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|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
75ccae3e41b3bdd9add72044386ceb746f5d2839 | 1,315 | h | C | System/Library/PrivateFrameworks/iTunesStore.framework/Support/itunesstored/GetPlayInfoOperation.h | lechium/tvOS130Headers | 6b47cdcd4a6f453b399aa9d742b5d0f7e3f732fd | [
"MIT"
] | 11 | 2019-11-06T04:48:48.000Z | 2022-02-09T17:48:15.000Z | System/Library/PrivateFrameworks/iTunesStore.framework/Support/itunesstored/GetPlayInfoOperation.h | lechium/tvOS130Headers | 6b47cdcd4a6f453b399aa9d742b5d0f7e3f732fd | [
"MIT"
] | 1 | 2020-04-16T01:41:56.000Z | 2020-04-16T04:32:00.000Z | System/Library/PrivateFrameworks/iTunesStore.framework/Support/itunesstored/GetPlayInfoOperation.h | lechium/tvOS130Headers | 6b47cdcd4a6f453b399aa9d742b5d0f7e3f732fd | [
"MIT"
] | 3 | 2019-12-22T20:17:53.000Z | 2021-01-25T09:47:49.000Z | /*
* This header is generated by classdump-dyld 1.0
* on Tuesday, November 5, 2019 at 2:47:21 AM Mountain Standard Time
* Operating System: Version 13.0 (Build 17J586)
* Image Source: /System/Library/PrivateFrameworks/iTunesStore.framework/Support/itunesstored
* classdump-dyld is licensed under GPLv3, Copyright © 2013-2016 by Elias Limneos.
*/
#import <iTunesStore/ISOperation.h>
@class NSString, SSPlayInfoRequestContext, SSPlayInfoResponse;
@interface GetPlayInfoOperation : ISOperation {
NSString* _clientIdentifierHeader;
SSPlayInfoRequestContext* _context;
SSPlayInfoResponse* _response;
NSString* _userAgent;
}
@property (readonly) SSPlayInfoRequestContext * playInfoContext;
@property (copy) NSString * clientIdentifierHeader;
@property (copy) NSString * userAgent;
@property (readonly) SSPlayInfoResponse * playInfoResponse;
-(void)dealloc;
-(void)run;
-(void)setUserAgent:(NSString *)arg1 ;
-(void)_failWithError:(id)arg1 ;
-(NSString *)userAgent;
-(NSString *)clientIdentifierHeader;
-(void)setClientIdentifierHeader:(NSString *)arg1 ;
-(SSPlayInfoRequestContext *)playInfoContext;
-(SSPlayInfoResponse *)playInfoResponse;
-(id)initWithPlayInfoRequestContext:(id)arg1 ;
-(id)_copyRequestBody:(id*)arg1 ;
-(void)_setResponseForOutput:(id)arg1 ;
-(void)_setPlayInfoResponse:(id)arg1 ;
@end
| 32.073171 | 92 | 0.786312 |
139d2af1b356de7be9859da88851f97394890119 | 6,838 | h | C | VirtualBox-5.0.0/src/VBox/Frontends/VirtualBox/src/runtime/UIKeyboardHandler.h | egraba/vbox_openbsd | 6cb82f2eed1fa697d088cecc91722b55b19713c2 | [
"MIT"
] | 1 | 2015-04-30T14:18:45.000Z | 2015-04-30T14:18:45.000Z | VirtualBox-5.0.0/src/VBox/Frontends/VirtualBox/src/runtime/UIKeyboardHandler.h | egraba/vbox_openbsd | 6cb82f2eed1fa697d088cecc91722b55b19713c2 | [
"MIT"
] | null | null | null | VirtualBox-5.0.0/src/VBox/Frontends/VirtualBox/src/runtime/UIKeyboardHandler.h | egraba/vbox_openbsd | 6cb82f2eed1fa697d088cecc91722b55b19713c2 | [
"MIT"
] | null | null | null | /* $Id: UIKeyboardHandler.h $ */
/** @file
* VBox Qt GUI - UIKeyboardHandler class declaration.
*/
/*
* Copyright (C) 2010-2012 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*/
#ifndef ___UIKeyboardHandler_h___
#define ___UIKeyboardHandler_h___
/* Qt includes: */
#include <QObject>
#include <QMap>
/* GUI includes: */
#include "UIExtraDataDefs.h"
#ifdef Q_WS_MAC
# include <CoreFoundation/CFBase.h>
# include <Carbon/Carbon.h>
#endif /* Q_WS_MAC */
/* COM includes: */
#include "COMEnums.h"
#include "CKeyboard.h"
/* Forward declarations: */
class QWidget;
class UISession;
class UIActionPool;
class UIMachineLogic;
class UIMachineWindow;
class UIMachineView;
class VBoxGlobalSettings;
#if defined(Q_WS_WIN)
class WinAltGrMonitor;
#elif defined(Q_WS_X11)
typedef union _XEvent XEvent;
#endif /* Q_WS_X11 */
class CKeyboard;
/* Delegate to control VM keyboard functionality: */
class UIKeyboardHandler : public QObject
{
Q_OBJECT;
signals:
/** Notifies listeners about state-change. */
void sigStateChange(int iState);
public:
/* Factory functions to create/destroy keyboard-handler: */
static UIKeyboardHandler* create(UIMachineLogic *pMachineLogic, UIVisualStateType visualStateType);
static void destroy(UIKeyboardHandler *pKeyboardHandler);
/* Prepare/cleanup listeners: */
void prepareListener(ulong uIndex, UIMachineWindow *pMachineWindow);
void cleanupListener(ulong uIndex);
/* Commands to capture/release keyboard: */
#ifdef Q_WS_X11
bool checkForX11FocusEvents(unsigned long hWindow);
#endif
void captureKeyboard(ulong uScreenId);
void releaseKeyboard();
void releaseAllPressedKeys(bool aReleaseHostKey = true);
/* Current keyboard state: */
int state() const;
/* Some getters required by side-code: */
bool isHostKeyPressed() const { return m_bIsHostComboPressed; }
#ifdef Q_WS_MAC
bool isHostKeyAlone() const { return m_bIsHostComboAlone; }
bool isKeyboardGrabbed() const { return m_fKeyboardGrabbed; }
#endif /* Q_WS_MAC */
#ifdef VBOX_WITH_DEBUGGER_GUI
/* For the debugger. */
void setDebuggerActive(bool aActive = true);
#endif
/* External event-filters: */
#if defined(Q_WS_WIN)
bool winEventFilter(MSG *pMsg, ulong uScreenId);
void winSkipKeyboardEvents(bool fSkip);
/** Holds the object monitoring key event stream for problematic AltGr events. */
WinAltGrMonitor *m_pAltGrMonitor;
#elif defined(Q_WS_X11)
bool x11EventFilter(XEvent *pEvent, ulong uScreenId);
#endif
protected slots:
/* Machine state-change handler: */
virtual void sltMachineStateChanged();
protected:
/* Keyboard-handler constructor/destructor: */
UIKeyboardHandler(UIMachineLogic *pMachineLogic);
virtual ~UIKeyboardHandler();
/* Prepare helpers: */
virtual void prepareCommon();
virtual void loadSettings();
/* Cleanup helpers: */
//virtual void saveSettings() {}
virtual void cleanupCommon();
/* Common getters: */
UIMachineLogic* machineLogic() const;
UIActionPool* actionPool() const;
UISession* uisession() const;
/** Returns the console's keyboard reference. */
CKeyboard& keyboard() const;
/* Event handler for registered machine-view(s): */
bool eventFilter(QObject *pWatchedObject, QEvent *pEvent);
#if defined(Q_WS_WIN)
static LRESULT CALLBACK lowLevelKeyboardProc(int nCode, WPARAM wParam, LPARAM lParam);
bool winLowKeyboardEvent(UINT msg, const KBDLLHOOKSTRUCT &event);
#elif defined(Q_WS_MAC)
void darwinGrabKeyboardEvents(bool fGrab);
bool darwinKeyboardEvent(const void *pvCocoaEvent, EventRef inEvent);
static bool darwinEventHandlerProc(const void *pvCocoaEvent, const void *pvCarbonEvent, void *pvUser);
#endif
bool keyEventCADHandled(uint8_t uScan);
bool keyEventHandleNormal(int iKey, uint8_t uScan, int fFlags, LONG *pCodes, uint *puCodesCount);
bool keyEventHostComboHandled(int iKey, wchar_t *pUniKey, bool isHostComboStateChanged, bool *pfResult);
void keyEventHandleHostComboRelease(ulong uScreenId);
void keyEventReleaseHostComboKeys(CKeyboard keyboard);
/* Separate function to handle most of existing keyboard-events: */
bool keyEvent(int iKey, uint8_t uScan, int fFlags, ulong uScreenId, wchar_t *pUniKey = 0);
bool processHotKey(int iHotKey, wchar_t *pUniKey);
/* Private helpers: */
void fixModifierState(LONG *piCodes, uint *puCount);
void saveKeyStates();
void sendChangedKeyStates();
bool isAutoCaptureDisabled();
void setAutoCaptureDisabled(bool fIsAutoCaptureDisabled);
bool autoCaptureSetGlobally();
bool viewHasFocus(ulong uScreenId);
bool isSessionRunning();
UIMachineWindow* isItListenedWindow(QObject *pWatchedObject) const;
UIMachineView* isItListenedView(QObject *pWatchedObject) const;
/* Machine logic parent: */
UIMachineLogic *m_pMachineLogic;
/* Registered machine-window(s): */
QMap<ulong, UIMachineWindow*> m_windows;
/* Registered machine-view(s): */
QMap<ulong, UIMachineView*> m_views;
/* Other keyboard variables: */
int m_iKeyboardCaptureViewIndex;
const VBoxGlobalSettings &m_globalSettings;
uint8_t m_pressedKeys[128];
uint8_t m_pressedKeysCopy[128];
QMap<int, uint8_t> m_pressedHostComboKeys;
bool m_fIsKeyboardCaptured : 1;
bool m_bIsHostComboPressed : 1;
bool m_bIsHostComboAlone : 1;
bool m_bIsHostComboProcessed : 1;
bool m_fPassCADtoGuest : 1;
/** Whether the debugger is active.
* Currently only affects auto capturing. */
bool m_fDebuggerActive : 1;
#if defined(Q_WS_WIN)
/* Currently this is used in winLowKeyboardEvent() only: */
bool m_bIsHostkeyInCapture;
/* Keyboard hook required to capture keyboard event under windows. */
static UIKeyboardHandler *m_spKeyboardHandler;
HHOOK m_keyboardHook;
int m_iKeyboardHookViewIndex;
/* A flag that used to tell kbd event filter to ignore keyboard events */
bool m_fSkipKeyboardEvents;
#elif defined(Q_WS_MAC)
/* The current modifier key mask. Used to figure out which modifier
* key was pressed when we get a kEventRawKeyModifiersChanged event. */
UInt32 m_darwinKeyModifiers;
bool m_fKeyboardGrabbed;
int m_iKeyboardGrabViewIndex;
#endif /* Q_WS_MAC */
ULONG m_cMonitors;
};
#endif // !___UIKeyboardHandler_h___
| 32.254717 | 108 | 0.735449 |
7ab35cd79676cc3c3537eb320a0f35e703e058ef | 1,973 | h | C | src/mame/machine/hp80_optrom.h | Robbbert/messui | 49b756e2140d8831bc81335298ee8c5471045e79 | [
"BSD-3-Clause"
] | 26 | 2015-03-31T06:25:51.000Z | 2021-12-14T09:29:04.000Z | src/mame/machine/hp80_optrom.h | Robbbert/messui | 49b756e2140d8831bc81335298ee8c5471045e79 | [
"BSD-3-Clause"
] | null | null | null | src/mame/machine/hp80_optrom.h | Robbbert/messui | 49b756e2140d8831bc81335298ee8c5471045e79 | [
"BSD-3-Clause"
] | 10 | 2015-03-27T05:45:51.000Z | 2022-02-04T06:57:36.000Z | // license:BSD-3-Clause
// copyright-holders: F. Ulivi
/*********************************************************************
hp80_optrom.h
Optional ROMs for HP80 systems
*********************************************************************/
#ifndef MAME_MACHINE_HP80_OPTROM_H
#define MAME_MACHINE_HP80_OPTROM_H
#pragma once
#include "softlist_dev.h"
// Size of optional ROMs (8k)
static constexpr offs_t HP80_OPTROM_SIZE = 0x2000;
class hp80_optrom_device : public device_t,
public device_image_interface
{
public:
// construction/destruction
hp80_optrom_device(machine_config const &mconfig, char const *tag, device_t *owner)
: hp80_optrom_device(mconfig, tag, owner, (uint32_t)0)
{
}
hp80_optrom_device(const machine_config &mconfig, const char *tag, device_t *owner, uint32_t clock);
virtual ~hp80_optrom_device();
void install_read_handler(address_space& space);
protected:
// device-level overrides
virtual void device_start() override;
// image-level overrides
virtual image_init_result call_load() override;
virtual void call_unload() override;
virtual const software_list_loader &get_software_list_loader() const override { return rom_software_list_loader::instance(); }
virtual iodevice_t image_type() const noexcept override { return IO_ROM; }
virtual bool is_readable() const noexcept override { return true; }
virtual bool is_writeable() const noexcept override { return false; }
virtual bool is_creatable() const noexcept override { return false; }
virtual bool must_be_loaded() const noexcept override { return false; }
virtual bool is_reset_on_load() const noexcept override { return true; }
virtual const char *image_interface() const noexcept override { return "hp80_rom"; }
virtual const char *file_extensions() const noexcept override { return "bin"; }
uint8_t m_select_code;
};
// device type definition
DECLARE_DEVICE_TYPE(HP80_OPTROM, hp80_optrom_device)
#endif // MAME_MACHINE_HP80_OPTROM_H
| 32.344262 | 127 | 0.724278 |
1a51382b1613fceb4cbd4854e6edcbb32c926471 | 99 | c | C | XLGL/windows/globals.c | brandonhuddle/xlgl | 9f21dd354a91fe37fbc9bed13ff7729f5a4a859a | [
"Zlib"
] | 1 | 2016-04-23T15:14:17.000Z | 2016-04-23T15:14:17.000Z | XLGL/windows/globals.c | bandoncontortion/xlgl | 9f21dd354a91fe37fbc9bed13ff7729f5a4a859a | [
"Zlib"
] | null | null | null | XLGL/windows/globals.c | bandoncontortion/xlgl | 9f21dd354a91fe37fbc9bed13ff7729f5a4a859a | [
"Zlib"
] | null | null | null | #define __XLGL_CORE__
#include "globals.h"
int close = 0;
char* _xlglClassName = "XLGLCLASSNAME";
| 16.5 | 39 | 0.747475 |
94491b978c52055c48bd9a13dc1ea3772917a6ce | 240 | h | C | webhook.h | xdavidwu/murmur-notif-webhook | 4224d4f13d330a8d4c20224c853b5a7d0284082f | [
"MIT"
] | null | null | null | webhook.h | xdavidwu/murmur-notif-webhook | 4224d4f13d330a8d4c20224c853b5a7d0284082f | [
"MIT"
] | null | null | null | webhook.h | xdavidwu/murmur-notif-webhook | 4224d4f13d330a8d4c20224c853b5a7d0284082f | [
"MIT"
] | null | null | null | #ifndef WEBHOOK_H
#define WEBHOOK_H
#include <curl/curl.h>
struct webhook_state {
CURL *curl;
char *displayname_escaped;
};
struct webhook_state *webhook_setup();
int webhook_send(struct webhook_state *state, const char *msg);
#endif
| 16 | 63 | 0.766667 |
9e7a0a6aad5ab2385f47c4d9176fa9aae3776dfe | 981 | h | C | isis/src/qisis/objs/AbstractProjectItemView/ProjectItemViewMenu.h | kdl222/ISIS3 | aab0e63088046690e6c031881825596c1c2cc380 | [
"CC0-1.0"
] | 134 | 2018-01-18T00:16:24.000Z | 2022-03-24T03:53:33.000Z | isis/src/qisis/objs/AbstractProjectItemView/ProjectItemViewMenu.h | kdl222/ISIS3 | aab0e63088046690e6c031881825596c1c2cc380 | [
"CC0-1.0"
] | 3,825 | 2017-12-11T21:27:34.000Z | 2022-03-31T21:45:20.000Z | isis/src/qisis/objs/AbstractProjectItemView/ProjectItemViewMenu.h | jlaura/isis3 | 2c40e08caed09968ea01d5a767a676172ad20080 | [
"CC0-1.0"
] | 164 | 2017-11-30T21:15:44.000Z | 2022-03-23T10:22:29.000Z | #ifndef ProjectItemViewMenu_h
#define ProjectItemViewMenu_h
/** This is free and unencumbered software released into the public domain.
The authors of ISIS do not claim copyright on the contents of this file.
For more details about the LICENSE terms and the AUTHORS, you will
find files of those names at the top level of this repository. **/
/* SPDX-License-Identifier: CC0-1.0 */
#include <QMenu>
namespace Isis {
/**
* QMenu subclass that overrides the closeEvent. Used in views to disable
* actions when a menu is visible and a user clicks outside of a view.
*
* @author 2018-06-27 Kaitlyn Lee
*
* @internal
* @history 2018-06-27 Kaitlyn Lee - Original version.
*/
class ProjectItemViewMenu : public QMenu {
Q_OBJECT
public:
ProjectItemViewMenu(const QString &title, QWidget *parent = 0) : QMenu(title, parent){};
signals:
void menuClosed();
private:
void closeEvent(QCloseEvent *event);
};
}
#endif
| 23.926829 | 94 | 0.702345 |
7f289601fe19a618bc30175b49f20bf3bf58f269 | 1,299 | h | C | chromium/android_webview/renderer/aw_content_settings_client.h | wedataintelligence/vivaldi-source | 22a46f2c969f6a0b7ca239a05575d1ea2738768c | [
"BSD-3-Clause"
] | 1 | 2020-09-15T08:43:34.000Z | 2020-09-15T08:43:34.000Z | android_webview/renderer/aw_content_settings_client.h | maidiHaitai/haitaibrowser | a232a56bcfb177913a14210e7733e0ea83a6b18d | [
"BSD-3-Clause"
] | null | null | null | android_webview/renderer/aw_content_settings_client.h | maidiHaitai/haitaibrowser | a232a56bcfb177913a14210e7733e0ea83a6b18d | [
"BSD-3-Clause"
] | null | null | null | // Copyright 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef ANDROID_WEBVIEW_RENDERER_AW_CONTENT_SETTINGS_CLIENT_H_
#define ANDROID_WEBVIEW_RENDERER_AW_CONTENT_SETTINGS_CLIENT_H_
#include "base/macros.h"
#include "content/public/renderer/render_frame_observer.h"
#include "third_party/WebKit/public/web/WebContentSettingsClient.h"
namespace android_webview {
// Android WebView implementation of blink::WebContentSettingsClient.
class AwContentSettingsClient : public content::RenderFrameObserver,
public blink::WebContentSettingsClient {
public:
explicit AwContentSettingsClient(content::RenderFrame* render_view);
private:
~AwContentSettingsClient() override;
// blink::WebContentSettingsClient implementation.
bool allowDisplayingInsecureContent(
bool enabled_per_settings,
const blink::WebURL& url) override;
bool allowRunningInsecureContent(
bool enabled_per_settings,
const blink::WebSecurityOrigin& origin,
const blink::WebURL& url) override;
DISALLOW_COPY_AND_ASSIGN(AwContentSettingsClient);
};
} // namespace android_webview
#endif // ANDROID_WEBVIEW_RENDERER_AW_CONTENT_SETTINGS_CLIENT_H_
| 34.184211 | 73 | 0.789838 |
fa37ea13a659935583e1e9933ecf6134e236ecdd | 6,603 | h | C | 3rdParty/nodejs/8.0.0/source/src/async-wrap.h | Internet-of-People/ApertusVR | 3bb954ef02beb8a5a54ac7c062a55b7a0cf402bf | [
"MIT"
] | 27 | 2017-12-14T13:48:25.000Z | 2020-12-31T15:46:55.000Z | 3rdParty/nodejs/8.0.0/source/src/async-wrap.h | Internet-of-People/ApertusVR | 3bb954ef02beb8a5a54ac7c062a55b7a0cf402bf | [
"MIT"
] | null | null | null | 3rdParty/nodejs/8.0.0/source/src/async-wrap.h | Internet-of-People/ApertusVR | 3bb954ef02beb8a5a54ac7c062a55b7a0cf402bf | [
"MIT"
] | 2 | 2018-12-24T09:55:35.000Z | 2021-04-30T23:35:40.000Z | // Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
#ifndef SRC_ASYNC_WRAP_H_
#define SRC_ASYNC_WRAP_H_
#if defined(NODE_WANT_INTERNALS) && NODE_WANT_INTERNALS
#include "base-object.h"
#include "v8.h"
#include <stdint.h>
namespace node {
#define NODE_ASYNC_ID_OFFSET 0xA1C
#define NODE_ASYNC_NON_CRYPTO_PROVIDER_TYPES(V) \
V(NONE) \
V(FSEVENTWRAP) \
V(FSREQWRAP) \
V(GETADDRINFOREQWRAP) \
V(GETNAMEINFOREQWRAP) \
V(HTTPPARSER) \
V(JSSTREAM) \
V(PIPECONNECTWRAP) \
V(PIPEWRAP) \
V(PROCESSWRAP) \
V(PROMISE) \
V(QUERYWRAP) \
V(SHUTDOWNWRAP) \
V(SIGNALWRAP) \
V(STATWATCHER) \
V(TCPCONNECTWRAP) \
V(TCPWRAP) \
V(TIMERWRAP) \
V(TTYWRAP) \
V(UDPSENDWRAP) \
V(UDPWRAP) \
V(WRITEWRAP) \
V(ZLIB)
#if HAVE_OPENSSL
#define NODE_ASYNC_CRYPTO_PROVIDER_TYPES(V) \
V(SSLCONNECTION) \
V(PBKDF2REQUEST) \
V(RANDOMBYTESREQUEST) \
V(TLSWRAP)
#else
#define NODE_ASYNC_CRYPTO_PROVIDER_TYPES(V)
#endif // HAVE_OPENSSL
#define NODE_ASYNC_PROVIDER_TYPES(V) \
NODE_ASYNC_NON_CRYPTO_PROVIDER_TYPES(V) \
NODE_ASYNC_CRYPTO_PROVIDER_TYPES(V)
class Environment;
class AsyncWrap : public BaseObject {
public:
enum ProviderType {
#define V(PROVIDER) \
PROVIDER_ ## PROVIDER,
NODE_ASYNC_PROVIDER_TYPES(V)
#undef V
PROVIDERS_LENGTH,
};
AsyncWrap(Environment* env,
v8::Local<v8::Object> object,
ProviderType provider,
bool silent = false);
virtual ~AsyncWrap();
static void Initialize(v8::Local<v8::Object> target,
v8::Local<v8::Value> unused,
v8::Local<v8::Context> context);
static void GetAsyncId(const v8::FunctionCallbackInfo<v8::Value>& args);
static void PushAsyncIds(const v8::FunctionCallbackInfo<v8::Value>& args);
static void PopAsyncIds(const v8::FunctionCallbackInfo<v8::Value>& args);
static void ClearIdStack(const v8::FunctionCallbackInfo<v8::Value>& args);
static void AsyncReset(const v8::FunctionCallbackInfo<v8::Value>& args);
static void QueueDestroyId(const v8::FunctionCallbackInfo<v8::Value>& args);
static void EmitAsyncInit(Environment* env,
v8::Local<v8::Object> object,
v8::Local<v8::String> type,
double id,
double trigger_id);
static bool EmitBefore(Environment* env, double id);
static bool EmitAfter(Environment* env, double id);
inline ProviderType provider_type() const;
inline double get_id() const;
inline double get_trigger_id() const;
void AsyncReset(bool silent = false);
// Only call these within a valid HandleScope.
// TODO(trevnorris): These should return a MaybeLocal.
v8::Local<v8::Value> MakeCallback(const v8::Local<v8::Function> cb,
int argc,
v8::Local<v8::Value>* argv);
inline v8::Local<v8::Value> MakeCallback(const v8::Local<v8::String> symbol,
int argc,
v8::Local<v8::Value>* argv);
inline v8::Local<v8::Value> MakeCallback(uint32_t index,
int argc,
v8::Local<v8::Value>* argv);
virtual size_t self_size() const = 0;
private:
inline AsyncWrap();
const ProviderType provider_type_;
// Because the values may be Reset(), cannot be made const.
double async_id_;
double trigger_id_;
};
void LoadAsyncWrapperInfo(Environment* env);
bool DomainEnter(Environment* env, v8::Local<v8::Object> object);
bool DomainExit(Environment* env, v8::Local<v8::Object> object);
} // namespace node
#endif // defined(NODE_WANT_INTERNALS) && NODE_WANT_INTERNALS
#endif // SRC_ASYNC_WRAP_H_
| 42.876623 | 79 | 0.497198 |
36e3b1d2029afb337cd5511ccc95e8aaf81d0b1e | 8,366 | h | C | EMapgo.framework/Headers/MGLLight.h | xiaoleiiOS/EMapgoDemo | beb2c120a65a267684ddf535a5776c7ec4186150 | [
"MIT"
] | null | null | null | EMapgo.framework/Headers/MGLLight.h | xiaoleiiOS/EMapgoDemo | beb2c120a65a267684ddf535a5776c7ec4186150 | [
"MIT"
] | null | null | null | EMapgo.framework/Headers/MGLLight.h | xiaoleiiOS/EMapgoDemo | beb2c120a65a267684ddf535a5776c7ec4186150 | [
"MIT"
] | null | null | null | // This file is generated.
// Edit platform/darwin/scripts/generate-style-code.js, then run `make darwin-style-code`.
#import <CoreLocation/CoreLocation.h>
#import "MGLFoundation.h"
#import "MGLStyleValue.h"
NS_ASSUME_NONNULL_BEGIN
/**
Whether extruded geometries are lit relative to the map or viewport.
*/
typedef NS_ENUM(NSUInteger, MGLLightAnchor) {
/**
The position of the light source is aligned to the rotation of the map.
*/
MGLLightAnchorMap,
/**
The position of the light source is aligned to the rotation of the
viewport.
*/
MGLLightAnchorViewport,
};
/**
A structure containing information about the position of the light source
relative to lit geometries.
*/
typedef struct __attribute__((objc_boxable)) MGLSphericalPosition {
/** Distance from the center of the base of an object to its light. */
CGFloat radial;
/** Position of the light relative to 0° (0° when `MGLLight.anchor` is set to viewport corresponds
to the top of the viewport, or 0° when `MGLLight.anchor` is set to map corresponds to due north,
and degrees proceed clockwise). */
CLLocationDirection azimuthal;
/** Indicates the height of the light (from 0°, directly above, to 180°, directly below). */
CLLocationDirection polar;
} MGLSphericalPosition;
/**
Creates a new `MGLSphericalPosition` from the given radial, azimuthal, polar.
@param radial The radial coordinate.
@param azimuthal The azimuthal angle.
@param polar The polar angle.
@return Returns a `MGLSphericalPosition` struct containing the position attributes.
*/
NS_INLINE MGLSphericalPosition MGLSphericalPositionMake(CGFloat radial, CLLocationDirection azimuthal, CLLocationDirection polar) {
MGLSphericalPosition position;
position.radial = radial;
position.azimuthal = azimuthal;
position.polar = polar;
return position;
}
/**
An `MGLLight` object represents the light source for extruded geometries in
`MGLStyle`.
#### Related examples
See the <a
href="https://www.mapbox.com/ios-sdk/maps/examples/light-example/">Adjust light
of 3D buildings</a> to learn how to create and modify the light source for 3D
geometries.
*/
MGL_EXPORT
@interface MGLLight : NSObject
/**
Whether extruded geometries are lit relative to the map or viewport.
The default value of this property is an expression that evaluates to
`viewport`.
You can set this property to an expression containing any of the following:
* Constant `MGLAnchor` values
* Any of the following constant string values:
* `map`: The position of the light source is aligned to the rotation of the
map.
* `viewport`: The position of the light source is aligned to the rotation of
the viewport.
* Predefined functions, including mathematical and string operators
* Conditional expressions
* Variable assignments and references to assigned variables
* Step functions applied to the `$zoomLevel` variable
This property does not support applying interpolation functions to the
`$zoomLevel` variable or applying interpolation or step functions to feature
attributes.
This property corresponds to the <a
href="https://www.mapbox.com/mapbox-gl-js/style-spec/#light-anchor"><code>anchor</code></a>
light property in the EMapgo Style Specification.
*/
@property (nonatomic) NSExpression *anchor;
/**
Position of the `MGLLight` source relative to lit (extruded) geometries, in a
`MGLSphericalPosition` struct [radial coordinate, azimuthal angle, polar angle]
where radial indicates the distance from the center of the base of an object to
its light, azimuthal indicates the position of the light relative to 0° (0°
when `MGLLight.anchor` is set to `MGLLightAnchorViewport` corresponds to the
top of the viewport, or 0° when `MGLLight.anchor` is set to `MGLLightAnchorMap`
corresponds to due north, and degrees proceed clockwise), and polar indicates
the height of the light (from 0°, directly above, to 180°, directly below).
The default value of this property is an expression that evaluates to an
`MGLSphericalPosition` struct set to 1.15 radial, 210 azimuthal and 30 polar.
You can set this property to an expression containing any of the following:
* Constant `MGLSphericalPosition` values
* Predefined functions, including mathematical and string operators
* Conditional expressions
* Variable assignments and references to assigned variables
* Interpolation and step functions applied to the `$zoomLevel` variable
This property does not support applying interpolation or step functions to
feature attributes.
This property corresponds to the <a
href="https://www.mapbox.com/mapbox-gl-js/style-spec/#light-position"><code>position</code></a>
light property in the EMapgo Style Specification.
#### Related examples
See the <a
href="https://www.mapbox.com/ios-sdk/maps/examples/light-example/">Adjust light
of 3D buildings</a> example to learn how to create and modify the position of
value of an `MGLLight` object for 3D geometries.
*/
@property (nonatomic) NSExpression *position;
/**
The transition affecting any changes to this layer’s `position` property.
This property corresponds to the `position-transition` property in the style JSON file format.
*/
@property (nonatomic) MGLTransition positionTransition;
#if TARGET_OS_IPHONE
/**
Color tint for lighting extruded geometries.
The default value of this property is an expression that evaluates to
`UIColor.whiteColor`.
You can set this property to an expression containing any of the following:
* Constant `UIColor` values
* Predefined functions, including mathematical and string operators
* Conditional expressions
* Variable assignments and references to assigned variables
* Interpolation and step functions applied to the `$zoomLevel` variable
This property does not support applying interpolation or step functions to
feature attributes.
This property corresponds to the <a
href="https://www.mapbox.com/mapbox-gl-js/style-spec/#light-color"><code>color</code></a>
light property in the EMapgo Style Specification.
*/
@property (nonatomic) NSExpression *color;
#else
/**
Color tint for lighting extruded geometries.
The default value of this property is an expression that evaluates to
`NSColor.whiteColor`.
You can set this property to an expression containing any of the following:
* Constant `NSColor` values
* Predefined functions, including mathematical and string operators
* Conditional expressions
* Variable assignments and references to assigned variables
* Interpolation and step functions applied to the `$zoomLevel` variable
This property does not support applying interpolation or step functions to
feature attributes.
This property corresponds to the <a
href="https://www.mapbox.com/mapbox-gl-js/style-spec/#light-color"><code>color</code></a>
light property in the EMapgo Style Specification.
*/
@property (nonatomic) NSExpression *color;
#endif
/**
The transition affecting any changes to this layer’s `color` property.
This property corresponds to the `color-transition` property in the style JSON file format.
*/
@property (nonatomic) MGLTransition colorTransition;
/**
Intensity of lighting (on a scale from 0 to 1). Higher numbers will present as
more extreme contrast.
The default value of this property is an expression that evaluates to the float
`0.5`.
You can set this property to an expression containing any of the following:
* Constant numeric values between 0 and 1 inclusive
* Predefined functions, including mathematical and string operators
* Conditional expressions
* Variable assignments and references to assigned variables
* Interpolation and step functions applied to the `$zoomLevel` variable
This property does not support applying interpolation or step functions to
feature attributes.
This property corresponds to the <a
href="https://www.mapbox.com/mapbox-gl-js/style-spec/#light-intensity"><code>intensity</code></a>
light property in the EMapgo Style Specification.
*/
@property (nonatomic) NSExpression *intensity;
/**
The transition affecting any changes to this layer’s `intensity` property.
This property corresponds to the `intensity-transition` property in the style JSON file format.
*/
@property (nonatomic) MGLTransition intensityTransition;
@end
NS_ASSUME_NONNULL_END
| 35.752137 | 131 | 0.768348 |
cffa60d06a9a8a99dc6e0d55e1fb787d7ac01275 | 95,397 | c | C | Firmware/GD32E50x/Examples/SDIO/Read_write/sdcard.c | nnshi-s/GD32E50x-CMake-Project-Template | 5b7427464a26ace46e7e5e2ebd3d6c2de13746b2 | [
"Apache-2.0"
] | null | null | null | Firmware/GD32E50x/Examples/SDIO/Read_write/sdcard.c | nnshi-s/GD32E50x-CMake-Project-Template | 5b7427464a26ace46e7e5e2ebd3d6c2de13746b2 | [
"Apache-2.0"
] | null | null | null | Firmware/GD32E50x/Examples/SDIO/Read_write/sdcard.c | nnshi-s/GD32E50x-CMake-Project-Template | 5b7427464a26ace46e7e5e2ebd3d6c2de13746b2 | [
"Apache-2.0"
] | 1 | 2021-09-30T03:22:09.000Z | 2021-09-30T03:22:09.000Z | /*!
\file sdcard.c
\brief SD card driver
\version 2020-03-10, V1.0.0, firmware for GD32E50x
\version 2020-08-26, V1.1.0, firmware for GD32E50x
\version 2021-03-23, V1.2.0, firmware for GD32E50x
*/
/*
Copyright (c) 2021, GigaDevice Semiconductor Inc.
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.
3. Neither the name of the copyright holder nor the names of its contributors
may be used to endorse or promote products derived from this software without
specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
IN NO EVENT SHALL THE COPYRIGHT HOLDER 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.
*/
#include "sdcard.h"
#include "gd32e50x_sdio.h"
#include "gd32e50x_dma.h"
#include <stddef.h>
/* card status of R1 definitions */
#define SD_R1_OUT_OF_RANGE BIT(31) /* command's argument was out of the allowed range */
#define SD_R1_ADDRESS_ERROR BIT(30) /* misaligned address which did not match the block length */
#define SD_R1_BLOCK_LEN_ERROR BIT(29) /* transferred block length is not allowed */
#define SD_R1_ERASE_SEQ_ERROR BIT(28) /* an error in the sequence of erase commands occurred */
#define SD_R1_ERASE_PARAM BIT(27) /* an invalid selection of write-blocks for erase occurred */
#define SD_R1_WP_VIOLATION BIT(26) /* the host attempts to write to a protected block or to the temporary or permanent write protected card */
#define SD_R1_CARD_IS_LOCKED BIT(25) /* the card is locked by the host */
#define SD_R1_LOCK_UNLOCK_FAILED BIT(24) /* a sequence or password error has been detected in lock/unlock card command */
#define SD_R1_COM_CRC_ERROR BIT(23) /* CRC check of the previous command failed */
#define SD_R1_ILLEGAL_COMMAND BIT(22) /* command not legal for the card state */
#define SD_R1_CARD_ECC_FAILED BIT(21) /* card internal ECC was applied but failed to correct the data */
#define SD_R1_CC_ERROR BIT(20) /* internal card controller error */
#define SD_R1_GENERAL_UNKNOWN_ERROR BIT(19) /* a general or an unknown error occurred during the operation */
#define SD_R1_CSD_OVERWRITE BIT(16) /* read only section of the CSD does not match or attempt to reverse the copy or permanent WP bits */
#define SD_R1_WP_ERASE_SKIP BIT(15) /* partial address space was erased */
#define SD_R1_CARD_ECC_DISABLED BIT(14) /* command has been executed without using the internal ECC */
#define SD_R1_ERASE_RESET BIT(13) /* an erase sequence was cleared before executing */
#define SD_R1_READY_FOR_DATA BIT(8) /* correspond to buffer empty signaling on the bus */
#define SD_R1_APP_CMD BIT(5) /* card will expect ACMD */
#define SD_R1_AKE_SEQ_ERROR BIT(3) /* error in the sequence of the authentication process */
#define SD_R1_ERROR_BITS (uint32_t)0xFDF9E008 /* all the R1 error bits */
/* card status of R6 definitions */
#define SD_R6_COM_CRC_ERROR BIT(15) /* CRC check of the previous command failed */
#define SD_R6_ILLEGAL_COMMAND BIT(14) /* command not legal for the card state */
#define SD_R6_GENERAL_UNKNOWN_ERROR BIT(13) /* a general or an unknown error occurred during the operation */
/* card state */
#define SD_CARDSTATE_IDLE ((uint8_t)0x00) /* card is in idle state */
#define SD_CARDSTATE_READY ((uint8_t)0x01) /* card is in ready state */
#define SD_CARDSTATE_IDENTIFICAT ((uint8_t)0x02) /* card is in identificat state */
#define SD_CARDSTATE_STANDBY ((uint8_t)0x03) /* card is in standby state */
#define SD_CARDSTATE_TRANSFER ((uint8_t)0x04) /* card is in transfer state */
#define SD_CARDSTATE_DATA ((uint8_t)0x05) /* card is in data sending state */
#define SD_CARDSTATE_RECEIVING ((uint8_t)0x06) /* card is in receiving state */
#define SD_CARDSTATE_PROGRAMMING ((uint8_t)0x07) /* card is in programming state */
#define SD_CARDSTATE_DISCONNECT ((uint8_t)0x08) /* card is in disconnect state */
#define SD_CARDSTATE_LOCKED ((uint32_t)0x02000000) /* card is in locked state */
#define SD_CHECK_PATTERN ((uint32_t)0x000001AA) /* check pattern for CMD8 */
#define SD_VOLTAGE_WINDOW ((uint32_t)0x80100000) /* host 3.3V request in ACMD41 */
/* parameters for ACMD41(voltage validation) */
#define SD_HIGH_CAPACITY ((uint32_t)0x40000000) /* high capacity SD memory card */
#define SD_STD_CAPACITY ((uint32_t)0x00000000) /* standard capacity SD memory card */
/* SD bus width, check SCR register */
#define SD_BUS_WIDTH_4BIT ((uint32_t)0x00040000) /* 4-bit width bus mode */
#define SD_BUS_WIDTH_1BIT ((uint32_t)0x00010000) /* 1-bit width bus mode */
/* masks for SCR register */
#define SD_MASK_0_7BITS ((uint32_t)0x000000FF) /* mask [7:0] bits */
#define SD_MASK_8_15BITS ((uint32_t)0x0000FF00) /* mask [15:8] bits */
#define SD_MASK_16_23BITS ((uint32_t)0x00FF0000) /* mask [23:16] bits */
#define SD_MASK_24_31BITS ((uint32_t)0xFF000000) /* mask [31:24] bits */
#define SDIO_FIFO_ADDR ((uint32_t)SDIO + 0x80U) /* address of SDIO_FIFO */
#define SD_FIFOHALF_WORDS ((uint32_t)0x00000008) /* words of FIFO half full/empty */
#define SD_FIFOHALF_BYTES ((uint32_t)0x00000020) /* bytes of FIFO half full/empty */
#define SD_DATATIMEOUT ((uint32_t)0xFFFFFFFF) /* DSM data timeout */
#define SD_MAX_VOLT_VALIDATION ((uint32_t)0x0000FFFF) /* the maximum times of voltage validation */
#define SD_MAX_DATA_LENGTH ((uint32_t)0x01FFFFFF) /* the maximum length of data */
#define SD_ALLZERO ((uint32_t)0x00000000) /* all zero */
#define SD_RCA_SHIFT ((uint8_t)0x10) /* RCA shift bits */
#define SD_CLK_DIV_INIT ((uint16_t)0x01C0) /* SD clock division in initilization phase */
#define SD_CLK_DIV_TRANS ((uint16_t)0x000A) /* SD clock division in transmission phase */
#define SDIO_MASK_INTC_FLAGS ((uint32_t)0x00C007FF) /* mask flags of SDIO_INTC */
uint32_t sd_scr[2] = {0,0}; /* content of SCR register */
static sdio_card_type_enum cardtype = SDIO_STD_CAPACITY_SD_CARD_V1_1; /* SD card type */
static uint32_t sd_csd[4] = {0,0,0,0}; /* content of CSD register */
static uint32_t sd_cid[4] = {0,0,0,0}; /* content of CID register */
static uint16_t sd_rca = 0; /* RCA of SD card */
static uint32_t transmode = SD_POLLING_MODE;
static uint32_t totalnumber_bytes = 0, stopcondition = 0;
static __IO sd_error_enum transerror = SD_OK;
static __IO uint32_t transend = 0, number_bytes = 0;
/* check if the command sent error occurs */
static sd_error_enum cmdsent_error_check(void);
/* check if error occurs for R1 response */
static sd_error_enum r1_error_check(uint8_t cmdindex);
/* check if error type for R1 response */
static sd_error_enum r1_error_type_check(uint32_t resp);
/* check if error occurs for R2 response */
static sd_error_enum r2_error_check(void);
/* check if error occurs for R3 response */
static sd_error_enum r3_error_check(void);
/* check if error occurs for R6 response */
static sd_error_enum r6_error_check(uint8_t cmdindex, uint16_t *prca);
/* check if error occurs for R7 response */
static sd_error_enum r7_error_check(void);
/* get the state which the card is in */
static sd_error_enum sd_card_state_get(uint8_t *pcardstate);
/* configure the bus width mode */
static sd_error_enum sd_bus_width_config(uint32_t buswidth);
/* get the SCR of corresponding card */
static sd_error_enum sd_scr_get(uint16_t rca, uint32_t *pscr);
/* get the data block size */
static uint32_t sd_datablocksize_get(uint16_t bytesnumber);
/* configure the GPIO of SDIO interface */
static void gpio_config(void);
/* configure the RCU of SDIO and DMA */
static void rcu_config(void);
/* configure the DMA for SDIO transfer request */
static void dma_transfer_config(uint32_t *srcbuf, uint32_t bufsize);
/* configure the DMA for SDIO reveive request */
static void dma_receive_config(uint32_t *dstbuf, uint32_t bufsize);
/*!
\brief initialize the SD card and make it in standby state
\param[in] none
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_init(void)
{
sd_error_enum status = SD_OK;
/* configure the RCU and GPIO, deinitialize the SDIO */
rcu_config();
gpio_config();
sdio_deinit();
/* configure the clock and work voltage */
status = sd_power_on();
if(SD_OK != status){
return status;
}
/* initialize the card and get CID and CSD of the card */
status = sd_card_init();
if(SD_OK != status){
return status;
}
/* configure the SDIO peripheral */
sdio_clock_config(SDIO_SDIOCLKEDGE_RISING, SDIO_CLOCKBYPASS_DISABLE, SDIO_CLOCKPWRSAVE_DISABLE, SD_CLK_DIV_TRANS);
sdio_bus_mode_set(SDIO_BUSMODE_1BIT);
sdio_hardware_clock_disable();
return status;
}
/*!
\brief initialize the card and get CID and CSD of the card
\param[in] none
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_card_init(void)
{
sd_error_enum status = SD_OK;
uint16_t temp_rca = 0x01;
if(SDIO_POWER_OFF == sdio_power_state_get()){
status = SD_OPERATION_IMPROPER;
return status;
}
/* the card is not I/O only card */
if(SDIO_SECURE_DIGITAL_IO_CARD != cardtype){
/* send CMD2(SD_CMD_ALL_SEND_CID) to get the CID numbers */
sdio_command_response_config(SD_CMD_ALL_SEND_CID, (uint32_t)0x0, SDIO_RESPONSETYPE_LONG);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r2_error_check();
if(SD_OK != status){
return status;
}
/* store the CID numbers */
sd_cid[0] = sdio_response_get(SDIO_RESPONSE0);
sd_cid[1] = sdio_response_get(SDIO_RESPONSE1);
sd_cid[2] = sdio_response_get(SDIO_RESPONSE2);
sd_cid[3] = sdio_response_get(SDIO_RESPONSE3);
}
/* the card is SD memory card or the I/O card has the memory portion */
if((SDIO_STD_CAPACITY_SD_CARD_V1_1 == cardtype) || (SDIO_STD_CAPACITY_SD_CARD_V2_0 == cardtype) ||
(SDIO_HIGH_CAPACITY_SD_CARD == cardtype) || (SDIO_SECURE_DIGITAL_IO_COMBO_CARD == cardtype)){
/* send CMD3(SEND_RELATIVE_ADDR) to ask the card to publish a new relative address (RCA) */
sdio_command_response_config(SD_CMD_SEND_RELATIVE_ADDR, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r6_error_check(SD_CMD_SEND_RELATIVE_ADDR, &temp_rca);
if(SD_OK != status){
return status;
}
}
if(SDIO_SECURE_DIGITAL_IO_CARD != cardtype){
/* the card is not I/O only card */
sd_rca = temp_rca;
/* send CMD9(SEND_CSD) to get the addressed card's card-specific data (CSD) */
sdio_command_response_config(SD_CMD_SEND_CSD, (uint32_t)(temp_rca << SD_RCA_SHIFT), SDIO_RESPONSETYPE_LONG);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r2_error_check();
if(SD_OK != status){
return status;
}
/* store the card-specific data (CSD) */
sd_csd[0] = sdio_response_get(SDIO_RESPONSE0);
sd_csd[1] = sdio_response_get(SDIO_RESPONSE1);
sd_csd[2] = sdio_response_get(SDIO_RESPONSE2);
sd_csd[3] = sdio_response_get(SDIO_RESPONSE3);
}
return status;
}
/*!
\brief configure the clock and the work voltage, and get the card type
\param[in] none
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_power_on(void)
{
sd_error_enum status = SD_OK;
uint32_t sdcardtype = SD_STD_CAPACITY, response = 0, count = 0;
uint8_t busyflag = 0;
/* configure the SDIO peripheral */
sdio_clock_config(SDIO_SDIOCLKEDGE_RISING, SDIO_CLOCKBYPASS_DISABLE, SDIO_CLOCKPWRSAVE_DISABLE, SD_CLK_DIV_INIT);
sdio_bus_mode_set(SDIO_BUSMODE_1BIT);
sdio_hardware_clock_disable();
sdio_power_state_set(SDIO_POWER_ON);
/* enable SDIO_CLK clock output */
sdio_clock_enable();
/* send CMD0(GO_IDLE_STATE) to reset the card */
sdio_command_response_config(SD_CMD_GO_IDLE_STATE, (uint32_t)0x0, SDIO_RESPONSETYPE_NO);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
/* enable the CSM */
sdio_csm_enable();
/* check if command sent error occurs */
status = cmdsent_error_check();
if(SD_OK != status){
return status;
}
/* send CMD8(SEND_IF_COND) to get SD memory card interface condition */
sdio_command_response_config(SD_CMD_SEND_IF_COND, SD_CHECK_PATTERN, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
if(SD_OK == r7_error_check()){
/* SD Card 2.0 */
cardtype = SDIO_STD_CAPACITY_SD_CARD_V2_0;
sdcardtype = SD_HIGH_CAPACITY;
}
/* send CMD55(APP_CMD) to indicate next command is application specific command */
sdio_command_response_config(SD_CMD_APP_CMD, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
if(SD_OK == r1_error_check(SD_CMD_APP_CMD)){
/* SD memory card */
while((!busyflag) && (count < SD_MAX_VOLT_VALIDATION)){
/* send CMD55(APP_CMD) to indicate next command is application specific command */
sdio_command_response_config(SD_CMD_APP_CMD, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_APP_CMD);
if(SD_OK != status){
return status;
}
/* send ACMD41(SD_SEND_OP_COND) to get host capacity support information (HCS) and OCR content */
sdio_command_response_config(SD_APPCMD_SD_SEND_OP_COND, (SD_VOLTAGE_WINDOW | sdcardtype), SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r3_error_check();
if(SD_OK != status){
return status;
}
/* get the response and check card power up status bit(busy) */
response = sdio_response_get(SDIO_RESPONSE0);
busyflag = (uint8_t)((response >> 31)&(uint32_t)0x01);
++count;
}
if(count >= SD_MAX_VOLT_VALIDATION){
status = SD_VOLTRANGE_INVALID;
return status;
}
if(response &= SD_HIGH_CAPACITY){
/* SDHC card */
cardtype = SDIO_HIGH_CAPACITY_SD_CARD;
}
}
return status;
}
/*!
\brief close the power of SDIO
\param[in] none
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_power_off(void)
{
sd_error_enum status = SD_OK;
sdio_power_state_set(SDIO_POWER_OFF);
return status;
}
/*!
\brief configure the bus mode
\param[in] busmode: the bus mode
\arg SDIO_BUSMODE_1BIT: 1-bit SDIO card bus mode
\arg SDIO_BUSMODE_4BIT: 4-bit SDIO card bus mode
\arg SDIO_BUSMODE_8BIT: 8-bit SDIO card bus mode (MMC only)
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_bus_mode_config(uint32_t busmode)
{
sd_error_enum status = SD_OK;
if(SDIO_MULTIMEDIA_CARD == cardtype){
/* MMC card doesn't support this function */
status = SD_FUNCTION_UNSUPPORTED;
return status;
}else if((SDIO_STD_CAPACITY_SD_CARD_V1_1 == cardtype) || (SDIO_STD_CAPACITY_SD_CARD_V2_0 == cardtype) ||
(SDIO_HIGH_CAPACITY_SD_CARD == cardtype)){
if(SDIO_BUSMODE_8BIT == busmode){
/* 8 bit bus mode doesn't support */
status = SD_FUNCTION_UNSUPPORTED;
return status;
}else if(SDIO_BUSMODE_4BIT == busmode){
/* configure SD bus width and the SDIO */
status = sd_bus_width_config(SD_BUS_WIDTH_4BIT);
if(SD_OK == status){
sdio_clock_config(SDIO_SDIOCLKEDGE_RISING, SDIO_CLOCKBYPASS_DISABLE,
SDIO_CLOCKPWRSAVE_DISABLE, SD_CLK_DIV_TRANS);
sdio_bus_mode_set(busmode);
sdio_hardware_clock_disable();
}
}else if(SDIO_BUSMODE_1BIT == busmode){
/* configure SD bus width and the SDIO */
status = sd_bus_width_config(SD_BUS_WIDTH_1BIT);
if(SD_OK == status){
sdio_clock_config(SDIO_SDIOCLKEDGE_RISING, SDIO_CLOCKBYPASS_DISABLE,
SDIO_CLOCKPWRSAVE_DISABLE, SD_CLK_DIV_TRANS);
sdio_bus_mode_set(busmode);
sdio_hardware_clock_disable();
}
}else{
status = SD_PARAMETER_INVALID;
}
}
return status;
}
/*!
