toHtmlString();
return buf.str();
}
}
|
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