\brief configure the mode of transmission
\param[in] txmode: transfer mode
\arg SD_DMA_MODE: DMA mode
\arg SD_POLLING_MODE: polling mode
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_transfer_mode_config(uint32_t txmode)
{
sd_error_enum status = SD_OK;
/* set the transfer mode */
if((SD_DMA_MODE == txmode) || (SD_POLLING_MODE == txmode)){
transmode = txmode;
}else{
status = SD_PARAMETER_INVALID;
}
return status;
}
/*!
\brief read a block data into a buffer from the specified address of a card
\param[out] preadbuffer: a pointer that store a block read data
\param[in] readaddr: the read data address
\param[in] blocksize: the data block size
\retval sd_error_enum
*/
sd_error_enum sd_block_read(uint32_t *preadbuffer, uint32_t readaddr, uint16_t blocksize)
{
/* initialize the variables */
sd_error_enum status = SD_OK;
uint32_t count = 0, align = 0, datablksize = SDIO_DATABLOCKSIZE_1BYTE, *ptempbuff = preadbuffer;
__IO uint32_t timeout = 0;
if(NULL == preadbuffer){
status = SD_PARAMETER_INVALID;
return status;
}
transerror = SD_OK;
transend = 0;
totalnumber_bytes = 0;
/* clear all DSM configuration */
sdio_data_config(0, 0, SDIO_DATABLOCKSIZE_1BYTE);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOCARD);
sdio_dsm_disable();
sdio_dma_disable();
/* check whether the card is locked */
if(sdio_response_get(SDIO_RESPONSE0) & SD_CARDSTATE_LOCKED){
status = SD_LOCK_UNLOCK_FAILED;
return status;
}
/* blocksize is fixed in 512B for SDHC card */
if(SDIO_HIGH_CAPACITY_SD_CARD == cardtype){
blocksize = 512;
readaddr /= 512;
}
align = blocksize & (blocksize - 1);
if((blocksize > 0) && (blocksize <= 2048) && (0 == align)){
datablksize = sd_datablocksize_get(blocksize);
/* send CMD16(SET_BLOCKLEN) to set the block length */
sdio_command_response_config(SD_CMD_SET_BLOCKLEN, (uint32_t)blocksize, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SET_BLOCKLEN);
if(SD_OK != status){
return status;
}
}else{
status = SD_PARAMETER_INVALID;
return status;
}
stopcondition = 0;
totalnumber_bytes = blocksize;
/* configure SDIO data transmission */
sdio_data_config(SD_DATATIMEOUT, totalnumber_bytes, datablksize);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOSDIO);
sdio_dsm_enable();
/* send CMD17(READ_SINGLE_BLOCK) to read a block */
sdio_command_response_config(SD_CMD_READ_SINGLE_BLOCK, (uint32_t)readaddr, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_READ_SINGLE_BLOCK);
if(SD_OK != status){
return status;
}
if(SD_POLLING_MODE == transmode){
/* polling mode */
while(!sdio_flag_get(SDIO_FLAG_DTCRCERR | SDIO_FLAG_DTTMOUT | SDIO_FLAG_RXORE | SDIO_FLAG_DTBLKEND | SDIO_FLAG_STBITE)){
if(RESET != sdio_flag_get(SDIO_FLAG_RFH)){
/* at least 8 words can be read in the FIFO */
for(count = 0; count < SD_FIFOHALF_WORDS; count++){
*(ptempbuff + count) = sdio_data_read();
}
ptempbuff += SD_FIFOHALF_WORDS;
}
}
/* whether some error occurs and return it */
if(RESET != sdio_flag_get(SDIO_FLAG_DTCRCERR)){
status = SD_DATA_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_DTCRCERR);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_DTTMOUT)){
status = SD_DATA_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_DTTMOUT);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_RXORE)){
status = SD_RX_OVERRUN_ERROR;
sdio_flag_clear(SDIO_FLAG_RXORE);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_STBITE)){
status = SD_START_BIT_ERROR;
sdio_flag_clear(SDIO_FLAG_STBITE);
return status;
}
while(RESET != sdio_flag_get(SDIO_FLAG_RXDTVAL)){
*ptempbuff = sdio_data_read();
++ptempbuff;
}
/* clear the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
}else if(SD_DMA_MODE == transmode){
/* DMA mode */
/* enable the SDIO corresponding interrupts and DMA function */
sdio_interrupt_enable(SDIO_INT_CCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_RXORE | SDIO_INT_DTEND | SDIO_INT_STBITE);
sdio_dma_enable();
dma_receive_config(preadbuffer, blocksize);
timeout = 100000;
while((RESET == dma_flag_get(DMA1, DMA_CH3, DMA_FLAG_FTF)) && (timeout > 0)){
timeout--;
if(0 == timeout){
return SD_ERROR;
}
}
}else{
status = SD_PARAMETER_INVALID;
}
return status;
}
/*!
\brief read multiple blocks data into a buffer from the specified address of a card
\param[out] preadbuffer: a pointer that store multiple blocks read data
\param[in] readaddr: the read data address
\param[in] blocksize: the data block size
\param[in] blocksnumber: number of blocks that will be read
\retval sd_error_enum
*/
sd_error_enum sd_multiblocks_read(uint32_t *preadbuffer, uint32_t readaddr, uint16_t blocksize, uint32_t blocksnumber)
{
/* initialize the variables */
sd_error_enum status = SD_OK;
uint32_t count = 0, align = 0, datablksize = SDIO_DATABLOCKSIZE_1BYTE, *ptempbuff = preadbuffer;
__IO uint32_t timeout = 0;
if(NULL == preadbuffer){
status = SD_PARAMETER_INVALID;
return status;
}
transerror = SD_OK;
transend = 0;
totalnumber_bytes = 0;
/* clear all DSM configuration */
sdio_data_config(0, 0, SDIO_DATABLOCKSIZE_1BYTE);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOCARD);
sdio_dsm_disable();
sdio_dma_disable();
/* check whether the card is locked */
if(sdio_response_get(SDIO_RESPONSE0) & SD_CARDSTATE_LOCKED){
status = SD_LOCK_UNLOCK_FAILED;
return status;
}
/* blocksize is fixed in 512B for SDHC card */
if(SDIO_HIGH_CAPACITY_SD_CARD == cardtype){
blocksize = 512;
readaddr /= 512;
}
align = blocksize & (blocksize - 1);
if((blocksize > 0) && (blocksize <= 2048) && (0 == align)){
datablksize = sd_datablocksize_get(blocksize);
/* send CMD16(SET_BLOCKLEN) to set the block length */
sdio_command_response_config(SD_CMD_SET_BLOCKLEN, (uint32_t)blocksize, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SET_BLOCKLEN);
if(SD_OK != status){
return status;
}
}else{
status = SD_PARAMETER_INVALID;
return status;
}
if(blocksnumber > 1){
if(blocksnumber * blocksize > SD_MAX_DATA_LENGTH){
/* exceeds the maximum length */
status = SD_PARAMETER_INVALID;
return status;
}
stopcondition = 1;
totalnumber_bytes = blocksnumber * blocksize;
/* configure the SDIO data transmission */
sdio_data_config(SD_DATATIMEOUT, totalnumber_bytes, datablksize);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOSDIO);
sdio_dsm_enable();
/* send CMD18(READ_MULTIPLE_BLOCK) to read multiple blocks */
sdio_command_response_config(SD_CMD_READ_MULTIPLE_BLOCK, readaddr, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_READ_MULTIPLE_BLOCK);
if(SD_OK != status){
return status;
}
if(SD_POLLING_MODE == transmode){
/* polling mode */
while(!sdio_flag_get(SDIO_FLAG_DTCRCERR | SDIO_FLAG_DTTMOUT | SDIO_FLAG_RXORE | SDIO_FLAG_DTEND | SDIO_FLAG_STBITE)){
if(RESET != sdio_flag_get(SDIO_FLAG_RFH)){
/* at least 8 words can be read in the FIFO */
for(count = 0; count < SD_FIFOHALF_WORDS; count++){
*(ptempbuff + count) = sdio_data_read();
}
ptempbuff += SD_FIFOHALF_WORDS;
}
}
/* whether some error occurs and return it */
if(RESET != sdio_flag_get(SDIO_FLAG_DTCRCERR)){
status = SD_DATA_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_DTCRCERR);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_DTTMOUT)){
status = SD_DATA_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_DTTMOUT);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_RXORE)){
status = SD_RX_OVERRUN_ERROR;
sdio_flag_clear(SDIO_FLAG_RXORE);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_STBITE)){
status = SD_START_BIT_ERROR;
sdio_flag_clear(SDIO_FLAG_STBITE);
return status;
}
while(RESET != sdio_flag_get(SDIO_FLAG_RXDTVAL)){
*ptempbuff = sdio_data_read();
++ptempbuff;
}
if(RESET != sdio_flag_get(SDIO_FLAG_DTEND)){
if((SDIO_STD_CAPACITY_SD_CARD_V1_1 == cardtype) || (SDIO_STD_CAPACITY_SD_CARD_V2_0 == cardtype) ||
(SDIO_HIGH_CAPACITY_SD_CARD == cardtype)){
/* send CMD12(STOP_TRANSMISSION) to stop transmission */
sdio_command_response_config(SD_CMD_STOP_TRANSMISSION, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_STOP_TRANSMISSION);
if(SD_OK != status){
return status;
}
}
}
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
}else if(SD_DMA_MODE == transmode){
/* DMA mode */
/* enable the SDIO corresponding interrupts and DMA function */
sdio_interrupt_enable(SDIO_INT_DTCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_RXORE | SDIO_INT_DTEND | SDIO_INT_STBITE);
sdio_dma_enable();
dma_receive_config(preadbuffer, totalnumber_bytes);
timeout = 100000;
while((RESET == dma_flag_get(DMA1, DMA_CH3, DMA_FLAG_FTF)) && (timeout > 0)){
timeout--;
if(0 == timeout){
return SD_ERROR;
}
}
while((0 == transend) && (SD_OK == transerror)){
}
if(SD_OK != transerror){
return transerror;
}
}else{
status = SD_PARAMETER_INVALID;
}
}
return status;
}
/*!
\brief write a block data to the specified address of a card
\param[in] pwritebuffer: a pointer that store a block data to be transferred
\param[in] writeaddr: the read data address
\param[in] blocksize: the data block size
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_block_write(uint32_t *pwritebuffer, uint32_t writeaddr, uint16_t blocksize)
{
/* initialize the variables */
sd_error_enum status = SD_OK;
uint8_t cardstate = 0;
uint32_t count = 0, align = 0, datablksize = SDIO_DATABLOCKSIZE_1BYTE, *ptempbuff = pwritebuffer;
uint32_t transbytes = 0, restwords = 0, response = 0;
__IO uint32_t timeout = 0;
if(NULL == pwritebuffer){
status = SD_PARAMETER_INVALID;
return status;
}
transerror = SD_OK;
transend = 0;
totalnumber_bytes = 0;
/* clear all DSM configuration */
sdio_data_config(0, 0, SDIO_DATABLOCKSIZE_1BYTE);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOCARD);
sdio_dsm_disable();
sdio_dma_disable();
/* check whether the card is locked */
if(sdio_response_get(SDIO_RESPONSE0) & SD_CARDSTATE_LOCKED){
status = SD_LOCK_UNLOCK_FAILED;
return status;
}
/* blocksize is fixed in 512B for SDHC card */
if(SDIO_HIGH_CAPACITY_SD_CARD == cardtype){
blocksize = 512;
writeaddr /= 512;
}
align = blocksize & (blocksize - 1);
if((blocksize > 0) && (blocksize <= 2048) && (0 == align)){
datablksize = sd_datablocksize_get(blocksize);
/* send CMD16(SET_BLOCKLEN) to set the block length */
sdio_command_response_config(SD_CMD_SET_BLOCKLEN, (uint32_t)blocksize, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SET_BLOCKLEN);
if(SD_OK != status){
return status;
}
}else{
status = SD_PARAMETER_INVALID;
return status;
}
/* send CMD13(SEND_STATUS), addressed card sends its status registers */
sdio_command_response_config(SD_CMD_SEND_STATUS, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SEND_STATUS);
if(SD_OK != status){
return status;
}
response = sdio_response_get(SDIO_RESPONSE0);
timeout = 100000;
while((0 == (response & SD_R1_READY_FOR_DATA)) && (timeout > 0)){
/* continue to send CMD13 to polling the state of card until buffer empty or timeout */
--timeout;
/* send CMD13(SEND_STATUS), addressed card sends its status registers */
sdio_command_response_config(SD_CMD_SEND_STATUS, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SEND_STATUS);
if(SD_OK != status){
return status;
}
response = sdio_response_get(SDIO_RESPONSE0);
}
if(0 == timeout){
return SD_ERROR;
}
/* send CMD24(WRITE_BLOCK) to write a block */
sdio_command_response_config(SD_CMD_WRITE_BLOCK, writeaddr, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_WRITE_BLOCK);
if(SD_OK != status){
return status;
}
stopcondition = 0;
totalnumber_bytes = blocksize;
/* configure the SDIO data transmission */
sdio_data_config(SD_DATATIMEOUT, totalnumber_bytes, datablksize);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOCARD);
sdio_dsm_enable();
if(SD_POLLING_MODE == transmode){
/* polling mode */
while(!sdio_flag_get(SDIO_FLAG_DTCRCERR | SDIO_FLAG_DTTMOUT | SDIO_FLAG_TXURE | SDIO_FLAG_DTBLKEND | SDIO_FLAG_STBITE)){
if(RESET != sdio_flag_get(SDIO_FLAG_TFH)){
/* at least 8 words can be written into the FIFO */
if((totalnumber_bytes - transbytes) < SD_FIFOHALF_BYTES){
restwords = (totalnumber_bytes - transbytes)/4 + (((totalnumber_bytes - transbytes)%4 == 0) ? 0 : 1);
for(count = 0; count < restwords; count++){
sdio_data_write(*ptempbuff);
++ptempbuff;
transbytes += 4;
}
}else{
for(count = 0; count < SD_FIFOHALF_WORDS; count++){
sdio_data_write(*(ptempbuff + count));
}
/* 8 words(32 bytes) has been transferred */
ptempbuff += SD_FIFOHALF_WORDS;
transbytes += SD_FIFOHALF_BYTES;
}
}
}
/* whether some error occurs and return it */
if(RESET != sdio_flag_get(SDIO_FLAG_DTCRCERR)){
status = SD_DATA_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_DTCRCERR);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_DTTMOUT)){
status = SD_DATA_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_DTTMOUT);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_TXURE)){
status = SD_TX_UNDERRUN_ERROR;
sdio_flag_clear(SDIO_FLAG_TXURE);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_STBITE)){
status = SD_START_BIT_ERROR;
sdio_flag_clear(SDIO_FLAG_STBITE);
return status;
}
}else if(SD_DMA_MODE == transmode){
/* DMA mode */
/* enable the SDIO corresponding interrupts and DMA */
sdio_interrupt_enable(SDIO_INT_DTCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_TXURE | SDIO_INT_DTEND | SDIO_INT_STBITE);
dma_transfer_config(pwritebuffer, blocksize);
sdio_dma_enable();
timeout = 100000;
while((RESET == dma_flag_get(DMA1, DMA_CH3, DMA_FLAG_FTF)) && (timeout > 0)){
timeout--;
if(0 == timeout){
return SD_ERROR;
}
}
while ((0 == transend) && (SD_OK == transerror)){
}
if(SD_OK != transerror){
return transerror;
}
}else{
status = SD_PARAMETER_INVALID;
return status;
}
/* clear the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
/* get the card state and wait the card is out of programming and receiving state */
status = sd_card_state_get(&cardstate);
while((SD_OK == status) && ((SD_CARDSTATE_PROGRAMMING == cardstate) || (SD_CARDSTATE_RECEIVING == cardstate))){
status = sd_card_state_get(&cardstate);
}
return status;
}
/*!
\brief write multiple blocks data to the specified address of a card
\param[in] pwritebuffer: a pointer that store multiple blocks data to be transferred
\param[in] writeaddr: the read data address
\param[in] blocksize: the data block size
\param[in] blocksnumber: number of blocks that will be written
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_multiblocks_write(uint32_t *pwritebuffer, uint32_t writeaddr, uint16_t blocksize, uint32_t blocksnumber)
{
/* initialize the variables */
sd_error_enum status = SD_OK;
uint8_t cardstate = 0;
uint32_t count = 0, align = 0, datablksize = SDIO_DATABLOCKSIZE_1BYTE, *ptempbuff = pwritebuffer;
uint32_t transbytes = 0, restwords = 0;
__IO uint32_t timeout = 0;
if(NULL == pwritebuffer){
status = SD_PARAMETER_INVALID;
return status;
}
transerror = SD_OK;
transend = 0;
totalnumber_bytes = 0;
/* clear all DSM configuration */
sdio_data_config(0, 0, SDIO_DATABLOCKSIZE_1BYTE);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOCARD);
sdio_dsm_disable();
sdio_dma_disable();
/* check whether the card is locked */
if(sdio_response_get(SDIO_RESPONSE0) & SD_CARDSTATE_LOCKED){
status = SD_LOCK_UNLOCK_FAILED;
return status;
}
/* blocksize is fixed in 512B for SDHC card */
if(SDIO_HIGH_CAPACITY_SD_CARD == cardtype){
blocksize = 512;
writeaddr /= 512;
}
align = blocksize & (blocksize - 1);
if((blocksize > 0) && (blocksize <= 2048) && (0 == align)){
datablksize = sd_datablocksize_get(blocksize);
/* send CMD16(SET_BLOCKLEN) to set the block length */
sdio_command_response_config(SD_CMD_SET_BLOCKLEN, (uint32_t)blocksize, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SET_BLOCKLEN);
if(SD_OK != status){
return status;
}
}else{
status = SD_PARAMETER_INVALID;
return status;
}
/* send CMD13(SEND_STATUS), addressed card sends its status registers */
sdio_command_response_config(SD_CMD_SEND_STATUS, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SEND_STATUS);
if(SD_OK != status){
return status;
}
if(blocksnumber > 1){
if(blocksnumber * blocksize > SD_MAX_DATA_LENGTH){
status = SD_PARAMETER_INVALID;
return status;
}
if((SDIO_STD_CAPACITY_SD_CARD_V1_1 == cardtype) || (SDIO_STD_CAPACITY_SD_CARD_V2_0 == cardtype) ||
(SDIO_HIGH_CAPACITY_SD_CARD == cardtype)){
/* send CMD55(APP_CMD) to indicate next command is application specific command */
sdio_command_response_config(SD_CMD_APP_CMD, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_APP_CMD);
if(SD_OK != status){
return status;
}
/* send ACMD23(SET_WR_BLK_ERASE_COUNT) to set the number of write blocks to be preerased before writing */
sdio_command_response_config(SD_APPCMD_SET_WR_BLK_ERASE_COUNT, blocksnumber, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_APPCMD_SET_WR_BLK_ERASE_COUNT);
if(SD_OK != status){
return status;
}
}
/* send CMD25(WRITE_MULTIPLE_BLOCK) to continuously write blocks of data */
sdio_command_response_config(SD_CMD_WRITE_MULTIPLE_BLOCK, writeaddr, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_WRITE_MULTIPLE_BLOCK);
if(SD_OK != status){
return status;
}
stopcondition = 1;
totalnumber_bytes = blocksnumber * blocksize;
/* configure the SDIO data transmission */
sdio_data_config(SD_DATATIMEOUT, totalnumber_bytes, datablksize);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOCARD);
sdio_dsm_enable();
if(SD_POLLING_MODE == transmode){
/* polling mode */
while(!sdio_flag_get(SDIO_FLAG_DTCRCERR | SDIO_FLAG_DTTMOUT | SDIO_FLAG_TXURE | SDIO_FLAG_DTEND | SDIO_FLAG_STBITE)){
if(RESET != sdio_flag_get(SDIO_FLAG_TFH)){
/* at least 8 words can be written into the FIFO */
if(!((totalnumber_bytes - transbytes) < SD_FIFOHALF_BYTES)){
for(count = 0; count < SD_FIFOHALF_WORDS; count++){
sdio_data_write(*(ptempbuff + count));
}
/* 8 words(32 bytes) has been transferred */
ptempbuff += SD_FIFOHALF_WORDS;
transbytes += SD_FIFOHALF_BYTES;
}else{
restwords = (totalnumber_bytes - transbytes)/4 + (((totalnumber_bytes - transbytes)%4 == 0) ? 0 : 1);
for(count = 0; count < restwords; count++){
sdio_data_write(*ptempbuff);
++ptempbuff;
transbytes += 4;
}
}
}
}
/* whether some error occurs and return it */
if(RESET != sdio_flag_get(SDIO_FLAG_DTCRCERR)){
status = SD_DATA_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_DTCRCERR);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_DTTMOUT)){
status = SD_DATA_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_DTTMOUT);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_TXURE)){
status = SD_TX_UNDERRUN_ERROR;
sdio_flag_clear(SDIO_FLAG_TXURE);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_STBITE)){
status = SD_START_BIT_ERROR;
sdio_flag_clear(SDIO_FLAG_STBITE);
return status;
}
if(RESET != sdio_flag_get(SDIO_FLAG_DTEND)){
if((SDIO_STD_CAPACITY_SD_CARD_V1_1 == cardtype) || (SDIO_STD_CAPACITY_SD_CARD_V2_0 == cardtype) ||
(SDIO_HIGH_CAPACITY_SD_CARD == cardtype)){
/* send CMD12(STOP_TRANSMISSION) to stop transmission */
sdio_command_response_config(SD_CMD_STOP_TRANSMISSION, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_STOP_TRANSMISSION);
if(SD_OK != status){
return status;
}
}
}
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
}else if(SD_DMA_MODE == transmode){
/* DMA mode */
/* enable SDIO corresponding interrupts and DMA */
sdio_interrupt_enable(SDIO_INT_DTCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_TXURE | SDIO_INT_DTEND | SDIO_INT_STBITE);
sdio_dma_enable();
dma_transfer_config(pwritebuffer, totalnumber_bytes);
timeout = 100000;
while((RESET == dma_flag_get(DMA1, DMA_CH3, DMA_FLAG_FTF) && (timeout > 0))){
timeout--;
if(0 == timeout){
return SD_ERROR;
}
}
while((0 == transend) && (SD_OK == transerror)){
}
if(SD_OK != transerror){
return transerror;
}
}else{
status = SD_PARAMETER_INVALID;
return status;
}
}
/* clear the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
/* get the card state and wait the card is out of programming and receiving state */
status = sd_card_state_get(&cardstate);
while((SD_OK == status) && ((SD_CARDSTATE_PROGRAMMING == cardstate) || (SD_CARDSTATE_RECEIVING == cardstate))){
status = sd_card_state_get(&cardstate);
}
return status;
}
/*!
\brief erase a continuous area of a card
\param[in] startaddr: the start address
\param[in] endaddr: the end address
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_erase(uint32_t startaddr, uint32_t endaddr)
{
/* initialize the variables */
sd_error_enum status = SD_OK;
uint32_t count = 0, clkdiv = 0;
__IO uint32_t delay = 0;
uint8_t cardstate = 0, tempbyte = 0;
uint16_t tempccc = 0;
/* get the card command classes from CSD */
tempbyte = (uint8_t)((sd_csd[1] & SD_MASK_24_31BITS) >> 24);
tempccc = (uint16_t)((uint16_t)tempbyte << 4);
tempbyte = (uint8_t)((sd_csd[1] & SD_MASK_16_23BITS) >> 16);
tempccc |= (uint16_t)((uint16_t)(tempbyte & 0xF0) >> 4);
if(0 == (tempccc & SD_CCC_ERASE)){
/* don't support the erase command */
status = SD_FUNCTION_UNSUPPORTED;
return status;
}
clkdiv = (SDIO_CLKCTL & SDIO_CLKCTL_DIV);
clkdiv += ((SDIO_CLKCTL & SDIO_CLKCTL_DIV8)>>31)*256;
clkdiv += 2;
delay = 168000 / clkdiv;
/* check whether the card is locked */
if(sdio_response_get(SDIO_RESPONSE0) & SD_CARDSTATE_LOCKED){
status = SD_LOCK_UNLOCK_FAILED;
return(status);
}
/* blocksize is fixed in 512B for SDHC card */
if(SDIO_HIGH_CAPACITY_SD_CARD == cardtype){
startaddr /= 512;
endaddr /= 512;
}
if((SDIO_STD_CAPACITY_SD_CARD_V1_1 == cardtype) || (SDIO_STD_CAPACITY_SD_CARD_V2_0 == cardtype) ||
(SDIO_HIGH_CAPACITY_SD_CARD == cardtype)){
/* send CMD32(ERASE_WR_BLK_START) to set the address of the first write block to be erased */
sdio_command_response_config(SD_CMD_ERASE_WR_BLK_START, startaddr, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_ERASE_WR_BLK_START);
if(SD_OK != status){
return status;
}
/* send CMD33(ERASE_WR_BLK_END) to set the address of the last write block of the continuous range to be erased */
sdio_command_response_config(SD_CMD_ERASE_WR_BLK_END, endaddr, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_ERASE_WR_BLK_END);
if(SD_OK != status){
return status;
}
}
/* send CMD38(ERASE) to set the address of the first write block to be erased */
sdio_command_response_config(SD_CMD_ERASE, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_ERASE);
if(SD_OK != status){
return status;
}
/* loop until the counter is reach to the calculated time */
for(count = 0; count < delay; count++){
}
/* get the card state and wait the card is out of programming and receiving state */
status = sd_card_state_get(&cardstate);
while((SD_OK == status) && ((SD_CARDSTATE_PROGRAMMING == cardstate) || (SD_CARDSTATE_RECEIVING == cardstate))){
status = sd_card_state_get(&cardstate);
}
return status;
}
/*!
\brief process all the interrupts which the corresponding flags are set
\param[in] none
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_interrupts_process(void)
{
transerror = SD_OK;
if(RESET != sdio_interrupt_flag_get(SDIO_INT_FLAG_DTEND)){
/* send CMD12 to stop data transfer in multipule blocks operation */
if(1 == stopcondition){
transerror = sd_transfer_stop();
}else{
transerror = SD_OK;
}
sdio_interrupt_flag_clear(SDIO_INT_DTEND);
/* disable all the interrupts */
sdio_interrupt_disable(SDIO_INT_DTCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_DTEND | SDIO_INT_STBITE |
SDIO_INT_TFH | SDIO_INT_RFH | SDIO_INT_TXURE | SDIO_INT_RXORE);
transend = 1;
number_bytes = 0;
return transerror;
}
if(RESET != sdio_interrupt_flag_get(SDIO_INT_FLAG_DTCRCERR)){
sdio_interrupt_flag_clear(SDIO_INT_DTCRCERR);
/* disable all the interrupts */
sdio_interrupt_disable(SDIO_INT_DTCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_DTEND | SDIO_INT_STBITE |
SDIO_INT_TFH | SDIO_INT_RFH | SDIO_INT_TXURE | SDIO_INT_RXORE);
number_bytes = 0;
transerror = SD_DATA_CRC_ERROR;
return transerror;
}
if(RESET != sdio_interrupt_flag_get(SDIO_INT_FLAG_DTTMOUT)){
sdio_interrupt_flag_clear(SDIO_INT_DTTMOUT);
/* disable all the interrupts */
sdio_interrupt_disable(SDIO_INT_DTCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_DTEND | SDIO_INT_STBITE |
SDIO_INT_TFH | SDIO_INT_RFH | SDIO_INT_TXURE | SDIO_INT_RXORE);
number_bytes = 0;
transerror = SD_DATA_TIMEOUT;
return transerror;
}
if(RESET != sdio_interrupt_flag_get(SDIO_INT_FLAG_STBITE)){
sdio_interrupt_flag_clear(SDIO_INT_STBITE);
/* disable all the interrupts */
sdio_interrupt_disable(SDIO_INT_DTCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_DTEND | SDIO_INT_STBITE |
SDIO_INT_TFH | SDIO_INT_RFH | SDIO_INT_TXURE | SDIO_INT_RXORE);
number_bytes = 0;
transerror = SD_START_BIT_ERROR;
return transerror;
}
if(RESET != sdio_interrupt_flag_get(SDIO_INT_FLAG_TXURE)){
sdio_interrupt_flag_clear(SDIO_INT_TXURE);
/* disable all the interrupts */
sdio_interrupt_disable(SDIO_INT_DTCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_DTEND | SDIO_INT_STBITE |
SDIO_INT_TFH | SDIO_INT_RFH | SDIO_INT_TXURE | SDIO_INT_RXORE);
number_bytes = 0;
transerror = SD_TX_UNDERRUN_ERROR;
return transerror;
}
if(RESET != sdio_interrupt_flag_get(SDIO_INT_FLAG_RXORE)){
sdio_interrupt_flag_clear(SDIO_INT_RXORE);
/* disable all the interrupts */
sdio_interrupt_disable(SDIO_INT_DTCRCERR | SDIO_INT_DTTMOUT | SDIO_INT_DTEND | SDIO_INT_STBITE |
SDIO_INT_TFH | SDIO_INT_RFH | SDIO_INT_TXURE | SDIO_INT_RXORE);
number_bytes = 0;
transerror = SD_RX_OVERRUN_ERROR;
return transerror;
}
return transerror;
}
/*!
\brief select or deselect a card
\param[in] cardrca: the RCA of a card
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_card_select_deselect(uint16_t cardrca)
{
sd_error_enum status = SD_OK;
/* send CMD7(SELECT/DESELECT_CARD) to select or deselect the card */
sdio_command_response_config(SD_CMD_SELECT_DESELECT_CARD, (uint32_t)(cardrca << SD_RCA_SHIFT), SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
status = r1_error_check(SD_CMD_SELECT_DESELECT_CARD);
return status;
}
/*!
\brief get the card status whose response format R1 contains a 32-bit field
\param[in] none
\param[out] pcardstatus: a pointer that store card status
\retval sd_error_enum
*/
sd_error_enum sd_cardstatus_get(uint32_t *pcardstatus)
{
sd_error_enum status = SD_OK;
if(NULL == pcardstatus){
status = SD_PARAMETER_INVALID;
return status;
}
/* send CMD13(SEND_STATUS), addressed card sends its status register */
sdio_command_response_config(SD_CMD_SEND_STATUS, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SEND_STATUS);
if(SD_OK != status){
return status;
}
*pcardstatus = sdio_response_get(SDIO_RESPONSE0);
return status;
}
/*!
\brief get the SD status, the size of the SD status is one data block of 512 bit
\param[in] none
\param[out] psdstatus: a pointer that store SD card status
\retval sd_error_enum
*/
sd_error_enum sd_sdstatus_get(uint32_t *psdstatus)
{
sd_error_enum status = SD_OK;
uint32_t count = 0;
/* check whether the card is locked */
if(sdio_response_get(SDIO_RESPONSE0) & SD_CARDSTATE_LOCKED){
status = SD_LOCK_UNLOCK_FAILED;
return(status);
}
/* send CMD16(SET_BLOCKLEN) to set the block length */
sdio_command_response_config(SD_CMD_SET_BLOCKLEN, (uint32_t)64, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SET_BLOCKLEN);
if(SD_OK != status){
return status;
}
/* send CMD55(APP_CMD) to indicate next command is application specific command */
sdio_command_response_config(SD_CMD_APP_CMD, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_APP_CMD);
if(SD_OK != status){
return status;
}
/* configure the SDIO data transmission */
sdio_data_config(SD_DATATIMEOUT, (uint32_t)64, SDIO_DATABLOCKSIZE_64BYTES);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOSDIO);
sdio_dsm_enable();
/* send ACMD13(SD_STATUS) to get the SD status */
sdio_command_response_config(SD_APPCMD_SD_STATUS, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_APPCMD_SD_STATUS);
if(SD_OK != status){
return status;
}
while(!sdio_flag_get(SDIO_FLAG_DTCRCERR | SDIO_FLAG_DTTMOUT | SDIO_FLAG_RXORE | SDIO_FLAG_DTBLKEND | SDIO_FLAG_STBITE)){
if(RESET != sdio_flag_get(SDIO_FLAG_RFH)){
for(count = 0; count < SD_FIFOHALF_WORDS; count++){
*(psdstatus + count) = sdio_data_read();
}
psdstatus += SD_FIFOHALF_WORDS;
}
}
/* whether some error occurs and return it */
if(RESET != sdio_flag_get(SDIO_FLAG_DTCRCERR)){
status = SD_DATA_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_DTCRCERR);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_DTTMOUT)){
status = SD_DATA_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_DTTMOUT);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_RXORE)){
status = SD_RX_OVERRUN_ERROR;
sdio_flag_clear(SDIO_FLAG_RXORE);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_STBITE)){
status = SD_START_BIT_ERROR;
sdio_flag_clear(SDIO_FLAG_STBITE);
return status;
}
while(RESET != sdio_flag_get(SDIO_FLAG_RXDTVAL)){
*psdstatus = sdio_data_read();
++psdstatus;
}
/* clear the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
psdstatus -= 16;
for(count = 0; count < 16; count++){
psdstatus[count] = ((psdstatus[count] & SD_MASK_0_7BITS) << 24) |((psdstatus[count] & SD_MASK_8_15BITS) << 8) |
((psdstatus[count] & SD_MASK_16_23BITS) >> 8) |((psdstatus[count] & SD_MASK_24_31BITS) >> 24);
}
return status;
}
/*!
\brief stop an ongoing data transfer
\param[in] none
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_transfer_stop(void)
{
sd_error_enum status = SD_OK;
/* send CMD12(STOP_TRANSMISSION) to stop transmission */
sdio_command_response_config(SD_CMD_STOP_TRANSMISSION, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_STOP_TRANSMISSION);
return status;
}
/*!
\brief lock or unlock a card
\param[in] lockstate: the lock state
\arg SD_LOCK: lock the SD card
\arg SD_UNLOCK: unlock the SD card
\param[out] none
\retval sd_error_enum
*/
sd_error_enum sd_lock_unlock(uint8_t lockstate)
{
sd_error_enum status = SD_OK;
uint8_t cardstate = 0, tempbyte = 0;
uint32_t pwd1 = 0, pwd2 = 0, response = 0;
__IO uint32_t timeout = 0;
uint16_t tempccc = 0;
/* get the card command classes from CSD */
tempbyte = (uint8_t)((sd_csd[1] & SD_MASK_24_31BITS) >> 24);
tempccc = (uint16_t)((uint16_t)tempbyte << 4);
tempbyte = (uint8_t)((sd_csd[1] & SD_MASK_16_23BITS) >> 16);
tempccc |= (uint16_t)((uint16_t)(tempbyte & 0xF0) >> 4);
if(0 == (tempccc & SD_CCC_LOCK_CARD)){
/* don't support the lock command */
status = SD_FUNCTION_UNSUPPORTED;
return status;
}
/* password pattern */
pwd1 = (0x01020600|lockstate);
pwd2 = 0x03040506;
/* clear all DSM configuration */
sdio_data_config(0, 0, SDIO_DATABLOCKSIZE_1BYTE);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOCARD);
sdio_dsm_disable();
sdio_dma_disable();
/* send CMD16(SET_BLOCKLEN) to set the block length */
sdio_command_response_config(SD_CMD_SET_BLOCKLEN, (uint32_t)8, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SET_BLOCKLEN);
if(SD_OK != status){
return status;
}
/* send CMD13(SEND_STATUS), addressed card sends its status register */
sdio_command_response_config(SD_CMD_SEND_STATUS, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SEND_STATUS);
if(SD_OK != status){
return status;
}
response = sdio_response_get(SDIO_RESPONSE0);
timeout = 100000;
while((0 == (response & SD_R1_READY_FOR_DATA)) && (timeout > 0)){
/* continue to send CMD13 to polling the state of card until buffer empty or timeout */
--timeout;
/* send CMD13(SEND_STATUS), addressed card sends its status registers */
sdio_command_response_config(SD_CMD_SEND_STATUS, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SEND_STATUS);
if(SD_OK != status){
return status;
}
response = sdio_response_get(SDIO_RESPONSE0);
}
if(0 == timeout){
return SD_ERROR;
}
/* send CMD42(LOCK_UNLOCK) to set/reset the password or lock/unlock the card */
sdio_command_response_config(SD_CMD_LOCK_UNLOCK, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_LOCK_UNLOCK);
if(SD_OK != status){
return status;
}
response = sdio_response_get(SDIO_RESPONSE0);
/* configure the SDIO data transmission */
sdio_data_config(SD_DATATIMEOUT, (uint32_t)8, SDIO_DATABLOCKSIZE_8BYTES);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOCARD);
sdio_dsm_enable();
/* write password pattern */
sdio_data_write(pwd1);
sdio_data_write(pwd2);
/* whether some error occurs and return it */
if(RESET != sdio_flag_get(SDIO_FLAG_DTCRCERR)){
status = SD_DATA_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_DTCRCERR);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_DTTMOUT)){
status = SD_DATA_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_DTTMOUT);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_TXURE)){
status = SD_TX_UNDERRUN_ERROR;
sdio_flag_clear(SDIO_FLAG_TXURE);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_STBITE)){
status = SD_START_BIT_ERROR;
sdio_flag_clear(SDIO_FLAG_STBITE);
return status;
}
/* clear the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
/* get the card state and wait the card is out of programming and receiving state */
status = sd_card_state_get(&cardstate);
while((SD_OK == status) && ((SD_CARDSTATE_PROGRAMMING == cardstate) || (SD_CARDSTATE_RECEIVING == cardstate))){
status = sd_card_state_get(&cardstate);
}
return status;
}
/*!
\brief get the data transfer state
\param[in] none
\param[out] none
\retval sd_error_enum
*/
sd_transfer_state_enum sd_transfer_state_get(void)
{
sd_transfer_state_enum transtate = SD_NO_TRANSFER;
if(RESET != sdio_flag_get(SDIO_FLAG_TXRUN | SDIO_FLAG_RXRUN)){
transtate = SD_TRANSFER_IN_PROGRESS;
}
return transtate;
}
/*!
\brief get SD card capacity
\param[in] none
\param[out] none
\retval capacity of the card(KB)
*/
uint32_t sd_card_capacity_get(void)
{
uint8_t tempbyte = 0, devicesize_mult = 0, readblklen = 0;
uint32_t capacity = 0, devicesize = 0;
if((SDIO_STD_CAPACITY_SD_CARD_V1_1 == cardtype) || (SDIO_STD_CAPACITY_SD_CARD_V2_0 == cardtype)){
/* calculate the c_size(device size) */
tempbyte = (uint8_t)((sd_csd[1] & SD_MASK_8_15BITS) >> 8);
devicesize |= (uint32_t)((uint32_t)(tempbyte & 0x03) << 10);
tempbyte = (uint8_t)(sd_csd[1] & SD_MASK_0_7BITS);
devicesize |= (uint32_t)((uint32_t)tempbyte << 2);
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_24_31BITS) >> 24);
devicesize |= (uint32_t)((uint32_t)(tempbyte & 0xC0) >> 6);
/* calculate the c_size_mult(device size multiplier) */
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_16_23BITS) >> 16);
devicesize_mult = (tempbyte & 0x03) << 1;
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_8_15BITS) >> 8);
devicesize_mult |= (tempbyte & 0x80) >> 7;
/* calculate the read_bl_len */
tempbyte = (uint8_t)((sd_csd[1] & SD_MASK_16_23BITS) >> 16);
readblklen = tempbyte & 0x0F;
/* capacity = BLOCKNR*BLOCK_LEN, BLOCKNR = (C_SIZE+1)*MULT, MULT = 2^(C_SIZE_MULT+2), BLOCK_LEN = 2^READ_BL_LEN */
capacity = (devicesize + 1)*(1 << (devicesize_mult + 2));
capacity *= (1 << readblklen);
/* change the unit of capacity to KByte */
capacity /= 1024;
}else if(SDIO_HIGH_CAPACITY_SD_CARD == cardtype){
/* calculate the c_size */
tempbyte = (uint8_t)(sd_csd[1] & SD_MASK_0_7BITS);
devicesize = (uint32_t)((uint32_t)(tempbyte & 0x3F) << 16);
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_24_31BITS) >> 24);
devicesize |= (uint32_t)((uint32_t)tempbyte << 8);
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_16_23BITS) >> 16);
devicesize |= (uint32_t)tempbyte;
/* capacity = (c_size+1)*512KByte */
capacity = (devicesize + 1)*512;
}
return capacity;
}
/*!
\brief get the detailed information of the SD card based on received CID and CSD
\param[in] none
\param[out] pcardinfo: a pointer that store the detailed card information
\retval sd_error_enum
*/
sd_error_enum sd_card_information_get(sd_card_info_struct *pcardinfo)
{
sd_error_enum status = SD_OK;
uint8_t tempbyte = 0;
if(NULL == pcardinfo){
status = SD_PARAMETER_INVALID;
return status;
}
/* store the card type and RCA */
pcardinfo->card_type = cardtype;
pcardinfo->card_rca = sd_rca;
/* CID byte 0 */
tempbyte = (uint8_t)((sd_cid[0] & SD_MASK_24_31BITS) >> 24);
pcardinfo->card_cid.mid = tempbyte;
/* CID byte 1 */
tempbyte = (uint8_t)((sd_cid[0] & SD_MASK_16_23BITS) >> 16);
pcardinfo->card_cid.oid = (uint16_t)((uint16_t)tempbyte << 8);
/* CID byte 2 */
tempbyte = (uint8_t)((sd_cid[0] & SD_MASK_8_15BITS) >> 8);
pcardinfo->card_cid.oid |= (uint16_t)tempbyte;
/* CID byte 3 */
tempbyte = (uint8_t)(sd_cid[0] & SD_MASK_0_7BITS);
pcardinfo->card_cid.pnm0 = (uint32_t)((uint32_t)tempbyte << 24);
/* CID byte 4 */
tempbyte = (uint8_t)((sd_cid[1] & SD_MASK_24_31BITS) >> 24);
pcardinfo->card_cid.pnm0 |= (uint32_t)((uint32_t)tempbyte << 16);
/* CID byte 5 */
tempbyte = (uint8_t)((sd_cid[1] & SD_MASK_16_23BITS) >> 16);
pcardinfo->card_cid.pnm0 |= (uint32_t)((uint32_t)tempbyte << 8);
/* CID byte 6 */
tempbyte = (uint8_t)((sd_cid[1] & SD_MASK_8_15BITS) >> 8);
pcardinfo->card_cid.pnm0 |= (uint32_t)(tempbyte);
/* CID byte 7 */
tempbyte = (uint8_t)(sd_cid[1] & SD_MASK_0_7BITS);
pcardinfo->card_cid.pnm1 = tempbyte;
/* CID byte 8 */
tempbyte = (uint8_t)((sd_cid[2] & SD_MASK_24_31BITS) >> 24);
pcardinfo->card_cid.prv = tempbyte;
/* CID byte 9 */
tempbyte = (uint8_t)((sd_cid[2] & SD_MASK_16_23BITS) >> 16);
pcardinfo->card_cid.psn = (uint32_t)((uint32_t)tempbyte << 24);
/* CID byte 10 */
tempbyte = (uint8_t)((sd_cid[2] & SD_MASK_8_15BITS) >> 8);
pcardinfo->card_cid.psn |= (uint32_t)((uint32_t)tempbyte << 16);
/* CID byte 11 */
tempbyte = (uint8_t)(sd_cid[2] & SD_MASK_0_7BITS);
pcardinfo->card_cid.psn |= (uint32_t)tempbyte;
/* CID byte 12 */
tempbyte = (uint8_t)((sd_cid[3] & SD_MASK_24_31BITS) >> 24);
pcardinfo->card_cid.psn |= (uint32_t)tempbyte;
/* CID byte 13 */
tempbyte = (uint8_t)((sd_cid[3] & SD_MASK_16_23BITS) >> 16);
pcardinfo->card_cid.mdt = (uint16_t)((uint16_t)(tempbyte & 0x0F) << 8);
/* CID byte 14 */
tempbyte = (uint8_t)((sd_cid[3] & SD_MASK_8_15BITS) >> 8);
pcardinfo->card_cid.mdt |= (uint16_t)tempbyte;
/* CID byte 15 */
tempbyte = (uint8_t)(sd_cid[3] & SD_MASK_0_7BITS);
pcardinfo->card_cid.cid_crc = (tempbyte & 0xFE) >> 1;
/* CSD byte 0 */
tempbyte = (uint8_t)((sd_csd[0] & SD_MASK_24_31BITS) >> 24);
pcardinfo->card_csd.csd_struct = (tempbyte & 0xC0) >> 6;
/* CSD byte 1 */
tempbyte = (uint8_t)((sd_csd[0] & SD_MASK_16_23BITS) >> 16);
pcardinfo->card_csd.taac = tempbyte;
/* CSD byte 2 */
tempbyte = (uint8_t)((sd_csd[0] & SD_MASK_8_15BITS) >> 8);
pcardinfo->card_csd.nsac = tempbyte;
/* CSD byte 3 */
tempbyte = (uint8_t)(sd_csd[0] & SD_MASK_0_7BITS);
pcardinfo->card_csd.tran_speed = tempbyte;
/* CSD byte 4 */
tempbyte = (uint8_t)((sd_csd[1] & SD_MASK_24_31BITS) >> 24);
pcardinfo->card_csd.ccc = (uint16_t)((uint16_t)tempbyte << 4);
/* CSD byte 5 */
tempbyte = (uint8_t)((sd_csd[1] & SD_MASK_16_23BITS) >> 16);
pcardinfo->card_csd.ccc |= (uint16_t)((uint16_t)(tempbyte & 0xF0) >> 4);
pcardinfo->card_csd.read_bl_len = tempbyte & 0x0F;
/* CSD byte 6 */
tempbyte = (uint8_t)((sd_csd[1] & SD_MASK_8_15BITS) >> 8);
pcardinfo->card_csd.read_bl_partial = (tempbyte & 0x80) >> 7;
pcardinfo->card_csd.write_blk_misalign = (tempbyte & 0x40) >> 6;
pcardinfo->card_csd.read_blk_misalign = (tempbyte & 0x20) >> 5;
pcardinfo->card_csd.dsp_imp = (tempbyte & 0x10) >> 4;
if((SDIO_STD_CAPACITY_SD_CARD_V1_1 == cardtype) || (SDIO_STD_CAPACITY_SD_CARD_V2_0 == cardtype)){
/* card is SDSC card, CSD version 1.0 */
pcardinfo->card_csd.c_size = (uint32_t)((uint32_t)(tempbyte & 0x03) << 10);
/* CSD byte 7 */
tempbyte = (uint8_t)(sd_csd[1] & SD_MASK_0_7BITS);
pcardinfo->card_csd.c_size |= (uint32_t)((uint32_t)tempbyte << 2);
/* CSD byte 8 */
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_24_31BITS) >> 24);
pcardinfo->card_csd.c_size |= (uint32_t)((uint32_t)(tempbyte & 0xC0) >> 6);
pcardinfo->card_csd.vdd_r_curr_min = (tempbyte & 0x38) >> 3;
pcardinfo->card_csd.vdd_r_curr_max = tempbyte & 0x07;
/* CSD byte 9 */
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_16_23BITS) >> 16);
pcardinfo->card_csd.vdd_w_curr_min = (tempbyte & 0xE0) >> 5;
pcardinfo->card_csd.vdd_w_curr_max = (tempbyte & 0x1C) >> 2;
pcardinfo->card_csd.c_size_mult = (tempbyte & 0x03) << 1;
/* CSD byte 10 */
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_8_15BITS) >> 8);
pcardinfo->card_csd.c_size_mult |= (tempbyte & 0x80) >> 7;
/* calculate the card block size and capacity */
pcardinfo->card_blocksize = 1 << (pcardinfo->card_csd.read_bl_len);
pcardinfo->card_capacity = pcardinfo->card_csd.c_size + 1;
pcardinfo->card_capacity *= (1 << (pcardinfo->card_csd.c_size_mult + 2));
pcardinfo->card_capacity *= pcardinfo->card_blocksize;
}else if(SDIO_HIGH_CAPACITY_SD_CARD == cardtype){
/* card is SDHC card, CSD version 2.0 */
/* CSD byte 7 */
tempbyte = (uint8_t)(sd_csd[1] & SD_MASK_0_7BITS);
pcardinfo->card_csd.c_size = (uint32_t)((uint32_t)(tempbyte & 0x3F) << 16);
/* CSD byte 8 */
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_24_31BITS) >> 24);
pcardinfo->card_csd.c_size |= (uint32_t)((uint32_t)tempbyte << 8);
/* CSD byte 9 */
tempbyte = (uint8_t)((sd_csd[2] & SD_MASK_16_23BITS) >> 16);
pcardinfo->card_csd.c_size |= (uint32_t)tempbyte;
/* calculate the card block size and capacity */
pcardinfo->card_blocksize = 512;
pcardinfo->card_capacity = (pcardinfo->card_csd.c_size + 1) * 512 *1024;
}
pcardinfo->card_csd.erase_blk_en = (tempbyte & 0x40) >> 6;
pcardinfo->card_csd.sector_size = (tempbyte & 0x3F) << 1;
/* CSD byte 11 */
tempbyte = (uint8_t)(sd_csd[2] & SD_MASK_0_7BITS);
pcardinfo->card_csd.sector_size |= (tempbyte & 0x80) >> 7;
pcardinfo->card_csd.wp_grp_size = (tempbyte & 0x7F);
/* CSD byte 12 */
tempbyte = (uint8_t)((sd_csd[3] & SD_MASK_24_31BITS) >> 24);
pcardinfo->card_csd.wp_grp_enable = (tempbyte & 0x80) >> 7;
pcardinfo->card_csd.r2w_factor = (tempbyte & 0x1C) >> 2;
pcardinfo->card_csd.write_bl_len = (tempbyte & 0x03) << 2;
/* CSD byte 13 */
tempbyte = (uint8_t)((sd_csd[3] & SD_MASK_16_23BITS) >> 16);
pcardinfo->card_csd.write_bl_len |= (tempbyte & 0xC0) >> 6;
pcardinfo->card_csd.write_bl_partial = (tempbyte & 0x20) >> 5;
/* CSD byte 14 */
tempbyte = (uint8_t)((sd_csd[3] & SD_MASK_8_15BITS) >> 8);
pcardinfo->card_csd.file_format_grp = (tempbyte & 0x80) >> 7;
pcardinfo->card_csd.copy_flag = (tempbyte & 0x40) >> 6;
pcardinfo->card_csd.perm_write_protect = (tempbyte & 0x20) >> 5;
pcardinfo->card_csd.tmp_write_protect = (tempbyte & 0x10) >> 4;
pcardinfo->card_csd.file_format = (tempbyte & 0x0C) >> 2;
/* CSD byte 15 */
tempbyte = (uint8_t)(sd_csd[3] & SD_MASK_0_7BITS);
pcardinfo->card_csd.csd_crc = (tempbyte & 0xFE) >> 1;
return status;
}
/*!
\brief check if the command sent error occurs
\param[in] none
\param[out] none
\retval sd_error_enum
*/
static sd_error_enum cmdsent_error_check(void)
{
sd_error_enum status = SD_OK;
__IO uint32_t timeout = 100000;
/* check command sent flag */
while((RESET == sdio_flag_get(SDIO_FLAG_CMDSEND)) && (timeout > 0)){
--timeout;
}
/* command response is timeout */
if(0 == timeout){
status = SD_CMD_RESP_TIMEOUT;
return status;
}
/* if the command is sent, clear the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
return status;
}
/*!
\brief check if error type for R1 response
\param[in] resp: content of response
\param[out] none
\retval sd_error_enum
*/
static sd_error_enum r1_error_type_check(uint32_t resp)
{
sd_error_enum status = SD_ERROR;
/* check which error occurs */
if(resp & SD_R1_OUT_OF_RANGE){
status = SD_OUT_OF_RANGE;
}else if(resp & SD_R1_ADDRESS_ERROR){
status = SD_ADDRESS_ERROR;
}else if(resp & SD_R1_BLOCK_LEN_ERROR){
status = SD_BLOCK_LEN_ERROR;
}else if(resp & SD_R1_ERASE_SEQ_ERROR){
status = SD_ERASE_SEQ_ERROR;
}else if(resp & SD_R1_ERASE_PARAM){
status = SD_ERASE_PARAM;
}else if(resp & SD_R1_WP_VIOLATION){
status = SD_WP_VIOLATION;
}else if(resp & SD_R1_LOCK_UNLOCK_FAILED){
status = SD_LOCK_UNLOCK_FAILED;
}else if(resp & SD_R1_COM_CRC_ERROR){
status = SD_COM_CRC_ERROR;
}else if(resp & SD_R1_ILLEGAL_COMMAND){
status = SD_ILLEGAL_COMMAND;
}else if(resp & SD_R1_CARD_ECC_FAILED){
status = SD_CARD_ECC_FAILED;
}else if(resp & SD_R1_CC_ERROR){
status = SD_CC_ERROR;
}else if(resp & SD_R1_GENERAL_UNKNOWN_ERROR){
status = SD_GENERAL_UNKNOWN_ERROR;
}else if(resp & SD_R1_CSD_OVERWRITE){
status = SD_CSD_OVERWRITE;
}else if(resp & SD_R1_WP_ERASE_SKIP){
status = SD_WP_ERASE_SKIP;
}else if(resp & SD_R1_CARD_ECC_DISABLED){
status = SD_CARD_ECC_DISABLED;
}else if(resp & SD_R1_ERASE_RESET){
status = SD_ERASE_RESET;
}else if(resp & SD_R1_AKE_SEQ_ERROR){
status = SD_AKE_SEQ_ERROR;
}
return status;
}
/*!
\brief check if error occurs for R1 response
\param[in] cmdindex: the index of command
\param[out] none
\retval sd_error_enum
*/
static sd_error_enum r1_error_check(uint8_t cmdindex)
{
sd_error_enum status = SD_OK;
uint32_t reg_status = 0, resp_r1 = 0;
/* store the content of SDIO_STAT */
reg_status = SDIO_STAT;
while(!(reg_status & (SDIO_FLAG_CCRCERR | SDIO_FLAG_CMDTMOUT | SDIO_FLAG_CMDRECV))){
reg_status = SDIO_STAT;
}
/* check whether an error or timeout occurs or command response received */
if(reg_status & SDIO_FLAG_CCRCERR){
status = SD_CMD_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_CCRCERR);
return status;
}else if(reg_status & SDIO_FLAG_CMDTMOUT){
status = SD_CMD_RESP_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_CMDTMOUT);
return status;
}
/* check whether the last response command index is the desired one */
if(sdio_command_index_get() != cmdindex){
status = SD_ILLEGAL_COMMAND;
return status;
}
/* clear all the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
/* get the SDIO response register 0 for checking */
resp_r1 = sdio_response_get(SDIO_RESPONSE0);
if(SD_ALLZERO == (resp_r1 & SD_R1_ERROR_BITS)){
/* no error occurs, return SD_OK */
status = SD_OK;
return status;
}
/* if some error occurs, return the error type */
status = r1_error_type_check(resp_r1);
return status;
}
/*!
\brief check if error occurs for R2 response
\param[in] none
\param[out] none
\retval sd_error_enum
*/
static sd_error_enum r2_error_check(void)
{
sd_error_enum status = SD_OK;
uint32_t reg_status = 0;
/* store the content of SDIO_STAT */
reg_status = SDIO_STAT;
while(!(reg_status & (SDIO_FLAG_CCRCERR | SDIO_FLAG_CMDTMOUT | SDIO_FLAG_CMDRECV))){
reg_status = SDIO_STAT;
}
/* check whether an error or timeout occurs or command response received */
if(reg_status & SDIO_FLAG_CCRCERR){
status = SD_CMD_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_CCRCERR);
return status;
}else if(reg_status & SDIO_FLAG_CMDTMOUT){
status = SD_CMD_RESP_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_CMDTMOUT);
return status;
}
/* clear all the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
return status;
}
/*!
\brief check if error occurs for R3 response
\param[in] none
\param[out] none
\retval sd_error_enum
*/
static sd_error_enum r3_error_check(void)
{
sd_error_enum status = SD_OK;
uint32_t reg_status = 0;
/* store the content of SDIO_STAT */
reg_status = SDIO_STAT;
while(!(reg_status & (SDIO_FLAG_CCRCERR | SDIO_FLAG_CMDTMOUT | SDIO_FLAG_CMDRECV))){
reg_status = SDIO_STAT;
}
if(reg_status & SDIO_FLAG_CMDTMOUT){
status = SD_CMD_RESP_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_CMDTMOUT);
return status;
}
/* clear all the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
return status;
}
/*!
\brief check if error occurs for R6 response
\param[in] cmdindex: the index of command
\param[out] prca: a pointer that store the RCA of card
\retval sd_error_enum
*/
static sd_error_enum r6_error_check(uint8_t cmdindex, uint16_t *prca)
{
sd_error_enum status = SD_OK;
uint32_t reg_status = 0, response = 0;
/* store the content of SDIO_STAT */
reg_status = SDIO_STAT;
while(!(reg_status & (SDIO_FLAG_CCRCERR | SDIO_FLAG_CMDTMOUT | SDIO_FLAG_CMDRECV))){
reg_status = SDIO_STAT;
}
/* check whether an error or timeout occurs or command response received */
if(reg_status & SDIO_FLAG_CCRCERR){
status = SD_CMD_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_CCRCERR);
return status;
}else if(reg_status & SDIO_FLAG_CMDTMOUT){
status = SD_CMD_RESP_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_CMDTMOUT);
return status;
}
/* check whether the last response command index is the desired one */
if(sdio_command_index_get() != cmdindex){
status = SD_ILLEGAL_COMMAND;
return status;
}
/* clear all the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
/* get the SDIO response register 0 for checking */
response = sdio_response_get(SDIO_RESPONSE0);
if(SD_ALLZERO == (response & (SD_R6_COM_CRC_ERROR | SD_R6_ILLEGAL_COMMAND | SD_R6_GENERAL_UNKNOWN_ERROR))){
*prca = (uint16_t)(response >> 16);
return status;
}
/* if some error occurs, return the error type */
if(response & SD_R6_COM_CRC_ERROR){
status = SD_COM_CRC_ERROR;
}else if(response & SD_R6_ILLEGAL_COMMAND){
status = SD_ILLEGAL_COMMAND;
}else if(response & SD_R6_GENERAL_UNKNOWN_ERROR){
status = SD_GENERAL_UNKNOWN_ERROR;
}
return status;
}
/*!
\brief check if error occurs for R7 response
\param[in] none
\param[out] none
\retval sd_error_enum
*/
static sd_error_enum r7_error_check(void)
{
sd_error_enum status = SD_ERROR;
uint32_t reg_status = 0;
__IO uint32_t timeout = 100000;
/* store the content of SDIO_STAT */
reg_status = SDIO_STAT;
while(!(reg_status & (SDIO_FLAG_CCRCERR | SDIO_FLAG_CMDTMOUT | SDIO_FLAG_CMDRECV)) && (timeout > 0)){
reg_status = SDIO_STAT;
--timeout;
}
/* check the flags */
if((reg_status & SDIO_FLAG_CMDTMOUT) || (0 == timeout)){
status = SD_CMD_RESP_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_CMDTMOUT);
return status;
}
if(reg_status & SDIO_FLAG_CMDRECV){
status = SD_OK;
sdio_flag_clear(SDIO_FLAG_CMDRECV);
return status;
}
return status;
}
/*!
\brief get the state which the card is in
\param[in] none
\param[out] pcardstate: a pointer that store the card state
\arg SD_CARDSTATE_IDLE: card is in idle state
\arg SD_CARDSTATE_READY: card is in ready state
\arg SD_CARDSTATE_IDENTIFICAT: card is in identificat state
\arg SD_CARDSTATE_STANDBY: card is in standby state
\arg SD_CARDSTATE_TRANSFER: card is in transfer state
\arg SD_CARDSTATE_DATA: card is in data state
\arg SD_CARDSTATE_RECEIVING: card is in receiving state
\arg SD_CARDSTATE_PROGRAMMING: card is in programming state
\arg SD_CARDSTATE_DISCONNECT: card is in disconnect state
\arg SD_CARDSTATE_LOCKED: card is in locked state
\retval sd_error_enum
*/
static sd_error_enum sd_card_state_get(uint8_t *pcardstate)
{
sd_error_enum status = SD_OK;
__IO uint32_t reg_status = 0, response = 0;
/* send CMD13(SEND_STATUS), addressed card sends its status register */
sdio_command_response_config(SD_CMD_SEND_STATUS, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* store the content of SDIO_STAT */
reg_status = SDIO_STAT;
while(!(reg_status & (SDIO_FLAG_CCRCERR | SDIO_FLAG_CMDTMOUT | SDIO_FLAG_CMDRECV))){
reg_status = SDIO_STAT;
}
/* check whether an error or timeout occurs or command response received */
if(reg_status & SDIO_FLAG_CCRCERR){
status = SD_CMD_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_CCRCERR);
return status;
}else if(reg_status & SDIO_FLAG_CMDTMOUT){
status = SD_CMD_RESP_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_CMDTMOUT);
return status;
}
/* command response received, store the response command index */
reg_status = (uint32_t)sdio_command_index_get();
if(reg_status != (uint32_t)SD_CMD_SEND_STATUS){
status = SD_ILLEGAL_COMMAND;
return status;
}
/* clear all the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
/* get the SDIO response register 0 for checking */
response = sdio_response_get(SDIO_RESPONSE0);
*pcardstate = (uint8_t)((response >> 9) & 0x0000000F);
if(SD_ALLZERO == (response & SD_R1_ERROR_BITS)){
/* no error occurs, return SD_OK */
status = SD_OK;
return status;
}
/* if some error occurs, return the error type */
status = r1_error_type_check(response);
return status;
}
/*!
\brief configure the bus width mode
\param[in] buswidth: the bus width
\arg SD_BUS_WIDTH_1BIT: 1-bit bus width
\arg SD_BUS_WIDTH_4BIT: 4-bit bus width
\param[out] none
\retval sd_error_enum
*/
static sd_error_enum sd_bus_width_config(uint32_t buswidth)
{
sd_error_enum status = SD_OK;
/* check whether the card is locked */
if(sdio_response_get(SDIO_RESPONSE0) & SD_CARDSTATE_LOCKED){
status = SD_LOCK_UNLOCK_FAILED;
return status;
}
/* get the SCR register */
status = sd_scr_get(sd_rca, sd_scr);
if(SD_OK != status){
return status;
}
if(SD_BUS_WIDTH_1BIT == buswidth){
if(SD_ALLZERO != (sd_scr[1] & buswidth)){
/* send CMD55(APP_CMD) to indicate next command is application specific command */
sdio_command_response_config(SD_CMD_APP_CMD, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_APP_CMD);
if(SD_OK != status){
return status;
}
/* send ACMD6(SET_BUS_WIDTH) to define the data bus width */
sdio_command_response_config(SD_APPCMD_SET_BUS_WIDTH, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_APPCMD_SET_BUS_WIDTH);
if(SD_OK != status){
return status;
}
}else{
status = SD_OPERATION_IMPROPER;
}
return status;
}else if(SD_BUS_WIDTH_4BIT == buswidth){
if(SD_ALLZERO != (sd_scr[1] & buswidth)){
/* send CMD55(APP_CMD) to indicate next command is application specific command */
sdio_command_response_config(SD_CMD_APP_CMD, (uint32_t)sd_rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_APP_CMD);
if(SD_OK != status){
return status;
}
/* send ACMD6(SET_BUS_WIDTH) to define the data bus width */
sdio_command_response_config(SD_APPCMD_SET_BUS_WIDTH, (uint32_t)0x2, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_APPCMD_SET_BUS_WIDTH);
if(SD_OK != status){
return status;
}
}else{
status = SD_OPERATION_IMPROPER;
}
return status;
}else{
status = SD_PARAMETER_INVALID;
return status;
}
}
/*!
\brief get the SCR of corresponding card
\param[in] rca: RCA of a card
\param[out] pscr: a pointer that store the SCR content
\retval sd_error_enum
*/
static sd_error_enum sd_scr_get(uint16_t rca, uint32_t *pscr)
{
sd_error_enum status = SD_OK;
uint32_t temp_scr[2] = {0, 0}, idx_scr = 0;
/* send CMD16(SET_BLOCKLEN) to set block length */
sdio_command_response_config(SD_CMD_SET_BLOCKLEN, (uint32_t)8, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_SET_BLOCKLEN);
if(SD_OK != status){
return status;
}
/* send CMD55(APP_CMD) to indicate next command is application specific command */
sdio_command_response_config(SD_CMD_APP_CMD, (uint32_t)rca << SD_RCA_SHIFT, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_CMD_APP_CMD);
if(SD_OK != status){
return status;
}
/* configure SDIO data */
sdio_data_config(SD_DATATIMEOUT, (uint32_t)8, SDIO_DATABLOCKSIZE_8BYTES);
sdio_data_transfer_config(SDIO_TRANSMODE_BLOCK, SDIO_TRANSDIRECTION_TOSDIO);
sdio_dsm_enable();
/* send ACMD51(SEND_SCR) to read the SD configuration register */
sdio_command_response_config(SD_APPCMD_SEND_SCR, (uint32_t)0x0, SDIO_RESPONSETYPE_SHORT);
sdio_wait_type_set(SDIO_WAITTYPE_NO);
sdio_csm_enable();
/* check if some error occurs */
status = r1_error_check(SD_APPCMD_SEND_SCR);
if(SD_OK != status){
return status;
}
/* store the received SCR */
while(!sdio_flag_get(SDIO_FLAG_DTCRCERR | SDIO_FLAG_DTTMOUT | SDIO_FLAG_RXORE | SDIO_FLAG_DTBLKEND | SDIO_FLAG_STBITE)){
if(RESET != sdio_flag_get(SDIO_FLAG_RXDTVAL)){
*(temp_scr + idx_scr) = sdio_data_read();
++idx_scr;
}
}
/* check whether some error occurs */
if(RESET != sdio_flag_get(SDIO_FLAG_DTCRCERR)){
status = SD_DATA_CRC_ERROR;
sdio_flag_clear(SDIO_FLAG_DTCRCERR);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_DTTMOUT)){
status = SD_DATA_TIMEOUT;
sdio_flag_clear(SDIO_FLAG_DTTMOUT);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_RXORE)){
status = SD_RX_OVERRUN_ERROR;
sdio_flag_clear(SDIO_FLAG_RXORE);
return status;
}else if(RESET != sdio_flag_get(SDIO_FLAG_STBITE)){
status = SD_START_BIT_ERROR;
sdio_flag_clear(SDIO_FLAG_STBITE);
return status;
}
/* clear all the SDIO_INTC flags */
sdio_flag_clear(SDIO_MASK_INTC_FLAGS);
/* readjust the temp SCR value */
*(pscr) = ((temp_scr[1] & SD_MASK_0_7BITS) << 24) | ((temp_scr[1] & SD_MASK_8_15BITS) << 8) |
((temp_scr[1] & SD_MASK_16_23BITS) >> 8) | ((temp_scr[1] & SD_MASK_24_31BITS) >> 24);
*(pscr + 1) = ((temp_scr[0] & SD_MASK_0_7BITS) << 24) | ((temp_scr[0] & SD_MASK_8_15BITS) << 8) |
((temp_scr[0] & SD_MASK_16_23BITS) >> 8) | ((temp_scr[0] & SD_MASK_24_31BITS) >> 24);
return status;
}
/*!
\brief get the data block size
\param[in] bytesnumber: the number of bytes
\param[out] none
\retval data block size
\arg SDIO_DATABLOCKSIZE_1BYTE: block size = 1 byte
\arg SDIO_DATABLOCKSIZE_2BYTES: block size = 2 bytes
\arg SDIO_DATABLOCKSIZE_4BYTES: block size = 4 bytes
\arg SDIO_DATABLOCKSIZE_8BYTES: block size = 8 bytes
\arg SDIO_DATABLOCKSIZE_16BYTES: block size = 16 bytes
\arg SDIO_DATABLOCKSIZE_32BYTES: block size = 32 bytes
\arg SDIO_DATABLOCKSIZE_64BYTES: block size = 64 bytes
\arg SDIO_DATABLOCKSIZE_128BYTES: block size = 128 bytes
\arg SDIO_DATABLOCKSIZE_256BYTES: block size = 256 bytes
\arg SDIO_DATABLOCKSIZE_512BYTES: block size = 512 bytes
\arg SDIO_DATABLOCKSIZE_1024BYTES: block size = 1024 bytes
\arg SDIO_DATABLOCKSIZE_2048BYTES: block size = 2048 bytes
\arg SDIO_DATABLOCKSIZE_4096BYTES: block size = 4096 bytes
\arg SDIO_DATABLOCKSIZE_8192BYTES: block size = 8192 bytes
\arg SDIO_DATABLOCKSIZE_16384BYTES: block size = 16384 bytes
*/
static uint32_t sd_datablocksize_get(uint16_t bytesnumber)
{
uint8_t exp_val = 0;
/* calculate the exponent of 2 */
while(1 != bytesnumber){
bytesnumber >>= 1;
++exp_val;
}
return DATACTL_BLKSZ(exp_val);
}
/*!
\brief configure the GPIO of SDIO interface
\param[in] none
\param[out] none
\retval none
*/
static void gpio_config(void)
{
/* configure the PB.8, PB.9, PC.6, PC.7, PC.8, PC.9, PC.10, PC.11, PC.12 and PD.2 */
gpio_init(GPIOB, GPIO_MODE_AF_PP, GPIO_OSPEED_10MHZ, GPIO_PIN_8 | GPIO_PIN_9);
gpio_init(GPIOC, GPIO_MODE_AF_PP, GPIO_OSPEED_10MHZ, GPIO_PIN_6 | GPIO_PIN_7 | GPIO_PIN_8 |
GPIO_PIN_9 | GPIO_PIN_10 | GPIO_PIN_11 | GPIO_PIN_12);
gpio_init(GPIOD, GPIO_MODE_AF_PP, GPIO_OSPEED_10MHZ, GPIO_PIN_2);
}
/*!
\brief configure the RCU of SDIO and DMA
\param[in] none
\param[out] none
\retval none
*/
static void rcu_config(void)
{
rcu_periph_clock_enable(RCU_GPIOB);
rcu_periph_clock_enable(RCU_GPIOC);
rcu_periph_clock_enable(RCU_GPIOD);
rcu_periph_clock_enable(RCU_AF);
rcu_periph_clock_enable(RCU_SDIO);
rcu_periph_clock_enable(RCU_DMA1);
}
/*!
\brief configure the DMA1 channel 3 for transferring data
\param[in] srcbuf: a pointer point to a buffer which will be transferred
\param[in] bufsize: the size of buffer(not used in flow controller is peripheral)
\param[out] none
\retval none
*/
static void dma_transfer_config(uint32_t *srcbuf, uint32_t bufsize)
{
dma_parameter_struct dma_struct;
/* clear all the interrupt flags */
dma_flag_clear(DMA1, DMA_CH3, DMA_FLAG_G);
dma_flag_clear(DMA1, DMA_CH3, DMA_FLAG_FTF);
dma_flag_clear(DMA1, DMA_CH3, DMA_FLAG_HTF);
dma_flag_clear(DMA1, DMA_CH3, DMA_FLAG_ERR);
dma_channel_disable(DMA1, DMA_CH3);
dma_deinit(DMA1, DMA_CH3);
/* configure the DMA1 channel 3 */
dma_struct.periph_addr = (uint32_t)SDIO_FIFO_ADDR;
dma_struct.memory_addr = (uint32_t)srcbuf;
dma_struct.direction = DMA_MEMORY_TO_PERIPHERAL;
dma_struct.number = bufsize / 4;
dma_struct.periph_inc = DMA_PERIPH_INCREASE_DISABLE;
dma_struct.memory_inc = DMA_MEMORY_INCREASE_ENABLE;
dma_struct.periph_width = DMA_PERIPHERAL_WIDTH_32BIT;
dma_struct.memory_width = DMA_MEMORY_WIDTH_32BIT;
dma_struct.priority = DMA_PRIORITY_ULTRA_HIGH;
dma_init(DMA1, DMA_CH3, &dma_struct);
dma_circulation_disable(DMA1, DMA_CH3);
dma_channel_enable(DMA1, DMA_CH3);
}
/*!
\brief configure the DMA1 channel 3 for receiving data
\param[in] dstbuf: a pointer point to a buffer which will receive data
\param[in] bufsize: the size of buffer(not used in flow controller is peripheral)
\param[out] none
\retval none
*/
static void dma_receive_config(uint32_t *dstbuf, uint32_t bufsize)
{
dma_parameter_struct dma_struct;
/* clear all the interrupt flags */
dma_flag_clear(DMA1, DMA_CH3, DMA_FLAG_G);
dma_flag_clear(DMA1, DMA_CH3, DMA_FLAG_FTF);
dma_flag_clear(DMA1, DMA_CH3, DMA_FLAG_HTF);
dma_flag_clear(DMA1, DMA_CH3, DMA_FLAG_ERR);
dma_channel_disable(DMA1, DMA_CH3);
dma_deinit(DMA1, DMA_CH3);
/* configure the DMA1 channel 3 */
dma_struct.periph_addr = (uint32_t)SDIO_FIFO_ADDR;
dma_struct.memory_addr = (uint32_t)dstbuf;
dma_struct.direction = DMA_PERIPHERAL_TO_MEMORY;
dma_struct.number = bufsize / 4;
dma_struct.periph_inc = DMA_PERIPH_INCREASE_DISABLE;
dma_struct.memory_inc = DMA_MEMORY_INCREASE_ENABLE;
dma_struct.periph_width = DMA_PERIPHERAL_WIDTH_32BIT;
dma_struct.memory_width = DMA_MEMORY_WIDTH_32BIT;
dma_struct.priority = DMA_PRIORITY_ULTRA_HIGH;
dma_init(DMA1, DMA_CH3, &dma_struct);
dma_circulation_disable(DMA1, DMA_CH3);
dma_channel_enable(DMA1, DMA_CH3);
}
| 39.017178 | 177 | 0.640985 |
2ca5a9fef65718056d2072bbe649b5a8a9ce98a8 | 2,105 | h | C | features/lbpMap.h | csgcmai/lqp_face | db4ec672b352044692f8d1bcbfa181b35567b95c | [
"BSD-3-Clause"
] | 1 | 2020-04-06T16:31:56.000Z | 2020-04-06T16:31:56.000Z | features/lbpMap.h | csgcmai/lqp_face | db4ec672b352044692f8d1bcbfa181b35567b95c | [
"BSD-3-Clause"
] | null | null | null | features/lbpMap.h | csgcmai/lqp_face | db4ec672b352044692f8d1bcbfa181b35567b95c | [
"BSD-3-Clause"
] | null | null | null | /*
Copyright (c) 2013, Sibt ul Hussain <sibt.ul.hussain at gmail dot com>
All rights reserved.
Released under BSD License
-------------------------
For license terms please see license.lic
*/
/*version 2: Replaces the UINT with integer to cater for
* padding as -1 bin location means don't bin it....*/
#ifndef LBPMAP_H_
#define LBPMAP_H_
#include "util.hpp"
struct LBPMap {
void Init(UINT nx, UINT ny, int val = 0) {
nxpoints = nx;
nypoints = ny;
lbpmap.resize(nx * ny, val);
}
void ComputeHist(UINT, UINT, UINT, UINT, vector<REAL>&);
void ComputeHist(UINT, UINT, UINT, UINT, REAL*);
void GetMap(UINT, UINT, UINT, UINT, UINT*) const;
int & operator()(UINT x, UINT y) {
return lbpmap[y * nxpoints + x];
}
int operator()(UINT x, UINT y) const {
return lbpmap[y * nxpoints + x];
}
void PadFeatureMap(UINT padx, UINT pady);
void PrintMap();
void SetValue(int val) {
fill(lbpmap.begin(), lbpmap.end(), val);
}
void WriteMap(ofstream &) const;
int GetValue(const UINT &x, const UINT &y) {
return lbpmap[y * nxpoints + x];
}
int GetValueInBounds(const int &x, const int &y) {
int tx = MIN(MAX(x,0),nxpoints-1), ty = MIN(MAX(y,0),nypoints-1);
return lbpmap[ty * nxpoints + tx];
}
void WriteMap(UINT x, UINT y, UINT width, UINT height, const string &fname) {
ofstream ofile(fname.c_str(), ios::out);
for (UINT j = 0; j < height - 2; ++j) {
for (UINT i = 0; i < width - 2; ++i) {
ofile << GetValue(i + x, j + y) << " ";
}
ofile << endl;
}
ofile.close();
}
void WriteMap(const string &fname) const;
UINT nxpoints, nypoints;
vector<int> lbpmap;
};
template<class T>
struct GenericMap {
void Init(UINT nx, UINT ny, int val = 0) {
nxpoints = nx;
nypoints = ny;
map.resize(nx * ny, val);
}
T & operator()(UINT x, UINT y) {
return map[y * nxpoints + x];
}
T operator()(UINT x, UINT y) const {
return map[y * nxpoints + x];
}
void SetValue(int val) {
fill(map.begin(), map.end(), val);
}
T GetValue(const UINT &x, const UINT &y) {
return map[y * nxpoints + x];
}
UINT nxpoints, nypoints;
vector<T> map;
};
#endif /* LBPMAP_H_ */
| 25.987654 | 78 | 0.631829 |
d62c727121a28b1ff0362e14e774151c964d6c11 | 581 | h | C | src/cpfphig/thread_cond.h | philgagnon12/cpfphig | 6889ea2371d783b5ddfa405f7d424b24390d3ad9 | [
"MIT"
] | null | null | null | src/cpfphig/thread_cond.h | philgagnon12/cpfphig | 6889ea2371d783b5ddfa405f7d424b24390d3ad9 | [
"MIT"
] | null | null | null | src/cpfphig/thread_cond.h | philgagnon12/cpfphig | 6889ea2371d783b5ddfa405f7d424b24390d3ad9 | [
"MIT"
] | null | null | null | #ifndef CPFPHIG_THREAD_COND_H
#define CPFPHIG_THREAD_COND_H
#include "cpfphig/cpfphig.h"
#ifdef CPFPHIG_HAVE_PTHREAD_H
#include <pthread.h>
#endif
#ifdef CPFPHIG_HAVE_WINDOWS_H
#include <windows.h>
#endif
struct cpfphig_thread_cond
{
#ifdef CPFPHIG_HAVE_PTHREAD_H
pthread_cond_t* pthread_cond;
#endif
#ifdef CPFPHIG_HAVE_WINDOWS_H
CONDITION_VARIABLE* condition_variable;
#endif
};
#ifdef CPFPHIG_HAVE_PTHREAD_H
#define CPFPHIG_CONST_CPFPHIG_THREAD_COND { NULL }
#endif
#ifdef CPFPHIG_HAVE_WINDOWS_H
#define CPFPHIG_CONST_CPFPHIG_THREAD_COND { NULL }
#endif
#endif
| 16.6 | 50 | 0.819277 |
ca2bd2c4bcde39b1ee9eb7ebec8a0114e54989fa | 2,367 | c | C | compilers/pcc-e1kb/ipmce/tst/libtst/ctype.c | sergev/vak-opensource | e1912b83dabdbfab2baee5e7a9a40c3077349381 | [
"Apache-2.0"
] | 34 | 2016-10-29T19:50:34.000Z | 2022-02-12T21:27:43.000Z | compilers/pcc-e1kb/ipmce/tst/libtst/ctype.c | sergev/vak-opensource | e1912b83dabdbfab2baee5e7a9a40c3077349381 | [
"Apache-2.0"
] | null | null | null | compilers/pcc-e1kb/ipmce/tst/libtst/ctype.c | sergev/vak-opensource | e1912b83dabdbfab2baee5e7a9a40c3077349381 | [
"Apache-2.0"
] | 19 | 2017-06-19T23:04:00.000Z | 2021-11-13T15:00:41.000Z | /* # include <sys/code.h> */
# include "ctype.h"
char _ctype_[] = {
0,
_C, _C, _C, _C, _C, _C, _C, _C,
_C, _S, _S, _S, _S, _S, _C, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
_S|_P, _P, _P, _P, _P, _P, _P, _P,
_P, _P, _P, _P, _P, _P, _P, _P,
_N, _N, _N, _N, _N, _N, _N, _N,
_N, _N, _P, _P, _P, _P, _P, _P,
_P, _U|_X, _U|_X, _U|_X, _U|_X, _U|_X, _U|_X, _U,
_U, _U, _U, _U, _U, _U, _U, _U,
_U, _U, _U, _U, _U, _U, _U, _U,
_U, _U, _U, _P, _P, _P, _P, _P,
_P, _L|_X, _L|_X, _L|_X, _L|_X, _L|_X, _L|_X, _L,
_L, _L, _L, _L, _L, _L, _L, _L,
_L, _L, _L, _L, _L, _L, _L, _L,
_L, _L, _L, _P, _P, _P, _P, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
_C, _C, _C, _C, _C, _C, _C, _C,
#ifdef Ucode
_U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R,
_U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R,
_U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R,
_U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R,
#endif
_L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R,
_L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R,
_L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R,
_L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R, _L|_R,
#ifndef Ucode /* КОИ-8 */
_U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R,
_U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R,
_U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R,
_U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _U|_R, _C
#endif
};
| 43.036364 | 63 | 0.366286 |
a1274505167800c57c7ca16a31544e6c6f23d65e | 1,647 | h | C | drivers/staging/rtlwifi/phydm/rtl8822b/halhwimg8822b_bb.h | fergy/aplit_linux-5 | a6ef4cb0e17e1eec9743c064e65f730c49765711 | [
"MIT"
] | 3 | 2020-11-06T05:17:03.000Z | 2020-11-06T07:32:34.000Z | drivers/staging/rtlwifi/phydm/rtl8822b/halhwimg8822b_bb.h | fergy/aplit_linux-5 | a6ef4cb0e17e1eec9743c064e65f730c49765711 | [
"MIT"
] | null | null | null | drivers/staging/rtlwifi/phydm/rtl8822b/halhwimg8822b_bb.h | fergy/aplit_linux-5 | a6ef4cb0e17e1eec9743c064e65f730c49765711 | [
"MIT"
] | 1 | 2020-11-06T07:32:55.000Z | 2020-11-06T07:32:55.000Z | /* SPDX-License-Identifier: GPL-2.0 */
/******************************************************************************
*
* Copyright(c) 2007 - 2016 Realtek Corporation.
*
* Contact Information:
* wlanfae <wlanfae@realtek.com>
* Realtek Corporation, No. 2, Innovation Road II, Hsinchu Science Park,
* Hsinchu 300, Taiwan.
*
* Larry Finger <Larry.Finger@lwfinger.net>
*
*****************************************************************************/
/*Image2HeaderVersion: 3.2*/
#ifndef __INC_MP_BB_HW_IMG_8822B_H
#define __INC_MP_BB_HW_IMG_8822B_H
/******************************************************************************
* agc_tab.TXT
******************************************************************************/
void odm_read_and_config_mp_8822b_agc_tab(/* tc: Test Chip, mp: mp Chip*/
struct phy_dm_struct *dm);
u32 odm_get_version_mp_8822b_agc_tab(void);
/******************************************************************************
* phy_reg.TXT
******************************************************************************/
void odm_read_and_config_mp_8822b_phy_reg(/* tc: Test Chip, mp: mp Chip*/
struct phy_dm_struct *dm);
u32 odm_get_version_mp_8822b_phy_reg(void);
/******************************************************************************
* phy_reg_pg.TXT
******************************************************************************/
void odm_read_and_config_mp_8822b_phy_reg_pg(/* tc: Test Chip, mp: mp Chip*/
struct phy_dm_struct *dm);
u32 odm_get_version_mp_8822b_phy_reg_pg(void);
#endif
| 37.431818 | 80 | 0.419551 |
a2cfe0a33c2e1483d3e974c47952fc59aa3717ca | 990 | h | C | app/src/main/cpp/nbbook/tools/xml/BaseHandler.h | kartikhimself/NBReader | e423b13915578ab95c1683bfa7a70e59f19f2eab | [
"Apache-2.0"
] | 29 | 2020-02-21T16:11:59.000Z | 2022-02-09T08:49:29.000Z | app/src/main/cpp/nbbook/tools/xml/BaseHandler.h | kartikhimself/NBReader | e423b13915578ab95c1683bfa7a70e59f19f2eab | [
"Apache-2.0"
] | 5 | 2020-03-12T02:55:40.000Z | 2021-06-30T10:50:08.000Z | app/src/main/cpp/nbbook/tools/xml/BaseHandler.h | newbiechen1024/NBReader | e423b13915578ab95c1683bfa7a70e59f19f2eab | [
"Apache-2.0"
] | 6 | 2020-03-18T12:07:07.000Z | 2021-12-14T03:51:27.000Z | // author : newbiechen
// date : 2020-02-18 23:27
// description : 对经常用到的 XML 解析功能的封装
//
#ifndef NBREADER_BASEHANDLER_H
#define NBREADER_BASEHANDLER_H
#include "SAXHandler.h"
class BaseHandler : public SAXHandler {
public:
bool isNamespaceExist(const std::string &ns) const {
return mNamespaceMap.find(ns) != mNamespaceMap.end();
}
std::string getNamespaceUrl(const std::string &ns) const {
auto it = mNamespaceMap.find(ns);
if (it != mNamespaceMap.end()) {
return it->second;
}
return std::string();
}
void startNamespace(std::string &prefix, std::string &uri) override;
void endNamespace(std::string &prefix) override;
/**
* 是否是正确的 tag
* @return
*/
bool isRightTag(const std::string &ns, const std::string &expectTag, const std::string &actualTag) const;
private:
// 存储 namespace 的容器
std::map<std::string, std::string> mNamespaceMap;
};
#endif //NBREADER_BASEHANDLER_H
| 22.5 | 109 | 0.651515 |
4e08118010a8a0668880400ea18f72296eb3d3c8 | 306 | h | C | IDNetworkingExample/Authentication/AuthHandler.h | iandundas/MMRecordCoreDataExample | b8b340a3ad3c9f772450ec07bba3ff7ea5d83fbf | [
"MIT"
] | 2 | 2015-04-02T14:58:48.000Z | 2015-08-06T12:01:40.000Z | IDNetworkingExample/Authentication/AuthHandler.h | iandundas/MMRecordCoreDataExample | b8b340a3ad3c9f772450ec07bba3ff7ea5d83fbf | [
"MIT"
] | null | null | null | IDNetworkingExample/Authentication/AuthHandler.h | iandundas/MMRecordCoreDataExample | b8b340a3ad3c9f772450ec07bba3ff7ea5d83fbf | [
"MIT"
] | null | null | null | //
// Created by Ian Dundas on 13/02/14.
//
@import Foundation;
@interface AuthHandler : NSObject
+ (AuthHandler *)sharedManager;
- (BOOL)isLoggedIn;
- (void)clearLogin;
- (void)saveLoginWithAccessToken:(NSString *)accessToken refreshToken:(NSString *)refreshToken expiryDate:(NSDate *)expiryDate;
@end | 21.857143 | 127 | 0.751634 |
bde8f6af3f1ba4b78184673634997f7363d99620 | 130 | h | C | src/globals.h | jjbandit/bonsai | f6073484c14178aff6925eaf8caddf349174b27d | [
"WTFPL"
] | 13 | 2017-04-12T16:26:46.000Z | 2022-03-01T22:04:34.000Z | src/globals.h | jjbandit/bonsai | f6073484c14178aff6925eaf8caddf349174b27d | [
"WTFPL"
] | null | null | null | src/globals.h | jjbandit/bonsai | f6073484c14178aff6925eaf8caddf349174b27d | [
"WTFPL"
] | null | null | null | global_variable physics NullPhysics = {};
global_variable hotkeys NullHotkeys = {};
global_variable v2 InvalidMouseP = {-1, -1};
| 26 | 44 | 0.753846 |
0859122111d425458bd287ecae3a3c4c365276e1 | 107 | h | C | Pods/Headers/Public/FirebaseAnalytics/FirebaseAnalytics/FirebaseAnalytics.h | CUCWD/edx-app-ios | 97dfbc566e7459d32a19447e1f826cc53489c86c | [
"Apache-2.0"
] | 8 | 2017-05-09T03:50:29.000Z | 2018-11-07T02:49:21.000Z | Pods/Headers/Public/FirebaseAnalytics/FirebaseAnalytics/FirebaseAnalytics.h | CUCWD/edx-app-ios | 97dfbc566e7459d32a19447e1f826cc53489c86c | [
"Apache-2.0"
] | 17 | 2017-02-14T20:50:26.000Z | 2017-04-25T20:19:35.000Z | Pods/Headers/Public/FirebaseAnalytics/FirebaseAnalytics/FirebaseAnalytics.h | CUCWD/edx-app-ios | 97dfbc566e7459d32a19447e1f826cc53489c86c | [
"Apache-2.0"
] | 10 | 2017-05-25T08:23:22.000Z | 2018-11-07T04:07:50.000Z | ../../../../FirebaseAnalytics/Frameworks/frameworks/FirebaseAnalytics.framework/Headers/FirebaseAnalytics.h | 107 | 107 | 0.82243 |
bd0a51eab85365b2a9fa85c193e9d04a07be7bf0 | 2,213 | h | C | ext/dba/libcdb/cdb.h | janforman/php-5 | 32e824930026eabb2ab6557aaabca5cefb7f5329 | [
"PHP-3.01"
] | 54 | 2019-05-14T16:50:55.000Z | 2022-02-07T11:36:04.000Z | ext/dba/libcdb/cdb.h | janforman/php-5 | 32e824930026eabb2ab6557aaabca5cefb7f5329 | [
"PHP-3.01"
] | 15 | 2019-05-28T09:41:17.000Z | 2021-07-02T10:37:53.000Z | ext/dba/libcdb/cdb.h | janforman/php-5 | 32e824930026eabb2ab6557aaabca5cefb7f5329 | [
"PHP-3.01"
] | 19 | 2019-06-05T18:06:04.000Z | 2021-11-13T05:34:38.000Z | /*
+----------------------------------------------------------------------+
| PHP Version 5 |
+----------------------------------------------------------------------+
| Copyright (c) 1997-2016 The PHP Group |
+----------------------------------------------------------------------+
| This source file is subject to version 3.01 of the PHP license, |
| that is bundled with this package in the file LICENSE, and is |
| available through the world-wide-web at the following url: |
| http://www.php.net/license/3_01.txt |
| If you did not receive a copy of the PHP license and are unable to |
| obtain it through the world-wide-web, please send a note to |
| license@php.net so we can mail you a copy immediately. |
+----------------------------------------------------------------------+
| Author: Marcus Boerger <helly@php.net> |
+----------------------------------------------------------------------+
*/
/* $Id$ */
/* incorporated from D.J.Bernstein's cdb-0.75 (http://cr.yp.to/cdb.html)*/
#ifndef CDB_H
#define CDB_H
#include "uint32.h"
#define CDB_HASHSTART 5381
struct cdb {
php_stream *fp;
uint32 loop; /* number of hash slots searched under this key */
uint32 khash; /* initialized if loop is nonzero */
uint32 kpos; /* initialized if loop is nonzero */
uint32 hpos; /* initialized if loop is nonzero */
uint32 hslots; /* initialized if loop is nonzero */
uint32 dpos; /* initialized if cdb_findnext() returns 1 */
uint32 dlen; /* initialized if cdb_findnext() returns 1 */
};
uint32 cdb_hash(char *, unsigned int);
void cdb_free(struct cdb * TSRMLS_DC);
void cdb_init(struct cdb *, php_stream *fp TSRMLS_DC);
int cdb_read(struct cdb *, char *, unsigned int, uint32 TSRMLS_DC);
void cdb_findstart(struct cdb * TSRMLS_DC);
int cdb_findnext(struct cdb *, char *, unsigned int TSRMLS_DC);
int cdb_find(struct cdb *, char *, unsigned int TSRMLS_DC);
#define cdb_datapos(c) ((c)->dpos)
#define cdb_datalen(c) ((c)->dlen)
char *cdb_version();
#endif
| 38.155172 | 75 | 0.516493 |
d3c721853623747a4d9858597e6c0e528bdac0ae | 7,266 | h | C | AliPayForDebug/AliPayForDebug/AlipayWallet_Headers/ALPCardDetailViewController.h | ceekay1991/AliPayForDebug | 5795e5db31e5b649d4758469b752585e63e84d94 | [
"MIT"
] | 5 | 2020-03-29T12:08:37.000Z | 2021-05-26T05:20:11.000Z | AliPayForDebug/AliPayForDebug/AlipayWallet_Headers/ALPCardDetailViewController.h | ceekay1991/AliPayForDebug | 5795e5db31e5b649d4758469b752585e63e84d94 | [
"MIT"
] | null | null | null | AliPayForDebug/AliPayForDebug/AlipayWallet_Headers/ALPCardDetailViewController.h | ceekay1991/AliPayForDebug | 5795e5db31e5b649d4758469b752585e63e84d94 | [
"MIT"
] | 5 | 2020-04-17T03:24:04.000Z | 2022-03-30T05:42:17.000Z | //
// Generated by class-dump 3.5 (64 bit) (Debug version compiled Sep 17 2017 16:24:48).
//
// class-dump is Copyright (C) 1997-1998, 2000-2001, 2004-2015 by Steve Nygard.
//
#import "ALPViewController.h"
#import "ALPAuxiliaryViewDelegate-Protocol.h"
#import "APSKLaunchpadDelegate-Protocol.h"
#import "UIActionSheetDelegate-Protocol.h"
#import "UIScrollViewDelegate-Protocol.h"
@class ALPAuxiliaryView, ALPCMPassCollectionView, ALPCardActionsView, ALPCardBlockView, ALPCardCustomActionsView, ALPCardDetailModel, ALPCardHeaderView, ALPCardKeyInfoView, AMCH5ServiceController, APSKLaunchpad, AUCustomNavigationBar, AUNetErrorView, KABAOPRODPassShareInfo, NSString, UIScrollView;
@interface ALPCardDetailViewController : ALPViewController <APSKLaunchpadDelegate, UIActionSheetDelegate, UIScrollViewDelegate, ALPAuxiliaryViewDelegate>
{
_Bool _isRechargeRegionUnfold;
_Bool _route2OldCardDetailPage;
_Bool _unfoldRechargeRegionAuto;
_Bool _startByScheme;
_Bool _isResume;
_Bool _isFirstAppear;
_Bool _isQueryLocationing;
_Bool _isRefreseUI;
_Bool _isForceRefresh;
_Bool _isBackOrDestroy;
ALPCardDetailModel *_cardDetailModel;
KABAOPRODPassShareInfo *_shareInfo;
AMCH5ServiceController *_h5ServiceController;
AUNetErrorView *_errorView;
AUNetErrorView *_emptyView;
APSKLaunchpad *_pad;
NSString *_currentSpmId;
UIScrollView *_tableView;
ALPCardHeaderView *_headCell;
ALPCardActionsView *_actionsView;
ALPCardKeyInfoView *_keyInfoView;
ALPCardCustomActionsView *_customActionsView;
ALPCMPassCollectionView *_passView;
ALPAuxiliaryView *_auxiliaryView;
ALPCardBlockView *_bannerView;
ALPCardBlockView *_bottomTipView;
AUCustomNavigationBar *_navigationView;
}
@property(nonatomic) _Bool isBackOrDestroy; // @synthesize isBackOrDestroy=_isBackOrDestroy;
@property(nonatomic) _Bool isForceRefresh; // @synthesize isForceRefresh=_isForceRefresh;
@property(nonatomic) _Bool isRefreseUI; // @synthesize isRefreseUI=_isRefreseUI;
@property(nonatomic) _Bool isQueryLocationing; // @synthesize isQueryLocationing=_isQueryLocationing;
@property(nonatomic) _Bool isFirstAppear; // @synthesize isFirstAppear=_isFirstAppear;
@property(nonatomic) _Bool isResume; // @synthesize isResume=_isResume;
@property(nonatomic) _Bool startByScheme; // @synthesize startByScheme=_startByScheme;
@property(nonatomic) _Bool unfoldRechargeRegionAuto; // @synthesize unfoldRechargeRegionAuto=_unfoldRechargeRegionAuto;
@property(nonatomic) _Bool route2OldCardDetailPage; // @synthesize route2OldCardDetailPage=_route2OldCardDetailPage;
@property(nonatomic) _Bool isRechargeRegionUnfold; // @synthesize isRechargeRegionUnfold=_isRechargeRegionUnfold;
@property(retain, nonatomic) AUCustomNavigationBar *navigationView; // @synthesize navigationView=_navigationView;
@property(retain, nonatomic) ALPCardBlockView *bottomTipView; // @synthesize bottomTipView=_bottomTipView;
@property(retain, nonatomic) ALPCardBlockView *bannerView; // @synthesize bannerView=_bannerView;
@property(retain, nonatomic) ALPAuxiliaryView *auxiliaryView; // @synthesize auxiliaryView=_auxiliaryView;
@property(retain, nonatomic) ALPCMPassCollectionView *passView; // @synthesize passView=_passView;
@property(retain, nonatomic) ALPCardCustomActionsView *customActionsView; // @synthesize customActionsView=_customActionsView;
@property(retain, nonatomic) ALPCardKeyInfoView *keyInfoView; // @synthesize keyInfoView=_keyInfoView;
@property(retain, nonatomic) ALPCardActionsView *actionsView; // @synthesize actionsView=_actionsView;
@property(retain, nonatomic) ALPCardHeaderView *headCell; // @synthesize headCell=_headCell;
@property(retain, nonatomic) UIScrollView *tableView; // @synthesize tableView=_tableView;
@property(retain, nonatomic) NSString *currentSpmId; // @synthesize currentSpmId=_currentSpmId;
@property(retain, nonatomic) APSKLaunchpad *pad; // @synthesize pad=_pad;
@property(retain, nonatomic) AUNetErrorView *emptyView; // @synthesize emptyView=_emptyView;
@property(retain, nonatomic) AUNetErrorView *errorView; // @synthesize errorView=_errorView;
@property(retain, nonatomic) AMCH5ServiceController *h5ServiceController; // @synthesize h5ServiceController=_h5ServiceController;
@property(retain, nonatomic) KABAOPRODPassShareInfo *shareInfo; // @synthesize shareInfo=_shareInfo;
@property(retain, nonatomic) ALPCardDetailModel *cardDetailModel; // @synthesize cardDetailModel=_cardDetailModel;
- (void).cxx_destruct;
- (void)updateShareCard:(_Bool)arg1;
- (void)deleteShareCard;
- (void)showAlertConfirm:(id)arg1 confirmBlock:(CDUnknownBlockType)arg2 cancelBlock:(CDUnknownBlockType)arg3;
- (void)showPopupUpgrade;
- (void)checkUpdateFamilyCard;
- (void)queryLocation;
- (void)doDeleteCard;
- (void)loadCache;
- (void)actionSheet:(id)arg1 clickedButtonAtIndex:(long long)arg2;
- (void)sharingLaunchpadDidCancel:(id)arg1;
- (void)sharingLaunchpad:(id)arg1 didSelectChannel:(id)arg2;
- (void)showSharePanel;
- (void)back;
- (void)shareCard;
- (void)deleteCard;
- (void)auxiliaryViewDidSelectGridItem:(id)arg1 atIndex:(unsigned long long)arg2;
- (void)auxiliaryViewDidSelectListItem:(id)arg1 atIndex:(unsigned long long)arg2;
- (void)scrollViewDidScrollToTop:(id)arg1;
- (void)scrollViewDidEndDecelerating:(id)arg1;
- (void)scrollViewDidEndDragging:(id)arg1 willDecelerate:(_Bool)arg2;
- (void)scrollViewWillBeginDecelerating:(id)arg1;
- (void)scrollViewWillEndDragging:(id)arg1 withVelocity:(struct CGPoint)arg2 targetContentOffset:(inout struct CGPoint *)arg3;
- (void)scrollViewDidScroll:(id)arg1;
- (void)changeNavColorWithScroll:(id)arg1;
- (void)unfoldRechargeRegion:(_Bool)arg1 animated:(_Bool)arg2;
- (void)unfoldRechargeRegionNoOffset:(_Bool)arg1 animated:(_Bool)arg2;
- (void)layoutSubviews;
- (void)updateBottomTipView;
- (void)updateBannerView;
- (void)updateAuxiliaryRegion;
- (void)updatePassInfoRegion;
- (void)updateCustomActionsView;
- (void)updateKeyInfoView;
- (void)updateActionsView;
- (void)writeViewExposureLog:(id)arg1;
- (void)updateCardHeader;
- (void)onRightNavItemClicked;
- (void)addRightBarButtomForInfo:(id)arg1;
- (void)updateNavigationBar;
- (_Bool)canWriteExposure;
- (void)updateWithCardInfo:(_Bool)arg1;
- (void)resetDefaultNavi:(id)arg1;
- (void)hideErrorView;
- (void)showError:(id)arg1 withModel:(id)arg2;
- (void)showModel:(id)arg1;
- (void)showEmpty:(id)arg1;
- (void)didLoadModel:(id)arg1;
- (void)showLoading:(id)arg1;
- (void)showGuideDlg;
- (_Bool)needHighBright;
- (void)onHeadCellPan:(id)arg1;
- (id)templateId;
- (id)cardInfo;
- (void)showPopoverActionSheet;
- (void)stopTitleLoading;
- (void)startTitleLoading;
- (id)customNavigationBar;
- (_Bool)autohideNavigationBar;
- (id)pageParams;
- (id)pageSpm;
- (void)viewDidAppear:(_Bool)arg1;
- (void)viewWillDisappear:(_Bool)arg1;
- (void)viewWillDestroy;
- (void)viewDidLayoutSubviews;
- (void)viewWillAppear:(_Bool)arg1;
- (void)viewDidLoad;
- (void)dealloc;
- (id)initWithQuery:(id)arg1 params:(id)arg2;
- (double)unfoldSpaceHeight;
- (void)setShowPageByScheme;
// Remaining properties
@property(readonly, copy) NSString *debugDescription;
@property(readonly, copy) NSString *description;
@property(readonly) unsigned long long hash;
@property(readonly) Class superclass;
@end
| 47.181818 | 298 | 0.801679 |
d9503106836362e82f333f6041f8061e4e4cfb08 | 605 | h | C | include/raytracer/shapes/Shape.h | charlespina/raytracer | 9ffe9deebb3106f9539ba68787d47a0f4c305282 | [
"MIT"
] | null | null | null | include/raytracer/shapes/Shape.h | charlespina/raytracer | 9ffe9deebb3106f9539ba68787d47a0f4c305282 | [
"MIT"
] | null | null | null | include/raytracer/shapes/Shape.h | charlespina/raytracer | 9ffe9deebb3106f9539ba68787d47a0f4c305282 | [
"MIT"
] | null | null | null | #ifndef RT_IOBJECT_H
#define RT_IOBJECT_H
#include "raytracer/AxisAlignedBoundingBox.h"
#include "raytracer/materials/SurfaceInteraction.h"
#include "raytracer/Ray.h"
namespace raytracer {
class Shape {
public:
virtual ~Shape() {};
virtual bool hit(const Ray& r, float t_min, float t_max, SurfaceInteraction &record) const = 0;
virtual bool bounding_box(float t0, float t1, AxisAlignedBoundingBox& aabb) const = 0;
virtual float pdf_value(const Vec3 &o, const Vec3 &dir) const { return 0.0f; }
virtual Vec3 random(const Vec3 &origin) const { return Vec3::UnitX(); }
};
} // raytracer
#endif | 28.809524 | 97 | 0.743802 |
03de27c91ef699466747fbf019b592dcf0f40988 | 50,774 | c | C | update.test.c | intraDAT/VShop2 | 028cde36a0462ffde5d244f40d45a1bca63c3957 | [
"Apache-2.0"
] | null | null | null | update.test.c | intraDAT/VShop2 | 028cde36a0462ffde5d244f40d45a1bca63c3957 | [
"Apache-2.0"
] | null | null | null | update.test.c | intraDAT/VShop2 | 028cde36a0462ffde5d244f40d45a1bca63c3957 | [
"Apache-2.0"
] | null | null | null | /*
*
* update program for
*
* updates from pre vshop version 1.6.1
*
*/
/* -------------------------------------------------- */
/*
*
* defines
*
*/
#define PROVIDER
#define VERSION "161"
#define CHMAP (S_IRWXU | S_IRUSR | S_IWUSR | S_IXUSR | S_IRWXG | S_IRGRP | S_IWGRP | S_IXGRP | S_IRWXO | S_IROTH | S_IWOTH | S_IXOTH)
#define COMMENT 1
#ifndef TRUE
#define TRUE 1
#endif
#ifndef FALSE
#define FALSE 0
#endif
#define OLD 1
#define NEW 2
#ifndef S_IFMT
#define S_IFMT 00170000
#endif
#ifndef S_IFLNK
#define S_IFLNK 0120000
#endif
/* -------------------------------------------------- */
/*
*
* includes
*
*/
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <pwd.h>
/*#include <statbuf.h>*/
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
/* #include <asm/errno.h> */
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/wait.h>
/* -------------------------------------------------- */
/*
*
* structures
*
*/
typedef struct tableStruct
{
char DBROOT[256];
char DBUSER[256];
char DBPASSWORD[256];
char TEMPLATEROOT[256];
char BASEREF[256];
char PROFILING[2];
char TIMEOUTURL[512];
char DBERRORURL[512];
char MAILSERVER[100];
char MAILFROM[256];
char EURODM[24];
char EUROUSD[24];
char RTF[256];
char ADMINREAD[256];
struct stat *AdminRights;
struct stat *DokRights;
} tstrT;
typedef struct vsStruct
{
char *SHOPNAME;
struct vsStruct *next;
} vsstrT;
typedef struct fList
{
char *name;
ino_t inode;
struct fList *next;
} flistT;
typedef struct inoList
{
ino_t inode;
struct inoList *next;
} inostrT;
/* -------------------------------------------------- */
/*
*
* global variables
*
*/
int count = 0;
int stage = 0;
int vshopfd = 0;
char tableNam[7];
vsstrT *gvsBufferPtr = NULL;
char *findPath[3] = {"/etc", "/sbin", "/var"};
/* -------------------------------------------------- */
/*
*
* prototypes
*
*/
int AdabasRun (tstrT *);
int Addstr (char *, char *, int, char *, int);
int RecChmod (char *, struct stat *);
int RecRem (char *);
int Libc ();
int Variables (char *, int, char *, tstrT *);
int VariSearch (char *, int, char *, int, int, char *, char *);
int VsadFile (vsstrT *);
char *GetNextFile (flistT *);
char *VsadNext ();
struct stat *AdminRights (char *);
struct stat *DokRights (char *);
flistT *FindFile (char *, char *, flistT *, inostrT *);
int UpSystem (char *);
int ShSystem (char *);
void UpExit (int);
/* -------------------------------------------------- */
int
main (int argc, char **argv)
{
extern char **environ;
int adabasState;
int bufLen;
int forkRes;
int i;
int oldNewDoc;
int readres;
int unreadlast;
int unread;
char actwd[256];
char cgiPath[256];
char instDir[256];
char startwd[256];
char systemStr[1024];
char table[64];
char testBuf[512];
char *buffer;
char *testPtr;
char *s1Ptr;
char *vsPtr;
off_t foffset;
uid_t iam;
struct stat fstat;
struct stat fstat0;
struct dirent *testdirent;
struct passwd *pwstr;
tstrT tableVar;
vsstrT *vsBuffer;
if (argc > 1)
Help ();
adabasState = FALSE;
stage = 0;
memset (&tableNam[0], '\0', sizeof (tableNam));
sprintf (&tableNam[0], "vshop");
/* ***** test if we are superuser ***** */
printf ("\n\n\t Es wird ueberprueft ob das Programm ueber \"root\" Rechte verfuegt ...\n");
if ((pwstr = (struct passwd *) getpwnam ("root")) == NULL)
{
printf ("\n\n(001) error: can't get passwd file entry for \"root\",\n exiting update program !\n");
UpExit (-1);
}
iam = getuid ();
if (pwstr->pw_uid != iam)
{
printf ("\n\n(002) error: become \"root\" before you start the update program,\n exiting update program !\n");
UpExit (-1);
}
/* ***** get the directory where update is installed ***** */
memset (&testBuf[0], '\0', sizeof (testBuf));
if (argv[0][0] != '/')
{
if (getcwd(&testBuf[0], sizeof (testBuf)) == NULL)
{
printf ("\n\n(003) error: internal error testBuf to small to hold path for actual working directory,\n exiting update program !\n");
UpExit (-1);
}
strcat (&testBuf[0], "/");
}
strcat (&testBuf[0], argv[0]);
s1Ptr = (char *) strrchr (&testBuf[0], '/');
*(s1Ptr + 1) = '\0';
if (chdir ((const char *) &testBuf[0]) != 0)
{
printf ("\n\n(004) error: internal error path %s not found,\n exiting update program !\n", &testBuf[0]);
UpExit (-1);
}
memset (&instDir[0], '\0', sizeof (instDir));
if (getcwd (&instDir[0], sizeof (instDir)) != &instDir[0])
{
printf ("\n\n(005) error: could not get actuell working directory,\n exiting update program !\n");
UpExit (-1);
}
/* ***** open the file "/etc/vshop.conf" and read out variose usefull variables ***** */
printf ("\n\n\t Es werden nun verschiedene Variablen aus der Datei \n \"/etc/vshop.conf\" ausgelesen ...\n");
if ((vshopfd = open("/etc/vshop.conf", O_RDWR | O_APPEND | O_SYNC)) == -1)
{
printf ("\n\n(006) error: can't open \"/etc/vshop.conf\" file does not exist or no permision,\n exiting update program !\n");
UpExit (-1);
}
if ((foffset = lseek (vshopfd, 0, SEEK_END)) <= 0)
{
printf ("\n\n(007) error: can't read from \"/etc/vshop.conf\" or file corrupted,\n exiting update program !\n");
UpExit (-1);
}
bufLen = foffset + 1;
if ((buffer = (char *) calloc (1, bufLen)) == NULL)
{
printf ("\n\n(008) error: can't allocat buffer memory,\n exiting update program !\n");
UpExit (-1);
}
if (lseek (vshopfd, 0, SEEK_SET) == -1)
{
printf ("\n\n(009) error: can't read from \"/etc/vshop.conf\" or file corrupted,\n exiting update program !\n");
UpExit (-1);
}
unreadlast = 0;
unread = foffset;
readres = 0;
while (readres < foffset)
{
unread = (int ) read (vshopfd, (void *) buffer, (size_t ) unread);
if (unreadlast > unread)
{
printf ("\n\n(010) error: in reading \"/etc/vshop.conf\" file,\n exiting update program !\n");
UpExit (-1);
}
readres += unread;
unreadlast = unread;
}
#ifndef PROVIDER
memset (&tableNam[0], '\0', sizeof (tableNam));
sprintf (&tableNam[0], "vshop");
#endif
#ifdef PROVIDER
if (VsadFile (vsBuffer) != 0)
{
printf ("\n\n(011) error: in reading \"/opt/vshop/vsadmin.conf\" file,\n exiting update program !\n");
UpExit (-1);
}
while ((vsPtr = VsadNext ()) != NULL)
{
memset (&tableNam[0], '\0', sizeof (tableNam));
strcpy (&tableNam[0], vsPtr);
#endif
memset (&tableVar, '\0', sizeof (tableVar));
if (Variables (buffer, bufLen, &tableNam[0], &tableVar) == -1)
{
printf ("\n\n(012) error: in reading \"/etc/vshop.conf\" file,\n exiting update program !\n");
UpExit (-1);
}
/* ***** test if the adabas database is running ***** */
if (adabasState == FALSE)
{
printf ("\n\n\t Fuer das Update ist es notwendig, dass die Datenbank \n vshop gestartet ist,sollte dies noch nicht geschehen sein \n wird versucht das Start Script \"vshopdb\" auszufuehren ...\n");
adabasState = TRUE;
}
if (AdabasRun(&tableVar) != 1)
{
printf ("\n\n(013) error: it is nececarry that database \"vshop\" is running,\n \
please start the database, \n \
the programm was not able to atomaticly detect the startup script.\n exiting update program !\n");
UpExit (-1);
}
/* ***** first get the actual working directory "startwd" ***** */
if ((testPtr = getcwd (&startwd[0], 255)) != &startwd[0])
{
printf ("\n\n(014) error: can't get actual working directory,\n exiting update program !\n");
UpExit (-1);
}
#ifdef PROVIDER
/* ***** test if directory '/opt' is present ***** */
memset (&fstat, '\0', sizeof (struct stat));
if (stat ("/opt", &fstat) != 0)
{
printf ("\n\n(015) error: directory \"/opt\" doase not exist, don't know where to find the admin region\n ,\n exiting update program !\n");
UpExit (-1);
}
memset (&fstat, '\0', sizeof (struct stat));
if (stat ("/opt/vshop", &fstat) != 0)
{
printf ("\n\n(016) error: directory \"/opt\" doase not exist, don't know where to find the admin region\n ,\n exiting update program !\n");
UpExit (-1);
}
#endif
/* ***** determin the rights, set on files in the admin zone ***** */
if ((tableVar.AdminRights = AdminRights(&tableVar.TEMPLATEROOT[0])) == 0)
{
printf ("\n\n(017) error: directory \"%s/admin\" does not exist or access denied,\n exiting update program !\n", &tableVar.TEMPLATEROOT[0]);
UpExit (-1);
}
if ((tableVar.DokRights = DokRights(&tableVar.TEMPLATEROOT[0])) == 0)
{
printf ("\n\n(018) error: directory \"%s/dok\" does not exist or access denied,\n exiting update program !\n", &tableVar.TEMPLATEROOT[0]);
UpExit (-1);
}
/* ***** create a backup of admin region ***** */
/* ***** create backup statement ***** */
printf ("\n\n\tErstellen eines Backups des alten Administrationsbereichs \n unter %s ...\n", &tableVar.TEMPLATEROOT[0]);
if (chdir (&tableVar.TEMPLATEROOT[0]) != 0)
{
printf ("\n\n(019) error: could not change working directory to \"%s\" ,\n exiting update program !\n", &tableVar.TEMPLATEROOT[0]);
UpExit (-1);
}
oldNewDoc = OLD;
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "./update-backup.%s.tar.gz", VERSION);
if (stat (&systemStr[0], &fstat0) == -1)
{
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "tar zcf ./update-backup.%s.tar.gz ./admin ./dok", VERSION);
if (UpSystem (&systemStr[0]) != 0)
{
printf ("\n\n(020) error: could not backup your old admin and dok directorys\n under %s ,\n try to tar vshop_documentation directory!\n", &tableVar.TEMPLATEROOT[0]);
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "tar zcf ./update-backup.%s.tar.gz ./admin ./vshop_documentation", VERSION);
if (UpSystem (&systemStr[0]) != 0)
{
printf ("\n\n(021) error: could not backup your vshop_documentation directory,\n exiting update program !\n");
UpExit (-1);
}
else
oldNewDoc = NEW;
}
}
/* ***** wipe out the old admin region ***** */
/* ***** remove old admin region statement ***** */
printf ("\n\n\tLoeschen des alten Administrations- und Dokumentationsbereiches...\n");
memset (&systemStr[0], '\0', sizeof (systemStr));
if (oldNewDoc = OLD)
sprintf (&systemStr[0], "rm -fr %s/admin %s/dok", &tableVar.TEMPLATEROOT[0], &tableVar.TEMPLATEROOT[0]);
else
sprintf (&systemStr[0], "rm -fr %s/admin %s/vshop_documentation", &tableVar.TEMPLATEROOT[0], &tableVar.TEMPLATEROOT[0]);
if (ShSystem (&systemStr[0]) != 0)
{
printf ("\n\n(022) error: could not remove your old admin and dok directorys under %s ,\n exiting update program !\n", &tableVar.TEMPLATEROOT[0]);
UpExit (-1);
}
/* ***** for recovery reasons we reached stage 1 ***** */
stage = 1;
if (chdir ((const char *) &tableVar.TEMPLATEROOT[0]) != 0)
{
printf ("\n\n(023) error: could not change working directory to %s ,\n exiting update program !\n", &tableVar.TEMPLATEROOT[0]);
UpExit (-1);
}
/* ***** extract the new admin region ***** */
/* ***** extrtact statement ***** */
printf ("\n\n\t Entpacken des neuen Administrations Bereiches ...\n");
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "tar zxvf %s/vshtml%supdate.tgz", &instDir[0], VERSION);
if (ShSystem (&systemStr[0]) != 0)
{
printf ("\n\n(024) error: error in tar command,\n exiting update program !\n");
UpExit (-1);
}
if (setenv ("DBROOT", &tableVar.DBROOT[0], 1) != 0)
{
printf ("\n\n(025) error: could not set environment variable \"DBROOT\",\n exiting update program !\n");
UpExit (-1);
}
if (chdir ((const char *) &tableVar.DBROOT[0]) != 0)
{
printf ("\n\n(026) error: could not change directory to %s,\n exiting update program !\n", &tableVar.DBROOT[0]);
UpExit (-1);
}
/* ***** set access rights for admin region ***** */
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s/admin", &tableVar.TEMPLATEROOT[0]);
if (RecChmod (&systemStr[0], tableVar.AdminRights) != 0)
{
printf ("\n\n(027) error: could not set access rights under %s/admin,\n exiting update program !\n", &tableVar.TEMPLATEROOT[0]);
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s/vshop_documentation", &tableVar.TEMPLATEROOT[0]);
if (RecChmod (&systemStr[0], tableVar.DokRights) != 0)
{
printf ("\n\n(028) error: could not set access rights under %s/vshop_documentation,\n exiting update program !\n", &tableVar.TEMPLATEROOT[0]);
UpExit (-1);
}
/* ***** get the database working ***** */
/* ***** database startup statement ***** */
printf ("\n\n\t Anpassen der Datenbank ...\n");
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s/bin/xload -d vshop -u %s,%s -S ADABAS -b %s/vsdb%supdate", &tableVar.DBROOT[0], \
&tableVar.DBUSER[0], &tableVar.DBPASSWORD[0], &instDir[0], VERSION);
system (&systemStr[0]);
/*
if (system (&systemStr[0]) != 0)
{
printf ("\n\n(029) error: error in execution of xload,\n exiting update program !\n");
UpExit (-1);
}
*/
/* ***** update the database ***** */
printf ("\n\n________________________________________\n\n \
\t UPDATE des vshops \"%s\"\n\n", &tableNam[0]);
while (TRUE)
{
printf ("\t Bitte geben sie den Pfad des CGI-Verzeichnisses\n \
\t fuer den shop \"%s\" an:\n\n\t>", &tableNam[0], &tableNam[0]);
memset (&cgiPath[0], '\0', sizeof (cgiPath));
fgets (&cgiPath[0], sizeof (cgiPath), (FILE *) stdin);
printf ("\n\n________________________________________\n\n");
while ((cgiPath[strlen (&cgiPath[0]) - 1] == '\n') ||
(cgiPath[strlen (&cgiPath[0]) - 1] == '\t') ||
(cgiPath[strlen (&cgiPath[0]) - 1] == ' '))
cgiPath[strlen (&cgiPath[0]) - 1] = '\0';
memset (&fstat, '\0', sizeof (struct stat));
memset (&fstat0, '\0', sizeof (struct stat));
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s/%s", &cgiPath[0], &tableNam[0]);
if ((stat ((const char *) &cgiPath[0], &fstat) != 0) ||
(stat ((const char *) &systemStr[0], &fstat0) != 0))
printf ("\n\n\t Das Verzeichniss \"%s\" existiert nicht,\n\t \
oder ist nicht das korrekte CGI-Verzeichniss \n\t \
fuer \"%s\"\n\n", &cgiPath[0], &tableNam[0]);
else
break;
}
/* ***** copy the right vshop engine in place ***** */
/* ***** vshop 'engine' statement ***** */
printf ("\n\n\t Kopieren der Vshop \"engine\"\n");
memset (&testBuf[0], '\0', sizeof (testBuf));
sprintf (&testBuf[0], "libc.so.6");
if (Libc (&testBuf[0]) == 0)
{
if (chdir (&tableVar.TEMPLATEROOT[0]) != 0)
{
printf ("\n\n(030) error: error could not change working directory to \"%s\",\n exiting update program !\n", &tableVar.TEMPLATEROOT[0]);
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "cp -f %s/engine/libc6/vshop %s/%s", &instDir[0], &cgiPath[0], &tableNam[0]);
if (UpSystem (&systemStr[0]) != 0)
{
printf ("\n\n(031) error: error in execution of cp command,\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s/%s", &cgiPath[0], &tableNam[0]);
setreuid (getuid(), getuid ());
setregid (getgid(), getgid ());
chown (&systemStr[0], (tableVar.AdminRights)->st_uid, (tableVar.AdminRights)->st_gid);
setreuid (getuid(), (tableVar.AdminRights)->st_uid);
setregid (getgid(), (tableVar.AdminRights)->st_gid);
chmod (&systemStr[0], (tableVar.AdminRights)->st_mode & CHMAP);
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "cp -f %s/engine/libc6/vsl-compile %s/vsl-compile", &instDir[0], &cgiPath[0]);
if (ShSystem (&systemStr[0]) != 0)
{
printf ("\n\n(032) error: error in execution of cp command,\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s/vsl-compile", &cgiPath[0]);
setreuid (getuid(), getuid ());
setregid (getgid(), getgid ());
chown (&systemStr[0], (tableVar.AdminRights)->st_uid, (tableVar.AdminRights)->st_gid);
setreuid (getuid(), (tableVar.AdminRights)->st_uid);
setregid (getgid(), (tableVar.AdminRights)->st_gid);
chmod (&systemStr[0], (tableVar.AdminRights)->st_mode & CHMAP);
}
else
{
memset (&testBuf[0], '\0', sizeof (testBuf));
sprintf (&testBuf[0], "libc.so.5");
if (Libc (&testBuf[0]) == 0)
{
if (chdir (&tableVar.TEMPLATEROOT[0]) != 0)
{
printf ("\n\n(033) error: error could not change working directory to \"%s\",\n exiting update program !\n", &tableVar.TEMPLATEROOT[0]);
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "cp -f %s/engine/libc5/vshop %s/%s", &instDir[0], &cgiPath[0], &tableNam[0]);
if (UpSystem (&systemStr[0]) != 0)
{
printf ("\n\n(034) error: error in execution of command cp,\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s/%s", &cgiPath[0], &tableNam[0]);
setreuid (getuid(), (tableVar.AdminRights)->st_uid);
setregid (getgid(), (tableVar.AdminRights)->st_gid);
chmod (&systemStr[0], (tableVar.AdminRights)->st_mode & CHMAP);
setreuid (getuid(), getuid ());
setregid (getgid(), getgid ());
chown (&systemStr[0], (tableVar.AdminRights)->st_uid, (tableVar.AdminRights)->st_gid);
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "cp -f %s/engine/libc5/vsl-compile %s/vsl-compile", &instDir[0], &cgiPath[0]);
if (UpSystem (&systemStr[0]) != 0)
{
printf ("\n\n(035) error: error in execution of command cp,\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s/vsl-compile", &cgiPath[0]);
setreuid (getuid(), (tableVar.AdminRights)->st_uid);
setregid (getgid(), (tableVar.AdminRights)->st_gid);
chmod (&systemStr[0], (tableVar.AdminRights)->st_mode & CHMAP);
setreuid (getuid(), getuid ());
setregid (getgid(), getgid ());
chown (&systemStr[0], (tableVar.AdminRights)->st_uid, (tableVar.AdminRights)->st_gid);
}
else
{
printf ("\n\n(036) error: can't determin your libc version,\n exiting update program !\n");
UpExit (-1);
}
}
/* ***** removing all user '.p' files ***** */
/* ***** remove statement ***** */
printf ("\n\n\tLoeschen aller \"user\" .p Dateien unter %s ...\n", &tableVar.TEMPLATEROOT[0]);
if (RecRem (&tableVar.TEMPLATEROOT[0]) != 0)
{
printf ("\n\n(037) error: can't remove all user \".p\" files,\n exiting update program !\n");
UpExit (-1);
}
/* ***** for recovery reasons we reached stage 2 ***** */
stage = 2;
/* ***** search for 'productlink' in TEMPLATEROOT ***** */
/* ***** search statement ***** */
printf ("\n\n\tSuchen nach \"productlink\" in allen Textdateien\n unter %s ...\n", &tableVar.TEMPLATEROOT[0]);
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "grep --line-number -2 productlink `find %s/ -regex .*\\.[htm,html,HTM,HTML]$` > %s/productlink.log 2> /dev/null", &tableVar.TEMPLATEROOT[0], &tableVar.TEMPLATEROOT[0]);
ShSystem (&systemStr[0]);
/* --- O D
if (system (&systemStr[0]) != 0)
{
printf ("\n\n(038) error: error in execution of command string,\n exiting update program !\n");
UpExit (-1);
}
O D --- */
#ifdef PROVIDER
/* ***** add additional configuration statments to '/etc/vshop.conf' ***** */
/* ***** configuration statement ***** */
printf ("\n\n\tErgaenzen von /etc/vshop.conf ...\n");
i = 0;
while (i < strlen (tableNam))
{
table[i] = toupper (*(tableNam + i));
i++;
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s_PROFILING", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "1", vshopfd, "_PROFILING ", 0) != 0)
{
printf ("\n\n(039) error: could not add PROFILING string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s_TIMEOUTURL", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "http://your.server.name/...", vshopfd, "_TIMEOUTURL ", COMMENT) != 0)
{
printf ("\n\n(040) error: could not add TIMEOUTURL string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s_DBERRORURL", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "http://your.server.name/...", vshopfd, "_DBERRORURL ", COMMENT) != 0)
{
printf ("\n\n(041) error: could not add DBERRORURL string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0],"%s_MAILSERVER", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "your.mail.server", vshopfd, "_MAILSERVER ", COMMENT) != 0)
{
printf ("\n\n(042) error: could not add MAILSERVER string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s_MAILFROM", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "shop@your.server.name", vshopfd, "_MAILFROM ", COMMENT) != 0)
{
printf ("\n\n(043) error: could not add MAILFROM string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s_MAILTO", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "orders@your.server.name", vshopfd, "_MAILTO ", COMMENT) != 0)
{
printf ("\n\n(044) error: could not add MAILTO string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s_EURODM", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "0.5112918811962", vshopfd, "_EURODM ", 0) != 0)
{
printf ("\n\n(045) error: could not add EURODM string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s_EUROUSD", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "0.8637816360024", vshopfd, "_EUROUSD ", 0) != 0)
{
printf ("\n\n(046) error: could not add EUROUSD string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s_RTF", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "application/rtf", vshopfd, "_RTF ", 0) != 0)
{
printf ("\n\n(047) error: could not add RTF string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "%s_ADMINIP", &table[0]);
if (strstr (buffer, &systemStr[0]) == NULL)
if (Addstr (&tableNam[0], "*", vshopfd, "_ADMINIP ", 0) != 0)
{
printf ("\n\n(047) error: could not add ADMINIP string to \"/etc/vshop.conf\",\n exiting update program !\n");
UpExit (-1);
}
/* ***** for recovery reasons we reached stage 3 ***** */
stage = 3;
}
#endif
/* ***** new vsadmin region will be copied to '/opt/vshop/..' ***** */
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "cp -f %s/vshtmlp%s.tgz /opt/vshop/vshtml.tgz", &instDir[0], VERSION);
if (ShSystem (&systemStr[0]) != 0)
{
printf ("\n\n(048) error: error in cp command,\n exiting update program !\n");
UpExit (-1);
}
/* ***** for recovery reasons we reached stage 4 ***** */
stage = 4;
/* ***** 'vsadmin'statement ***** */
printf ("\n\n\t Kopieren von \"vsadmin\"\n");
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "cp -f %s/engine/vsadmin /opt/vshop/vsadmin", &instDir[0]);
if (ShSystem (&systemStr[0]) != 0)
{
printf ("\n\n(049) error: error in cp command,\n exiting update program !\n");
UpExit (-1);
}
/* ***** for recovery reasons we reached stage 5 ***** */
stage = 5;
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "cp -f %s/createtabs%s /opt/vshop/createtabs", &instDir[0], VERSION);
if (ShSystem (&systemStr[0]) != 0)
{
printf ("\n\n(050) error: error in cp command,\n exiting update program !\n");
UpExit (-1);
}
/* ***** for recovery reasons we reached stage 6 ***** */
stage = 6;
/* ***** end statment of update program ***** */
printf ("\n\n\tDas Update auf VShop %s wurde durchgefuehrt.\n \
\t Bitte ueberpruefen Sie die Zugriffsrechte der neu\n \
\t installierten Dateien, da es sonst zu Problemen\n \
\t kommen kann.\n\n",VERSION);
}
/* -------------------------------------------------- */
/*
*
* Variables function
*
*/
int
Variables (char *buffer, int bufLen, char *tableNam, tstrT *tableVar)
{
int i;
char searchStr[255];
char table[64];
char *s1Ptr;
char *s2Ptr;
struct stat fstat;
i = 0;
memset (&table[0], '\0', sizeof (table));
while (i <= strlen (tableNam))
{
table[i] = toupper(*(tableNam + i));
i++;
}
if ((s1Ptr = (char *) strstr ((const char *) buffer, "DBROOT")) == NULL)
return (-1);
s2Ptr = s1Ptr + strlen ("DBROOT");
while (((*s2Ptr == ' ') ||
(*s2Ptr == '\t')) &&
(s2Ptr <= buffer + bufLen))
s2Ptr++;
if ((*s2Ptr == '\n') ||
(*s2Ptr == EOF))
return (-1);
if (*s2Ptr == '"')
{
i = 0;
while ((*s2Ptr != '"') &&
(*(s2Ptr - 1) != '\\') &&
(s2Ptr <= buffer + bufLen) &&
(i <= 255))
{
if (*s2Ptr == '\n')
return (-1);
tableVar->DBROOT[i] = *s2Ptr;
i++;
s2Ptr++;
}
*s2Ptr = '"';
}
else
{
i = 0;
while ((*s2Ptr != '\n') &&
(*s2Ptr != ' ') &&
(*s2Ptr != '\t') &&
(s2Ptr <= buffer + bufLen) &&
(i <= 255))
{
tableVar->DBROOT[i] = *s2Ptr;
i++;
s2Ptr++;
}
}
memset (&fstat, '\0', sizeof (struct stat));
if (stat ((const char *) &(tableVar->DBROOT[0]), &fstat) == -1)
return (-1);
if (IsDir(fstat.st_mode) == FALSE)
return (-1);
if (VariSearch (buffer, bufLen, &table[0], FALSE, 255, "_DBUSER", &(tableVar->DBUSER[0])) != 0)
return (-1);
if (VariSearch (buffer, bufLen, &table[0], FALSE, 255, "_DBPASSWORD", &(tableVar->DBPASSWORD[0])) != 0)
return (-1);
if (VariSearch (buffer, bufLen, &table[0], TRUE, 255, "_TEMPLATEROOT", &(tableVar->TEMPLATEROOT[0])) != 0)
return (-1);
if (VariSearch (buffer, bufLen, &table[0], FALSE, 255, "_BASEREF", &(tableVar->BASEREF[0])) != 0)
return (-1);
/* ***** recommended but optional variables ***** */
VariSearch (buffer, bufLen, &table[0], FALSE, 1, "_PROFILING", &(tableVar->PROFILING[0]));
VariSearch (buffer, bufLen, &table[0], FALSE, 511, "_TIMEOUTURL", &(tableVar->TIMEOUTURL[0]));
VariSearch (buffer, bufLen, &table[0], FALSE, 511, "_DBERORURL", &(tableVar->DBERRORURL[0]));
VariSearch (buffer, bufLen, &table[0], FALSE, 99, "_MAILSERVER", &(tableVar->MAILSERVER[0]));
VariSearch (buffer, bufLen, &table[0], FALSE, 255, "_MAILFROM", &(tableVar->MAILFROM[0]));
VariSearch (buffer, bufLen, &table[0], FALSE, 23, "_EURODM", &(tableVar->EURODM[0]));
VariSearch (buffer, bufLen, &table[0], FALSE, 23, "_EUROUSD", &(tableVar->EUROUSD[0]));
VariSearch (buffer, bufLen, &table[0], FALSE, 255, "_RTF", &(tableVar->RTF[0]));
return (0);
}
/* -------------------------------------------------- */
/*
*
* VariSearch function
*
*/
int
VariSearch (char *buffer, int bufLen, char *tableNam, int dofstat, int tabLen, char *extension, char *taboffset)
{
int i;
char searchStr[255];
char *s1Ptr;
char *s2Ptr;
struct stat fstat;
s1Ptr = NULL;
s2Ptr = NULL;
memset (&searchStr[0], '\0', sizeof (searchStr));
sprintf (&searchStr[0], "%s%s", tableNam, extension);
if ((s1Ptr = (char *) strstr (buffer, &searchStr[0])) == NULL)
return (-1);
s2Ptr = s1Ptr + strlen (searchStr);
while (((*s2Ptr == ' ') ||
(*s2Ptr == '\t')) &&
(s2Ptr <= buffer + bufLen))
s2Ptr++;
if ((*s2Ptr == '\n') ||
(*s2Ptr == EOF))
return (-1);
if (*s2Ptr == '"')
{
i = 0;
while ((*s2Ptr != '"') &&
(*(s2Ptr - 1) != '\\') &&
(s2Ptr <= buffer + bufLen) &&
(i <= 255))
{
if (*s2Ptr == '\n')
return (-1);
*(taboffset + i) = *s2Ptr;
i++;
s2Ptr++;
}
*s2Ptr = '"';
}
else
{
i = 0;
while ((*s2Ptr != '\n') &&
(*s2Ptr != ' ') &&
(*s2Ptr != '\t') &&
(s2Ptr <= buffer + bufLen) &&
(i <= 255))
{
*(taboffset + i) = *s2Ptr;
i++;
s2Ptr++;
}
}
if (dofstat)
{
memset (&fstat, '\0', sizeof (struct stat));
if (stat ((const char *) (taboffset), &fstat) == -1)
return (-1);
if (IsDir(fstat.st_mode) == FALSE)
return (-1);
}
return (0);
}
/* -------------------------------------------------- */
/*
*
* AdabasRun function
*
*/
int
AdabasRun (tstrT *tableVar)
{
FILE *fd;
int i;
int numOfEn;
int readRes;
int retVal;
int dbtest;
char buffer[256];
char systemStr[1024];
flistT *foundFileList;
char *foundPath;
struct stat fstat;
retVal = 0;
foundFileList = NULL;
if ((fd = popen("/bin/ps ax", "r")) == NULL)
return (-1);
memset (&buffer[0], '\0', sizeof (buffer));
while (!feof(fd))
{
if (fgetc (fd) == 'v')
{
if (fgetc (fd) == 's')
{
if (fgetc (fd) == 'h')
{
if (fgetc (fd) == 'o')
{
if (fgetc (fd) == 'p')
retVal = 1;
}
}
}
}
}
fclose (fd);
if (retVal == 0)
{
/* ***** try to find the location of 'vshopdb' start/stop script ***** */
i = 0;
while (i < 3)
{
if ((foundFileList = FindFile (findPath[i], "vshopdb", NULL, NULL)) != NULL)
while ((foundPath = (char *) GetNextFile(foundFileList)) != NULL)
{
memset (&fstat, '\0', sizeof (struct stat));
memset (&systemStr[0], '\0', sizeof (systemStr));
dbtest = 1;
if (stat (tableVar->DBROOT, &fstat) == -1)
{
retVal = 0;
break;
}
if (setenv ("DBROOT", tableVar->DBROOT, 1) != 0)
{
retVal = 0;
break;
}
sprintf (&systemStr[0], tableVar->DBROOT);
strcat (&systemStr[0], "/bin/x_clear vshop");
if (UpSystem (&systemStr[0]) != 0)
{
retVal = 0;
break;
}
memset (&fstat, '\0', sizeof (struct stat));
if (stat (foundPath, &fstat) == -1)
retVal = 0;
if (IsReg(fstat.st_mode) == TRUE)
{
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], foundPath);
strcat (&systemStr[0], " start");
if (UpSystem (&systemStr[0]) != 0)
{
retVal = 0;
break;
}
else
retVal = 1;
}
}
retVal = 0;
if ((fd = popen("/bin/ps ax", "r")) == NULL)
return (-1);
memset (&buffer[0], '\0', sizeof (buffer));
while (!feof(fd))
{
if (fgetc (fd) == 'v')
{
if (fgetc (fd) == 's')
{
if (fgetc (fd) == 'h')
{
if (fgetc (fd) == 'o')
{
if (fgetc (fd) == 'p')
retVal = 1;
}
}
}
}
}
fclose (fd);
if (retVal == 1)
break;
}
}
return (retVal);
}
/* -------------------------------------------------- */
/*
*
* AdabasRights function
*
*/
struct stat *
AdminRights (char *path)
{
char searchPath[256];
struct stat *fstat;
if ((fstat = (struct stat *) calloc (1, sizeof (struct stat))) == NULL)
return (NULL);
memset (&searchPath[0], '\0', sizeof (searchPath));
if (strlen (path) < (255 - strlen ("/admin")))
sprintf (&searchPath[0], "%s/admin", path);
else
return (NULL);
if (stat ((const char *) &searchPath[0], fstat) != 0)
return (NULL);
return (fstat);
}
/* -------------------------------------------------- */
/*
*
* DokRights function
*
*/
struct stat *
DokRights (char *path)
{
char searchPath[256];
struct stat *fstat;
memset (&searchPath[0], '\0', sizeof (searchPath));
if ((fstat = (struct stat *) calloc (1, sizeof (struct stat))) == NULL)
return (NULL);
if (strlen (path) < (255 - strlen ("dok")))
sprintf (&searchPath[0], "%s/dok", path);
else
return (NULL);
if (stat ((const char *) &searchPath[0], fstat) != 0)
{
memset (&searchPath[0], '\0', sizeof (searchPath));
if (strlen (path) < (255 - strlen ("vshop_documentation")))
sprintf (&searchPath[0], "%s/vshop_documentation", path);
else
return (NULL);
if (stat ((const char *) &searchPath[0], fstat) != 0)
return (NULL);
}
return (fstat);
}
/* -------------------------------------------------- */
/*
*
* Libc
*
*/
int
Libc (char *libNam)
{
FILE* ConfFile;
int Finish = 0;
int c = 0;
char Buffer[80];
char Line[401];
char testBuf[256];
char* Ptr;
if ((ConfFile = fopen("/etc/ld.so.conf","r")) != NULL)
{
while (fgets(Line,400,ConfFile) != NULL)
{
if ((Ptr = (char *) strrchr(Line,'=')) != NULL)
*Ptr = '\0';
else
Line[strlen(Line)-1] = '\0';
if (Line[strlen(Line)-1] != '/')
strcat(Line,"/");
strcat(Line,libNam);
if (access(Line,F_OK) == 0)
{
fclose(ConfFile);
return 0;
}
}
fclose(ConfFile);
memset (&testBuf[0], '\0', sizeof (testBuf));
sprintf (&testBuf[0], "/lib/%s", libNam);
if (access(&testBuf[0], F_OK) == 0)
return 0;
memset (&testBuf[0], '\0', sizeof (testBuf));
sprintf (&testBuf[0], "/usr/lib/%s", libNam);
if (access(&testBuf[0], F_OK) == 0)
return 0;
}
else
return (-1);
}
/* -------------------------------------------------- */
/*
*
* VsadFile function
*
*/
int
VsadFile (vsstrT *vsBuffer)
{
int bufLen;
int foffset;
int readres;
int unread;
int unreadlast;
int vsadfd;
char testBuf[64];
char *buffer;
char *bufferPtr;
vsstrT *vsBufferPtr;
/* ***** open the file "/opt/vshop/vsadmin.conf" and read out variose usefull variables ***** */
if ((vsadfd = open("/opt/vshop/vsadmin.conf", O_SYNC)) == -1)
return (-1);
if ((foffset = lseek (vsadfd, 0, SEEK_END)) <= 0)
{
close (vsadfd);
return (-1);
}
bufLen = foffset + 1;
if ((buffer = (char *) calloc (1, bufLen)) == NULL)
{
close (vsadfd);
return (-1);
}
if (lseek (vsadfd, 0, SEEK_SET) == -1)
{
close (vsadfd);
return (-1);
}
unreadlast = 0;
unread = foffset;
readres = 0;
while (readres < foffset)
{
unread = (int ) read (vsadfd, (void *) buffer, (size_t ) unread);
if (unreadlast > unread)
{
close (vsadfd);
return (-1);
}
readres += unread;
unreadlast = unread;
}
vsBuffer = NULL;
memset (&testBuf[0], '\0', sizeof (testBuf));
if (VariSearch (buffer, bufLen, "SHOPNAME", FALSE, 63, "", &testBuf[0]) == 0)
{
if ((vsBufferPtr = (vsstrT *) calloc (1, sizeof (vsstrT))) == NULL)
{
close (vsadfd);
vsBuffer = NULL;
return (-1);
}
if ((vsBufferPtr->SHOPNAME = (char *) calloc (1, strlen (&testBuf[0]) + 1)) == NULL)
{
close (vsadfd);
vsBuffer = NULL;
return (-1);
}
strcpy (vsBufferPtr->SHOPNAME, &testBuf[0]);
vsBufferPtr->next = NULL;
vsBuffer = vsBufferPtr;
}
bufferPtr = (char *) strstr (buffer, &testBuf[0]);
bufLen = strlen (bufferPtr);
memset (&testBuf[0], '\0', sizeof (testBuf));
while (VariSearch (bufferPtr, bufLen, "SHOPNAME", FALSE, 63, "", &testBuf[0]) == 0)
{
if ((vsBufferPtr->next = (vsstrT *) calloc (1, sizeof (vsstrT))) == NULL)
{
close (vsadfd);
vsBuffer = NULL;
return (-1);
}
if ((vsBufferPtr->next->SHOPNAME = (char *) calloc (1, strlen (&testBuf[0]) + 1)) == NULL)
{
close (vsadfd);
vsBuffer = NULL;
return (-1);
}
strcpy (vsBufferPtr->next->SHOPNAME, &testBuf[0]);
vsBufferPtr->next->next = NULL;
vsBufferPtr = vsBufferPtr->next;
bufferPtr = (char *) strstr (buffer, &testBuf[0]);
bufLen = strlen (bufferPtr);
memset (&testBuf[0], '\0', sizeof (testBuf));
}
gvsBufferPtr = vsBuffer;
close (vsadfd);
return (0);
}
/* -------------------------------------------------- */
/*
*
* VsadNext function
*
*/
char *
VsadNext ()
{
char *cPtr;
if (gvsBufferPtr == NULL)
return (NULL);
cPtr = gvsBufferPtr->SHOPNAME;
gvsBufferPtr = gvsBufferPtr->next;
return (cPtr);
}
/* -------------------------------------------------- */
/*
*
* Addstr function
*
*/
int
Addstr (char *tableNam, char *tablePtr, int vshopfd, char *extension, int comment)
{
int i;
int writeRes;
char table[64];
char systemStr[1024];
memset (&table[0], '\0', sizeof (table));
i = 0;
while (i < strlen (tableNam))
{
table[i] = toupper (*(tableNam + i));
i++;
}
if (strlen (tablePtr) != 0)
{
lseek (vshopfd, 0, SEEK_END);
memset (&systemStr[0], '\0', sizeof (systemStr));
if (comment == COMMENT)
sprintf (&systemStr[0], "#%s", &table[0]);
else
sprintf (&systemStr[0], "%s", &table[0]);
strcat (&systemStr[0], extension);
strcat (&systemStr[0], tablePtr);
strcat (&systemStr[0], "\n");
writeRes = 0;
while ((writeRes < (strlen (&systemStr[0]))) &&
(writeRes >= 0))
{
writeRes = write (vshopfd, &systemStr[writeRes], strlen (&systemStr[0]) - writeRes);
/* --- O D ---
printf ("\nwriting to vshop.conf:>%s<\n", &systemStr[0]);
--- O D --- */
}
while (writeRes = 0)
writeRes = write (vshopfd, "\r", 1);
return (0);
}
return (-1);
}
/* -------------------------------------------------- */
/*
*
* FindFile function
*
*/
flistT *
FindFile (char *startDir, char *fileNam, flistT *flistPtr, inostrT *inoList)
{
int i;
int num;
int retVal;
char systemStr[1024];
struct dirent **nameList;
struct stat fstat;
inostrT *inoListPtr;
flistT *list;
flistT *listPtr;
if (flistPtr == NULL)
{
list = NULL;
listPtr = list;
}
else
listPtr = flistPtr;
i = 0;
if ((num = scandir (startDir, &nameList, 0, 0)) > 0)
{
while (i < num)
{
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], startDir);
if (*(startDir + strlen (startDir) - 1) != '/')
strcat (&systemStr[0], "/");
strcat (&systemStr[0],nameList[i]->d_name);
memset (&fstat, '\0', sizeof (struct stat));
if (stat ((const char *) &systemStr[0], &fstat) == 0)
{
if (strlen (nameList[i]->d_name) == strlen (fileNam))
{
if (strcmp (nameList[i]->d_name, fileNam) == 0)
{
if (IsReg (fstat.st_mode) == TRUE)
{
retVal = TRUE;
listPtr = list;
while (listPtr != NULL)
{
if (listPtr->inode == fstat.st_ino)
retVal = FALSE;
listPtr = listPtr->next;
}
if (retVal == TRUE)
{
if (inoList == NULL)
{
if ((inoList = (inostrT *) calloc (1, sizeof (inostrT))) == NULL)
return (NULL);
inoListPtr = inoList;
}
else
{
inoListPtr = inoList;
while (inoListPtr->next != NULL)
inoListPtr = inoListPtr->next;
if ((inoListPtr->next = (inostrT *) calloc (1, sizeof (inostrT))) == NULL)
return (NULL);
else
inoListPtr = inoListPtr->next;
}
inoListPtr->inode = fstat.st_ino;
if (list == NULL)
{
if ((list = (flistT *) calloc (1, sizeof (flistT))) == NULL)
return (NULL);
else
listPtr = list;
}
listPtr = list;
while (listPtr->next != NULL)
listPtr = listPtr->next;
if ((listPtr->inode != 0) &&
((listPtr->next = (flistT *) calloc (1, sizeof (flistT))) != NULL))
listPtr = listPtr->next;
if (listPtr != NULL)
{
if ((listPtr->name = (char *) calloc (1, strlen (&systemStr[0]) + 1)) != NULL)
{
strcpy (listPtr->name, &systemStr[0]);
listPtr->inode = fstat.st_ino;
}
else
return (NULL);
}
else
return (NULL);
}
}
}
}
if ((IsDir (fstat.st_mode) == TRUE) &&
(strcmp (nameList[i]->d_name, ".") != 0) &&
(strcmp (nameList[i]->d_name, "..") != 0))
{
retVal = TRUE;
inoListPtr = inoList;
while (inoListPtr != NULL)
{
if (inoListPtr->inode == fstat.st_ino)
retVal = FALSE;
inoListPtr = inoListPtr->next;
}
if (retVal == TRUE)
{
if (inoList == NULL)
{
if ((inoList = (inostrT *) calloc (1, sizeof (inostrT))) == NULL)
return (NULL);
inoListPtr = inoList;
}
else
{
inoListPtr = inoList;
while (inoListPtr->next != NULL)
inoListPtr = inoListPtr->next;
if ((inoListPtr->next = (inostrT *) calloc (1, sizeof (inostrT))) == NULL)
return (NULL);
else
inoListPtr = inoListPtr->next;
}
inoListPtr->inode = fstat.st_ino;
if (listPtr == NULL)
{
list = FindFile (&systemStr[0], fileNam, NULL, inoList);
listPtr = list;
if (listPtr != NULL)
while (listPtr->next != NULL)
listPtr = listPtr->next;
}
else
{
listPtr->next = FindFile (&systemStr[0], fileNam, NULL, inoList);
if (listPtr != NULL)
while (listPtr->next != NULL)
listPtr = listPtr->next;
}
}
}
}
if (i < num)
i++;
else
break;
}
}
return (list);
}
/* -------------------------------------------------- */
/*
*
* GetNextFile function
*
*/
char *
GetNextFile (flistT *foundFileList)
{
int i;
char *retVal;
flistT *listPtr;
i = 0;
listPtr = foundFileList;
while (i <= count)
{
retVal = listPtr->name;
if (listPtr->next != NULL)
{
listPtr = listPtr->next;
i++;
}
else
break;
}
if (i < count)
retVal = NULL;
else
{
retVal = listPtr->name;
count++;
}
return (retVal);
}
/* -------------------------------------------------- */
/*
*
* IsDir function
*
*/
int
IsDir (mode_t statMode)
{
if ((statMode & S_IFMT & S_IFDIR) == S_IFDIR)
return (TRUE);
else
return (FALSE);
}
/* -------------------------------------------------- */
/*
*
* IsLink function
*
*/
int
IsLink (mode_t statMode)
{
if ((statMode & S_IFMT & S_IFLNK) == S_IFLNK)
return (TRUE);
else
return (FALSE);
}
/* -------------------------------------------------- */
/*
*
* IsReg function
*
*/
int
IsReg (mode_t statMode)
{
if ((statMode & S_IFMT & S_IFREG) == S_IFREG)
return (TRUE);
else
return (FALSE);
}
/* -------------------------------------------------- */
/*
*
* RecChmod function
*
*/
int
RecChmod (char *startDir, struct stat *status)
{
int i;
int num;
int retVal;
char systemStr[1024];
struct dirent **nameList;
struct stat fstat;
inostrT *inoList ;
inostrT *inoListPtr;
i = 0;
inoList = NULL;
inoListPtr = NULL;
if ((num = scandir (startDir, &nameList, 0, 0)) > 0)
{
while (i < num)
{
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], startDir);
if (*(startDir + strlen (startDir) - 1) != '/')
strcat (&systemStr[0], "/");
strcat (&systemStr[0],nameList[i]->d_name);
memset (&fstat, '\0', sizeof (struct stat));
if (stat ((const char *) &systemStr[0], &fstat) == 0)
{
if (IsReg (fstat.st_mode) == TRUE)
{
if (inoList == NULL)
{
if ((inoList = (inostrT *) calloc (1, sizeof (inostrT))) == NULL)
return (-1);
inoListPtr = inoList;
}
else
{
inoListPtr = inoList;
while (inoListPtr->next != NULL)
inoListPtr = inoListPtr->next;
if ((inoListPtr->next = (inostrT *) calloc (1, sizeof (inostrT))) == NULL)
return (-1);
else
inoListPtr = inoListPtr->next;
}
inoListPtr->inode = fstat.st_ino;
setreuid (getuid(), getuid ());
setregid (getgid(), getgid ());
chown (&systemStr[0], status->st_uid, status->st_gid);
setreuid (getuid(), status->st_uid);
setregid (getgid(), status->st_gid);
chmod (&systemStr[0], status->st_mode & CHMAP);
}
if ((IsDir (fstat.st_mode) == TRUE) &&
(strcmp (nameList[i]->d_name, ".") != 0) &&
(strcmp (nameList[i]->d_name, "..") != 0))
{
retVal = TRUE;
inoListPtr = inoList;
while (inoListPtr != NULL)
{
if (inoListPtr->inode == fstat.st_ino)
retVal = FALSE;
inoListPtr = inoListPtr->next;
}
if (retVal == TRUE)
{
if (inoList == NULL)
{
if ((inoList = (inostrT *) calloc (1, sizeof (inostrT))) == NULL)
return (-1);
inoListPtr = inoList;
}
else
{
inoListPtr = inoList;
while (inoListPtr->next != NULL)
inoListPtr = inoListPtr->next;
if ((inoListPtr->next = (inostrT *) calloc (1, sizeof (inostrT))) == NULL)
return (-1);
else
inoListPtr = inoListPtr->next;
}
inoListPtr->inode = fstat.st_ino;
setreuid (getuid(), getuid ());
setregid (getgid(), getgid ());
chown (&systemStr[0], status->st_uid, status->st_gid);
setreuid (getuid(), status->st_uid);
setregid (getgid(), status->st_gid);
chmod (&systemStr[0], status->st_mode & CHMAP);
if (RecChmod (&systemStr[0], status) == -1)
return (-1);
}
}
}
if (i < num)
i++;
else
break;
}
}
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], startDir);
if (*(startDir + strlen (startDir) - 1) != '/')
strcat (&systemStr[0], "/");
strcat (&systemStr[0], ".");
setreuid (getuid(), getuid ());
setregid (getgid(), getgid ());
chown (systemStr, status->st_uid, status->st_gid);
return (0);
}
/* -------------------------------------------------- */
/*
*
* RecRem function
*
*/
int
RecRem (char *startDir)
{
int i;
int num;
char systemStr[1024];
memset (&systemStr[0], '\0', sizeof (systemStr));
sprintf (&systemStr[0], "rm -fr %s/*.p", startDir, startDir, startDir);
if (UpSystem (&systemStr[0]) != 0)
return (-1);
return (0);
}
/* -------------------------------------------------- */
/*
*
* Help function
*
*/
int
Help ()
{
printf ("usage: update\n\n\tDas update Programm benoetigt keine Optionen,\n jedoch sollten die Programme bash, rm, cp, tar im aktuellen Pfad:\n\n\t%s\n\n erreichbar sein.\n", getenv ("PATH"));
exit (0);
}
/* -------------------------------------------------- */
/*
*
* UpSystem function
*
*/
int
UpSystem (char *commandStr)
{
int i;
int length;
int pid;
int status;
extern char **environ;
char *argv[24];
char *s1Ptr;
char *s2Ptr;
length = strlen (commandStr);
if (strlen (commandStr) == 0)
return (-1);
s1Ptr = commandStr;
i = 0;
if ((s2Ptr = strchr (commandStr, ' ')) == NULL)
{
argv[0] = commandStr;
argv[1] = NULL;
}
else
{
while ((commandStr + length) >= s1Ptr)
{
if ((s2Ptr = strchr (s1Ptr, ' ')) != NULL)
*s2Ptr = '\0';
else
s2Ptr = s1Ptr + strlen (s1Ptr) + 1;
if ((argv[i] = (char *) calloc (1, strlen (s1Ptr))) == NULL)
return (-1);
if (strcpy (argv[i], s1Ptr) == NULL)
return (-1);
i++;
s1Ptr = s2Ptr + 1;
}
}
argv[i] = NULL;
pid = fork ();
if (pid == -1)
return (-1);
if (pid == 0)
{
/*
fclose (stdin);
fclose (stdout);
fclose (stderr);
*/
execvp (argv[0], argv);
exit (127);
}
do
{
if (waitpid(pid, &status, 0) == -1)
{
if (errno != EINTR)
return -1;
}
else if (WIFEXITED (status) != 0)
return (WEXITSTATUS (status));
} while(1);
}
/* -------------------------------------------------- */
/*
*
* ShSystem function
*
*/
int
ShSystem (char *commandStr)
{
int i;
int length;
int pid;
int status;
extern char **environ;
char *argv[4];
argv[0] = "bash";
argv[1] = "-c";
argv[2] = commandStr;
argv[3] = NULL;
pid = fork ();
if (pid == -1)
return (-1);
if (pid == 0)
{
fclose (stdin);
fclose (stdout);
fclose (stderr);
execvp (argv[0], argv);
exit (127);
}
do
{
if (waitpid(pid, &status, 0) == -1)
{
if (errno != EINTR)
return -1;
}
else if (WIFEXITED (status) != 0)
return (WEXITSTATUS (status));
} while(1);
}
/* -------------------------------------------------- */
/*
*
* UpExit function
*
*/
void
UpExit (int state)
{
close (vshopfd);
exit (stage);
}
| 22.191434 | 200 | 0.53362 |
37dd36943465c9ccd0ca9995b0ad9ccf6d98ca7e | 482 | h | C | src/sound.h | headkaze/zxnext_dual_vt_sound | 957fc57e102a569caddd5455714cc06c30080d5f | [
"MIT"
] | null | null | null | src/sound.h | headkaze/zxnext_dual_vt_sound | 957fc57e102a569caddd5455714cc06c30080d5f | [
"MIT"
] | null | null | null | src/sound.h | headkaze/zxnext_dual_vt_sound | 957fc57e102a569caddd5455714cc06c30080d5f | [
"MIT"
] | null | null | null | #ifndef _SOUND_H
#define _SOUND_H
extern uint8_t sfx0[];
extern uint8_t music_module_0[];
extern uint8_t music_module_1[];
extern unsigned char m_tick;
extern unsigned long m_milliseconds;
#define AY_SFX0 1
#define AY_SFX1 2
#define AY_MUSIC0 3
#define AY_MUSIC1 2
#define SELECT_AY(n) (IO_AY_REG = n | 0xfc)
void audio_isr_init();
void music_init(void);
void music_stop(void);
void sfx_init(void);
void sfx_play(uint8_t effect);
void sfx_update(void);
#endif
| 18.538462 | 45 | 0.753112 |
37eedeb8cf64227cc4edaabf9cbfc2f049baafc2 | 1,738 | h | C | Sparky-core/src/sp/platform/directx/DXTexture2D.h | LifeOrGame/Sparky | 2ebcba2613b47011a224ddce5bc9267b46ba0119 | [
"Apache-2.0"
] | 1,303 | 2015-02-15T05:12:55.000Z | 2022-03-18T18:23:28.000Z | Sparky-core/src/sp/platform/directx/DXTexture2D.h | WildFire212/Sparky | a679d0834e37eb3570dff18b01550210734cb97e | [
"Apache-2.0"
] | 124 | 2015-04-02T14:15:05.000Z | 2021-05-05T12:47:16.000Z | Sparky-core/src/sp/platform/directx/DXTexture2D.h | WildFire212/Sparky | a679d0834e37eb3570dff18b01550210734cb97e | [
"Apache-2.0"
] | 538 | 2015-02-19T21:53:15.000Z | 2022-03-11T06:18:05.000Z | #pragma once
#include "sp/graphics/API/Texture2D.h"
#include "DXCommon.h"
namespace sp { namespace graphics { namespace API {
class D3DTexture2D : public Texture2D
{
private:
String m_Name;
String m_FileName;
uint m_Handle;
uint m_Width, m_Height;
uint m_BitsPerPixel;
TextureParameters m_Parameters;
TextureLoadOptions m_LoadOptions;
D3D11_TEXTURE2D_DESC m_Desc;
ID3D11Texture2D* m_Texture;
ID3D11ShaderResourceView* m_ResourceView;
ID3D11SamplerState* m_SamplerState;
D3D11_SAMPLER_DESC m_SamplerDesc;
public:
D3DTexture2D(uint width, uint height, TextureParameters parameters = TextureParameters(), TextureLoadOptions loadOptions = TextureLoadOptions());
D3DTexture2D(uint width, uint height, uint color, TextureParameters parameters = TextureParameters(), TextureLoadOptions loadOptions = TextureLoadOptions());
D3DTexture2D(const String& name, const String& filename, TextureParameters parameters = TextureParameters(), TextureLoadOptions loadOptions = TextureLoadOptions());
~D3DTexture2D();
void Bind(uint slot = 0) const override;
void Unbind(uint slot = 0) const override;
virtual void SetData(const void* pixels) override;
virtual void SetData(uint color) override {}
inline uint GetWidth() const { return m_Width; }
inline uint GetHeight() const { return m_Height; }
inline const String& GetName() const { return m_Name; }
inline const String& GetFilepath() const { return m_FileName; }
public:
static DXGI_FORMAT SPTextureFormatToD3D(TextureFormat format);
static uint SPTextureFilterToD3D(TextureFilter filter);
static uint SPTextureWrapToD3D(TextureWrap wrap);
static D3DTexture2D* FromFile(const String& filepath);
private:
void Load();
};
} } }
| 32.185185 | 166 | 0.775029 |
bb1d847133d2b8cb161559faecf6179743c01619 | 2,767 | h | C | include/mgos_barometer.h | sheabrennan/barometer | f52d529408451ce307da7a712e05f59da395f8b5 | [
"Apache-2.0"
] | null | null | null | include/mgos_barometer.h | sheabrennan/barometer | f52d529408451ce307da7a712e05f59da395f8b5 | [
"Apache-2.0"
] | 1 | 2021-08-01T15:06:28.000Z | 2021-08-01T15:06:28.000Z | include/mgos_barometer.h | sheabrennan/barometer | f52d529408451ce307da7a712e05f59da395f8b5 | [
"Apache-2.0"
] | 2 | 2019-12-04T20:57:29.000Z | 2020-04-04T15:42:11.000Z | /*
* Copyright 2018 Google Inc.
*
* 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 "mgos.h"
#include "mgos_i2c.h"
#ifdef __cplusplus
extern "C" {
#endif
enum mgos_barometer_type {
BARO_NONE = 0,
BARO_MPL115,
BARO_MPL3115,
BARO_BME280, // Also BMP280
BARO_MS5611
};
struct mgos_barometer;
struct mgos_barometer_stats {
double last_read_time; // value of mg_time() upon last call to _read()
uint32_t read; // calls to _read()
uint32_t read_success; // successful _read()
uint32_t read_success_cached; // calls to _read() which were cached
// Note: read_errors := read - read_success - read_success_cached
double read_success_usecs; // time spent in successful uncached _read()
};
struct mgos_barometer *mgos_barometer_create_i2c(struct mgos_i2c *i2c, uint8_t i2caddr, enum mgos_barometer_type type);
void mgos_barometer_destroy(struct mgos_barometer **sensor);
bool mgos_barometer_has_thermometer(struct mgos_barometer *sensor);
bool mgos_barometer_has_barometer(struct mgos_barometer *sensor);
bool mgos_barometer_has_hygrometer(struct mgos_barometer *sensor);
/* Set cache TTL -- will limit reads and return cached data. Set msecs=0 to turn off */
bool mgos_barometer_set_cache_ttl(struct mgos_barometer *sensor, uint16_t msecs);
/* Read all available sensor data from the barometer */
bool mgos_barometer_read(struct mgos_barometer *sensor);
/* Return barometer data in units of Pascals */
bool mgos_barometer_get_pressure(struct mgos_barometer *sensor, float *p);
/* Return temperature data in units of Celsius */
bool mgos_barometer_get_temperature(struct mgos_barometer *sensor, float *t);
/* Return humidity data in units of % Relative Humidity */
bool mgos_barometer_get_humidity(struct mgos_barometer *sensor, float *h);
/* String representation of the barometer type, guaranteed to be 10 characters or less. */
const char *mgos_barometer_get_name(struct mgos_barometer *sensor);
/*
* Return statistics on the sensor.
*/
bool mgos_barometer_get_stats(struct mgos_barometer *sensor, struct mgos_barometer_stats *stats);
/*
* Initialization function for MGOS -- currently a noop.
*/
bool mgos_barometer_init(void);
#ifdef __cplusplus
}
#endif
| 32.940476 | 119 | 0.761113 |
bb4bc60116ce4395fa2a6f3c2bc5a658879f8cd5 | 12,042 | h | C | external/nrf_cc310/include/crys_ec_edw_api.h | SamiEzz/DWM1001 | 0fa56b6a4134be87fe81d68b60ba36f47a6bfb3c | [
"Unlicense"
] | 2 | 2020-06-23T08:05:58.000Z | 2020-06-24T01:25:51.000Z | external/nrf_cc310/include/crys_ec_edw_api.h | SamiEzz/DWM1001 | 0fa56b6a4134be87fe81d68b60ba36f47a6bfb3c | [
"Unlicense"
] | 2 | 2022-03-29T05:16:50.000Z | 2022-03-29T05:16:50.000Z | vendors/nordic/nRF5_SDK_15.2.0/external/nrf_cc310/include/crys_ec_edw_api.h | ictk-solution-dev/amazon-freertos | cc76512292ddfb70bba3030dbcb740ef3c6ead8b | [
"MIT"
] | null | null | null | /**************************************************************************************
* Copyright (c) 2016-2017, ARM Limited or its affiliates. All rights reserved *
* *
* This file and the related binary are licensed under the following license: *
* *
* ARM Object Code and Header Files License, v1.0 Redistribution. *
* *
* Redistribution and use of object code, header files, and documentation, without *
* modification, are permitted provided that the following conditions are met: *
* *
* 1) Redistributions must reproduce the above copyright notice and the *
* following disclaimer in the documentation and/or other materials *
* provided with the distribution. *
* *
* 2) Unless to the extent explicitly permitted by law, no reverse *
* engineering, decompilation, or disassembly of is permitted. *
* *
* 3) Redistribution and use is permitted solely for the purpose of *
* developing or executing applications that are targeted for use *
* on an ARM-based product. *
* *
* DISCLAIMER. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND *
* CONTRIBUTORS "AS IS." ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT *
* NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY, NON-INFRINGEMENT, *
* AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE *
* COPYRIGHT HOLDERS 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. *
**************************************************************************************/
#ifndef CRYS_EC_EDW_API_H
#define CRYS_EC_EDW_API_H
#include "ssi_pal_types.h"
#include "crys_hash.h"
#include "crys_rnd.h"
#include "crys_pka_defs_hw.h"
#ifdef __cplusplus
extern "C" {
#endif
/*!
@defgroup cryptocell_ec CryptoCell EC 25519 curve APIs
@{
@ingroup cryptocell_api
@brief This group is the cryptocell EC 25519 curve root group
@}
@file
@brief This file contains the CRYS APIs used for EC EDW (Edwards) ed25519 algorithms.
@defgroup crys_ec_edw CryptoCell EC Edwards APIs
@{
@ingroup cryptocell_ec
\note Algorithms of Montgomery and Edwards elliptic curves cryptography were developed by
Daniel.J.Bernstein.
*/
/*! EC Edwards ed25519 modulus and order sizes in bits, words and bytes. */
/*! EC Edwards modulus size in bits. */
#define CRYS_ECEDW_MOD_SIZE_IN_BITS 255U /*!<\internal MOD - EC Edw modulus size*/
/*! EC Edwards order size in bits. */
#define CRYS_ECEDW_ORD_SIZE_IN_BITS 255U /*!<\internal ORD - EC Edw generator order size*/
/*! EC Edwards nodulus size in words. */
#define CRYS_ECEDW_MOD_SIZE_IN_32BIT_WORDS ((CRYS_ECEDW_MOD_SIZE_IN_BITS + SASI_BITS_IN_32BIT_WORD - 1) / SASI_BITS_IN_32BIT_WORD)
/*! EC Edwards modulus size in bytes. */
#define CRYS_ECEDW_MOD_SIZE_IN_BYTES (CRYS_ECEDW_MOD_SIZE_IN_32BIT_WORDS * SASI_32BIT_WORD_SIZE)
/*! EC Edwards order size in words. */
#define CRYS_ECEDW_ORD_SIZE_IN_32BIT_WORDS ((CRYS_ECEDW_ORD_SIZE_IN_BITS + SASI_BITS_IN_32BIT_WORD - 1) / SASI_BITS_IN_32BIT_WORD)
/*! EC Edwards order size in bytes. */
#define CRYS_ECEDW_ORD_SIZE_IN_BYTES (CRYS_ECEDW_ORD_SIZE_IN_32BIT_WORDS * SASI_32BIT_WORD_SIZE)
/*! Constant sizes of special EC_MONT buffers and arrays */
/*! EC Edwards seed size in bytes. */
#define CRYS_ECEDW_SEED_BYTES CRYS_ECEDW_MOD_SIZE_IN_BYTES
/*! EC Edwards secret key size in bytes. */
#define CRYS_ECEDW_SECRET_KEY_BYTES (2 * CRYS_ECEDW_MOD_SIZE_IN_BYTES)
/*! EC Edwards signatue size in bytes. */
#define CRYS_ECEDW_SIGNATURE_BYTES (2 * CRYS_ECEDW_ORD_SIZE_IN_BYTES)
/*! EC Edwards scalar size in bytes. */
#define CRYS_ECEDW_SCALAR_BYTES CRYS_ECEDW_ORD_SIZE_IN_BYTES
/*! EC Edwards scalar multiplication size in bytes. */
#define CRYS_ECEDW_SCALARMULT_BYTES CRYS_ECEDW_MOD_SIZE_IN_BYTES
/*! EC_EDW temp buffer size definition. */
#define CRYS_ECEDW_TEMP_BUFF_SIZE_IN_32BIT_WORD (10*CRYS_EC_MONT_EDW_MODULUS_MAX_SIZE_IN_WORDS + (sizeof(CRYS_HASHUserContext_t)+SASI_32BIT_WORD_SIZE-1)/SASI_32BIT_WORD_SIZE)
/*! EC_EDW temp buffer type definition. */
typedef struct {
/*! Internal buffer. */
uint32_t buff[CRYS_ECEDW_TEMP_BUFF_SIZE_IN_32BIT_WORD];
} CRYS_ECEDW_TempBuff_t;
/******************************************************************************/
/*!
@brief The function creates EC Edwards signature on the message.
\note Used detached form of signature, separated from the message.
Implemented algorithm of Bernstein D. etc. sign ed25519.
@return CRYS_OK on success,
@return A non-zero value on failure as defined crys_ec_mont_edw_error.h or crys_hash_error.h.
*/
CIMPORT_C CRYSError_t CRYS_ECEDW_Sign (
uint8_t *pSign, /*!< [out] Pointer to the detached signature. */
size_t *pSignSize, /*!< [in/out] Pointer to the total size of the signature ;
In - the buffer size, which (must be at least 2*EC order size);
Out - the actual size of output data. */
const uint8_t *pMsg, /*!< [in] Pointer to the message. */
size_t msgSize, /*!< [in] Message size in bytes: must be less, than
(CRYS_HASH_UPDATE_DATA_MAX_SIZE_IN_BYTES - 2*(EC_EDW modulus size)). */
const uint8_t *pSignSecrKey, /*!< [in] Pointer to the signer secret key (seed || pulKey) */
size_t secrKeySize, /*!< [in] Size of signer secret key in bytes: (must be 2*EC order size). */
CRYS_ECEDW_TempBuff_t *pTempBuff /*!< [in] Pointer to the temp buffer. */);
/******************************************************************************/
/*!
@brief The function verifies the EC Edwards ed25519 signature on the message.
\note The input signature is in detached form, i.e. separated from the message.
@return CRYS_OK on success,
@return A non-zero value on failure as defined crys_ec_mont_edw_error.h or crys_hash_error.h.
*/
CIMPORT_C CRYSError_t CRYS_ECEDW_Verify(
const uint8_t *pSign, /*!< [in] Pointer to detached signature, i.e. the
signature is separated from the message. */
size_t signSize, /*!< [in] Size of the signature in bytes, it must be
equal to two EC Order size in bytes. */
const uint8_t *pSignPublKey, /*!< [in] Pointer to signer public key. */
size_t publKeySize, /*!< [in] Size of the signer public key in bytes; must be
equal to EC modulus size. */
uint8_t *pMsg, /*!< [in] Pointer to the message. */
size_t msgSize, /*!< [in] Pointer to the message size in bytes. Must be less than
(CRYS_HASH_UPDATE_DATA_MAX_SIZE_IN_BYTES - 2*(EC_EDW modulus size)). */
CRYS_ECEDW_TempBuff_t *pTempBuff /*!< [in] Pointer to the temp buffer, for internal use. */);
/******************************************************************************/
/*!
@brief The function randomly generates Ec ed25519 private and public keys
using given seed.
The generation is performed using EC Edwards ed25519 algorithm.
@return CRYS_OK on success,
@return A non-zero value on failure as defined crys_ec_mont_edw_error.h or crys_hash_error.h.
*/
CIMPORT_C CRYSError_t CRYS_ECEDW_SeedKeyPair (
const uint8_t *pSeed, /*!< [in] Pointer to the given seed. */
size_t seedSize, /*!< [in] Size of the seed in bytes, must be equal the EC order size
in bytes. */
uint8_t *pSecrKey, /*!< [out] Pointer to the secret key, including the seed, concatenated
with the public key. */
size_t *pSecrKeySize, /*!< [in/out] Pointer to the size of the secret key buffer in bytes
(must be at least 2*EC order size). */
uint8_t *pPublKey, /*!< [out] Pointer to the public key. */
size_t *pPublKeySize, /*!< [in/out] Pointer to the size of the public key in bytes.
In - the size of buffer must be at least EC modulus size;
Out - the actual size. */
CRYS_ECEDW_TempBuff_t *pTempBuff /*!< [in] Pointer to the temp buffer, for internal use. */);
/*******************************************************************/
/*!
@brief The function randomly generates the EC Edwards ed25519 private and
public keys.
The generation is performed using EC Edwards ed25519 algorithm.
@return CRYS_OK on success,
@return A non-zero value on failure as defined crys_ec_mont_edw_error.h, crys_hash_error.h or crys_rnd_error.
*/
CIMPORT_C CRYSError_t CRYS_ECEDW_KeyPair (
uint8_t *pSecrKey, /*!< [out] Pointer to the secret key (including seed and public key). */
size_t *pSecrKeySize, /*!< [in/out] Pointer to the size of the secret key in bytes,
(must be at least 2*EC order size). */
uint8_t *pPublKey, /*!< [out] Pointer to the public key. */
size_t *pPublKeySize, /*!< [in/out] - Pointer to the size of the public key in bytes.
In - the size of buffer must be at least EC modulus size;
Out - the actual size. */
void *pRndState, /*!< [in/out] Pointer to the RND state structure. */
SaSiRndGenerateVectWorkFunc_t rndGenerateVectFunc, /*!< [in] Pointer to the random vector generation function. */
CRYS_ECEDW_TempBuff_t *pTempBuff /*!< [in] Pointer to the temp buffer. */);
#ifdef __cplusplus
}
#endif
/**
@}
*/
#endif
| 59.613861 | 176 | 0.53903 |
15ab85ad64b2f7b11bfb236f355e36f2453d6245 | 1,457 | h | C | sources/includes/myftp.h | usernameHed/MyFtp | ba517c7b97a6b483725456df9b80ca3bfb453903 | [
"MIT"
] | null | null | null | sources/includes/myftp.h | usernameHed/MyFtp | ba517c7b97a6b483725456df9b80ca3bfb453903 | [
"MIT"
] | null | null | null | sources/includes/myftp.h | usernameHed/MyFtp | ba517c7b97a6b483725456df9b80ca3bfb453903 | [
"MIT"
] | null | null | null | /*
** myftp.h for PSU_2015_philo in /mnt/62401A64401A3F6B/Dropbox/HED/ALL/epitech/rendu/PSU/PSU_2015_philo/include
**
** Made by Hed
** Login <ugo@epitech.net>
**
** Started on Fri Mar 04 16:07:16 2016 Hed
** Last update Mar May 17 10:22:09 2016
*/
#ifndef MYFTP_H_
#define MYFTP_H_
#include <unistd.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <dirent.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <netinet/in.h>
typedef struct s_data
{
int port;
char *path;
char tmpPath[4096];
int sock;
int acc;
int bindd;
struct sockaddr_in _addr;
char *tmp;
int userOk;
int passOk;
char user[4096];
char **tab;
char pwd[4096];
unsigned long lenOfFirstPwd;
socklen_t s_in_size;
} t_data;
typedef struct s_acmd
{
char *cmd;
void (*ptr)(void);
} t_acmd;
void init(t_data *d);
void my_error(char *error, short int type);
char **my_str_to_wordtab(char *str);
char *del_space(char *str);
void make_word(t_data *s);
void my_show_wordtab(t_data *d, int fd);
void make_cmd(t_data *d, char *cmd);
char *add_to_str(char *str);
void putAccept(char *str, int fd, char *code);
void forking(t_data *d);
int comp(char *s1, char *s2);
void user(t_data *d);
void passwd(t_data *d);
void cwd(t_data *d);
void cdup(t_data *d);
void pwd(t_data *d);
void quit(t_data *d);
void dele(t_data *d);
void noop(t_data *d);
void badSyntax(t_data *d);
void help(t_data *d);
#endif
| 20.521127 | 111 | 0.678106 |
1201936baec75befda258b3670df701406a282d1 | 13,010 | c | C | third-party/qthread/qthread-src/test/benchmarks/generic/time_stencil_feb.c | jhh67/chapel | f041470e9b88b5fc4914c75aa5a37efcb46aa08f | [
"ECL-2.0",
"Apache-2.0"
] | 1,602 | 2015-01-06T11:26:31.000Z | 2022-03-30T06:17:21.000Z | third-party/qthread/qthread-src/test/benchmarks/generic/time_stencil_feb.c | jhh67/chapel | f041470e9b88b5fc4914c75aa5a37efcb46aa08f | [
"ECL-2.0",
"Apache-2.0"
] | 11,789 | 2015-01-05T04:50:15.000Z | 2022-03-31T23:39:19.000Z | third-party/qthread/qthread-src/test/benchmarks/generic/time_stencil_feb.c | jhh67/chapel | f041470e9b88b5fc4914c75aa5a37efcb46aa08f | [
"ECL-2.0",
"Apache-2.0"
] | 498 | 2015-01-08T18:58:18.000Z | 2022-03-20T15:37:45.000Z | #include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#include <unistd.h>
#include <qthread/qthread.h>
#include <qthread/qloop.h>
#include <qthread/barrier.h>
#include <qthread/qtimer.h>
#include "argparsing.h"
#define NUM_STAGES 3
#define BOUNDARY 42
//#define BOUNDARY_SYNC
//#define TIME_WORKLOAD
#define NUM_NEIGHBORS 5
#if NUM_NEIGHBORS == 5
# define NORTH(stage,i,j) &stage[i-1][j ]
# define WEST(stage,i,j) &stage[i ][j-1]
# define HERE(stage,i,j) &stage[i ][j ]
# define EAST(stage,i,j) &stage[i ][j+1]
# define SOUTH(stage,i,j) &stage[i+1][j ]
# define NEIGHBORS(stage,i,j) NORTH(stage,i,j), WEST(stage,i,j), EAST(stage,i,j), SOUTH(stage,i,j)
#endif // NUM_NEIGHBORS == 5
static int num_timesteps;
static int workload;
static int workload_per;
static int workload_var;
typedef struct stencil {
size_t N;
size_t M;
aligned_t **stage[NUM_STAGES];
qt_barrier_t *barrier;
} stencil_t;
typedef struct update_args {
stencil_t *points;
size_t i;
size_t j;
size_t stage;
size_t step;
} update_args_t;
////////////////////////////////////////////////////////////////////////////////
static inline void perform_local_work(void)
{
# ifdef TIME_WORKLOAD
qtimer_t work_timer = qtimer_create();
qtimer_start(work_timer);
# endif // TIME_WORKLOAD
volatile unsigned long work = workload;
long rand_per = (long)qtimer_fastrand();
long rand_var = (long)qtimer_fastrand();
rand_per = (rand_per<0) ? (-rand_per)%100 : rand_per%100;
if (rand_per < workload_per) {
rand_var = (rand_var<0) ? (-rand_var)%100 : rand_var%100;
work += (workload * (workload_var * 0.01)) * (rand_var * 0.01);
}
for (int i = 0; i < work; i++) {
work = work % 1000000000;
}
work++;
# ifdef TIME_WORKLOAD
qtimer_stop(work_timer);
fprintf(stdout, "Worked for %f\n", qtimer_secs(work_timer));
qtimer_destroy(work_timer);
# endif // TIME_WORKLOAD
}
static inline void print_stage(stencil_t *points, size_t stage)
{
for (int i = 0; i < points->N; i++) {
fprintf(stderr, "%02lu", (unsigned long)points->stage[stage][i][0]);
for (int j = 1; j < points->M; j++) {
fprintf(stderr, " %02lu", (unsigned long)points->stage[stage][i][j]);
}
fprintf(stderr, "\n");
}
}
static inline size_t prev_stage(size_t stage)
{
return (stage == 0) ? NUM_STAGES-1 : stage - 1;
}
static inline size_t next_stage(size_t stage)
{
return (stage == NUM_STAGES-1) ? 0 : stage + 1;
}
////////////////////////////////////////////////////////////////////////////////
static aligned_t update_prime(void *arg)
{
stencil_t *points = ((update_args_t *)arg)->points;
size_t i = ((update_args_t *)arg)->i;
size_t j = ((update_args_t *)arg)->j;
size_t stage = ((update_args_t *)arg)->stage;
size_t step = ((update_args_t *)arg)->step;
size_t next_stage_id = next_stage(stage);
// Sum all neighboring values from previous stage
aligned_t **prev = points->stage[prev_stage(stage)];
#ifdef BOUNDARY_SYNC
qthread_readFF(NORTH(prev, i, j), NORTH(prev, i, j));
qthread_readFF(WEST(prev, i, j), WEST(prev, i, j));
qthread_readFF(EAST(prev, i, j), EAST(prev, i, j));
qthread_readFF(SOUTH(prev, i, j), SOUTH(prev, i, j));
#else
if (i == 1) { // North edge
if (j == 1) { // West edge: EAST & SOUTH
qthread_readFF(EAST(prev, i, j), EAST(prev, i, j));
qthread_readFF(SOUTH(prev, i, j), SOUTH(prev, i, j));
} else if (j == points->M-2) { // East edge: WEST & SOUTH
qthread_readFF(WEST(prev, i, j), WEST(prev, i, j));
qthread_readFF(SOUTH(prev, i, j), SOUTH(prev, i, j));
} else // Interior: WEST & EAST & SOUTH
qthread_readFF(WEST(prev, i, j), WEST(prev, i, j));
qthread_readFF(EAST(prev, i, j), EAST(prev, i, j));
qthread_readFF(SOUTH(prev, i, j), SOUTH(prev, i, j));
} else if (i == points->N-2) { // South edge
if (j == 1) { // West edge: NORTH & EAST
qthread_readFF(NORTH(prev, i, j), NORTH(prev, i, j));
qthread_readFF(EAST(prev, i, j), EAST(prev, i, j));
} else if (j == points->M-2) { // East edge: NORTH & WEST
qthread_readFF(NORTH(prev, i, j), NORTH(prev, i, j));
qthread_readFF(WEST(prev, i, j), WEST(prev, i, j));
} else // Interior: NORTH & WEST & EAST
qthread_readFF(NORTH(prev, i, j), NORTH(prev, i, j));
qthread_readFF(WEST(prev, i, j), WEST(prev, i, j));
qthread_readFF(EAST(prev, i, j), EAST(prev, i, j));
} else { // Interior
if (j == 1) { // West edge: NORTH & EAST & SOUTH
qthread_readFF(NORTH(prev, i, j), NORTH(prev, i, j));
qthread_readFF(EAST(prev, i, j), EAST(prev, i, j));
qthread_readFF(SOUTH(prev, i, j), SOUTH(prev, i, j));
} else if (j == points->M-2) { // East edge: NORTH & WEST & SOUTH
qthread_readFF(NORTH(prev, i, j), NORTH(prev, i, j));
qthread_readFF(WEST(prev, i, j), WEST(prev, i, j));
qthread_readFF(SOUTH(prev, i, j), SOUTH(prev, i, j));
} else // Interior: ALL
qthread_readFF(NORTH(prev, i, j), NORTH(prev, i, j));
qthread_readFF(WEST(prev, i, j), WEST(prev, i, j));
qthread_readFF(EAST(prev, i, j), EAST(prev, i, j));
qthread_readFF(SOUTH(prev, i, j), SOUTH(prev, i, j));
}
#endif // BOUNDARY_SYNC
// Perform local work
perform_local_work();
aligned_t sum = *(NORTH(prev, i, j))
+ *(WEST(prev, i, j))
+ *(HERE(prev, i, j))
+ *(EAST(prev, i, j))
+ *(SOUTH(prev, i, j));
// Empty the next stage for this index
qthread_empty(&points->stage[next_stage_id][i][j]);
// Update this point
qthread_writeEF_const(&points->stage[stage][i][j], sum/NUM_NEIGHBORS);
if (step < num_timesteps) {
// Spawn next stage
update_args_t args = {points, i, j, next_stage_id, step+1};
qthread_fork_syncvar_copyargs(update_prime, &args, sizeof(update_args_t), NULL);
}
else
qt_barrier_enter(points->barrier);
return 0;
}
static aligned_t update(void *arg)
{
stencil_t *points = ((update_args_t *)arg)->points;
size_t i = ((update_args_t *)arg)->i;
size_t j = ((update_args_t *)arg)->j;
size_t stage = ((update_args_t *)arg)->stage;
size_t step = ((update_args_t *)arg)->step;
size_t next_stage_id = next_stage(stage);
// Sum all neighboring values from previous stage
aligned_t **prev = points->stage[prev_stage(stage)];
// Perform local work
perform_local_work();
aligned_t sum = *(NORTH(prev, i, j))
+ *(WEST(prev, i, j))
+ *(HERE(prev, i, j))
+ *(EAST(prev, i, j))
+ *(SOUTH(prev, i, j));
// Empty the next stage for this index
qthread_empty(&points->stage[next_stage_id][i][j]);
// Update this point
qthread_writeEF_const(&points->stage[stage][i][j], sum/NUM_NEIGHBORS);
if (step < num_timesteps) {
// Spawn next stage
update_args_t args = {points, i, j, next_stage_id, step+1};
qthread_fork_syncvar_copyargs(update_prime, &args, sizeof(update_args_t), NULL);
}
else
qt_barrier_enter(points->barrier);
return 0;
}
int main(int argc, char *argv[])
{
int n = 10;
int m = 10;
num_timesteps = 10;
workload = 0;
workload_per = 0;
workload_var = 0;
int print_final = 0;
int alltime = 0;
CHECK_VERBOSE();
NUMARG(n,"N");
NUMARG(m,"M");
NUMARG(num_timesteps, "TIMESTEPS");
NUMARG(workload, "WORKLOAD");
NUMARG(workload_per, "WORKLOAD_PER");
NUMARG(workload_var, "WORKLOAD_VAR");
NUMARG(print_final, "PRINT_FINAL");
NUMARG(alltime, "ALL_TIME");
assert (n > 0 && m > 0);
// Initialize Qthreads
assert(qthread_initialize() == 0);
qtimer_t alloc_timer = qtimer_create();
qtimer_t init_timer = qtimer_create();
qtimer_t exec_timer = qtimer_create();
// Allocate memory for 3-stage stencil (with boundary padding)
qtimer_start(alloc_timer);
stencil_t points;
points.N = n + 2;
points.M = m + 2;
points.stage[0] = calloc(points.N,sizeof(aligned_t *));
assert(NULL != points.stage[0]);
points.stage[1] = calloc(points.N,sizeof(aligned_t *));
assert(NULL != points.stage[1]);
points.stage[2] = calloc(points.N,sizeof(aligned_t *));
assert(NULL != points.stage[2]);
for (int i = 0; i < points.N; i++) {
points.stage[0][i] = calloc(points.M, sizeof(aligned_t));
assert(NULL != points.stage[0][i]);
points.stage[1][i] = calloc(points.M, sizeof(aligned_t));
assert(NULL != points.stage[1][i]);
points.stage[2][i] = calloc(points.M, sizeof(aligned_t));
assert(NULL != points.stage[2][i]);
}
qtimer_stop(alloc_timer);
// Initialize first stage and set boundary conditions
qtimer_start(init_timer);
for (int i = 1; i < points.N-1; i++) {
for (int j = 1; j < points.M-1; j++) {
qthread_writeF_const(&points.stage[0][i][j], 0);
qthread_empty(&points.stage[1][i][j]);
qthread_empty(&points.stage[2][i][j]);
}
}
for (int i = 0; i < points.N; i++) {
#ifdef BOUNDARY_SYNC
qthread_writeF_const(&points.stage[0][i][0], BOUNDARY);
qthread_writeF_const(&points.stage[0][i][points.M-1], BOUNDARY);
qthread_writeF_const(&points.stage[1][i][0], BOUNDARY);
qthread_writeF_const(&points.stage[1][i][points.M-1], BOUNDARY);
qthread_writeF_const(&points.stage[2][i][0], BOUNDARY);
qthread_writeF_const(&points.stage[2][i][points.M-1], BOUNDARY);
#else
points.stage[0][i][0] =BOUNDARY;
points.stage[0][i][points.M-1] = BOUNDARY;
points.stage[1][i][0] = BOUNDARY;
points.stage[1][i][points.M-1] = BOUNDARY;
points.stage[2][i][0] = BOUNDARY;
points.stage[2][i][points.M-1] = BOUNDARY;
#endif // BOUNDARY_SYNC
}
for (int j = 0; j < points.M; j++) {
#ifdef BOUNDARY_SYNC
qthread_writeF_const(&points.stage[0][0][j], BOUNDARY);
qthread_writeF_const(&points.stage[0][points.N-1][j], BOUNDARY);
qthread_writeF_const(&points.stage[1][0][j], BOUNDARY);
qthread_writeF_const(&points.stage[1][points.N-1][j], BOUNDARY);
qthread_writeF_const(&points.stage[2][0][j], BOUNDARY);
qthread_writeF_const(&points.stage[2][points.N-1][j], BOUNDARY);
#else
points.stage[0][0][j] = BOUNDARY;
points.stage[0][points.N-1][j] = BOUNDARY;
points.stage[1][0][j] = BOUNDARY;
points.stage[1][points.N-1][j] = BOUNDARY;
points.stage[2][0][j] = BOUNDARY;
points.stage[2][points.N-1][j] = BOUNDARY;
#endif // BOUNDARY_SYNC
}
qtimer_stop(init_timer);
// Create barrier to synchronize on completion of calculations
qtimer_start(exec_timer);
points.barrier = qt_barrier_create(n*m+1, REGION_BARRIER);
// Spawn tasks to start calculating updates at each point
update_args_t args = {&points, -1, -1, 1, 1};
for (int i = 1; i < points.N-1; i++) {
for (int j = 1; j < points.M-1; j++) {
args.i = i;
args.j = j;
qthread_fork_syncvar_copyargs(update, &args, sizeof(update_args_t), NULL);
}
}
// Wait for calculations to finish
qt_barrier_enter(points.barrier);
// Stop timer
qtimer_stop(exec_timer);
// Print timing info
if (alltime) {
fprintf(stderr, "Allocation time: %f\n", qtimer_secs(alloc_timer));
fprintf(stderr, "Initialization time: %f\n", qtimer_secs(init_timer));
fprintf(stderr, "Execution time: %f\n", qtimer_secs(exec_timer));
} else {
fprintf(stdout, "%f\n", qtimer_secs(exec_timer));
}
// Print stencils
if (print_final) {
size_t final = (num_timesteps % NUM_STAGES);
iprintf("Stage %lu:\n", prev_stage(prev_stage(final)));
print_stage(&points, prev_stage(prev_stage(final)));
iprintf("\nStage %lu:\n", prev_stage(final));
print_stage(&points, prev_stage(final));
iprintf("\nStage %lu:\n", final);
print_stage(&points, final);
}
qt_barrier_destroy(points.barrier);
qtimer_destroy(alloc_timer);
qtimer_destroy(init_timer);
qtimer_destroy(exec_timer);
// Free allocated memory
for (int i = 0; i < points.N; i++) {
free(points.stage[0][i]);
free(points.stage[1][i]);
free(points.stage[2][i]);
}
free(points.stage[0]);
free(points.stage[1]);
free(points.stage[2]);
return 0;
}
/* vim:set expandtab */
| 34.417989 | 98 | 0.581937 |
afa13aba47cb02b4273c3c6f20a587f82e85365d | 2,091 | h | C | code_reading/oceanbase-master/src/sql/engine/cmd/ob_tenant_executor.h | wangcy6/weekly_read | 3a8837ee9cd957787ee1785e4066dd623e02e13a | [
"Apache-2.0"
] | null | null | null | code_reading/oceanbase-master/src/sql/engine/cmd/ob_tenant_executor.h | wangcy6/weekly_read | 3a8837ee9cd957787ee1785e4066dd623e02e13a | [
"Apache-2.0"
] | null | null | null | code_reading/oceanbase-master/src/sql/engine/cmd/ob_tenant_executor.h | wangcy6/weekly_read | 3a8837ee9cd957787ee1785e4066dd623e02e13a | [
"Apache-2.0"
] | 1 | 2020-10-18T12:59:31.000Z | 2020-10-18T12:59:31.000Z | /**
* Copyright (c) 2021 OceanBase
* OceanBase CE is licensed under Mulan PubL v2.
* You can use this software according to the terms and conditions of the Mulan PubL v2.
* You may obtain a copy of Mulan PubL v2 at:
* http://license.coscl.org.cn/MulanPubL-2.0
* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
* See the Mulan PubL v2 for more details.
*/
#ifndef __OB_SQL_TENANT_EXECUTOR_H__
#define __OB_SQL_TENANT_EXECUTOR_H__
#include "share/ob_define.h"
namespace oceanbase {
namespace sql {
#define DEF_SIMPLE_EXECUTOR(name) \
class name##Executor { \
public: \
name##Executor() \
{} \
virtual ~name##Executor() \
{} \
int execute(ObExecContext& ctx, name##Stmt& stmt); \
\
private: \
DISALLOW_COPY_AND_ASSIGN(name##Executor); \
}
class ObExecContext;
class ObCreateTenantStmt;
class ObDropTenantStmt;
class ObLockTenantStmt;
class ObModifyTenantStmt;
class ObChangeTenantStmt;
class ObFlashBackTenantStmt;
class ObPurgeTenantStmt;
class ObPurgeRecycleBinStmt;
class ObCreateRestorePointStmt;
class ObDropRestorePointStmt;
DEF_SIMPLE_EXECUTOR(ObCreateTenant);
DEF_SIMPLE_EXECUTOR(ObDropTenant);
DEF_SIMPLE_EXECUTOR(ObModifyTenant);
DEF_SIMPLE_EXECUTOR(ObLockTenant);
DEF_SIMPLE_EXECUTOR(ObFlashBackTenant);
DEF_SIMPLE_EXECUTOR(ObPurgeTenant);
DEF_SIMPLE_EXECUTOR(ObPurgeRecycleBin);
DEF_SIMPLE_EXECUTOR(ObCreateRestorePoint);
DEF_SIMPLE_EXECUTOR(ObDropRestorePoint);
#undef DEF_SIMPLE_EXECUTOR
} // namespace sql
} // namespace oceanbase
#endif /* __OB_SQL_TENANT_EXECUTOR_H__ */
//// end of header file
| 31.681818 | 88 | 0.640842 |
76567eaf3d17bf35a0110d3a8ad98d752787eabd | 2,501 | h | C | variants/atmelsam/samb11/include/instance/lp_clk_cal_regs0.h | frankleonrose/framework-cmsis | ca2abc9e661b92c2dd2185c6aa5e01012ba27bcf | [
"Apache-2.0"
] | 2 | 2020-07-14T15:26:01.000Z | 2020-11-13T03:43:39.000Z | variants/atmelsam/samb11/include/instance/lp_clk_cal_regs0.h | frankleonrose/framework-cmsis | ca2abc9e661b92c2dd2185c6aa5e01012ba27bcf | [
"Apache-2.0"
] | 1 | 2020-04-24T23:22:11.000Z | 2020-04-24T23:37:37.000Z | variants/atmelsam/samb11/include/instance/lp_clk_cal_regs0.h | frankleonrose/framework-cmsis | ca2abc9e661b92c2dd2185c6aa5e01012ba27bcf | [
"Apache-2.0"
] | 4 | 2020-04-19T07:21:15.000Z | 2020-11-13T03:43:41.000Z | /**
* \file
*
* \brief Instance description for LP_CLK_CAL_REGS0
*
* Copyright (c) 2017 Atmel Corporation, a wholly owned subsidiary of Microchip Technology Inc.
*
* \license_start
*
* \page License
*
* 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.
*
* \license_stop
*
*/
/* file generated from device description version */
#ifndef _SAMB11_LP_CLK_CAL_REGS0_INSTANCE_H_
#define _SAMB11_LP_CLK_CAL_REGS0_INSTANCE_H_
/* ========== Register definition for LP_CLK_CAL_REGS0 peripheral ========== */
#if (defined(__ASSEMBLER__) || defined(__IAR_SYSTEMS_ASM__))
#define REG_LP_CLK_CAL_REGS0_CONFIG_REG (0x4000C000) /**< (LP_CLK_CAL_REGS0) Configuration of the calibration clocks and the enable of calibration */
#define REG_LP_CLK_CAL_REGS0_CALIB_OSC_COUNT_REG (0x4000C004) /**< (LP_CLK_CAL_REGS0) Calibration OSC Count Register (Any write sets bit 15 and clears bit 31) */
#define REG_LP_CLK_CAL_REGS0_CALIB_RTC_COUNT_REG (0x4000C008) /**< (LP_CLK_CAL_REGS0) Calibration RTC Count Register (Any write sets bit 15 and clears bit 31) */
#define REG_LP_CLK_CAL_REGS0_CALIB_STATUS_REG (0x4000C00C) /**< (LP_CLK_CAL_REGS0) Calibration Status Register */
#else
#define REG_LP_CLK_CAL_REGS0_CONFIG_REG (*(__IO uint16_t*)0x4000C000U) /**< (LP_CLK_CAL_REGS0) Configuration of the calibration clocks and the enable of calibration */
#define REG_LP_CLK_CAL_REGS0_CALIB_OSC_COUNT_REG (*(__I uint32_t*)0x4000C004U) /**< (LP_CLK_CAL_REGS0) Calibration OSC Count Register (Any write sets bit 15 and clears bit 31) */
#define REG_LP_CLK_CAL_REGS0_CALIB_RTC_COUNT_REG (*(__I uint32_t*)0x4000C008U) /**< (LP_CLK_CAL_REGS0) Calibration RTC Count Register (Any write sets bit 15 and clears bit 31) */
#define REG_LP_CLK_CAL_REGS0_CALIB_STATUS_REG (*(__I uint8_t*)0x4000C00CU) /**< (LP_CLK_CAL_REGS0) Calibration Status Register */
#endif /* (defined(__ASSEMBLER__) || defined(__IAR_SYSTEMS_ASM__)) */
#endif /* _SAMB11_LP_CLK_CAL_REGS0_INSTANCE_ */
| 51.040816 | 180 | 0.756098 |
a5f7f4579bcae81f4d84f7048d0f8ea25bc902ed | 236 | h | C | Example/Pods/XAbstractionLibrary-Parse/XAbstractionLibrary-Parse/Classes/XParse/XValidata/XIntergerTypeValidator.h | jiaojiaozhe/ComponentModuleA | 3b0763b4469139d951211bc67f997d4d71957182 | [
"MIT"
] | 3 | 2018-11-13T09:03:53.000Z | 2018-11-14T06:30:03.000Z | Example/Pods/XAbstractionLibrary-Parse/XAbstractionLibrary-Parse/Classes/XParse/XValidata/XIntergerTypeValidator.h | jiaojiaozhe/ComponentModuleA | 3b0763b4469139d951211bc67f997d4d71957182 | [
"MIT"
] | null | null | null | Example/Pods/XAbstractionLibrary-Parse/XAbstractionLibrary-Parse/Classes/XParse/XValidata/XIntergerTypeValidator.h | jiaojiaozhe/ComponentModuleA | 3b0763b4469139d951211bc67f997d4d71957182 | [
"MIT"
] | 1 | 2018-11-13T09:04:02.000Z | 2018-11-13T09:04:02.000Z | //
// XIntergerTypeValidator.h
//
// Created by lanbiao on 18/7/31.
// Copyright (c) 2018年 lanbiao. All rights reserved.
//
#import "XBaseValidator.h"
/**
* Interger解析器
*/
@interface XIntergerTypeValidator : XBaseValidator
@end
| 15.733333 | 53 | 0.699153 |
023da824e907a3303209d66f748dddff558d7925 | 466 | c | C | Easy/Carvans (CARVANS)/carvans.c | anishsingh42/CodeChef | 50f5c0438516210895e513bc4ee959b9d99ef647 | [
"Apache-2.0"
] | 127 | 2020-10-13T18:04:35.000Z | 2022-02-17T10:56:27.000Z | Easy/Carvans (CARVANS)/carvans.c | anishsingh42/CodeChef | 50f5c0438516210895e513bc4ee959b9d99ef647 | [
"Apache-2.0"
] | 132 | 2020-10-13T18:06:53.000Z | 2021-10-17T18:44:26.000Z | Easy/Carvans (CARVANS)/carvans.c | anishsingh42/CodeChef | 50f5c0438516210895e513bc4ee959b9d99ef647 | [
"Apache-2.0"
] | 364 | 2020-10-13T18:04:52.000Z | 2022-03-04T14:34:53.000Z | #include <stdio.h>
#include<stdlib.h>
int main()
{
int t;
scanf("%d",&t);
while(t--)
{
int n;
scanf("%d",&n);
int a[n],i;
for(i=0;i<n;i++)
scanf("%d",&a[i]);
int num=1;
for(i=1;i<n;i++)
{
if(a[i]>a[i-1])
{
a[i]=a[i-1];
continue;
}
num++;
}
printf("%d\n",num);
}
return 0;
}
| 16.068966 | 30 | 0.300429 |
77ada30dc3392534a2eab958b4944ec33d1a98e1 | 5,454 | h | C | Engine/Source/Runtime/Slate/Public/Widgets/Layout/SResponsiveGridPanel.h | PopCap/GameIdea | 201e1df50b2bc99afc079ce326aa0a44b178a391 | [
"BSD-2-Clause"
] | null | null | null | Engine/Source/Runtime/Slate/Public/Widgets/Layout/SResponsiveGridPanel.h | PopCap/GameIdea | 201e1df50b2bc99afc079ce326aa0a44b178a391 | [
"BSD-2-Clause"
] | 2 | 2015-06-21T17:38:11.000Z | 2015-06-22T20:54:42.000Z | Engine/Source/Runtime/Slate/Public/Widgets/Layout/SResponsiveGridPanel.h | PopCap/GameIdea | 201e1df50b2bc99afc079ce326aa0a44b178a391 | [
"BSD-2-Clause"
] | null | null | null | // Copyright 1998-2015 Epic Games, Inc. All Rights Reserved.
#pragma once
/**
* !!!!!!!!!!!!!!!!! EXPERIMENTAL !!!!!!!!!!!!!!!!!
* These sizes are subject to change in the future
*/
namespace SResponsiveGridSize
{
enum Type
{
Mobile = 0,
Tablet = 768,
MediumDevice = 992,
LargeDevice = 1200,
};
}
/**
* !!!!!!!!!!!!!!!!! EXPERIMENTAL !!!!!!!!!!!!!!!!!
* The SResponsiveGridPanel is still in development and the API may change drastically in the future
* or maybe removed entirely.
*/
class SLATE_API SResponsiveGridPanel
: public SPanel
{
public:
class FSlot : public TSlotBase<FSlot>, public TSupportsContentAlignmentMixin<FSlot>, public TSupportsContentPaddingMixin < FSlot >
{
public:
struct FColumnLayout
{
float LayoutSize;
int32 Span;
int32 Offset;
};
public:
/** Default values for a slot. */
FSlot(int32 Row)
: TSlotBase<FSlot>()
, TSupportsContentAlignmentMixin<FSlot>(HAlign_Fill, VAlign_Fill)
, RowParam(FMath::Max(0, Row))
, ColumnLayouts()
{ }
/** The panel that contains this slot */
TWeakPtr<SResponsiveGridPanel> Panel;
/** The row index*/
int32 RowParam;
/** Layout information for the column */
TArray<FColumnLayout> ColumnLayouts;
/** How many columns this slot spans over */
FSlot& ColumnSpan(float LayoutSize, int32 ColumnSpan, int32 ColumnOffset = 0)
{
FColumnLayout ColumnLayout;
ColumnLayout.LayoutSize = LayoutSize;
ColumnLayout.Span = FMath::Max(0, ColumnSpan);
ColumnLayout.Offset = ColumnOffset;
bool Inserted = false;
for (int32 Index = 0; Index < ColumnLayouts.Num(); Index++)
{
if (ColumnLayout.LayoutSize < ColumnLayouts[Index].LayoutSize)
{
ColumnLayouts.Insert(ColumnLayout, Index);
Inserted = true;
break;
}
}
if (!Inserted)
{
ColumnLayouts.Add(ColumnLayout);
}
if (Panel.IsValid())
{
Panel.Pin()->NotifySlotChanged(this);
}
return *this;
}
};
/**
* Used by declarative syntax to create a Slot
*/
static FSlot& Slot(int32 Row)
{
return *(new FSlot(Row));
}
SLATE_BEGIN_ARGS(SResponsiveGridPanel)
: _ColumnGutter(0)
, _RowGutter(0)
{
_Visibility = EVisibility::SelfHitTestInvisible;
}
SLATE_ARGUMENT(float, ColumnGutter)
SLATE_ARGUMENT(float, RowGutter)
SLATE_SUPPORTS_SLOT(FSlot)
/** Specify a row to stretch instead of sizing to content. */
FArguments& FillRow(int32 RowId, float Coefficient)
{
if (RowFillCoefficients.Num() <= RowId)
{
RowFillCoefficients.AddZeroed(RowId - RowFillCoefficients.Num() + 1);
}
RowFillCoefficients[RowId] = Coefficient;
return Me();
}
/** Coefficients for rows that need to stretch instead of size to content */
TArray<float> RowFillCoefficients;
SLATE_END_ARGS()
SResponsiveGridPanel();
/** Removes all rows from the panel */
void ClearChildren();
void Construct( const FArguments& InArgs, int32 TotalColumns );
FSlot& AddSlot(int32 Row);
bool RemoveSlot(const TSharedRef<SWidget>& SlotWidget);
void SetRowFill(int32 RowId, float Coefficient);
public:
// SWidget interface
virtual int32 OnPaint( const FPaintArgs& Args, const FGeometry& AllottedGeometry, const FSlateRect& MyClippingRect, FSlateWindowElementList& OutDrawElements, int32 LayerId, const FWidgetStyle& InWidgetStyle, bool bParentEnabled ) const override;
virtual void OnArrangeChildren( const FGeometry& AllottedGeometry, FArrangedChildren& ArrangedChildren ) const override;
virtual void CacheDesiredSize(float) override;
virtual FVector2D ComputeDesiredSize(float) const override;
virtual FChildren* GetChildren() override;
private:
/**
* Given an array of values, re-populate the array such that every contains the partial sums up to that element.
* i.e. Array[N] = Array.Sum(0 .. N-1)
*
* The resulting array is 1-element longer.
*/
static void ComputePartialSums( TArray<float>& TurnMeIntoPartialSums );
/** Given a SizeContribution, distribute it to the elements in DistributeOverMe at indexes from [StartIndex .. UpperBound) */
static void DistributeSizeContributions( float SizeContribution, TArray<float>& DistributeOverMe, int32 StartIndex, int32 UpperBound );
/**
* Inserts the given slot into the list of Slots based on its LayerParam, such that Slots are sorter by layer.
*
* @param The newly-allocated slot to insert.
* @return A reference to the added slot
*/
FSlot& InsertSlot(FSlot* InSlot);
/** Compute the sizes of columns and rows needed to fit all the slots in this grid. */
void ComputeDesiredCellSizes(float AvailableWidth, TArray<float>& OutColumns, TArray<float>& OutRows, TArray<float>& OutRowToSlot) const;
/** Draw the debug grid of rows and colummns; useful for inspecting the GridPanel's logic. See OnPaint() for parameter meaning */
int32 LayoutDebugPaint(const FGeometry& AllottedGeometry, const FSlateRect& MyClippingRect, FSlateWindowElementList& OutDrawElements, int32 LayerId ) const;
/**
* Callback used to resize our internal arrays if a slot (or slot span) is changed.
*
* @param The slot that has just changed.
*/
void NotifySlotChanged(FSlot* InSlot);
private:
/** The rows*/
TPanelChildren<FSlot> Slots;
int32 TotalColumns;
float ColumnGutter;
float RowGutter;
/** Fill coefficients for the rows */
TArray<float> RowFillCoefficients;
/** Total desires size along each axis. */
FVector2D TotalDesiredSizes;
mutable float PreviousWidth;
};
| 27 | 246 | 0.715072 |
3ed1167347377fc63ebe1367cd81be27407e5e99 | 185 | h | C | Lab1/Sheep.h | devtedlee/cppStudyProjects | 65c7504773a332b32b473058b273fe1356d0b7b5 | [
"MIT"
] | null | null | null | Lab1/Sheep.h | devtedlee/cppStudyProjects | 65c7504773a332b32b473058b273fe1356d0b7b5 | [
"MIT"
] | null | null | null | Lab1/Sheep.h | devtedlee/cppStudyProjects | 65c7504773a332b32b473058b273fe1356d0b7b5 | [
"MIT"
] | null | null | null | #include "Animal.h"
namespace lab1
{
class Sheep : public Animal
{
public:
Sheep(char* name);
virtual ~Sheep();
virtual void Bark() const;
private:
int mFurCount;
};
} | 11.5625 | 28 | 0.643243 |
c436a27cd34b6206841ec5fac3471d5bf21c7465 | 904 | c | C | src/main.c | Nauscar/pebble-rsvp | d5ecde9ffe88f5622eb1db05fa11a470e518b8da | [
"MIT"
] | null | null | null | src/main.c | Nauscar/pebble-rsvp | d5ecde9ffe88f5622eb1db05fa11a470e518b8da | [
"MIT"
] | null | null | null | src/main.c | Nauscar/pebble-rsvp | d5ecde9ffe88f5622eb1db05fa11a470e518b8da | [
"MIT"
] | null | null | null | #include <pebble.h>
#include "rsvp.h"
Window *window;
TextLayer *text_layer;
static void prv_single_click_cb(void *context) {
static char test[] = "Hello World. How are you today? This is an RSVP test on Pebble. :D";
rsvp_display(test);
}
static void prv_click_config_provider(Window *context) {
window_single_click_subscribe(BUTTON_ID_SELECT, (ClickHandler) prv_single_click_cb);
}
void handle_init(void) {
// Create a window and text layer
window = window_create();
Layer *window_layer = window_get_root_layer(window);
rsvp_init(window_layer, true);
// Push the window
window_stack_push(window, true);
// Subscribe to button clicks
window_set_click_config_provider(window, (ClickConfigProvider) prv_click_config_provider);
}
void handle_deinit(void) {
rsvp_deinit();
window_destroy(window);
}
int main(void) {
handle_init();
app_event_loop();
handle_deinit();
}
| 22.6 | 93 | 0.75 |
85196fb973eb442e52cfa674bd29d9c1d9552e53 | 164 | h | C | src/CREAT.h | huruifeng/CREAT | 9a62028b28224e140d0b14a40b684ca2d1052a9e | [
"Apache-2.0"
] | null | null | null | src/CREAT.h | huruifeng/CREAT | 9a62028b28224e140d0b14a40b684ca2d1052a9e | [
"Apache-2.0"
] | null | null | null | src/CREAT.h | huruifeng/CREAT | 9a62028b28224e140d0b14a40b684ca2d1052a9e | [
"Apache-2.0"
] | null | null | null | /*
* PEAK.h
*
* Created on: Dec 12, 2016
* Author: Ruifeng Hu
*/
#ifndef PFA_H_
#define PFA_H_
#include "common.h"
#endif /* PFA_H_ */
| 10.933333 | 29 | 0.530488 |
87e7646e291c94723659ffd9848b8392fde29bb9 | 811 | h | C | printscan/ui/prototypes/duipic/duipic.h | npocmaka/Windows-Server-2003 | 5c6fe3db626b63a384230a1aa6b92ac416b0765f | [
"Unlicense"
] | 17 | 2020-11-13T13:42:52.000Z | 2021-09-16T09:13:13.000Z | printscan/ui/prototypes/duipic/duipic.h | sancho1952007/Windows-Server-2003 | 5c6fe3db626b63a384230a1aa6b92ac416b0765f | [
"Unlicense"
] | 2 | 2020-10-19T08:02:06.000Z | 2020-10-19T08:23:18.000Z | printscan/ui/prototypes/duipic/duipic.h | sancho1952007/Windows-Server-2003 | 5c6fe3db626b63a384230a1aa6b92ac416b0765f | [
"Unlicense"
] | 14 | 2020-11-14T09:43:20.000Z | 2021-08-28T08:59:57.000Z | #ifndef _DUIPIC_H_
#define _DUIPIC_H_
class CAnnotationSet;
class CImageGadget
{
public:
CImageGadget();
~CImageGadget();
BOOL Initialize(HGADGET hgadParent, LPCWSTR pszFilename);
inline HGADGET GetHandle() const {return m_hGadget;}
private:
static HRESULT ImgGadgetProc(HGADGET hGadget, void *pv, EventMsg *pMsg);
void OnRender(GMSG_PAINTRENDERF * pmsg);
void OnRender(GMSG_PAINTRENDERI * pmsg);
void OnMouseDrag(GMSG_MOUSEDRAG *pmsg);
void OnChangeMouseFocus(GMSG_CHANGESTATE *pmsg);
HRESULT OnMouseDown(GMSG_MOUSE *pmsg);
HRESULT OnMouseUp(GMSG_MOUSE *pmsg);
void _SetAlpha(BOOL bUpdate = TRUE);
Image *m_pImage;
HGADGET m_hGadget;
BYTE m_alpha;
BOOL m_bDragging;
CAnnotationSet *m_pAnnotations;
};
#endif
| 27.965517 | 77 | 0.706535 |
e264d562d3bc4b7136ef5dab70f22d708ee6c22a | 2,411 | h | C | System/Library/Frameworks/HealthKit.framework/HKSleepAnalysis.h | lechium/iOS1351Headers | 6bed3dada5ffc20366b27f7f2300a24a48a6284e | [
"MIT"
] | 2 | 2021-11-02T09:23:27.000Z | 2022-03-28T08:21:57.000Z | System/Library/Frameworks/HealthKit.framework/HKSleepAnalysis.h | lechium/iOS1351Headers | 6bed3dada5ffc20366b27f7f2300a24a48a6284e | [
"MIT"
] | null | null | null | System/Library/Frameworks/HealthKit.framework/HKSleepAnalysis.h | lechium/iOS1351Headers | 6bed3dada5ffc20366b27f7f2300a24a48a6284e | [
"MIT"
] | 1 | 2022-03-28T08:21:59.000Z | 2022-03-28T08:21:59.000Z | /*
* This header is generated by classdump-dyld 1.5
* on Friday, April 30, 2021 at 11:37:06 AM Mountain Standard Time
* Operating System: Version 13.5.1 (Build 17F80)
* Image Source: /System/Library/Frameworks/HealthKit.framework/HealthKit
* classdump-dyld is licensed under GPLv3, Copyright © 2013-2016 by Elias Limneos. Updated by Kevin Bradley.
*/
@class NSArray;
@interface HKSleepAnalysis : NSObject {
NSArray* _sleepDays;
long long _numberOfAsleepSamples;
long long _consistencyCount;
double _averageEfficiency;
double _averageTimeInBed;
double _averageTimeAsleep;
long long _averageNumberOfInterruptions;
}
@property (nonatomic,copy,readonly) NSArray * sleepDays; //@synthesize sleepDays=_sleepDays - In the implementation block
@property (nonatomic,readonly) long long numberOfAsleepSamples; //@synthesize numberOfAsleepSamples=_numberOfAsleepSamples - In the implementation block
@property (nonatomic,readonly) long long consistencyCount; //@synthesize consistencyCount=_consistencyCount - In the implementation block
@property (nonatomic,readonly) double averageEfficiency; //@synthesize averageEfficiency=_averageEfficiency - In the implementation block
@property (nonatomic,readonly) double averageTimeInBed; //@synthesize averageTimeInBed=_averageTimeInBed - In the implementation block
@property (nonatomic,readonly) double averageTimeAsleep; //@synthesize averageTimeAsleep=_averageTimeAsleep - In the implementation block
@property (nonatomic,readonly) long long averageNumberOfInterruptions; //@synthesize averageNumberOfInterruptions=_averageNumberOfInterruptions - In the implementation block
+(id)emptyAnalysis;
-(id)initWithSleepDays:(id)arg1 numberOfAsleepSamples:(long long)arg2 consistencyCount:(long long)arg3 averageEfficiency:(double)arg4 averageTimeInBed:(double)arg5 averageTimeAlseep:(double)arg6 averageNumberOfInterruptions:(long long)arg7 ;
-(NSArray *)sleepDays;
-(long long)numberOfAsleepSamples;
-(long long)consistencyCount;
-(double)averageEfficiency;
-(double)averageTimeInBed;
-(double)averageTimeAsleep;
-(long long)averageNumberOfInterruptions;
@end
| 57.404762 | 241 | 0.719618 |
e26f26001665f3b907f0489566340501b483fed3 | 2,024 | c | C | servicemodels/e2sm_mho/mhoctypes/MHO-Trigger-Type.c | AbdouTlili/onos-e2-em | fa751f55ef2dfcbf92a9e3aa9722cd417ef8ffae | [
"Apache-2.0"
] | null | null | null | servicemodels/e2sm_mho/mhoctypes/MHO-Trigger-Type.c | AbdouTlili/onos-e2-em | fa751f55ef2dfcbf92a9e3aa9722cd417ef8ffae | [
"Apache-2.0"
] | null | null | null | servicemodels/e2sm_mho/mhoctypes/MHO-Trigger-Type.c | AbdouTlili/onos-e2-em | fa751f55ef2dfcbf92a9e3aa9722cd417ef8ffae | [
"Apache-2.0"
] | null | null | null | /*
* Generated by asn1c-0.9.29 (http://lionet.info/asn1c)
* From ASN.1 module "E2SM-MHO-IEs"
* found in "e2sm-mho.asn1"
* `asn1c -fcompound-names -fincludes-quoted -fno-include-deps -findirect-choice -gen-PER -no-gen-OER -D.`
*/
#include "MHO-Trigger-Type.h"
/*
* This type is implemented using NativeEnumerated,
* so here we adjust the DEF accordingly.
*/
asn_per_constraints_t asn_PER_type_MHO_Trigger_Type_constr_1 CC_NOTUSED = {
{ APC_CONSTRAINED | APC_EXTENSIBLE, 2, 2, 0, 2 } /* (0..2,...) */,
{ APC_UNCONSTRAINED, -1, -1, 0, 0 },
0, 0 /* No PER value map */
};
static const asn_INTEGER_enum_map_t asn_MAP_MHO_Trigger_Type_value2enum_1[] = {
{ 0, 8, "periodic" },
{ 1, 20, "upon-rcv-meas-report" },
{ 2, 22, "upon-change-rrc-status" }
/* This list is extensible */
};
static const unsigned int asn_MAP_MHO_Trigger_Type_enum2value_1[] = {
0, /* periodic(0) */
2, /* upon-change-rrc-status(2) */
1 /* upon-rcv-meas-report(1) */
/* This list is extensible */
};
const asn_INTEGER_specifics_t asn_SPC_MHO_Trigger_Type_specs_1 = {
asn_MAP_MHO_Trigger_Type_value2enum_1, /* "tag" => N; sorted by tag */
asn_MAP_MHO_Trigger_Type_enum2value_1, /* N => "tag"; sorted by N */
3, /* Number of elements in the maps */
4, /* Extensions before this member */
1, /* Strict enumeration */
0, /* Native long size */
0
};
static const ber_tlv_tag_t asn_DEF_MHO_Trigger_Type_tags_1[] = {
(ASN_TAG_CLASS_UNIVERSAL | (10 << 2))
};
asn_TYPE_descriptor_t asn_DEF_MHO_Trigger_Type = {
"MHO-Trigger-Type",
"MHO-Trigger-Type",
&asn_OP_NativeEnumerated,
asn_DEF_MHO_Trigger_Type_tags_1,
sizeof(asn_DEF_MHO_Trigger_Type_tags_1)
/sizeof(asn_DEF_MHO_Trigger_Type_tags_1[0]), /* 1 */
asn_DEF_MHO_Trigger_Type_tags_1, /* Same as above */
sizeof(asn_DEF_MHO_Trigger_Type_tags_1)
/sizeof(asn_DEF_MHO_Trigger_Type_tags_1[0]), /* 1 */
{ 0, &asn_PER_type_MHO_Trigger_Type_constr_1, NativeEnumerated_constraint },
0, 0, /* Defined elsewhere */
&asn_SPC_MHO_Trigger_Type_specs_1 /* Additional specs */
};
| 34.896552 | 107 | 0.714921 |
12f9c2cc636229593f00d4e4ccf643faa6353e96 | 4,089 | h | C | HopsanGUI/Dialogs/EditComponentDialog.h | mjfwest/hopsan | 77a0a1e69fd9588335b7e932f348972186cbdf6f | [
"Apache-2.0"
] | null | null | null | HopsanGUI/Dialogs/EditComponentDialog.h | mjfwest/hopsan | 77a0a1e69fd9588335b7e932f348972186cbdf6f | [
"Apache-2.0"
] | null | null | null | HopsanGUI/Dialogs/EditComponentDialog.h | mjfwest/hopsan | 77a0a1e69fd9588335b7e932f348972186cbdf6f | [
"Apache-2.0"
] | null | null | null | /*-----------------------------------------------------------------------------
Copyright 2017 Hopsan Group
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 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
The full license is available in the file GPLv3.
For details about the 'Hopsan Group' or information about Authors and
Contributors see the HOPSANGROUP and AUTHORS files that are located in
the Hopsan source code root directory.
-----------------------------------------------------------------------------*/
//!
//! @file EditComponentDialog.h
//! @author Robert Braun <robert.braun@liu.se>
//! @date 2011-12-01
//!
//! @brief Contains a class for the component generator dialog
//!
//$Id$
#ifndef EDITCOMPONENTDIALOG_H_INCLUDED
#define EDITCOMPONENTDIALOG_H_INCLUDED
#ifdef EXPERIMENTAL
#include <QDialog>
#include <QWizard>
class QTextDocument;
class QVBoxLayout;
class QComboBox;
class QTextEdit;
class QDialogButtonBox;
class QToolButton;
class QWizardPage;
class QLabel;
class QLineEdit;
class QGridLayout;
class QDoubleSpinBox;
class QSpinBox;
class ModelObjectAppearance;
class EditComponentDialog : public QDialog
{
Q_OBJECT
public:
enum SourceCodeEnumT {Cpp, Modelica};
QVBoxLayout *mpVerticalLayout;
QTextEdit *mpCodeTextEdit;
QComboBox *mpSolverComboBox;
QDialogButtonBox *mpButtonBox;
QToolButton *mpLoadButton;
QToolButton *mpSaveButton;
EditComponentDialog(QString code, SourceCodeEnumT language, QWidget *parent=0);
void retranslateUi();
QString getCode();
int getSolver();
void openCreateComponentWizard(SourceCodeEnumT language);
void doLoad(QString path);
void doSave(QString path);
QString mLastLoadedOrSavedCode;
private slots:
//void openCreateComponentWizard(SourceCodeEnumT language);
void setHighlighter(SourceCodeEnumT language);
void load();
void save();
};
class CreateComponentWizard : public QWizard
{
Q_OBJECT
public:
CreateComponentWizard(EditComponentDialog::SourceCodeEnumT language, EditComponentDialog *parent = 0);
private slots:
void updatePage(int i);
void generate();
private:
EditComponentDialog::SourceCodeEnumT mLanguage;
EditComponentDialog *mpParent;
QWizardPage *mpFirstPage;
QGridLayout *mpFirstPageLayout;
QLabel *mpTypeNameLabel;
QLineEdit *mpTypeNameLineEdit;
QLabel *mpDisplayNameLabel;
QLineEdit *mpDisplayNameLineEdit;
QLabel *mpCqsTypeLabel;
QComboBox *mpCqsTypeComboBox;
QLabel *mpNumberOfPortsLabel;
QSpinBox *mpNumberOfPortsSpinBox;
QLabel *mpNumberOfParametersLabel;
QSpinBox *mpNumberOfParametersSpinBox;
QWizardPage *mpSecondPage;
QGridLayout *mpSecondPageLayout;
QLabel *mpPortIdTitle;
QLabel *mpPortNameTitle;
QLabel *mpPortTypeTitle;
QLabel *mpNodeTypeTitle;
QLabel *mpDefaultValueTitle;
QList<QLabel*> mPortIdPtrs;
QList<QLineEdit*> mPortNameLineEditPtrs;
QList<QComboBox*> mPortTypeComboBoxPtrs;
QList<QDoubleSpinBox*> mPortDefaultSpinBoxPtrs;
QWizardPage *mpThirdPage;
QGridLayout *mpThirdPageLayout;
QLabel *mpParameterNameTitle;
QLabel *mpParameterUnitTitle;
QLabel *mpParameterDescriptionTitle;
QLabel *mpParameterValueTitle;
QList<QLineEdit*> mParameterNameLineEditPtrs;
QList<QLineEdit*> mParameterUnitLineEditPtrs;
QList<QLineEdit*> mParameterDescriptionLineEditPtrs;
QList<QLineEdit*> mParameterValueLineEditPtrs;
};
#endif //EXPERIMENTAL
#endif // EDITCOMPONENTDIALOG_H_INCLUDED
| 27.442953 | 106 | 0.730741 |
8f66baaccaab04e60d7440b96f35f46d33eee339 | 1,684 | h | C | System/Library/Frameworks/Photos.framework/PHAssetExportRequest.h | lechium/tvOS124Headers | 11d1b56dd4c0ffd88b9eac43f87a5fd6f7228475 | [
"MIT"
] | 4 | 2019-08-27T18:03:47.000Z | 2021-09-18T06:29:00.000Z | System/Library/Frameworks/Photos.framework/PHAssetExportRequest.h | lechium/tvOS124Headers | 11d1b56dd4c0ffd88b9eac43f87a5fd6f7228475 | [
"MIT"
] | null | null | null | System/Library/Frameworks/Photos.framework/PHAssetExportRequest.h | lechium/tvOS124Headers | 11d1b56dd4c0ffd88b9eac43f87a5fd6f7228475 | [
"MIT"
] | null | null | null | /*
* This header is generated by classdump-dyld 1.0
* on Saturday, August 24, 2019 at 9:45:01 PM Mountain Standard Time
* Operating System: Version 12.4 (Build 16M568)
* Image Source: /System/Library/Frameworks/Photos.framework/Photos
* classdump-dyld is licensed under GPLv3, Copyright © 2013-2016 by Elias Limneos.
*/
#import <libobjc.A.dylib/NSProgressReporting.h>
@class NSProgress, NSURL, PHAsset, NSDictionary, NSString;
@interface PHAssetExportRequest : NSObject <NSProgressReporting> {
NSURL* _outputDirectory;
PHAsset* _asset;
NSProgress* _progress;
NSDictionary* _variants;
}
@property (nonatomic,readonly) PHAsset * asset; //@synthesize asset=_asset - In the implementation block
@property (nonatomic,readonly) NSProgress * progress; //@synthesize progress=_progress - In the implementation block
@property (nonatomic,readonly) NSDictionary * variants; //@synthesize variants=_variants - In the implementation block
@property (readonly) unsigned long long hash;
@property (readonly) Class superclass;
@property (copy,readonly) NSString * description;
@property (copy,readonly) NSString * debugDescription;
+(id)exportRequestForAsset:(id)arg1 variants:(id)arg2 error:(id*)arg3 ;
+(id)exportRequestForAsset:(id)arg1 error:(id*)arg2 ;
+(id)assetExportLog;
-(id)outputDirectory;
-(id)initWithAsset:(id)arg1 variants:(id)arg2 ;
-(void)performCompletionWithFileURLs:(id)arg1 error:(id)arg2 completionHandler:(/*^block*/id)arg3 ;
-(void)exportWithOptions:(id)arg1 completionHandler:(/*^block*/id)arg2 ;
-(NSDictionary *)variants;
-(id)init;
-(NSString *)description;
-(NSProgress *)progress;
-(PHAsset *)asset;
@end
| 39.162791 | 131 | 0.745249 |
6bf6ee527451b497022050a3169eda9af44822ae | 2,070 | c | C | images/core/context/free5gc/src/smf/smf_n11_handler.c | my5G/OPlaceRAN | cc6fe5223b9b2a32d7963b2304762fe2a0265298 | [
"Apache-2.0"
] | 1 | 2022-02-22T07:19:59.000Z | 2022-02-22T07:19:59.000Z | images/core/context/free5gc/src/smf/smf_n11_handler.c | my5G/OPlaceRAN | cc6fe5223b9b2a32d7963b2304762fe2a0265298 | [
"Apache-2.0"
] | 1 | 2022-01-15T20:26:01.000Z | 2022-01-15T20:26:01.000Z | images/core/context/free5gc/src/smf/smf_n11_handler.c | my5G/OPlaceRAN | cc6fe5223b9b2a32d7963b2304762fe2a0265298 | [
"Apache-2.0"
] | 1 | 2022-01-07T18:49:10.000Z | 2022-01-07T18:49:10.000Z | #define TRACE_MODULE _smf_n11_handler
#include "core.h"
#include "smf_n11_handler.h"
#include "smf_n11_build.h"
#include "smf_pfcp_path.h"
void smf_n11_handle_create_session_request(smf_sess_t *sess, create_session_t *createSession)
{
d_trace(3, "[SMF] N11 %s \n", __FUNCTION__);
if (createSession->ue_pco.length != 0) {
memcpy(sess->pco_buf, createSession->ue_pco.buffer, createSession->ue_pco.length);
sess->pco_len = createSession->ue_pco.length;
} else {
d_assert(createSession->ue_pco.length != 0, return, "NO PCO");
}
}
void smf_n11_handle_update_session_request(smf_sess_t *sess, modify_bearer_t *pModifyBearer)
{
d_trace(3, "[SMF] N11 %s \n", __FUNCTION__);
status_t rv;
smf_bearer_t *bearer = NULL;
bearer = smf_bearer_find_by_ebi(sess, pModifyBearer->ebi);
d_assert(bearer, return, "Bearer Context Not Found");
switch (pModifyBearer->sm_context_update_type)
{
case SM_CONTEXT_UPDATE_TYPE_MODIFY:
{
bearer->enb_s1u_teid = ntohl(pModifyBearer->enb_s1u_teid);
bearer->addr = pModifyBearer->enb_s1u_ip.addr;
sess->dl_pdr->far->apply_action = PFCP_FAR_APPLY_ACTION_FORW;
d_trace(5, " ENB_S1U_TEID[%d] UPF_S1U_TEID[%d]\n",
bearer->upf_s1u_teid, bearer->enb_s1u_teid);
rv = smf_pfcp_send_setup_donwlink_session_modification_request(sess);
d_assert(rv == CORE_OK, , "pfcp session modification fail");
break;
}
case SM_CONTEXT_UPDATE_TYPE_RELEASE_ACCESS:
{
sess->dl_pdr->far->apply_action = PFCP_FAR_APPLY_ACTION_DROP;
rv = smf_pfcp_send_an_release_session_modification_request(sess);
d_assert(rv == CORE_OK, , "pfcp session modification fail");
break;
}
}
sess->sm_context_update_type = pModifyBearer->sm_context_update_type;
}
void smf_n11_handle_delete_session_request(
smf_sess_t *sess, delete_session_t *pDeleteSession)
{
d_trace(3, "[SMF] N11 %s \n", __FUNCTION__);
}
| 32.857143 | 93 | 0.677295 |
378e20ce20ee21ca93b8b34feee52634d3977b0a | 227 | c | C | tests/CompileTests/UPC_tests/test2014_55.c | maurizioabba/rose | 7597292cf14da292bdb9a4ef573001b6c5b9b6c0 | [
"BSD-3-Clause"
] | 488 | 2015-01-09T08:54:48.000Z | 2022-03-30T07:15:46.000Z | tests/CompileTests/UPC_tests/test2014_55.c | sujankh/rose-matlab | 7435d4fa1941826c784ba97296c0ec55fa7d7c7e | [
"BSD-3-Clause"
] | 174 | 2015-01-28T18:41:32.000Z | 2022-03-31T16:51:05.000Z | tests/CompileTests/UPC_tests/test2014_55.c | sujankh/rose-matlab | 7435d4fa1941826c784ba97296c0ec55fa7d7c7e | [
"BSD-3-Clause"
] | 146 | 2015-04-27T02:48:34.000Z | 2022-03-04T07:32:53.000Z | /* This is a subset of in12.c example */
typedef struct
{
int nEGlo;
} DelayedSpectrum;
void foobar()
{
/* This should translate to: "DelayedSpectrum *Spec = 0;" */
shared DelayedSpectrum *Spec = 0;
}
| 18.916667 | 62 | 0.61674 |
535c4940297ce50dc88fe65c97ad58174dcbba47 | 2,970 | h | C | pypy/translator/c/src/signals.h | camillobruni/pygirl | ddbd442d53061d6ff4af831c1eab153bcc771b5a | [
"MIT"
] | 12 | 2016-01-06T07:10:28.000Z | 2021-05-13T23:02:02.000Z | pypy/translator/c/src/signals.h | camillobruni/pygirl | ddbd442d53061d6ff4af831c1eab153bcc771b5a | [
"MIT"
] | null | null | null | pypy/translator/c/src/signals.h | camillobruni/pygirl | ddbd442d53061d6ff4af831c1eab153bcc771b5a | [
"MIT"
] | 2 | 2016-07-29T07:09:50.000Z | 2016-10-16T08:50:26.000Z |
/* some ifdefs from CPython's signalmodule.c... */
#ifndef _PYPY_SIGNALS_H
#define _PYPY_SIGNALS_H
#include <stdlib.h>
#ifdef MS_WINDOWS
#include <process.h>
#endif
#include <signal.h>
#ifndef SIG_ERR
#define SIG_ERR ((PyOS_sighandler_t)(-1))
#endif
#if defined(PYOS_OS2) && !defined(PYCC_GCC)
#define NSIG 12
#include <process.h>
#endif
#ifndef NSIG
# if defined(_NSIG)
# define NSIG _NSIG /* For BSD/SysV */
# elif defined(_SIGMAX)
# define NSIG (_SIGMAX + 1) /* For QNX */
# elif defined(SIGMAX)
# define NSIG (SIGMAX + 1) /* For djgpp */
# else
# define NSIG 64 /* Use a reasonable default value */
# endif
#endif
/************************************************************/
/* NOTE: at the moment this file is included by a hack in
module/signal/interp_signal.py, only if one of the pypysig_*()
functions is actually used in the RPython program. */
/* utilities to set a signal handler */
void pypysig_ignore(int signum); /* signal will be ignored (SIG_IGN) */
void pypysig_default(int signum); /* signal will do default action (SIG_DFL) */
void pypysig_setflag(int signum); /* signal will set a flag which can be
queried with pypysig_poll() */
/* utility to poll for signals that arrived */
int pypysig_poll(void); /* => signum or -1 */
/************************************************************/
/* Implementation */
#ifndef PYPY_NOT_MAIN_FILE
static volatile int pypysig_occurred;
static volatile int pypysig_flags[NSIG];
void pypysig_ignore(int signum)
{
#ifdef SA_RESTART
/* assume sigaction exists */
struct sigaction context;
context.sa_handler = SIG_IGN;
sigemptyset(&context.sa_mask);
context.sa_flags = 0;
sigaction(signum, &context, NULL);
#else
signal(signum, SIG_IGN);
#endif
}
void pypysig_default(int signum)
{
#ifdef SA_RESTART
/* assume sigaction exists */
struct sigaction context;
context.sa_handler = SIG_DFL;
sigemptyset(&context.sa_mask);
context.sa_flags = 0;
sigaction(signum, &context, NULL);
#else
signal(signum, SIG_DFL);
#endif
}
static void signal_setflag_handler(int signum)
{
pypysig_occurred = 1;
if (0 <= signum && signum < NSIG)
pypysig_flags[signum] = 1;
}
void pypysig_setflag(int signum)
{
#ifdef SA_RESTART
/* assume sigaction exists */
struct sigaction context;
context.sa_handler = signal_setflag_handler;
sigemptyset(&context.sa_mask);
context.sa_flags = 0;
sigaction(signum, &context, NULL);
#else
signal(signum, signal_setflag_handler);
#endif
}
int pypysig_poll(void)
{
if (pypysig_occurred)
{
int i;
pypysig_occurred = 0;
for (i=0; i<NSIG; i++)
if (pypysig_flags[i])
{
pypysig_flags[i] = 0;
pypysig_occurred = 1; /* maybe another signal is pending */
return i;
}
}
return -1; /* no pending signal */
}
#endif
#endif
| 23.023256 | 79 | 0.63367 |
4b4c5b7146a006173766a541c99bf6c1df8b832d | 4,472 | c | C | dev/model/validator/inclusionin.c | andresgutierrez/cphalcon | 586965fe80cd4b2374664861bcc1c49a3e1c51c4 | [
"BSD-3-Clause"
] | 5 | 2015-06-01T16:54:48.000Z | 2018-02-01T20:37:04.000Z | dev/model/validator/inclusionin.c | andresgutierrez/cphalcon | 586965fe80cd4b2374664861bcc1c49a3e1c51c4 | [
"BSD-3-Clause"
] | null | null | null | dev/model/validator/inclusionin.c | andresgutierrez/cphalcon | 586965fe80cd4b2374664861bcc1c49a3e1c51c4 | [
"BSD-3-Clause"
] | null | null | null |
/*
+------------------------------------------------------------------------+
| Phalcon Framework |
+------------------------------------------------------------------------+
| Copyright (c) 2011-2012 Phalcon Team (http://www.phalconphp.com) |
+------------------------------------------------------------------------+
| This source file is subject to the New BSD License that is bundled |
| with this package in the file docs/LICENSE.txt. |
| |
| If you did not receive a copy of the license and are unable to |
| obtain it through the world-wide-web, please send an email |
| to license@phalconphp.com so we can send you a copy immediately. |
+------------------------------------------------------------------------+
| Authors: Andres Gutierrez <andres@phalconphp.com> |
| Eduar Carvajal <eduar@phalconphp.com> |
+------------------------------------------------------------------------+
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include "php.h"
#include "php_phalcon.h"
#include "phalcon.h"
#include "kernel/main.h"
#include "kernel/fcall.h"
#include "kernel/require.h"
#include "kernel/object.h"
#include "kernel/debug.h"
#include "kernel/assert.h"
#include "kernel/array.h"
#include "kernel/operators.h"
#include "kernel/concat.h"
#include "kernel/memory.h"
#include "Zend/zend_operators.h"
#include "Zend/zend_exceptions.h"
#include "Zend/zend_interfaces.h"
/**
* Phalcon_Model_Validator_Inclusionin
*
* Check if a value is included into a list of values
*
*
*
*/
/**
* Check that the options are valid
*
*/
PHP_METHOD(Phalcon_Model_Validator_Inclusionin, checkOptions){
zval *r0 = NULL, *r1 = NULL, *r2 = NULL;
zval *c0 = NULL, *c1 = NULL;
PHALCON_MM_GROW();
PHALCON_ALLOC_ZVAL_MM(r0);
PHALCON_INIT_VAR(c0);
ZVAL_STRING(c0, "domain", 1);
PHALCON_CALL_METHOD_PARAMS_1(r0, this_ptr, "issetoption", c0, PHALCON_NO_CHECK);
if (!zend_is_true(r0)) {
PHALCON_THROW_EXCEPTION_STR(phalcon_model_exception_ce, "The option 'domain' is required for this validator");
return;
}
PHALCON_ALLOC_ZVAL_MM(r1);
PHALCON_ALLOC_ZVAL_MM(r2);
PHALCON_INIT_VAR(c1);
ZVAL_STRING(c1, "domain", 1);
PHALCON_CALL_METHOD_PARAMS_1(r2, this_ptr, "getoption", c1, PHALCON_NO_CHECK);
PHALCON_CALL_FUNC_PARAMS_1(r1, "is_array", r2, 0x03D);
if (!zend_is_true(r1)) {
PHALCON_THROW_EXCEPTION_STR(phalcon_model_exception_ce, "Option 'domain' must be an array");
return;
}
PHALCON_MM_RESTORE();
}
/**
* Executes validator
*
* @return boolean
*/
PHP_METHOD(Phalcon_Model_Validator_Inclusionin, validate){
zval *domain = NULL, *field_name = NULL;
zval *r0 = NULL, *r1 = NULL, *r2 = NULL, *r3 = NULL, *r4 = NULL, *r5 = NULL, *r6 = NULL;
zval *r7 = NULL;
zval *c0 = NULL, *c1 = NULL, *c2 = NULL, *c3 = NULL;
PHALCON_MM_GROW();
PHALCON_ALLOC_ZVAL_MM(r0);
PHALCON_CALL_METHOD(r0, this_ptr, "isrequired", PHALCON_NO_CHECK);
if (zend_is_true(r0)) {
PHALCON_ALLOC_ZVAL_MM(r1);
PHALCON_INIT_VAR(c0);
ZVAL_STRING(c0, "domain", 1);
PHALCON_CALL_METHOD_PARAMS_1(r1, this_ptr, "issetoption", c0, PHALCON_NO_CHECK);
if (zend_is_true(r1)) {
PHALCON_ALLOC_ZVAL_MM(r2);
PHALCON_INIT_VAR(c1);
ZVAL_STRING(c1, "domain", 1);
PHALCON_CALL_METHOD_PARAMS_1(r2, this_ptr, "getoption", c1, PHALCON_NO_CHECK);
PHALCON_CPY_WRT(domain, r2);
PHALCON_ALLOC_ZVAL_MM(r3);
PHALCON_ALLOC_ZVAL_MM(r4);
PHALCON_CALL_METHOD(r4, this_ptr, "getvalue", PHALCON_NO_CHECK);
PHALCON_CALL_FUNC_PARAMS_2(r3, "in_array", r4, domain, 0x03E);
if (!zend_is_true(r3)) {
PHALCON_ALLOC_ZVAL_MM(r5);
PHALCON_CALL_METHOD(r5, this_ptr, "getfieldname", PHALCON_NO_CHECK);
PHALCON_CPY_WRT(field_name, r5);
PHALCON_ALLOC_ZVAL_MM(r6);
PHALCON_INIT_VAR(c2);
ZVAL_STRING(c2, ", ", 1);
PHALCON_ALLOC_ZVAL_MM(r7);
phalcon_fast_join(r7, c2, domain TSRMLS_CC);
PHALCON_CONCAT_SVSV(r6, "Value of field '", field_name, "' must be part of list: ", r7);
PHALCON_INIT_VAR(c3);
ZVAL_STRING(c3, "inclusion", 1);
PHALCON_CALL_METHOD_PARAMS_3_NORETURN(this_ptr, "appendmessage", r6, field_name, c3, PHALCON_NO_CHECK);
PHALCON_MM_RESTORE();
RETURN_FALSE;
}
}
}
PHALCON_MM_RESTORE();
RETURN_TRUE;
}
| 30.841379 | 112 | 0.611583 |
bba3d21216caef166a8cdfd42a96f9706c334e19 | 645 | c | C | util/uuid.c | Adam-/bedrock | 428b91d7dfded30dc5eaec8b1d29d10a49da34b8 | [
"BSD-2-Clause"
] | 13 | 2015-01-11T04:39:21.000Z | 2021-03-08T13:00:48.000Z | util/uuid.c | Adam-/bedrock | 428b91d7dfded30dc5eaec8b1d29d10a49da34b8 | [
"BSD-2-Clause"
] | null | null | null | util/uuid.c | Adam-/bedrock | 428b91d7dfded30dc5eaec8b1d29d10a49da34b8 | [
"BSD-2-Clause"
] | 4 | 2015-04-06T12:55:05.000Z | 2021-06-25T03:40:19.000Z | #include "util/util.h"
#include "util/uuid.h"
#include <openssl/md5.h>
void uuid_v3_from_name(struct uuid *uuid, const char *name)
{
MD5_CTX ctx;
MD5_Init(&ctx);
MD5_Update(&ctx, name, strlen(name));
MD5_Final(uuid->u, &ctx);
uuid->u[6] = 0x30 | (uuid->u[6] & 0xF);
uuid->u[8] = 0x80 | (uuid->u[8] & 0x3F);
}
const char *uuid_to_string(struct uuid *uuid)
{
static char buf[UUID_STR_LEN + 1];
const char hex[] = "0123456789abcdef";
int i;
char *p = buf;
for (i = 0; i < UUID_LEN; ++i)
{
*p++ = hex[uuid->u[i] >> 4];
*p++ = hex[uuid->u[i] & 0xF];
if (i == 3 || i == 5 || i == 7 || i == 9)
*p++ = '-';
}
return buf;
}
| 18.428571 | 59 | 0.564341 |
63815ed94b9fd4f7a9ce504202695250334cc492 | 2,496 | c | C | sdk-6.5.20/src/soc/dnxc/dnxc_ha.c | copslock/broadcom_cpri | 8e2767676e26faae270cf485591902a4c50cf0c5 | [
"Spencer-94"
] | null | null | null | sdk-6.5.20/src/soc/dnxc/dnxc_ha.c | copslock/broadcom_cpri | 8e2767676e26faae270cf485591902a4c50cf0c5 | [
"Spencer-94"
] | null | null | null | sdk-6.5.20/src/soc/dnxc/dnxc_ha.c | copslock/broadcom_cpri | 8e2767676e26faae270cf485591902a4c50cf0c5 | [
"Spencer-94"
] | null | null | null |
/*
*
* This license is set out in https://raw.githubusercontent.com/Broadcom-Network-Switching-Software/OpenBCM/master/Legal/LICENSE file.
*
* Copyright 2007-2020 Broadcom Inc. All rights reserved.
*/
#include <shared/bsl.h>
#include <shared/shrextend/shrextend_debug.h>
#include <soc/types.h>
#include <sal/core/alloc.h>
#include <soc/error.h>
#include <assert.h>
#include <sal/core/thread.h>
#include <soc/dnxc/dnxc_ha.h>
#include <soc/dnxc/swstate/dnxc_sw_state_utils.h>
#include <shared/bsl.h>
#include <shared/shrextend/shrextend_debug.h>
#define BSL_LOG_MODULE BSL_LS_SWSTATEDNX_GENERAL
typedef struct
{
uint8 is_appl_deinit;
int counter[UTILEX_SEQ_ALLOW_NOF];
} dnxc_allow_write_t;
dnxc_allow_write_t dnxc_allow_write_db[SOC_MAX_NUM_DEVICES] = { {0} };
char *
dnxc_ha_access_type_str(
utilex_seq_allow_access_e access_type)
{
static char *access_type_str[] = { "dbal", "swstate", "schan" };
assert(access_type < UTILEX_SEQ_ALLOW_NOF);
return access_type_str[access_type];
}
int
dnxc_ha_init(
int unit)
{
SHR_FUNC_INIT_VARS(unit);
SHR_IF_ERR_EXIT(dnxc_ha_tid_set(unit));
SHR_EXIT();
exit:
SHR_FUNC_EXIT;
}
int
dnxc_ha_deinit(
int unit)
{
SHR_FUNC_INIT_VARS(unit);
SHR_EXIT();
exit:
SHR_FUNC_EXIT;
}
int
dnxc_ha_tid_set(
int unit)
{
SHR_FUNC_INIT_VARS(unit);
SHR_EXIT();
exit:
SHR_FUNC_EXIT;
}
int
dnxc_ha_tid_clear(
int unit)
{
SHR_FUNC_INIT_VARS(unit);
SHR_EXIT();
exit:
SHR_FUNC_EXIT;
}
int
dnxc_ha_appl_deinit_state_change(
int unit,
uint8 is_start)
{
SHR_FUNC_INIT_VARS(unit);
SHR_EXIT();
exit:
SHR_FUNC_EXIT;
}
int
dnxc_ha_appl_is_deinit(
int unit,
uint8 *is_deinit)
{
SHR_FUNC_INIT_VARS(unit);
SHR_EXIT();
exit:
SHR_FUNC_EXIT;
}
int
dnxc_ha_is_access_disabled(
int unit,
utilex_seq_allow_access_e access_type)
{
return FALSE;
}
static int
dnxc_ha_tmp_allow_access_change(
int unit,
utilex_seq_allow_access_e access_type,
uint8 is_enable)
{
SHR_FUNC_INIT_VARS(unit);
SHR_EXIT();
exit:
SHR_FUNC_EXIT;
}
int
dnxc_ha_tmp_allow_access_enable(
int unit,
utilex_seq_allow_access_e access_type)
{
return dnxc_ha_tmp_allow_access_change(unit, access_type, TRUE);
}
int
dnxc_ha_tmp_allow_access_disable(
int unit,
utilex_seq_allow_access_e access_type)
{
return dnxc_ha_tmp_allow_access_change(unit, access_type, FALSE);
}
#undef _ERR_MSG_MODULE_NAME
| 15.312883 | 134 | 0.723157 |
5b78c1b48aa90cca83eff89f93955e94a7822714 | 698 | h | C | src/budCovProgram.h | stdbud/cov | 5d4c12e5d145a744e9c162bf05d802fa9e18e3c0 | [
"Apache-2.0"
] | 4 | 2022-01-08T17:15:31.000Z | 2022-03-20T11:39:16.000Z | src/budCovProgram.h | stdbud/cov | 5d4c12e5d145a744e9c162bf05d802fa9e18e3c0 | [
"Apache-2.0"
] | null | null | null | src/budCovProgram.h | stdbud/cov | 5d4c12e5d145a744e9c162bf05d802fa9e18e3c0 | [
"Apache-2.0"
] | null | null | null | #pragma once
#include "budCovCommon.hpp"
#include "budCovObject.hpp"
#include "budCovUtils.hpp"
#include "budCovContext.h"
#include "budCovDevice.h"
namespace cov {
class Program : public ClObject<ObjectMagic, ObjectMagic::PROGRAM_MAGIC> {
public:
explicit Program(Context& context, std::vector<std::string>& sources);
~Program();
private:
Context& m_context;
std::vector<std::string> m_sources;
};
cl_program createProgramWithSource(cl_context context,
cl_uint count,
const char** strings,
const size_t* lengths,
cl_int* errcodeRet);
}
| 25.851852 | 74 | 0.598854 |
a0af5c899a9d6621470c8798e0652a6a8326e597 | 416 | c | C | Assets/jsb/Plugins/WebGL/libquickjs.c | ChrisPei/unity-jsb | 7b7d9a9ffdfa5e1b0643ad1e8dc3fdb6fd6f7593 | [
"MIT"
] | null | null | null | Assets/jsb/Plugins/WebGL/libquickjs.c | ChrisPei/unity-jsb | 7b7d9a9ffdfa5e1b0643ad1e8dc3fdb6fd6f7593 | [
"MIT"
] | null | null | null | Assets/jsb/Plugins/WebGL/libquickjs.c | ChrisPei/unity-jsb | 7b7d9a9ffdfa5e1b0643ad1e8dc3fdb6fd6f7593 | [
"MIT"
] | null | null | null |
#include "../../../../jsb_build/quickjs/quickjs-2020-04-12/quickjs.c"
// #include "../../../../jsb_build/quickjs/quickjs-2020-04-12/libregexp.c"
#include "../../../../jsb_build/quickjs/quickjs-2020-04-12/libunicode.c"
#include "../../../../jsb_build/quickjs/quickjs-2020-04-12/cutils.c"
#include "../../../../jsb_build/quickjs/quickjs-2020-04-12/libbf.c"
#include "../../../../jsb_build/quickjs/unity_qjs.c"
| 52 | 75 | 0.637019 |
6f42df4bd5e9ac33dadde523d98bf4950e0d8757 | 1,047 | h | C | windows/src/FlattenButton/View/FlattenButtonViewModule.h | usamakhan049/assignment | 40eb153e8fd74f73ba52ce29417d8220ab744b5d | [
"BSD-2-Clause"
] | 69 | 2017-06-07T10:47:03.000Z | 2022-03-24T08:33:33.000Z | windows/src/FlattenButton/View/FlattenButtonViewModule.h | usamakhan049/assignment | 40eb153e8fd74f73ba52ce29417d8220ab744b5d | [
"BSD-2-Clause"
] | 23 | 2017-06-07T10:47:00.000Z | 2020-07-09T10:31:17.000Z | windows/src/FlattenButton/View/FlattenButtonViewModule.h | usamakhan049/assignment | 40eb153e8fd74f73ba52ce29417d8220ab744b5d | [
"BSD-2-Clause"
] | 31 | 2017-08-12T13:19:32.000Z | 2022-01-04T20:33:40.000Z | // Copyright eeGeo Ltd (2012-2015), All Rights Reserved
#pragma once
#include "IFlattenButtonViewModule.h"
#include "WindowsNativeState.h"
#include "Types.h"
#include "FLattenButton.h"
#include "FlattenButtonViewIncludes.h"
#include "FlattenButtonView.h"
#include "FlattenButtonController.h"
#include "IMetricsService.h"
namespace ExampleApp
{
namespace FlattenButton
{
namespace View
{
class FlattenButtonViewModule: public IFlattenButtonViewModule, private Eegeo::NonCopyable
{
private:
FlattenButtonView* m_pView;
FlattenButtonController* m_pController;
public:
FlattenButtonViewModule(
WindowsNativeState& nativeState,
IFlattenButtonViewModel& viewModel,
ExampleAppMessaging::TMessageBus& messageBus,
Metrics::IMetricsService& metricsService
);
~FlattenButtonViewModule();
};
}
}
}
| 26.846154 | 102 | 0.617956 |
8d2f499bb853c3c5a6414dfd5ae2b909ce503a89 | 3,063 | h | C | PhotosUICore.framework/PXCMMWorkflowCoordinator.h | reels-research/iOS-Private-Frameworks | 9a4f4534939310a51fdbf5a439dd22487efb0f01 | [
"MIT"
] | 4 | 2021-10-06T12:15:26.000Z | 2022-02-21T02:26:00.000Z | PhotosUICore.framework/PXCMMWorkflowCoordinator.h | reels-research/iOS-Private-Frameworks | 9a4f4534939310a51fdbf5a439dd22487efb0f01 | [
"MIT"
] | null | null | null | PhotosUICore.framework/PXCMMWorkflowCoordinator.h | reels-research/iOS-Private-Frameworks | 9a4f4534939310a51fdbf5a439dd22487efb0f01 | [
"MIT"
] | 1 | 2021-10-08T07:40:53.000Z | 2021-10-08T07:40:53.000Z | /* Generated by RuntimeBrowser
Image: /System/Library/PrivateFrameworks/PhotosUICore.framework/PhotosUICore
*/
@interface PXCMMWorkflowCoordinator : NSObject <PXCMMActionControllerDelegate, PXCMMActionPerformerDelegate, PXCMMViewControllerDelegate> {
<PXCMMWorkflowCoordinatorDelegate> * _delegate;
UINavigationController * _navigationController;
PXCMMViewController * _rootWorkflowViewController;
PXCMMViewController * _sendBackWorkflowViewController;
}
@property (readonly, copy) NSString *debugDescription;
@property (nonatomic) <PXCMMWorkflowCoordinatorDelegate> *delegate;
@property (readonly, copy) NSString *description;
@property (readonly) unsigned long long hash;
@property (readonly) Class superclass;
- (void).cxx_destruct;
- (id)_alertControllerForSession:(id)arg1 withSuccess:(bool)arg2 error:(id)arg3 completionHandler:(id /* block */)arg4;
- (void)_completeActionForSession:(id)arg1 withSuccess:(bool)arg2 error:(id)arg3;
- (void)_completeMessageComposeActionForSession:(id)arg1 withSuccess:(bool)arg2 error:(id)arg3;
- (void)_completePhotosPickerActionForSession:(id)arg1 withSuccess:(bool)arg2 error:(id)arg3;
- (void)_completePublishForSession:(id)arg1 withURL:(id)arg2 error:(id)arg3;
- (void)_completeSendBackActionForSession:(id)arg1 withContext:(id)arg2 error:(id)arg3;
- (id)_createWorkflowViewControllerWithContext:(id)arg1;
- (void)_didFinishSession:(id)arg1 withState:(unsigned long long)arg2;
- (void)_didFinishSession:(id)arg1 withState:(unsigned long long)arg2 avoidDismissal:(bool)arg3;
- (id)_performActionWithType:(id)arg1 forSession:(id)arg2;
- (void)_performCleanupActionForSession:(id)arg1;
- (id)_performDeleteActionForSession:(id)arg1;
- (void)_performMessageComposeActionForSession:(id)arg1 shareURL:(id)arg2;
- (void)_performNotifyIfNeededActionForSession:(id)arg1;
- (void)_performPhotosPickerActionForSession:(id)arg1 gridPresentation:(id)arg2;
- (id)_performPublishActionForSession:(id)arg1;
- (id)_performReceiveActionForSession:(id)arg1;
- (void)_performSendBackActionForSession:(id)arg1;
- (void)_presentAlertController:(id)arg1;
- (void)_presentSendBackFlowWithContext:(id)arg1;
- (id)_presentingViewControllerForViewController:(id)arg1;
- (void)_session:(id)arg1 finishedAccepting:(bool)arg2 withError:(id)arg3;
- (bool)actionPerformer:(id)arg1 dismissViewController:(struct NSObject { Class x1; }*)arg2 completionHandler:(id /* block */)arg3;
- (bool)actionPerformer:(id)arg1 presentViewController:(struct NSObject { Class x1; }*)arg2;
- (void)cancelWorkflow;
- (id)completeMyMomentViewController:(id)arg1 performActionForSession:(id)arg2;
- (id)completeMyMomentViewController:(id)arg1 performSendBackActionForSession:(id)arg2;
- (void)completeMyMomentViewController:(id)arg1 showPhotoPickerForSession:(id)arg2;
- (id)delegate;
- (void)didCancelCompleteMyMomentViewController:(id)arg1;
- (void)setDelegate:(id)arg1;
- (void)startPreloadingTasksForCompleteMyMomentViewController:(id)arg1;
- (id)workflowViewControllerWithContext:(id)arg1 embedInNavigationControllerOfClass:(Class)arg2;
@end
| 56.722222 | 139 | 0.810643 |
a50bfd2d9540be363183bd18e14d1ac0e4aaecfe | 640 | h | C | Execution/LargeStack.h | marius92mc/river | ca50947e332986582093342f8f456dc9abccaaee | [
"MIT"
] | 29 | 2018-09-19T21:39:01.000Z | 2021-07-23T12:39:49.000Z | Execution/LargeStack.h | marius92mc/river | ca50947e332986582093342f8f456dc9abccaaee | [
"MIT"
] | 5 | 2018-10-11T12:07:33.000Z | 2019-03-20T11:10:14.000Z | Execution/LargeStack.h | marius92mc/river | ca50947e332986582093342f8f456dc9abccaaee | [
"MIT"
] | 11 | 2018-10-06T22:09:44.000Z | 2022-01-11T15:37:08.000Z | #ifndef _LARGE_STACK_H_
#define _LARGE_STACK_H_
#ifdef _WIN32
#include <Windows.h>
#endif
#include "../CommonCrossPlatform/Common.h"
namespace rev {
typedef unsigned int DWORD;
class LargeStack {
private:
DWORD *stackTop;
DWORD *stackBase;
DWORD stackSize;
DWORD chunkSize;
DWORD currentRegion;
DWORD offsets[3];
FILE_T hVirtualStack;
DWORD CurrentRegion() const;
bool VirtualPush(DWORD *buffer);
bool VirtualPop(DWORD *buffer);
public:
LargeStack(DWORD *base, DWORD size, DWORD *top, char *fName);
~LargeStack();
void Update();
};
};
#endif // !_LARGE_STACK_H_
| 16.842105 | 64 | 0.676563 |
a5f332f6742c01e33815b413d872f6dc5d5979bd | 270,701 | h | C | project/src/microkernels.h | PhuNH/hpc-lab | 25874fc36c87c57f2b6312d93897de9b898fbf26 | [
"MIT"
] | null | null | null | project/src/microkernels.h | PhuNH/hpc-lab | 25874fc36c87c57f2b6312d93897de9b898fbf26 | [
"MIT"
] | null | null | null | project/src/microkernels.h | PhuNH/hpc-lab | 25874fc36c87c57f2b6312d93897de9b898fbf26 | [
"MIT"
] | null | null | null | #ifndef MICROKERNELS_H_
#define MICROKERNELS_H_
static void kernel_o2_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"movq $7, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 24(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 48(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 24(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 48(%%rdx)%{%%k1%}\n\t"
"addq $24, %%rdx\n\t"
"addq $24, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 54;
#endif
}
static void kernel_o2_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"movq $7, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 24(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 48(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 24(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 48(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 24(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 48(%%rdx)%{%%k1%}\n\t"
"addq $24, %%rdx\n\t"
"addq $24, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 54;
#endif
}
static void kernel_o3_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"movq $63, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $48, %%r15\n\t"
"movq $144, %%rax\n\t"
"movq $240, %%rbx\n\t"
"movq $336, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 48(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 96(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 144(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 192(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 240(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 48(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 96(%%rdx)%{%%k1%}\n\t"
"addq $48, %%rdx\n\t"
"addq $48, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 216;
#endif
}
static void kernel_o3_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"movq $63, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 48(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 96(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 48(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 96(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 48(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 96(%%rdx)%{%%k1%}\n\t"
"addq $48, %%rdx\n\t"
"addq $48, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 108;
#endif
}
static void kernel_o4_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $80, %%r15\n\t"
"movq $240, %%rax\n\t"
"movq $400, %%rbx\n\t"
"movq $560, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 80(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 160(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 240(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 320(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 400(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 480(%%rdi), %%zmm0\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 560(%%rdi), %%zmm1\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 640(%%rdi), %%zmm0\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 720(%%rdi), %%zmm1\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 80(%%rdx)\n\t"
"vmovupd %%zmm31, 160(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $8, %%r12\n\t"
"jl 33b\n\t"
"movq $3, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $80, %%r15\n\t"
"movq $240, %%rax\n\t"
"movq $400, %%rbx\n\t"
"movq $560, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 80(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 160(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 240(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 320(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 400(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 480(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 560(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 640(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 720(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 80(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 160(%%rdx)%{%%k1%}\n\t"
"addq $16, %%rdx\n\t"
"addq $16, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 600;
#endif
}
static void kernel_o4_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vmovupd 0(%%rdx), %%zmm29\n\t"
"vmovupd 80(%%rdx), %%zmm30\n\t"
"vmovupd 160(%%rdx), %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 80(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 160(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 80(%%rdx)\n\t"
"vmovupd %%zmm31, 160(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $8, %%r12\n\t"
"jl 33b\n\t"
"movq $3, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 80(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 160(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 80(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 160(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 80(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 160(%%rdx)%{%%k1%}\n\t"
"addq $16, %%rdx\n\t"
"addq $16, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 180;
#endif
}
static void kernel_o5_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $120, %%r15\n\t"
"movq $360, %%rax\n\t"
"movq $600, %%rbx\n\t"
"movq $840, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 120(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 240(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 360(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 480(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 600(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 720(%%rdi), %%zmm0\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 840(%%rdi), %%zmm1\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 960(%%rdi), %%zmm0\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1080(%%rdi), %%zmm1\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1200(%%rdi), %%zmm0\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1320(%%rdi), %%zmm1\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1440(%%rdi), %%zmm0\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1560(%%rdi), %%zmm1\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1680(%%rdi), %%zmm0\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 120(%%rdx)\n\t"
"vmovupd %%zmm31, 240(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $8, %%r12\n\t"
"jl 33b\n\t"
"movq $127, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $120, %%r15\n\t"
"movq $360, %%rax\n\t"
"movq $600, %%rbx\n\t"
"movq $840, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 120(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 240(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 360(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 480(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 600(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 720(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 840(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 960(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1080(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1200(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1320(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1440(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1560(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1680(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 120(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 240(%%rdx)%{%%k1%}\n\t"
"addq $56, %%rdx\n\t"
"addq $56, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 1350;
#endif
}
static void kernel_o5_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vmovupd 0(%%rdx), %%zmm29\n\t"
"vmovupd 120(%%rdx), %%zmm30\n\t"
"vmovupd 240(%%rdx), %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 120(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 240(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 120(%%rdx)\n\t"
"vmovupd %%zmm31, 240(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $8, %%r12\n\t"
"jl 33b\n\t"
"movq $127, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 120(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 240(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 120(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 240(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 120(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 240(%%rdx)%{%%k1%}\n\t"
"addq $56, %%rdx\n\t"
"addq $56, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 270;
#endif
}
static void kernel_o6_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $168, %%r15\n\t"
"movq $504, %%rax\n\t"
"movq $840, %%rbx\n\t"
"movq $1176, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 168(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 336(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 504(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 672(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 840(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1008(%%rdi), %%zmm0\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1176(%%rdi), %%zmm1\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1344(%%rdi), %%zmm0\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1512(%%rdi), %%zmm1\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1680(%%rdi), %%zmm0\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1848(%%rdi), %%zmm1\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2016(%%rdi), %%zmm0\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2184(%%rdi), %%zmm1\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2352(%%rdi), %%zmm0\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2520(%%rdi), %%zmm1\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2688(%%rdi), %%zmm0\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2856(%%rdi), %%zmm1\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3024(%%rdi), %%zmm0\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3192(%%rdi), %%zmm1\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3360(%%rdi), %%zmm0\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 168(%%rdx)\n\t"
"vmovupd %%zmm31, 336(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $16, %%r12\n\t"
"jl 33b\n\t"
"movq $31, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $168, %%r15\n\t"
"movq $504, %%rax\n\t"
"movq $840, %%rbx\n\t"
"movq $1176, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 168(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 336(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 504(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 672(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 840(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1008(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1176(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1344(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1512(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1680(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1848(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2016(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2184(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2352(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2520(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2688(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2856(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3024(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3192(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3360(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 168(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 336(%%rdx)%{%%k1%}\n\t"
"addq $40, %%rdx\n\t"
"addq $40, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 2646;
#endif
}
static void kernel_o6_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vmovupd 0(%%rdx), %%zmm29\n\t"
"vmovupd 168(%%rdx), %%zmm30\n\t"
"vmovupd 336(%%rdx), %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 168(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 336(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 168(%%rdx)\n\t"
"vmovupd %%zmm31, 336(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $16, %%r12\n\t"
"jl 33b\n\t"
"movq $31, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 168(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 336(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 168(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 336(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 168(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 336(%%rdx)%{%%k1%}\n\t"
"addq $40, %%rdx\n\t"
"addq $40, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 378;
#endif
}
static void kernel_o7_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $224, %%r15\n\t"
"movq $672, %%rax\n\t"
"movq $1120, %%rbx\n\t"
"movq $1568, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 224(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 448(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 672(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 896(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1120(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1344(%%rdi), %%zmm0\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1568(%%rdi), %%zmm1\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1792(%%rdi), %%zmm0\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2016(%%rdi), %%zmm1\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2240(%%rdi), %%zmm0\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2464(%%rdi), %%zmm1\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2688(%%rdi), %%zmm0\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2912(%%rdi), %%zmm1\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3136(%%rdi), %%zmm0\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3360(%%rdi), %%zmm1\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3584(%%rdi), %%zmm0\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3808(%%rdi), %%zmm1\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4032(%%rdi), %%zmm0\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4256(%%rdi), %%zmm1\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4480(%%rdi), %%zmm0\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4704(%%rdi), %%zmm1\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4928(%%rdi), %%zmm0\n\t"
"vfmadd231pd 168(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 168(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 168(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5152(%%rdi), %%zmm1\n\t"
"vfmadd231pd 176(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 176(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 176(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5376(%%rdi), %%zmm0\n\t"
"vfmadd231pd 184(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 184(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 184(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 5600(%%rdi), %%zmm1\n\t"
"vfmadd231pd 192(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 192(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 192(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5824(%%rdi), %%zmm0\n\t"
"vfmadd231pd 200(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 200(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 200(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 6048(%%rdi), %%zmm1\n\t"
"vfmadd231pd 208(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 208(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 208(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vfmadd231pd 216(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 216(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 216(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 224(%%rdx)\n\t"
"vmovupd %%zmm31, 448(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $24, %%r12\n\t"
"jl 33b\n\t"
"movq $15, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $224, %%r15\n\t"
"movq $672, %%rax\n\t"
"movq $1120, %%rbx\n\t"
"movq $1568, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 224(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 448(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 672(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 896(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1120(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1344(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1568(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1792(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2016(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2240(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2464(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2688(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2912(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3136(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3360(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3584(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3808(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4032(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4256(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4480(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4704(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4928(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 168(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 168(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 168(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5152(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 176(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 176(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 176(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5376(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 184(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 184(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 184(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 5600(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 192(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 192(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 192(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5824(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 200(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 200(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 200(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 6048(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 208(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 208(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 208(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vfmadd231pd 216(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 216(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 216(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 224(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 448(%%rdx)%{%%k1%}\n\t"
"addq $32, %%rdx\n\t"
"addq $32, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 4704;
#endif
}
static void kernel_o7_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vmovupd 0(%%rdx), %%zmm29\n\t"
"vmovupd 224(%%rdx), %%zmm30\n\t"
"vmovupd 448(%%rdx), %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 224(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 448(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 224(%%rdx)\n\t"
"vmovupd %%zmm31, 448(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $24, %%r12\n\t"
"jl 33b\n\t"
"movq $15, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 224(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 448(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 224(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 448(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 224(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 448(%%rdx)%{%%k1%}\n\t"
"addq $32, %%rdx\n\t"
"addq $32, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 504;
#endif
}
static void kernel_o8_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $288, %%r15\n\t"
"movq $864, %%rax\n\t"
"movq $1440, %%rbx\n\t"
"movq $2016, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 288(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 576(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 864(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1152(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1440(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1728(%%rdi), %%zmm0\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2016(%%rdi), %%zmm1\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2304(%%rdi), %%zmm0\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2592(%%rdi), %%zmm1\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2880(%%rdi), %%zmm0\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3168(%%rdi), %%zmm1\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3456(%%rdi), %%zmm0\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3744(%%rdi), %%zmm1\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4032(%%rdi), %%zmm0\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4320(%%rdi), %%zmm1\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4608(%%rdi), %%zmm0\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4896(%%rdi), %%zmm1\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5184(%%rdi), %%zmm0\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5472(%%rdi), %%zmm1\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5760(%%rdi), %%zmm0\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6048(%%rdi), %%zmm1\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6336(%%rdi), %%zmm0\n\t"
"vfmadd231pd 168(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 168(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 168(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 6624(%%rdi), %%zmm1\n\t"
"vfmadd231pd 176(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 176(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 176(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 6912(%%rdi), %%zmm0\n\t"
"vfmadd231pd 184(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 184(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 184(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 7200(%%rdi), %%zmm1\n\t"
"vfmadd231pd 192(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 192(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 192(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 7488(%%rdi), %%zmm0\n\t"
"vfmadd231pd 200(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 200(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 200(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 7776(%%rdi), %%zmm1\n\t"
"vfmadd231pd 208(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 208(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 208(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 8064(%%rdi), %%zmm0\n\t"
"addq $8352, %%rdi\n\t"
"vfmadd231pd 216(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 216(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 216(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm1\n\t"
"vfmadd231pd 224(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 224(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 224(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 288(%%rdi), %%zmm0\n\t"
"vfmadd231pd 232(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 232(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 232(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 576(%%rdi), %%zmm1\n\t"
"vfmadd231pd 240(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 240(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 240(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 864(%%rdi), %%zmm0\n\t"
"vfmadd231pd 248(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 248(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 248(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1152(%%rdi), %%zmm1\n\t"
"vfmadd231pd 256(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 256(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 256(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1440(%%rdi), %%zmm0\n\t"
"vfmadd231pd 264(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 264(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 264(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1728(%%rdi), %%zmm1\n\t"
"vfmadd231pd 272(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 272(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 272(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vfmadd231pd 280(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 280(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 280(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"subq $8352, %%rdi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 288(%%rdx)\n\t"
"vmovupd %%zmm31, 576(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $32, %%r12\n\t"
"jl 33b\n\t"
"movq $15, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $288, %%r15\n\t"
"movq $864, %%rax\n\t"
"movq $1440, %%rbx\n\t"
"movq $2016, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 288(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 576(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 864(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1152(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1440(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1728(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2016(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2304(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2592(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2880(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3168(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3456(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3744(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4032(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4320(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4608(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4896(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5184(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5472(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5760(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6048(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6336(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 168(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 168(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 168(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 6624(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 176(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 176(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 176(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 6912(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 184(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 184(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 184(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 7200(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 192(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 192(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 192(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 7488(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 200(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 200(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 200(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 7776(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 208(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 208(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 208(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 8064(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"addq $8352, %%rdi\n\t"
"vfmadd231pd 216(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 216(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 216(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 224(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 224(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 224(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 288(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 232(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 232(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 232(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 576(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 240(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 240(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 240(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 864(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 248(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 248(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 248(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1152(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 256(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 256(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 256(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1440(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 264(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 264(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 264(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1728(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 272(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 272(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 272(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vfmadd231pd 280(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 280(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 280(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"subq $8352, %%rdi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 288(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 576(%%rdx)%{%%k1%}\n\t"
"addq $32, %%rdx\n\t"
"addq $32, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 7776;
#endif
}
static void kernel_o8_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vmovupd 0(%%rdx), %%zmm29\n\t"
"vmovupd 288(%%rdx), %%zmm30\n\t"
"vmovupd 576(%%rdx), %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 288(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 576(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 288(%%rdx)\n\t"
"vmovupd %%zmm31, 576(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $32, %%r12\n\t"
"jl 33b\n\t"
"movq $15, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 288(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 576(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 288(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 576(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 288(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 576(%%rdx)%{%%k1%}\n\t"
"addq $32, %%rdx\n\t"
"addq $32, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 648;
#endif
}
static void kernel_o9_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $360, %%r15\n\t"
"movq $1080, %%rax\n\t"
"movq $1800, %%rbx\n\t"
"movq $2520, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 360(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 720(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1080(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1440(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1800(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2160(%%rdi), %%zmm0\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2520(%%rdi), %%zmm1\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2880(%%rdi), %%zmm0\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3240(%%rdi), %%zmm1\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3600(%%rdi), %%zmm0\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3960(%%rdi), %%zmm1\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4320(%%rdi), %%zmm0\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4680(%%rdi), %%zmm1\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5040(%%rdi), %%zmm0\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5400(%%rdi), %%zmm1\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5760(%%rdi), %%zmm0\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6120(%%rdi), %%zmm1\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6480(%%rdi), %%zmm0\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 6840(%%rdi), %%zmm1\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 7200(%%rdi), %%zmm0\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 7560(%%rdi), %%zmm1\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 7920(%%rdi), %%zmm0\n\t"
"addq $8280, %%rdi\n\t"
"vfmadd231pd 168(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 168(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 168(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 0(%%rdi), %%zmm1\n\t"
"vfmadd231pd 176(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 176(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 176(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 360(%%rdi), %%zmm0\n\t"
"vfmadd231pd 184(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 184(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 184(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 720(%%rdi), %%zmm1\n\t"
"vfmadd231pd 192(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 192(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 192(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1080(%%rdi), %%zmm0\n\t"
"vfmadd231pd 200(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 200(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 200(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1440(%%rdi), %%zmm1\n\t"
"vfmadd231pd 208(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 208(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 208(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1800(%%rdi), %%zmm0\n\t"
"vfmadd231pd 216(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 216(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 216(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2160(%%rdi), %%zmm1\n\t"
"vfmadd231pd 224(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 224(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 224(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2520(%%rdi), %%zmm0\n\t"
"vfmadd231pd 232(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 232(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 232(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2880(%%rdi), %%zmm1\n\t"
"vfmadd231pd 240(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 240(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 240(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3240(%%rdi), %%zmm0\n\t"
"vfmadd231pd 248(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 248(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 248(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3600(%%rdi), %%zmm1\n\t"
"vfmadd231pd 256(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 256(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 256(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3960(%%rdi), %%zmm0\n\t"
"vfmadd231pd 264(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 264(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 264(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4320(%%rdi), %%zmm1\n\t"
"vfmadd231pd 272(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 272(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 272(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4680(%%rdi), %%zmm0\n\t"
"vfmadd231pd 280(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 280(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 280(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 5040(%%rdi), %%zmm1\n\t"
"vfmadd231pd 288(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 288(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 288(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5400(%%rdi), %%zmm0\n\t"
"vfmadd231pd 296(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 296(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 296(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5760(%%rdi), %%zmm1\n\t"
"vfmadd231pd 304(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 304(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 304(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 6120(%%rdi), %%zmm0\n\t"
"vfmadd231pd 312(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 312(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 312(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6480(%%rdi), %%zmm1\n\t"
"vfmadd231pd 320(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 320(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 320(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6840(%%rdi), %%zmm0\n\t"
"vfmadd231pd 328(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 328(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 328(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 7200(%%rdi), %%zmm1\n\t"
"vfmadd231pd 336(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 336(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 336(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 7560(%%rdi), %%zmm0\n\t"
"vfmadd231pd 344(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 344(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 344(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vfmadd231pd 352(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 352(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 352(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"subq $8280, %%rdi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 360(%%rdx)\n\t"
"vmovupd %%zmm31, 720(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $40, %%r12\n\t"
"jl 33b\n\t"
"movq $31, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $360, %%r15\n\t"
"movq $1080, %%rax\n\t"
"movq $1800, %%rbx\n\t"
"movq $2520, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 360(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 720(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1080(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1440(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1800(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2160(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2520(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2880(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3240(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3600(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3960(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4320(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4680(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5040(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5400(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5760(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6120(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6480(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 6840(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 7200(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 7560(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 7920(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"addq $8280, %%rdi\n\t"
"vfmadd231pd 168(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 168(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 168(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 0(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 176(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 176(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 176(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 360(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 184(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 184(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 184(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 720(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 192(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 192(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 192(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1080(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 200(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 200(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 200(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1440(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 208(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 208(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 208(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1800(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 216(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 216(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 216(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2160(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 224(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 224(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 224(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2520(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 232(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 232(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 232(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2880(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 240(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 240(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 240(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3240(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 248(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 248(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 248(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3600(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 256(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 256(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 256(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3960(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 264(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 264(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 264(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4320(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 272(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 272(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 272(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4680(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 280(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 280(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 280(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 5040(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 288(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 288(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 288(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5400(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 296(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 296(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 296(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5760(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 304(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 304(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 304(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 6120(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 312(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 312(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 312(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6480(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 320(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 320(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 320(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6840(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 328(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 328(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 328(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 7200(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 336(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 336(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 336(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 7560(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 344(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 344(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 344(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vfmadd231pd 352(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 352(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 352(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"subq $8280, %%rdi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 360(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 720(%%rdx)%{%%k1%}\n\t"
"addq $40, %%rdx\n\t"
"addq $40, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 12150;
#endif
}
static void kernel_o9_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vmovupd 0(%%rdx), %%zmm29\n\t"
"vmovupd 360(%%rdx), %%zmm30\n\t"
"vmovupd 720(%%rdx), %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 360(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 720(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 360(%%rdx)\n\t"
"vmovupd %%zmm31, 720(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $40, %%r12\n\t"
"jl 33b\n\t"
"movq $31, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 360(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 720(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 360(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 720(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 360(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 720(%%rdx)%{%%k1%}\n\t"
"addq $40, %%rdx\n\t"
"addq $40, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 810;
#endif
}
static void kernel_o10_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $440, %%r15\n\t"
"movq $1320, %%rax\n\t"
"movq $2200, %%rbx\n\t"
"movq $3080, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 440(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 880(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1320(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1760(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2200(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2640(%%rdi), %%zmm0\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3080(%%rdi), %%zmm1\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3520(%%rdi), %%zmm0\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3960(%%rdi), %%zmm1\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4400(%%rdi), %%zmm0\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4840(%%rdi), %%zmm1\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5280(%%rdi), %%zmm0\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 5720(%%rdi), %%zmm1\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6160(%%rdi), %%zmm0\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 6600(%%rdi), %%zmm1\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 7040(%%rdi), %%zmm0\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 7480(%%rdi), %%zmm1\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 7920(%%rdi), %%zmm0\n\t"
"addq $8360, %%rdi\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 0(%%rdi), %%zmm1\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 440(%%rdi), %%zmm0\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 880(%%rdi), %%zmm1\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1320(%%rdi), %%zmm0\n\t"
"vfmadd231pd 168(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 168(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 168(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1760(%%rdi), %%zmm1\n\t"
"vfmadd231pd 176(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 176(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 176(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2200(%%rdi), %%zmm0\n\t"
"vfmadd231pd 184(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 184(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 184(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2640(%%rdi), %%zmm1\n\t"
"vfmadd231pd 192(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 192(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 192(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3080(%%rdi), %%zmm0\n\t"
"vfmadd231pd 200(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 200(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 200(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3520(%%rdi), %%zmm1\n\t"
"vfmadd231pd 208(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 208(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 208(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3960(%%rdi), %%zmm0\n\t"
"vfmadd231pd 216(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 216(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 216(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4400(%%rdi), %%zmm1\n\t"
"vfmadd231pd 224(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 224(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 224(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4840(%%rdi), %%zmm0\n\t"
"vfmadd231pd 232(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 232(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 232(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5280(%%rdi), %%zmm1\n\t"
"vfmadd231pd 240(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 240(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 240(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5720(%%rdi), %%zmm0\n\t"
"vfmadd231pd 248(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 248(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 248(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6160(%%rdi), %%zmm1\n\t"
"vfmadd231pd 256(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 256(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 256(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6600(%%rdi), %%zmm0\n\t"
"vfmadd231pd 264(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 264(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 264(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 7040(%%rdi), %%zmm1\n\t"
"vfmadd231pd 272(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 272(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 272(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 7480(%%rdi), %%zmm0\n\t"
"vfmadd231pd 280(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 280(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 280(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 7920(%%rdi), %%zmm1\n\t"
"addq $8360, %%rdi\n\t"
"vfmadd231pd 288(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 288(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 288(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vfmadd231pd 296(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 296(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 296(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 440(%%rdi), %%zmm1\n\t"
"vfmadd231pd 304(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 304(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 304(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 880(%%rdi), %%zmm0\n\t"
"vfmadd231pd 312(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 312(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 312(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1320(%%rdi), %%zmm1\n\t"
"vfmadd231pd 320(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 320(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 320(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1760(%%rdi), %%zmm0\n\t"
"vfmadd231pd 328(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 328(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 328(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2200(%%rdi), %%zmm1\n\t"
"vfmadd231pd 336(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 336(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 336(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2640(%%rdi), %%zmm0\n\t"
"vfmadd231pd 344(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 344(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 344(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3080(%%rdi), %%zmm1\n\t"
"vfmadd231pd 352(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 352(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 352(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3520(%%rdi), %%zmm0\n\t"
"vfmadd231pd 360(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 360(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 360(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3960(%%rdi), %%zmm1\n\t"
"vfmadd231pd 368(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 368(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 368(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4400(%%rdi), %%zmm0\n\t"
"vfmadd231pd 376(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 376(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 376(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4840(%%rdi), %%zmm1\n\t"
"vfmadd231pd 384(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 384(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 384(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5280(%%rdi), %%zmm0\n\t"
"vfmadd231pd 392(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 392(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 392(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5720(%%rdi), %%zmm1\n\t"
"vfmadd231pd 400(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 400(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 400(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 6160(%%rdi), %%zmm0\n\t"
"vfmadd231pd 408(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 408(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 408(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6600(%%rdi), %%zmm1\n\t"
"vfmadd231pd 416(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 416(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 416(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 7040(%%rdi), %%zmm0\n\t"
"vfmadd231pd 424(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 424(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 424(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 432(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 432(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 432(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"subq $16720, %%rdi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 440(%%rdx)\n\t"
"vmovupd %%zmm31, 880(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $48, %%r12\n\t"
"jl 33b\n\t"
"movq $127, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $440, %%r15\n\t"
"movq $1320, %%rax\n\t"
"movq $2200, %%rbx\n\t"
"movq $3080, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 440(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 880(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1320(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 1760(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2200(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 2640(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3080(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3520(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3960(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 64(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 64(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 64(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4400(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 72(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 72(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 72(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4840(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 80(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 80(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 80(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5280(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 88(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 88(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 88(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 5720(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 96(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 96(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 96(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6160(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 104(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 104(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 104(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 6600(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 112(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 112(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 112(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 7040(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 120(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 120(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 120(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 7480(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 128(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 128(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 128(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 7920(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"addq $8360, %%rdi\n\t"
"vfmadd231pd 136(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 136(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 136(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 0(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 144(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 144(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 144(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 440(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 152(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 152(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 152(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 880(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 160(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 160(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 160(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1320(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 168(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 168(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 168(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1760(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 176(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 176(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 176(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2200(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 184(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 184(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 184(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2640(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 192(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 192(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 192(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3080(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 200(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 200(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 200(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3520(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 208(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 208(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 208(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 3960(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 216(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 216(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 216(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4400(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 224(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 224(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 224(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 4840(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 232(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 232(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 232(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5280(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 240(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 240(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 240(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 5720(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 248(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 248(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 248(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6160(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 256(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 256(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 256(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 6600(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 264(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 264(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 264(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 7040(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 272(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 272(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 272(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 7480(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 280(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 280(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 280(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 7920(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"addq $8360, %%rdi\n\t"
"vfmadd231pd 288(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 288(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 288(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 296(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 296(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 296(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 440(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 304(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 304(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 304(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 880(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 312(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 312(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 312(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 1320(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 320(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 320(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 320(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1760(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 328(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 328(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 328(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 2200(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 336(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 336(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 336(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2640(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 344(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 344(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 344(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3080(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 352(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 352(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 352(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3520(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 360(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 360(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 360(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3960(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 368(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 368(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 368(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 4400(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 376(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 376(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 376(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 4840(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 384(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 384(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 384(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 5280(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 392(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 392(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 392(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 5720(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 400(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 400(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 400(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 6160(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 408(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 408(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 408(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 6600(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 416(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 416(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 416(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 7040(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 424(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 424(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 424(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 432(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 432(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 432(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"subq $16720, %%rdi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 440(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 880(%%rdx)%{%%k1%}\n\t"
"addq $56, %%rdx\n\t"
"addq $56, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 18150;
#endif
}
static void kernel_o10_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vmovupd 0(%%rdx), %%zmm29\n\t"
"vmovupd 440(%%rdx), %%zmm30\n\t"
"vmovupd 880(%%rdx), %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 440(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 880(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 440(%%rdx)\n\t"
"vmovupd %%zmm31, 880(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $48, %%r12\n\t"
"jl 33b\n\t"
"movq $127, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 440(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 880(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 440(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 880(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 440(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 880(%%rdx)%{%%k1%}\n\t"
"addq $56, %%rdx\n\t"
"addq $56, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 990;
#endif
}
static void kernel_o11_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $0, %%r14\n\t"
"34:\n\t"
"addq $8, %%r14\n\t"
"movq $528, %%r15\n\t"
"movq $1584, %%rax\n\t"
"movq $2640, %%rbx\n\t"
"movq $3696, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 528(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1056(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1584(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2112(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2640(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3168(%%rdi), %%zmm0\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3696(%%rdi), %%zmm1\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"addq $4224, %%rdi\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"addq $64, %%rsi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"cmpq $64, %%r14\n\t"
"jl 34b\n\t"
"movq $528, %%r15\n\t"
"movq $1584, %%rax\n\t"
"movq $2640, %%rbx\n\t"
"movq $3696, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 528(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"addq $1056, %%rdi\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"addq $16, %%rsi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"subq $528, %%rsi\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 528(%%rdx)\n\t"
"vmovupd %%zmm31, 1056(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"subq $34784, %%rdi\n\t"
"cmpq $64, %%r12\n\t"
"jl 33b\n\t"
"movq $3, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r14\n\t"
"movq $528, %%r15\n\t"
"movq $1584, %%rax\n\t"
"movq $2640, %%rbx\n\t"
"movq $3696, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 528(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1056(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1584(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2112(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 2640(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3168(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 3696(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"addq $4224, %%rdi\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"addq $64, %%rsi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"cmpq $64, %%r14\n\t"
"jl 33b\n\t"
"movq $528, %%r15\n\t"
"movq $1584, %%rax\n\t"
"movq $2640, %%rbx\n\t"
"movq $3696, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 528(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"addq $1056, %%rdi\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"addq $16, %%rsi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"subq $528, %%rsi\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 528(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 1056(%%rdx)%{%%k1%}\n\t"
"addq $16, %%rdx\n\t"
"subq $34832, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 26136;
#endif
}
static void kernel_o11_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vmovupd 0(%%rdx), %%zmm29\n\t"
"vmovupd 528(%%rdx), %%zmm30\n\t"
"vmovupd 1056(%%rdx), %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 528(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1056(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 528(%%rdx)\n\t"
"vmovupd %%zmm31, 1056(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $64, %%r12\n\t"
"jl 33b\n\t"
"movq $3, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 528(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 1056(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 528(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1056(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 528(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 1056(%%rdx)%{%%k1%}\n\t"
"addq $16, %%rdx\n\t"
"addq $16, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 1188;
#endif
}
static void kernel_o12_b0(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $0, %%r14\n\t"
"34:\n\t"
"addq $8, %%r14\n\t"
"movq $624, %%r15\n\t"
"movq $1872, %%rax\n\t"
"movq $3120, %%rbx\n\t"
"movq $4368, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 624(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1248(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1872(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2496(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3120(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3744(%%rdi), %%zmm0\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4368(%%rdi), %%zmm1\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"addq $4992, %%rdi\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"addq $64, %%rsi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"cmpq $72, %%r14\n\t"
"jl 34b\n\t"
"movq $624, %%r15\n\t"
"movq $1872, %%rax\n\t"
"movq $3120, %%rbx\n\t"
"movq $4368, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 624(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1248(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1872(%%rdi), %%zmm1\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2496(%%rdi), %%zmm0\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3120(%%rdi), %%zmm1\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"addq $3744, %%rdi\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"addq $48, %%rsi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"subq $624, %%rsi\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 624(%%rdx)\n\t"
"vmovupd %%zmm31, 1248(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"subq $48608, %%rdi\n\t"
"cmpq $72, %%r12\n\t"
"jl 33b\n\t"
"movq $63, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vpxord %%zmm29, %%zmm29, %%zmm29\n\t"
"vpxord %%zmm30, %%zmm30, %%zmm30\n\t"
"vpxord %%zmm31, %%zmm31, %%zmm31\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r14\n\t"
"movq $624, %%r15\n\t"
"movq $1872, %%rax\n\t"
"movq $3120, %%rbx\n\t"
"movq $4368, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 624(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1248(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1872(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2496(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3120(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 3744(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 4368(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 48(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 48(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 48(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"addq $4992, %%rdi\n\t"
"vfmadd231pd 56(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 56(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 56(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"addq $64, %%rsi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"cmpq $72, %%r14\n\t"
"jl 33b\n\t"
"movq $624, %%r15\n\t"
"movq $1872, %%rax\n\t"
"movq $3120, %%rbx\n\t"
"movq $4368, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 624(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1248(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vmovupd 1872(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vmovupd 2496(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 24(%%rsi)%{1to8%}, %%zmm1, %%zmm20\n\t"
"vfmadd231pd 24(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm21\n\t"
"vfmadd231pd 24(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm22\n\t"
"vmovupd 3120(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 32(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 32(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 32(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"addq $3744, %%rdi\n\t"
"vfmadd231pd 40(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 40(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 40(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"addq $48, %%rsi\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"subq $624, %%rsi\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 624(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 1248(%%rdx)%{%%k1%}\n\t"
"addq $48, %%rdx\n\t"
"subq $48624, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 36504;
#endif
}
static void kernel_o12_b1(const double* A, const double* B, double* C) {
#ifdef __AVX512F__
__asm__ __volatile__("movq %0, %%rdi\n\t"
"movq %1, %%rsi\n\t"
"movq %2, %%rdx\n\t"
"movq $0, %%r12\n\t"
"movq $0, %%r13\n\t"
"movq $0, %%r14\n\t"
"33:\n\t"
"addq $8, %%r12\n\t"
"vmovupd 0(%%rdx), %%zmm29\n\t"
"vmovupd 624(%%rdx), %%zmm30\n\t"
"vmovupd 1248(%%rdx), %%zmm31\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0\n\t"
"vmovupd 624(%%rdi), %%zmm1\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1248(%%rdi), %%zmm0\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)\n\t"
"vmovupd %%zmm30, 624(%%rdx)\n\t"
"vmovupd %%zmm31, 1248(%%rdx)\n\t"
"addq $64, %%rdx\n\t"
"addq $64, %%rdi\n\t"
"cmpq $72, %%r12\n\t"
"jl 33b\n\t"
"movq $63, %%r9\n\t"
"kmovw %%r9d, %%k1\n\t"
"vmovupd 0(%%rdx), %%zmm29%{%%k1%}%{z%}\n\t"
"vmovupd 624(%%rdx), %%zmm30%{%%k1%}%{z%}\n\t"
"vmovupd 1248(%%rdx), %%zmm31%{%%k1%}%{z%}\n\t"
"movq $24, %%r15\n\t"
"movq $72, %%rax\n\t"
"movq $120, %%rbx\n\t"
"movq $168, %%r11\n\t"
"vpxord %%zmm26, %%zmm26, %%zmm26\n\t"
"vpxord %%zmm27, %%zmm27, %%zmm27\n\t"
"vpxord %%zmm28, %%zmm28, %%zmm28\n\t"
"vpxord %%zmm23, %%zmm23, %%zmm23\n\t"
"vpxord %%zmm24, %%zmm24, %%zmm24\n\t"
"vpxord %%zmm25, %%zmm25, %%zmm25\n\t"
"vpxord %%zmm20, %%zmm20, %%zmm20\n\t"
"vpxord %%zmm21, %%zmm21, %%zmm21\n\t"
"vpxord %%zmm22, %%zmm22, %%zmm22\n\t"
"vmovupd 0(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vmovupd 624(%%rdi), %%zmm1%{%%k1%}%{z%}\n\t"
"vfmadd231pd 0(%%rsi)%{1to8%}, %%zmm0, %%zmm29\n\t"
"vfmadd231pd 0(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm30\n\t"
"vfmadd231pd 0(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm31\n\t"
"vmovupd 1248(%%rdi), %%zmm0%{%%k1%}%{z%}\n\t"
"vfmadd231pd 8(%%rsi)%{1to8%}, %%zmm1, %%zmm26\n\t"
"vfmadd231pd 8(%%rsi,%%r15,1)%{1to8%}, %%zmm1, %%zmm27\n\t"
"vfmadd231pd 8(%%rsi,%%r15,2)%{1to8%}, %%zmm1, %%zmm28\n\t"
"vfmadd231pd 16(%%rsi)%{1to8%}, %%zmm0, %%zmm23\n\t"
"vfmadd231pd 16(%%rsi,%%r15,1)%{1to8%}, %%zmm0, %%zmm24\n\t"
"vfmadd231pd 16(%%rsi,%%r15,2)%{1to8%}, %%zmm0, %%zmm25\n\t"
"vaddpd %%zmm26, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm27, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm28, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm23, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm24, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm25, %%zmm31, %%zmm31\n\t"
"vaddpd %%zmm20, %%zmm29, %%zmm29\n\t"
"vaddpd %%zmm21, %%zmm30, %%zmm30\n\t"
"vaddpd %%zmm22, %%zmm31, %%zmm31\n\t"
"vmovupd %%zmm29, 0(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm30, 624(%%rdx)%{%%k1%}\n\t"
"vmovupd %%zmm31, 1248(%%rdx)%{%%k1%}\n\t"
"addq $48, %%rdx\n\t"
"addq $48, %%rdi\n\t"
: : "m"(A), "m"(B), "m"(C) : "k1","rax","rbx","rcx","rdx","rdi","rsi","r8","r9","r10","r11","r12","r13","r14","r15","zmm0","zmm1","zmm2","zmm3","zmm4","zmm5","zmm6","zmm7","zmm8","zmm9","zmm10","zmm11","zmm12","zmm13","zmm14","zmm15","zmm16","zmm17","zmm18","zmm19","zmm20","zmm21","zmm22","zmm23","zmm24","zmm25","zmm26","zmm27","zmm28","zmm29","zmm30","zmm31");
#else
#pragma message ("LIBXSMM KERNEL COMPILATION ERROR in: " __FILE__)
#error No kernel was compiled, lacking support for current architecture?
#endif
#ifndef NDEBUG
#ifdef _OPENMP
#pragma omp atomic
#endif
libxsmm_num_total_flops += 1404;
#endif
}
static void kernel_nq(const double* A, const double* B, double* C) {
kernel_o2_b0(A, B, C);
}
static void (* const microkernels[])(const double*, const double*, double*) = {
kernel_o2_b0, kernel_o2_b1, kernel_o3_b0, kernel_o3_b1, kernel_o4_b0, kernel_o4_b1, kernel_o5_b0, kernel_o5_b1, kernel_o6_b0, kernel_o6_b1, kernel_o7_b0, kernel_o7_b1, kernel_o8_b0, kernel_o8_b1, kernel_o9_b0, kernel_o9_b1, kernel_o10_b0, kernel_o10_b1, kernel_o11_b0, kernel_o11_b1, kernel_o12_b0, kernel_o12_b1
};
#endif // MICROKERNELS_H_
| 66.008535 | 386 | 0.392743 |
4f965159b5f7137787f8960ac058aa3fc0bf31dd | 658 | c | C | assig1.c | sankethire/xv6_OS_virtualisation | ec26f61bc37530816a5ba9936ae9efed19c8691b | [
"MIT-0"
] | null | null | null | assig1.c | sankethire/xv6_OS_virtualisation | ec26f61bc37530816a5ba9936ae9efed19c8691b | [
"MIT-0"
] | null | null | null | assig1.c | sankethire/xv6_OS_virtualisation | ec26f61bc37530816a5ba9936ae9efed19c8691b | [
"MIT-0"
] | null | null | null | #include "types.h"
#include "stat.h"
#include "user.h"
int
main(void)
{
int pid_parent = getpid();
int pid;
for(int i=0;i<2;i++){
pid = fork();
if(pid == 0){
create_container(i+1);
join_container(i+1);
printf(1,"container id %d\n", i+1);
ps();
sleep(100);
// exit();
break;
}
}
if(getpid() == pid_parent){
if(fork() == 0){
join_container(1);
printf(1,"check syscall\n");
ps();
printf(1,"check syscall\n");
leave_container();
ps();
}
}
destroy_container(0);
sleep(50);
printf(1,"Outside container\n");
ps();
if(getpid() == pid_parent){
for(int i=0;i<2;i++)
wait();
}
exit();
} | 13.16 | 38 | 0.545593 |
3ec15995f50f930d50cc23b8e6b00b9381eecc5f | 11,062 | h | C | RequestResponseData/RequestResponseDataTest/tst_ResponseData.h | messi1/GenericDataBindingWithQt | ab2e9d57fd0831247ee6d9341cc1d4bc61de7e89 | [
"Apache-2.0"
] | 1 | 2020-01-16T13:23:31.000Z | 2020-01-16T13:23:31.000Z | RequestResponseData/RequestResponseDataTest/tst_ResponseData.h | messi1/GenericDataBindingWithQt | ab2e9d57fd0831247ee6d9341cc1d4bc61de7e89 | [
"Apache-2.0"
] | null | null | null | RequestResponseData/RequestResponseDataTest/tst_ResponseData.h | messi1/GenericDataBindingWithQt | ab2e9d57fd0831247ee6d9341cc1d4bc61de7e89 | [
"Apache-2.0"
] | null | null | null | /* Copyright 2018 Juergen Messerer
*
* 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.
*/
#include <QDataStream>
#include <QDebug>
#include <QEventLoop>
#include <QThread>
#include <QTimer>
#include "RequestResponseData/RequestCommand.h"
#include "RequestResponseData/ResponseData.h"
#include "TestResponseValues.h"
#include <gtest/gtest.h>
#include <gmock/gmock-matchers.h>
using namespace testing;
TEST(ResponseData, serialize_deserialize)
{
QByteArray byteArray;
QDataStream out(&byteArray, QIODevice::WriteOnly);
QDataStream in(&byteArray, QIODevice::ReadOnly);
ResponseData dataToSerialize;
ResponseData dataToDeserialize;
fillResponseData(dataToSerialize);
out << dataToSerialize;
in >> dataToDeserialize;
EXPECT_TRUE(dataToSerialize == dataToDeserialize);
}
//-------------------------------------------------------------------------------------------------
TEST(ResponseData, bad_deserialize)
{
QByteArray byteArray;
QDataStream out(&byteArray, QIODevice::WriteOnly);
QDataStream in(&byteArray, QIODevice::ReadOnly);
ResponseData dataToSerialize;
ResponseData dataToDeserialize;
fillResponseData(dataToSerialize);
out << dataToSerialize;
in >> dataToDeserialize;
dataToDeserialize.addResponse({RequestCmd::EthState, false, 4});
dataToDeserialize.setRequestType(RequestType::Command);
EXPECT_FALSE(dataToSerialize == dataToDeserialize);
}
//-------------------------------------------------------------------------------------------------
TEST(ResponseData, copyRequestData)
{
ResponseData responseData1;
ResponseData responseData2;
fillResponseData(responseData1);
responseData2 = responseData1;
EXPECT_TRUE(responseData1 == responseData2);
RequestList responseKeyList1 = responseData1.responseMap().keys();
RequestList responseKeyList2 = responseData2.responseMap().keys();
EXPECT_TRUE(responseKeyList1.count() == responseKeyList2.count());
for(int i = 0; i < responseKeyList1.count(); ++i)
{
EXPECT_TRUE(responseKeyList1.at(i) == responseKeyList2.at(i));
}
}
//-------------------------------------------------------------------------------------------------
TEST(ResponseData, addRequestPerformance)
{
ResponseData responseData;
ResponseData responseDataSpecialMap;
std::clock_t startTime = std::clock();
for(unsigned long i = 0; i < 100'000; ++i)
{
responseData.addResponse( {RequestCmd::Language, true , 2}, {"11","22","33"}, {"44","55","66"});
}
std::clock_t endTime = std::clock();
std::cout << "Execution time of " << "Without komplex RequestMap object" << " : "
<< 1000*(endTime-startTime) / CLOCKS_PER_SEC << " ms" << std::endl;
startTime = std::clock();
for(unsigned long i = 0; i < 100'000; ++i)
{
responseDataSpecialMap.addResponse( {RequestCmd::Language, true , 2}, {"11","22","33"}, {"44","55","66"});
}
endTime = std::clock();
std::cout << "Execution time of " << "With komplex RequestMap object" << " : "
<< 1000*(endTime-startTime) / CLOCKS_PER_SEC << " ms" << std::endl;
}
//-------------------------------------------------------------------------------------------------
extern void myDeleter1(IDataClientManager*);
extern void myDeleter2(IDataProxy*);
TEST(ResponseData, checkSetFunction)
{
ResponseData responseData;
responseData.setRequestType(RequestType::Command);
EXPECT_TRUE(responseData.requestType() == RequestType::Command);
QSharedPointer<IDataClientManager> test_DCM_Ptr = QSharedPointer<IDataClientManager>(reinterpret_cast<IDataClientManager*>(0x800000), myDeleter1);
QSharedPointer<IDataProxy> testDataProxyPtr = QSharedPointer<IDataProxy>(reinterpret_cast<IDataProxy*>(0x800001), myDeleter2);
responseData.setDataClientManager(test_DCM_Ptr.toWeakRef());
EXPECT_TRUE(responseData.dataClientManager() == test_DCM_Ptr.toWeakRef());
responseData.setDataClientManager({});
EXPECT_FALSE(responseData.dataClientManager() == test_DCM_Ptr.toWeakRef());
responseData.setDataProxy(testDataProxyPtr.toWeakRef());
EXPECT_TRUE(responseData.dataProxy() == testDataProxyPtr.toWeakRef());
responseData.setDataProxy({});
EXPECT_FALSE(responseData.dataProxy() == testDataProxyPtr.toWeakRef());
responseData.setValueList({RequestCmd::DateTime}, {"11","22","33"});
QStringList valueList;
responseData.valueList({RequestCmd::DateTime}, valueList);
EXPECT_TRUE( (valueList == QStringList{"11","22","33"}) );
}
//-------------------------------------------------------------------------------------------------
TEST(ResponseData, addResponseWithSameRequest)
{
Request request{RequestCmd::WlanList,true, 1};
TestResponseValues testValues;
ResponseData responseData;
QStringList valueList, rangeList, errorList;
QString accessRights;
responseData.addResponse(request, testValues.accessRight1);
EXPECT_TRUE(responseData.responseMap().keys().count() == 1 && responseData.responseMap().values().count() == 1 );
responseData.valueList(request, valueList);
responseData.rangeList(request, rangeList);
responseData.errorList(request, errorList);
accessRights = responseData.accessRights(request);
EXPECT_TRUE(valueList.isEmpty() &&
rangeList.isEmpty() &&
errorList.isEmpty() &&
accessRights == testValues.accessRight1 &&
responseData.responseMap().size() > 0);
responseData.addResponse(request, testValues.valueList1, testValues.accessRight2);
EXPECT_TRUE(responseData.responseMap().keys().count() == 1 && responseData.responseMap().values().count() == 1 );
responseData.valueList(request, valueList);
responseData.rangeList(request, rangeList);
responseData.errorList(request, errorList);
accessRights = responseData.accessRights(request);
EXPECT_TRUE(valueList.count() == testValues.valueList1.count() &&
rangeList.isEmpty() &&
errorList.isEmpty() &&
accessRights == testValues.accessRight2);
responseData.addResponse(request, testValues.valueList2, testValues.rangeList1, testValues.accessRight3);
EXPECT_TRUE(responseData.responseMap().keys().count() == 1 && responseData.responseMap().values().count() == 1 );
responseData.valueList(request, valueList);
responseData.rangeList(request, rangeList);
responseData.errorList(request, errorList);
accessRights = responseData.accessRights(request);
EXPECT_TRUE(valueList.count() == testValues.valueList2.count() &&
rangeList.count() == testValues.rangeList1.count() &&
errorList.isEmpty() &&
accessRights == testValues.accessRight3);
responseData.addResponse(request, testValues.valueList1, testValues.rangeList2, testValues.errorList1, testValues.accessRight4);
EXPECT_TRUE(responseData.responseMap().keys().count() == 1 && responseData.responseMap().values().count() == 1 );
responseData.valueList(request, valueList);
responseData.rangeList(request, rangeList);
responseData.errorList(request, errorList);
accessRights = responseData.accessRights(request);
EXPECT_TRUE(valueList.count() == testValues.valueList1.count() &&
rangeList.count() == testValues.rangeList2.count() &&
errorList.count() == testValues.errorList1.count() &&
accessRights == testValues.accessRight4);
}
//-------------------------------------------------------------------------------------------------
TEST(ResponseData, addMultipleRequests)
{
TestResponseValues testValues;
ResponseData responseData;
QStringList valueList, rangeList, errorList;
QString accessRights;
responseData.addResponse(testValues.request1, testValues.accessRight1);
EXPECT_TRUE(responseData.responseMap().keys().count() == 1 && responseData.responseMap().values().count() == 1 );
responseData.valueList(testValues.request1, valueList);
responseData.rangeList(testValues.request1, rangeList);
responseData.errorList(testValues.request1, errorList);
accessRights = responseData.accessRights(testValues.request1);
EXPECT_TRUE(valueList.isEmpty() &&
rangeList.isEmpty() &&
errorList.isEmpty() &&
accessRights == testValues.accessRight1);
responseData.addResponse(testValues.request2, testValues.valueList1, testValues.accessRight2);
EXPECT_TRUE(responseData.responseMap().keys().count() == 2 && responseData.responseMap().values().count() == 2 );
responseData.valueList(testValues.request2, valueList);
responseData.rangeList(testValues.request2, rangeList);
responseData.errorList(testValues.request2, errorList);
accessRights = responseData.accessRights(testValues.request2);
EXPECT_TRUE(valueList.count() == testValues.valueList1.count() &&
rangeList.isEmpty() &&
errorList.isEmpty() &&
accessRights == testValues.accessRight2);
responseData.addResponse(testValues.request3, testValues.valueList2, testValues.rangeList1, testValues.accessRight3);
EXPECT_TRUE(responseData.responseMap().keys().count() == 3 && responseData.responseMap().values().count() == 3 );
responseData.valueList(testValues.request3, valueList);
responseData.rangeList(testValues.request3, rangeList);
responseData.errorList(testValues.request3, errorList);
accessRights = responseData.accessRights(testValues.request3);
EXPECT_TRUE(valueList.count() == testValues.valueList2.count() &&
rangeList.count() == testValues.rangeList1.count() &&
errorList.isEmpty() &&
accessRights == testValues.accessRight3);
responseData.addResponse(testValues.request4, testValues.valueList1, testValues.rangeList2, testValues.errorList1, testValues.accessRight4);
EXPECT_TRUE(responseData.responseMap().keys().count() == 4 && responseData.responseMap().values().count() == 4 );
responseData.valueList(testValues.request4, valueList);
responseData.rangeList(testValues.request4, rangeList);
responseData.errorList(testValues.request4, errorList);
accessRights = responseData.accessRights(testValues.request4);
EXPECT_TRUE(valueList.count() == testValues.valueList1.count() &&
rangeList.count() == testValues.rangeList2.count() &&
errorList.count() == testValues.errorList1.count() &&
accessRights == testValues.accessRight4);
}
| 40.819188 | 150 | 0.675737 |
85c5c9e84eee2952a26432fe426a1fae1146d62c | 13,695 | h | C | Ogitor/include/OgitorsUtils.h | nexustheru/ogitor | a700f8fefffa4ac51c5c20ad155e97e6700aabd4 | [
"MIT"
] | null | null | null | Ogitor/include/OgitorsUtils.h | nexustheru/ogitor | a700f8fefffa4ac51c5c20ad155e97e6700aabd4 | [
"MIT"
] | null | null | null | Ogitor/include/OgitorsUtils.h | nexustheru/ogitor | a700f8fefffa4ac51c5c20ad155e97e6700aabd4 | [
"MIT"
] | 2 | 2021-04-02T03:53:18.000Z | 2022-03-03T07:12:16.000Z | /*/////////////////////////////////////////////////////////////////////////////////
/// An
/// ___ ____ ___ _____ ___ ____
/// / _ \ / ___|_ _|_ _/ _ \| _ \
/// | | | | | _ | | | || | | | |_) |
/// | |_| | |_| || | | || |_| | _ <
/// \___/ \____|___| |_| \___/|_| \_\
/// File
///
/// Copyright (c) 2008-2016 Ismail TARIM <ismail@royalspor.com> and the Ogitor Team
///
/// The MIT License
///
/// Permission is hereby granted, free of charge, to any person obtaining a copy
/// of this software and associated documentation files (the "Software"), to deal
/// in the Software without restriction, including without limitation the rights
/// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
/// copies of the Software, and to permit persons to whom the Software is
/// furnished to do so, subject to the following conditions:
///
/// The above copyright notice and this permission notice shall be included in
/// all copies or substantial portions of the Software.
///
/// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
/// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
/// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
/// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
/// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
/// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
/// THE SOFTWARE.
////////////////////////////////////////////////////////////////////////////////*/
/*////////////////////////////////////////////////////////////////////////////////
//This Header is used to define any library wide structs and enums and defines
////////////////////////////////////////////////////////////////////////////////*/
#pragma once
namespace Ogitors
{
class OgitorExport OgitorsUtils
{
public:
/**
* Sets full path to the Ogitor' executable
* @param path full path to the Ogitor' executable
*/
static void SetExePath(const Ogre::String &path) { mExePath = path; }
/**
* Fetches full path to the Ogitor' executable
* @return full path to the Ogitor' executable
*/
static Ogre::String GetExePath() { return mExePath; }
/**
* Fetches mac bundle path
* @return full path to the mac bundle
*/
static Ogre::String GetMacBundlePath();
/**
* Fetches full path to Editor Resources Directory
* @return full path to Editor Resources Directory
*/
static Ogre::String GetEditorResourcesPath();
/**
* Fetches full path to specified directory
* @param dirname directory name
* @return full path to specified directory
* @todo Recommend renaming to GetFullPath
*/
static Ogre::String QualifyPath(const Ogre::String &dirname);
/**
* Fetches relative path from one directory to another
* @param pathFrom originating path
* @param pathTo destination path
* @return relative path from origin to destination directories
*/
static Ogre::String GetRelativePath(const Ogre::String pathFrom,const Ogre::String pathTo);
/**
* Parses a string of strings into the list
* @param str string containing multiple entries
* @param list a list to put strings into
*/
static void ParseStringVector(Ogre::String &str, Ogre::StringVector &list);
/**
* Parses a string of strings into the list (UTF based)
* @param str string containing multiple entries
* @param list a list to put strings into
*/
static void ParseUTFStringVector(Ogre::UTFString &str, UTFStringVector &list);
/**
* Cleans a path of unneeded characters/symbols
* @param path to be cleaned
*/
static void CleanPath(Ogre::String &path);
/**
* Extracts file name from given path
* @param path path containing the filename
* @return file name
* @todo Recommend renaming to GetFileName
*/
static Ogre::String ExtractFileName(const Ogre::String &path);
/**
* Extracts file path from given path
* @param path path containing the the file path
* @return file path
* @todo Recommend renaming to GetFilePath
*/
static Ogre::String ExtractFilePath(const Ogre::String &path);
/**
* Fetches information about OGRE-based mesh
* @param mesh mesh to retrieve information about
* @param vertex_count number of vertices to retrieve
* @param vertices raw Ogre::Vector3 array pointer to mesh' vertices
* @param index_count number of indices to retrieve
* @param indices raw ulong array pointer to mesh' indices
* @param position mesh position to retrieve
* @param orient mesh orientation to retrieve
* @param scale mesh scale to retrieve
*/
static void GetMeshData(const Ogre::MeshPtr mesh, size_t &vertex_count, size_t &index_count,
const Ogre::Vector3 &position, const Ogre::Quaternion &orient, const Ogre::Vector3 &scale);
/**
* Fetches information about OGRE-based mesh
* @param entity entity to retrieve information about
* @param vertex_count number of vertices to retrieve
* @param vertices raw Ogre::Vector3 array pointer to mesh' vertices
* @param index_count number of indices to retrieve
* @param indices raw ulong array pointer to mesh' indices
* @param position mesh position to retrieve
* @param orient mesh orientation to retrieve
* @param scale mesh scale to retrieve
*/
static void GetMeshDataEx(const Ogre::Entity *entity, size_t &vertex_count, size_t &index_count,
const Ogre::Vector3 &position, const Ogre::Quaternion &orient, const Ogre::Vector3 &scale);
/**
* Makes a sphere query at object's origin with a given radius
* @param object the object around which to make sphere query
* @param radius radius of the query
* @param results the list of objects returned by query
*/
static void SphereQuery(CBaseEditor *object, Ogre::Real radius, ObjectVector &results);
/**
* Makes a sphere query with a given sphere
* @param sphere the sphere to check against scene
* @param results the list of objects returned by query
*/
static void SphereQuery(const Ogre::Vector3& pos, Ogre::Real radius, ObjectVector &results);
/**
* Attempts to pick an entity within scene using ray cast from the mouse
* @see Ogre::RaySceneQuery
* @param ray ray cast from the mouse
* @see COgitorsRoot::GetMouseRay
* @param result a result of entities that were intersected with the ray
* @param hitpoint a closest point of the ray/entity intersection to the camera
* @param max_distance check only objects closer than this value
* @param excludeobject the name of the object to exclude from hit test
* @return true if any entity was intersected with the ray, otherwise false
*/
static bool PickEntity(Ogre::Ray &ray, Ogre::Entity **result, Ogre::Vector3 &hitpoint, const Ogre::String& excludeobject = "", Ogre::Real max_distance = -1.0f);
/**
* Attempts to pick an entity within scene using ray cast from the mouse
* @see Ogre::RaySceneQuery
* @param ray ray cast from the mouse
* @see COgitorsRoot::GetMouseRay
* @param result a result of entities that were intersected with the ray
* @param hitpoint a closest point of the ray/entity intersection to the camera
* @param max_distance check only objects closer than this value
* @param excludeobjects the list of names of the objects to exclude from hit test
* @return true if any entity was intersected with the ray, otherwise false
*/
static bool PickEntity(Ogre::Ray &ray, Ogre::Entity **result, Ogre::Vector3 &hitpoint, const Ogre::StringVector& excludeobjects, Ogre::Real max_distance = -1.0f);
/**
* Attempts to find the index of the submesh containing the point hitpoint
* @param pEntity the parent Entity Object
* @see Ogre::Entity
* @param hitpoint the location on the Entity
* @return the index of the submesh containing the hitpoint
*/
static int PickSubMesh(Ogre::Ray& ray, Ogre::Entity* pEntity);
/**
* Test if specified ray has intersected with anything on the scene
* @param mRaySceneQuery ray scene query object helper
* @param ray a ray that is to be tested
* @param hitposition location of an intersect (if any)
* @return true if ray had intersected with anything, otherwise false
*/
static bool WorldIntersect(Ogre::Ray &ray, Ogre::Vector3 &hitposition);
/**
* Fetches internal vertex and index buffers
* @param VertexBuffer address of pointer to vertex buffers to be set
* @param IndexBuffer address of pointer to index buffers to be set
*/
static void GetBuffers(Ogre::Vector3 **VertexBuffer, unsigned long **IndexBuffer)
{
*VertexBuffer = mVertexBuffer;
*IndexBuffer = mIndexBuffer;
}
/**
* Get's a list of files in an OGRE resource
* @param resourceName the name of the OGRE resource to get the name list from
* @param resourceType optional parameter, whether the resource is from Ofs or FileSystem
* @param searchName optional parameter, will only return files that match this string
*/
static Ogitors::PropertyOptionsVector GetResourceFilenames(const Ogre::String &resourceName, const Ogre::String resourceType="", const Ogre::String match="");
/**
* Frees internal vertex and index buffers
*/
static void FreeBuffers()
{
OGRE_FREE(mVertexBuffer, Ogre::MEMCATEGORY_GEOMETRY);
mVertexBuffer = 0;
mVertexBufferSize = 0;
OGRE_FREE(mIndexBuffer, Ogre::MEMCATEGORY_GEOMETRY);
mIndexBuffer = 0;
mIndexBufferSize = 0;
}
/**
* Returns the value of a property as string
* @param value the PropertyValue to be converted
* @return the string value
*/
static Ogre::String GetValueString(OgitorsPropertyValue& value);
/**
* Returns a string containing XML structure of a custom property set
* @param set the set that will be used to create XML structure
* @param indentation space to be left at the beginning of each line
*/
static Ogre::String GetCustomPropertySaveString(OgitorsCustomPropertySet *set, int indentation);
/**
* Returns a string containing XML structure of a custom property set
* @param set the set that will be used to create XML structure
* @param indentation space to be left at the beginning of each line
*/
static void ReadCustomPropertySet(TiXmlElement *element, OgitorsCustomPropertySet *set);
/**
* Returns a string containing XML structure of an object
* @param object the object that will be used to create XML structure
* @param useobjid will there be a object_id parameter?
* @param addparent will there be a parent node parameter?
* @return returns a string containing XML syntax created from the object
*/
static Ogre::String GetObjectSaveStringV2(CBaseEditor *object, int indentation, bool useobjid, bool addparent);
/**
* Returns a string containing XML structure of a custom property set for DotScene Format
* @param set the set that will be used to create XML structure
* @param indentation space to be left at the beginning of each line
*/
static Ogre::String GetUserDataSaveString(OgitorsCustomPropertySet *set, int indentation);
/**
* Saves given image to OFS
* @param image the image file to be saved
* @param filename the filename to be saved as
*/
static bool SaveImageOfs(Ogre::Image& image, Ogre::String filename);
/**
* Saves given stream to OFS
* @param stream the stream to be saved
* @param filename the filename to be saved as
*/
static bool SaveStreamOfs(std::stringstream& stream, Ogre::String filename);
/**
* Copies a file system directory contents into OFS file system
* @param dirpath path of the file system directory
* @param ofs_path path of the OFS directory to copy files into
*/
static bool CopyDirOfs(Ogre::String dirpath, Ogre::String ofs_path);
/**
* Copies a file into OFS file system
* @param filepath path of the file in a system directory
* @param ofs_dest path of the OFS file to write to
*/
static bool CopyFileOfs(Ogre::String filepath, Ogre::String ofs_dest);
protected:
static Ogre::String mExePath;
static unsigned int mVertexBufferSize;
static unsigned int mIndexBufferSize;
static Ogre::Vector3 *mVertexBuffer;
static unsigned long *mIndexBuffer;
private:
OgitorsUtils();
~OgitorsUtils();
};
};
| 47.884615 | 170 | 0.627382 |
3f26a75e0f747478372453fd611de8a58af8b8c3 | 2,641 | h | C | DashSync/Models/Managers/Chain Managers/DSMasternodeManager.h | coindroid42/HLX_test | 5c2cf9bcc651026cfd226d1a6edba027835083c8 | [
"MIT"
] | null | null | null | DashSync/Models/Managers/Chain Managers/DSMasternodeManager.h | coindroid42/HLX_test | 5c2cf9bcc651026cfd226d1a6edba027835083c8 | [
"MIT"
] | null | null | null | DashSync/Models/Managers/Chain Managers/DSMasternodeManager.h | coindroid42/HLX_test | 5c2cf9bcc651026cfd226d1a6edba027835083c8 | [
"MIT"
] | null | null | null | //
// DSMasternodeManager.h
// DashSync
//
// Created by Sam Westrich on 6/7/18.
// Copyright (c) 2018 Dash Core Group <contact@dash.org>
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
#import <Foundation/Foundation.h>
#import "DSPeer.h"
#import "DSChain.h"
FOUNDATION_EXPORT NSString* _Nonnull const DSMasternodeListDidChangeNotification;
FOUNDATION_EXPORT NSString* _Nonnull const DSMasternodeListValidationErrorNotification;
FOUNDATION_EXPORT NSString* _Nonnull const DSMasternodeListCountUpdateNotification;
@class DSPeer,DSChain,DSSimplifiedMasternodeEntry,DSMasternodePing;
@interface DSMasternodeManager : NSObject <DSPeerMasternodeDelegate>
@property (nonatomic,readonly) DSChain * chain;
@property (nonatomic,readonly) NSUInteger simplifiedMasternodeEntryCount;
@property (nonatomic,readonly) UInt256 baseBlockHash;
-(instancetype)initWithChain:(DSChain*)chain;
//-(void)addMasternodePrivateKey:(NSString*)privateKey atAddress:(NSString*)address;
-(DSSimplifiedMasternodeEntry*)masternodeHavingProviderRegistrationTransactionHash:(NSData*)providerRegistrationTransactionHash;
-(NSArray<DSSimplifiedMasternodeEntry*>*)masternodesForQuorumHash:(UInt256)quorumHash quorumCount:(NSUInteger)quorumCount forBlockHash:(UInt256)blockHash;
-(NSArray<DSSimplifiedMasternodeEntry*>*)masternodesForQuorumHash:(UInt256)quorumHash quorumCount:(NSUInteger)quorumCount;
-(UInt256)masternodeScore:(DSSimplifiedMasternodeEntry*)simplifiedMasternodeEntry quorumHash:(UInt256)quorumHash;
-(void)wipeMasternodeInfo;
-(BOOL)hasMasternodeAtLocation:(UInt128)IPAddress port:(uint32_t)port;
@end
| 44.762712 | 154 | 0.805755 |
3f3640e6ecf4136a0c8b3b75c8d6ad1ea65d6a4f | 9,740 | c | C | RTOS Thermostat Simulation/MSOE_LIB/msoe_lib_clk.c | anthony-bartman/MSP432_EmbeddedProjects | e72f680100f9ad9061d94a2ff5bde538a6e32963 | [
"MIT"
] | null | null | null | RTOS Thermostat Simulation/MSOE_LIB/msoe_lib_clk.c | anthony-bartman/MSP432_EmbeddedProjects | e72f680100f9ad9061d94a2ff5bde538a6e32963 | [
"MIT"
] | null | null | null | RTOS Thermostat Simulation/MSOE_LIB/msoe_lib_clk.c | anthony-bartman/MSP432_EmbeddedProjects | e72f680100f9ad9061d94a2ff5bde538a6e32963 | [
"MIT"
] | null | null | null | /*
* msoe_lib_clk.c
*
* Created on: Feb 18, 2017
* Author: johnsontimoj
*
* Rev: 0.1 8/8/17 Added wait states for flash to
* support production silicon (red boards)
* Rev: 0.2 7/26/18 Modified failure codes to be negative
*/
#ifndef __MSOE_LIB_CLK_C__
#define __MSOE_LIB_CLK_C__
////////////////////////////////////////////
//
// Clock System Routines
//
////////////////////////////////////////////
//
// Includes
#include <stdint.h>
#include "msp432.h"
//
////////////////////////////////////////////////////////////////////
//
// Clock_Init_48MHz
//
////////////////////////////////////////////////////////////////////
//
// The launchpad has a 48MHz crystal available
//
// To operate at 48MHz the processor must be operating at
// its highest core voltage - VCORE1
// and
// The FLASH memory must be set to have 1 wait state
//
// To get to the highest core voltage we can use the LDO
// or a DC-DC converter. We will use the LDO.
//
// Enable the 48MHz crystal - HFXTCLK
// Enable REFOCLK at 38KHz
//
// Set master clock (MCLK) to HFXTCLK with divide by 1 - 48MHz
// Set high speed sub-system clock (HSMCLK) to HFXTCLK with divide by 2 - 24MHz (max allowed)
// Set low speed sub-system clock (SMCLK) to HFXTCLK with divide by 4 - 12MHz (max allowed)
// Set the auxiliary clock (ACLK) to REFOCLK - 32KHz
// Set the backup clock (BCLK) to REFOCLK - 32KHz
//
// Inputs: none
// Outputs: none
// Returns: 0 for success
// -1 for Power mode change failure
// -2 for Active mode failure
// -3 for VCORE1 node failure
// -4 for Power mode change failure
// -5 for HFXT clock stable failure
// -6 for "some" clock not working
//
int Clock_Init_48MHz(void){
// Local Variables
// These values are used to timeout the transitions
uint32_t PMR_fail = 100000;
uint32_t AM_LDO_VCORE1_fail = 500000;
uint32_t HFXT_fail = 100000;
uint32_t CLK_fail = 100000;
// Power mode cannot be changed until the Power Control Module (PCM)
// is not active. Status is held in PCMCTL1 register bit 8 (PMR_BUSY)
// Power mode can be changed when this bit is zero (idle)
// Wait for PMR to be idle
while(PCM->CTL1 & 0x00000100){
PMR_fail--;
if(PMR_fail == 0) // Attempt Failed - no changes made - return 1
return -1;
} // end while
// The Power Control Module requires a special value (Key) to be written to
// to change the power mode. Default mode does not support 48MHz operation.
// Key is 0x695A_xxxx and loads into PCMCTL0
//
// Simultaneously set the PCM to active mode, LDO Vcore 1 (highest voltage)
// to support 48MHz operation - PCMCTL0, bit 0 = high
PCM->CTL0 = (PCM->CTL0 & ~0xFFFF000F) | 0x695A0000 | 0x00000001;
// Force 0's in key force 1's in key force mode to 1
// There is a flag to indicate transition to active mode is NOT valid
// PCMIFG bit 2 (AM_INVALID_TR_IFG)
if(PCM->IFG & 0x00000004){
PCM->CLRIFG = 0x00000004; // Attempt failed - clear flag and return 2
return -2;
} // end if
// Check the actual mode, and wait for AM LDO VCORE1 to be set
// Status is in PCMCTL0, AM_LDO_VCORE1 mode is 0x01 on bits 13:8
while((PCM->CTL0 & 0x00003F00) != 0x00000100){
AM_LDO_VCORE1_fail--;
if(AM_LDO_VCORE1_fail == 0)
return -3; // Attempt failed - return 3
} // end while
// Power mode change is complete
// Clear the change key to prevent unintended changes
PCM->CTL1 &= ~0xFFFF0000;
// Clocks cannot be changed until the Power Control Module (PCM)
// is not active. Status is held in PCMCTL1 register bit 8 (PMR_BUSY)
// Clocks can be changed when this bit is zero (idle)
// Wait for PMR to be idle
while(PCM->CTL1 & 0x00000100){
PMR_fail--;
if(PMR_fail == 0) // Attempt Failed - return 4
return -4;
} // end while
// Use one wait state for flash to run at 48 MHz
// The wait state value is held in the FLCTL->BANKxRDCTL register
// in bits 15-12 for both bank 0 and bank 1
// Wait state = 1 requires a code of 0001 (0x1) in bits 15-12
FLCTL->BANK0_RDCTL = (FLCTL->BANK0_RDCTL & ~(0x0000F000)) | 0x00001000;
FLCTL->BANK1_RDCTL = (FLCTL->BANK0_RDCTL & ~(0x0000F000)) | 0x00001000;
// The crystal oscillator pins default to HFXT mode but the oscillator is not active
// until these pins are configured
// Port J, bits 2,3 - set to select mode 01
PJ->SEL0 |= 0x0C;
PJ->SEL1 &= ~0x0C;
// The Clock Source module requires a special value (Key) to be written to
// to change the clock source. Default DCO mode does not support 48MHz operation.
// Key is 0x695A (top bits are reserved) and loads into CSKEY
CS->KEY = 0x695A;
// 48MHz operation requires the following in CSCTL2
//
// HFXTBYPASS to be cleared (bit 25) - not bypassing the crystal
// HFXTFREQ set to 110 (bits 22:20) - 40-48 MHz
// HFXT_EN set to 1 (bit 24)
// HFXTDRIVE set to 1 (bit 16) - based on HFXTDRIVE value
// xxxx xx01 x110 xxx1 xxxx xxxx xxxx xxxx
CS->CTL2 = (CS->CTL2 & ~0x02100000) | 0x01610000;
// force 0s force 1s
// Check to make sure HFXT mode is stable
// The interrupt flag is set if there is a fault (not stable)
// The flag will not clear itself so you need to clear the flag
// and re-check - flag:CSIFG bit 1 (HFXTIFG), clearFlag:CSCLRIFG bit 1 (CLR_HFXTIFG)
while(CS->IFG & 0x00000002){
CS->CLRIFG = 0x00000002;
HFXT_fail--;
if(HFXT_fail == 0) // Attempt Failed - return 5
return -5;
} // end while
// Configure the system clocks (CSCTL1)
//
// MCLK --> HFXTCLK - bits 2:0 = 101
// SMCLK/HSMCLK --> HFXTCLK - bits 6:4 = 101
// ACLK --> REFOCLK - bits 10:8 = 010
// BCLK --> REFOCLK - bit 12 = 1
// MCLK /1 - bits 18:16 = 000
// HSMCLK /2 - bits 22:20 = 001 (max allowed is 24MHz)
// ACLK /1 - bits 26:24 = 000
// SMCLK /4 - bits 30:28 = 010 (max allowed is 12MHz
// x010 x000 x001 x000 x001 x010 x101 x101
CS->CTL1 = 0x20101255; // direct write
// CS->CTL1 = 0x20131255; // direct write
// Configure the system clocks
//
// CSCTL2, CSCTL3, CSCLKEN
// Use default values
// Clock mode change is complete
// Clear the change key to prevent unintended changes
CS->KEY = 0;
// Make sure all clocks are working properly
// Use the Status register
// HFXT_ON, MCLK_ON, SMCLK_ON, HSMCLK_ON, ACLK_ON
// MCLK_READY, HSMCLK_READY, SMCLK_READY, ACLK_READY
// xxxx 1111 xxxx 1111 xxxx xxxx xxxx x1xx
// normally would test: 0x0F020004
// but with no other peripherals enabled, only MCLK is on, test: 0x0F020004
while((CS->STAT & 0x0F020004) != 0x0F020004){
CLK_fail--;
if(CLK_fail == 0) // Attempt Failed - return 6
return -6; // some clock not working
}
//
return 0; // change completed
} // end Clock_Init_48MHz
////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////
//
// Clock_48MHz_Divide
//
////////////////////////////////////////////////////////////////////
//
// This routine modifies the output clock frequencies
// for the HFXT clock source (48MHz)
// Divide values from 1 to 128 in powers of 2
//
// This routine assumes the 48MHz clock has already been set up
// using Clock_Init_48MHz()
//
// Inputs: Divide value
// Outputs: none
// Returns: 0 for success
// -1 for Power mode change failure
// -2 for "some" clock not working
//
int Clock_48MHz_Divide(uint8_t divider){
// Local Variables
// These values are used to timeout the transitions
uint32_t PMR_fail = 100000;
uint32_t CLK_fail = 100000;
// Clocks cannot be changed until the Power Control Module (PCM)
// is not active. Status is held in PCMCTL1 register bit 8 (PMR_BUSY)
// Clocks can be changed when this bit is zero (idle)
// Wait for PMR to be idle
while(PCM->CTL1 & 0x00000100){
PMR_fail--;
if(PMR_fail == 0) // Attempt Failed - return 1
return -1;
} // end while
// The Clock Source module requires a special value (Key) to be written to
// to change the clock source. Default DCO mode does not support 48MHz operation.
// Key is 0x695A (top bits are reserved) and loads into CSKEY
CS->KEY = 0x695A;
// Configure the clock dividers (CSCTL1)
//
// MCLK /(divider) - bits 18:16
// HSMCLK /(divider * 2) - bits 22:20 (max allowed is 24MHz)
// ACLK - bits 26:24
// SMCLK /(divider * 4) - bits 30:28 (max allowed is 12MHz)
// x010 x000 x001 x000 x000 x010 x101 x101
switch(divider){
case 1: // Mclk - HSMCLK - ACLK - SMCLK
CS->CTL1 = 0x20100255; // 48M-24M-32K-12M
break;
case 2:
CS->CTL1 = 0x30210255; // 24M-12M-32K-6M
break;
case 4:
CS->CTL1 = 0x40320255; // 12M-6M-32K-3M
break;
case 8:
CS->CTL1 = 0x50430255; // 6M-3M-32K-1.5M
break;
case 16:
CS->CTL1 = 0x60540255; // 3M-1.5M-32K-750K
break;
case 32:
CS->CTL1 = 0x70650255; // 1.5M-750M-32K-375K
break;
case 64:
CS->CTL1 = 0x70760255; // 750K-375K-32K-375K
break;
case 128:
CS->CTL1 = 0x70770255; // 375K-375K-32K-375K
break;
default:
CS->CTL1 = 0x20100255; // 48M-24M-32K-12M
}
// Clock mode change is complete
// Clear the change key to prevent unintended changes
CS->KEY = 0;
// Make sure all clocks are working properly
// Use the Status register
// HFXT_ON, MCLK_ON, SMCLK_ON, HSMCLK_ON, ACLK_ON
// MCLK_READY, HSMCLK_READY, SMCLK_READY, ACLK_READY
// xxxx 1111 xxxx 1111 xxxx xxxx xxxx x1xx
// normally would test: 0x0F020004
// but with no other peripherals enabled, only MCLK is on, test: 0x0F020004
while((CS->STAT & 0x0F020004) != 0x0F020004){
CLK_fail--;
if(CLK_fail == 0) // Attempt Failed - return 2
return -2; // some clock not working
}
//
return 0; // change completed
} // end Clock_48MHz_Divide
/////////////////////////////////////////////////////////////////////////
#endif // __MSOE_LIB_CLK_C__
| 33.016949 | 93 | 0.641273 |
3f5cdea70468c0d1bfe55dc13a15ea776c34e7c3 | 5,401 | h | C | code/SDK/include/Maya_17/maya/MGeometryExtractor.h | porames25/xray-oxygen | 1f3f46a7a1ffc2be1de04a1ec665862127894ef7 | [
"Apache-2.0"
] | 10 | 2018-03-30T16:09:02.000Z | 2021-12-07T07:29:19.000Z | code/SDK/include/Maya_17/maya/MGeometryExtractor.h | porames25/xray-oxygen | 1f3f46a7a1ffc2be1de04a1ec665862127894ef7 | [
"Apache-2.0"
] | 2 | 2018-05-26T23:17:14.000Z | 2019-04-14T18:33:27.000Z | code/SDK/include/Maya_17/maya/MGeometryExtractor.h | Graff46/xray-oxygen | 543e79929c0e8debe57f5c567eaf11e5fe08216f | [
"Apache-2.0"
] | 9 | 2018-06-02T09:18:49.000Z | 2021-12-20T09:24:35.000Z | #ifndef _MGeometryExtractor__
#define _MGeometryExtractor__
//-
// ==========================================================================
// Copyright (C) 2011 Autodesk, Inc., and/or its licensors. All
// rights reserved.
//
// The coded instructions, statements, computer programs, and/or related
// material (collectively the "Data") in these files contain unpublished
// information proprietary to Autodesk, Inc. ("Autodesk") and/or its
// licensors, which is protected by U.S. and Canadian federal copyright law
// and by international treaties.
//
// The Data may not be disclosed or distributed to third parties or be
// copied or duplicated, in whole or in part, without the prior written
// consent of Autodesk.
//
// The copyright notices in the Software and this entire statement,
// including the above license grant, this restriction and the following
// disclaimer, must be included in all copies of the Software, in whole
// or in part, and all derivative works of the Software, unless such copies
// or derivative works are solely in the form of machine-executable object
// code generated by a source language processor.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND.
// AUTODESK DOES NOT MAKE AND HEREBY DISCLAIMS ANY EXPRESS OR IMPLIED
// WARRANTIES INCLUDING, BUT NOT LIMITED TO, THE WARRANTIES OF
// NON-INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE,
// OR ARISING FROM A COURSE OF DEALING, USAGE, OR TRADE PRACTICE. IN NO
// EVENT WILL AUTODESK AND/OR ITS LICENSORS BE LIABLE FOR ANY LOST
// REVENUES, DATA, OR PROFITS, OR SPECIAL, DIRECT, INDIRECT, OR
// CONSEQUENTIAL DAMAGES, EVEN IF AUTODESK AND/OR ITS LICENSORS HAS
// BEEN ADVISED OF THE POSSIBILITY OR PROBABILITY OF SUCH DAMAGES.
// ==========================================================================
//+
//
// CLASS: MGeometryExtractor
//
// ****************************************************************************
#if defined __cplusplus
// ****************************************************************************
// INCLUDED HEADER FILES
#include <maya/MStatus.h>
#include <maya/MHWGeometry.h>
#include <maya/MDagPath.h>
#include <maya/MViewport2Renderer.h>
// ****************************************************************************
// DECLARATIONS
class MString;
class MUserData;
// ****************************************************************************
// NAMESPACE
namespace MHWRender
{
typedef int MPolyGeomOptions;
//! Indicates the geometry options for polygon.
enum{
kPolyGeom_Normal = 0, //!< Normal Indicates the polygon performs the default geometry.
kPolyGeom_NotSharing = 1 << 0, /*!< NotSharing Indicates if you don't want vertex sharing to be computed by the extractor.
Vertex buffer size will not be reduced if sharing can be performed.
*/
kPolyGeom_BaseMesh = 1 << 1, /*!< BaseMesh Indicates if you want the base geometry in smoothCage mode.
The geometry in extractor is always the base geometry in normal mode.
*/
};
// ****************************************************************************
// CLASS DECLARATION (MGeometryExtractor)
//! \ingroup OpenMayaRender
//! \brief class for extracting renderable geometry
/*!
Construct an instance of this class to populate buffers with vertex and indexing
data. Buffers are filled based on the supplied requirements. Use the
MIndexBufferDescriptor and MVertexBufferDescriptor classes to request a broad range
of data types, formats, and content.
Buffers are filled in-place so you should request the primitive count and vertex count
before filling the buffers. Use the count multiplied by the element stride to construct
data buffers large enough to fill properly prior to calling one of the populate methods.
*/
class OPENMAYARENDER_EXPORT MGeometryExtractor
{
public:
// initialization
MGeometryExtractor(const MHWRender::MGeometryRequirements& requirements,
const MDagPath& path, MPolyGeomOptions options, MStatus* status = NULL);
~MGeometryExtractor();
// Indices
unsigned int primitiveCount(const MHWRender::MIndexBufferDescriptor& indexDesc) const;
MStatus populateIndexBuffer( void* data, const unsigned int primitiveCount,
const MHWRender::MIndexBufferDescriptor& indexDesc) const;
// Streams
unsigned int vertexCount( ) const;
MStatus populateVertexBuffer( void* data, const unsigned int vertexCount,
const MHWRender::MVertexBufferDescriptor& bufferDesc ) const;
static unsigned int minimumBufferSize( unsigned int primitiveCount,
MGeometry::Primitive primitive, unsigned int primitiveStride=0 );
// Deprecated methods
MGeometryExtractor(const MHWRender::MGeometryRequirements& requirements,
const MDagPath& path, const bool sharing = true, MStatus* status = NULL);
private:
void MGeometryExtractorConstructHelper(const MHWRender::MGeometryRequirements& requirements, const MDagPath& path,
MPolyGeomOptions options, MStatus* status);
bool isValid() const;
void* shape;
void* extractor;
void* dataPtr; // for future use.
};
} // namespace MHWRender
#endif /* __cplusplus */
#endif /* _MGeometryExtractor__ */
| 41.546154 | 125 | 0.653027 |
8fa678d37df08ac747468ec0f8f9ed3ce7434e9f | 3,320 | c | C | c/k&r/1-21.c | maniac-en/learning | 6ddd24da5cdd1431a72a2ead81d6e976874a913b | [
"Unlicense"
] | null | null | null | c/k&r/1-21.c | maniac-en/learning | 6ddd24da5cdd1431a72a2ead81d6e976874a913b | [
"Unlicense"
] | null | null | null | c/k&r/1-21.c | maniac-en/learning | 6ddd24da5cdd1431a72a2ead81d6e976874a913b | [
"Unlicense"
] | null | null | null | /* Exercise 1-21. Write a program entab that replaces
* strings of blanks by the minimum number of tabs and
* blanks to achieve the same spacing. Use the same tab
* stops as for detab. When either a tab or a single blank
* would suffice to reach a tab stop, which should be given
* preference?
*
* Answer to second question:
*
* Based on our code, the tab character is given preference
*/
#include <stdio.h>
#define N 8 /* number of columns per tab stop */
#define MAX 1000
/* The character '@' is used to see the effect since a
blank char can not be seen on the display */
/* Procedure:
1. Process the input per character.
a. Whenever a character is read, increment the col
variable.
2. If the character is a blank, temporarily suspend the
saving of the character to the array until the next
non-blank character. Instead increment the number of
blanks.
3. If the character is a non-blank character, replace
the strings of blanks with the minimum number of
tabs and blanks.
a. Find the col where the first blank appears.
pos = col - nb;
b. Within the range of numbers between pos and col,
count the numbers that are a factor of N. The total
number is the numer of tabs.
for (j = pos; j < col; ++j)
if (j % N == 0)
++tab;
c. Count the remaining blanks.
nb = 0;
for (j = col - 1; j >= pos && j % N != 0; --j)
++nb;
4. Read the tabs and blanks to the array.
5. Read the character to the array.
*/
int main() {
int c, nb, col, pos, tab, j, i, x;
char s[MAX];
nb = tab = 0;
col = 1;
i = 0;
while ((c = getchar()) != EOF) {
if (c == ' ')
++nb;
else {
/* Replace the strings of blanks with the
* minimum number of tabs and blanks to achieve
* the same spacing. */
/* Find the column where the first blank
* appears */
pos = col - nb;
/* Within the range of numbers between pos
* and col, count the numbers that are a factor
* of N. */
for (j = pos; j < col; ++j)
if (j % N == 0)
++tab;
/* Count the remaining blanks */
nb = 0;
for (j = col - 1; j >= pos && j % N != 0; --j)
++nb;
/* Save the tabs to the array */
for (j = 0; j < tab; ++j) {
s[i] = '\t';
++i;
// overflow check
if (i == MAX - 1) {
s[i] = '\0';
printf("%s", s);
i = 0;
}
}
/* Save the blanks to the array */
for (j = 0; j < nb; ++j) {
s[i] = '@';
++i;
// overflow check
if (i == MAX - 1) {
s[i] = '\0';
printf("%s", s);
i = 0;
}
}
/* Read the returned character to the array */
s[i] = c;
++i;
/* Reinitialize nb and tab to zero */
nb = 0;
tab = 0;
}
if (c == '\n')
col = 1;
else if (c == '\t') {
/* Set col to the column immediately after the
* nearest tab stop.
To find the nearest tab stop, E.g. Set N = 10.
if 1 < col <= 10, x = 1 where x is a factor
of N.
if 11 < col <= 20, x = 2
In general:
x = (col - 1) / N + 1
*/
x = (col - 1) / N + 1;
col = x * N + 1;
} else
++col;
/* Print the input when the array is full */
if (i == MAX - 1) {
s[i] = '\0';
printf("%s", s);
i = 0;
}
}
/* For the remaining input */
s[i] = '\0';
printf("%s", s);
return 0;
}
| 21.699346 | 59 | 0.544578 |
3a6b9637a3596f219561138da75b4519d30a4710 | 305 | h | C | hzch/ResoureTableViewController.h | xtturing/hzch | 5f13c1c6df15213f9e144e6db89f6cddfca32cc6 | [
"MIT"
] | null | null | null | hzch/ResoureTableViewController.h | xtturing/hzch | 5f13c1c6df15213f9e144e6db89f6cddfca32cc6 | [
"MIT"
] | null | null | null | hzch/ResoureTableViewController.h | xtturing/hzch | 5f13c1c6df15213f9e144e6db89f6cddfca32cc6 | [
"MIT"
] | null | null | null | //
// ResoureTableViewController.h
// hzch
//
// Created by xtturing on 15/9/29.
// Copyright (c) 2015年 xtturing. All rights reserved.
//
#import <UIKit/UIKit.h>
@interface ResoureTableViewController : UITableViewController
- (IBAction)doBack:(id)sender;
- (IBAction)segmentControl:(id)sender;
@end
| 20.333333 | 61 | 0.731148 |
3aa9f7b9edfa6826e7ce71c0572e083654bd122b | 272 | h | C | Classes/SaveController.h | BILIHUBSU/ThatCloud | e2952dee7624cf47b756436285c9591a3c4f943a | [
"MIT"
] | 29 | 2015-01-11T15:36:58.000Z | 2019-06-27T07:57:26.000Z | Classes/SaveController.h | kgov1/ThatCloud | e2952dee7624cf47b756436285c9591a3c4f943a | [
"MIT"
] | null | null | null | Classes/SaveController.h | kgov1/ThatCloud | e2952dee7624cf47b756436285c9591a3c4f943a | [
"MIT"
] | 18 | 2015-01-18T07:35:34.000Z | 2018-10-12T09:17:13.000Z | //
// FPSaveSourceController.h
// FPPicker
//
// Created by Liyan David Chang on 7/8/12.
// Copyright (c) 2013 Ink (Cloudtop Inc.). All rights reserved.
//
#import "FileSourceController.h"
@interface SaveController : FileSourceController <UITextFieldDelegate>
@end
| 19.428571 | 70 | 0.727941 |
5ff094c340196230d5030bd0be3a37bc6a4330b3 | 3,866 | h | C | panda/src/physx/physxD6JointDesc.h | kestred/panda3d | 16bfd3750f726a8831771b81649d18d087917fd5 | [
"PHP-3.01",
"PHP-3.0"
] | 3 | 2018-03-09T12:07:29.000Z | 2021-02-25T06:50:25.000Z | panda/src/physx/physxD6JointDesc.h | Sinkay/panda3d | 16bfd3750f726a8831771b81649d18d087917fd5 | [
"PHP-3.01",
"PHP-3.0"
] | null | null | null | panda/src/physx/physxD6JointDesc.h | Sinkay/panda3d | 16bfd3750f726a8831771b81649d18d087917fd5 | [
"PHP-3.01",
"PHP-3.0"
] | null | null | null | // Filename: physxD6JointDesc.h
// Created by: enn0x (01Oct09)
//
////////////////////////////////////////////////////////////////////
//
// PANDA 3D SOFTWARE
// Copyright (c) Carnegie Mellon University. All rights reserved.
//
// All use of this software is subject to the terms of the revised BSD
// license. You should have received a copy of this license along
// with this source code in a file named "LICENSE."
//
////////////////////////////////////////////////////////////////////
#ifndef PHYSXD6JOINTDESC_H
#define PHYSXD6JOINTDESC_H
#include "pandabase.h"
#include "luse.h"
#include "physxJointDesc.h"
#include "physx_includes.h"
class PhysxJointDriveDesc;
class PhysxJointLimitSoftDesc;
////////////////////////////////////////////////////////////////////
// Class : PhysxD6JointDesc
// Description :
////////////////////////////////////////////////////////////////////
class EXPCL_PANDAPHYSX PhysxD6JointDesc : public PhysxJointDesc {
PUBLISHED:
INLINE PhysxD6JointDesc();
INLINE ~PhysxD6JointDesc();
INLINE void set_to_default();
INLINE bool is_valid() const;
void set_flag(PhysxD6JointFlag flag, bool value);
void set_projection_distance(float distance);
void set_projection_angle(float angle);
void set_gear_ratio(float ratio);
void set_drive_position(const LPoint3f &pos);
void set_drive_linear_velocity(const LVector3f &v);
void set_drive_angular_velocity(const LVector3f &v);
void set_drive_orientation(const LQuaternionf &quat);
void set_projection_mode(PhysxProjectionMode mode);
void set_x_motion(PhysxD6JointMotion xMotion);
void set_y_motion(PhysxD6JointMotion yMotion);
void set_z_motion(PhysxD6JointMotion zMotion);
void set_swing1_motion(PhysxD6JointMotion xMotion);
void set_swing2_motion(PhysxD6JointMotion yMotion);
void set_twist_motion(PhysxD6JointMotion zMotion);
void set_x_drive(const PhysxJointDriveDesc &drive);
void set_y_drive(const PhysxJointDriveDesc &drive);
void set_z_drive(const PhysxJointDriveDesc &drive);
void set_swing_drive(const PhysxJointDriveDesc &drive);
void set_twist_drive(const PhysxJointDriveDesc &drive);
void set_slerp_drive(const PhysxJointDriveDesc &drive);
void set_linear_limit(const PhysxJointLimitSoftDesc &limit);
void set_swing1_limit(const PhysxJointLimitSoftDesc &limit);
void set_swing2_limit(const PhysxJointLimitSoftDesc &limit);
void set_twist_limit_low(const PhysxJointLimitSoftDesc &limit);
void set_twist_limit_high(const PhysxJointLimitSoftDesc &limit);
bool get_flag(PhysxD6JointFlag flag) const;
float get_projection_distance() const;
float get_projection_angle() const;
float get_gear_ratio() const;
LPoint3f get_drive_position() const;
LVector3f get_drive_linear_velocity() const;
LVector3f get_drive_angular_velocity() const;
LQuaternionf get_drive_orientation() const;
PhysxProjectionMode get_projection_mode() const;
PhysxD6JointMotion get_x_motion() const;
PhysxD6JointMotion get_y_motion() const;
PhysxD6JointMotion get_z_motion() const;
PhysxD6JointMotion get_swing1_motion() const;
PhysxD6JointMotion get_swing2_motion() const;
PhysxD6JointMotion get_twist_motion() const;
PhysxJointDriveDesc get_x_drive() const;
PhysxJointDriveDesc get_y_drive() const;
PhysxJointDriveDesc get_z_drive() const;
PhysxJointDriveDesc get_swing_drive() const;
PhysxJointDriveDesc get_twist_drive() const;
PhysxJointDriveDesc get_slerp_drive() const;
PhysxJointLimitSoftDesc get_linear_limit() const;
PhysxJointLimitSoftDesc get_swing1_limit() const;
PhysxJointLimitSoftDesc get_swing2_limit() const;
PhysxJointLimitSoftDesc get_twist_limit_low() const;
PhysxJointLimitSoftDesc get_twist_limit_high() const;
public:
NxJointDesc *ptr() const { return (NxJointDesc *)&_desc; };
NxD6JointDesc _desc;
};
#include "physxD6JointDesc.I"
#endif // PHYSXD6JOINTDESC_H
| 37.901961 | 70 | 0.746508 |
38ee26cbd8ac56c301de6aa81b04cefe471e03a1 | 1,433 | h | C | src/engine/config.h | loongson-zn/build | d4bedebfa046b763c316e31c98b48ed2779741b9 | [
"BSL-1.0"
] | 215 | 2015-01-10T17:16:34.000Z | 2022-02-23T15:22:08.000Z | src/engine/config.h | loongson-zn/build | d4bedebfa046b763c316e31c98b48ed2779741b9 | [
"BSL-1.0"
] | 594 | 2015-01-22T16:17:55.000Z | 2022-02-26T22:11:01.000Z | src/engine/config.h | loongson-zn/build | d4bedebfa046b763c316e31c98b48ed2779741b9 | [
"BSL-1.0"
] | 302 | 2015-02-03T01:20:29.000Z | 2022-02-12T07:01:28.000Z | #ifndef B2_CONFIG_H
#define B2_CONFIG_H
/*
Copyright 2002-2021 Rene Rivera.
Distributed under the Boost Software License, Version 1.0.
(See accompanying file LICENSE.txt or copy at
https://www.bfgroup.xyz/b2/LICENSE.txt)
*/
#define OPT_HEADER_CACHE_EXT 1
#define OPT_GRAPH_DEBUG_EXT 1
#define OPT_SEMAPHORE 1
#define OPT_AT_FILES 1
#define OPT_DEBUG_PROFILE 1
#define JAM_DEBUGGER 1
#define OPT_FIX_TARGET_VARIABLES_EXT 1
#define OPT_IMPROVED_PATIENCE_EXT 1
// Autodetect various operating systems..
#if defined(_WIN32) || defined(_WIN64) || \
defined(__WIN32__) || defined(__TOS_WIN__) || \
defined(__WINDOWS__)
#define NT 1
#endif
#if defined(__VMS) || defined(__VMS_VER)
#if !defined(VMS)
#define VMS 1
#endif
#endif
// To work around QEMU failures on mixed mode situations (32 vs 64) we need to
// enable partial LFS support in system headers. And we need to do this before
// any system headers are included.
#if !defined(NT) && !defined(VMS)
# define _FILE_OFFSET_BITS 64
#endif
// Correct missing types in some earlier compilers..
#include <stdint.h>
#ifndef INT32_MIN
// VS 2013 is barely C++11/C99. And opts to not provide specific sized int types.
// Provide a generic implementation of the sizes we use.
#if UINT_MAX == 0xffffffff
typedef int int32_t;
#elif (USHRT_MAX == 0xffffffff)
typedef short int32_t;
#elif ULONG_MAX == 0xffffffff
typedef long int32_t;
#endif
#endif
#endif
| 23.883333 | 81 | 0.749477 |
df0033f1c4d44fd02b091c4c1e885ae249e9a82e | 283 | h | C | PopcornTorrent/Source/Client/PTTorrentDownloadStatus.h | tommy071/PopcornTorrent | 88a1a4371d58e9d81839754d2eae079197dee5c5 | [
"MIT"
] | 50 | 2016-01-26T15:42:58.000Z | 2022-02-27T11:32:58.000Z | PopcornTorrent.framework/Versions/A/Headers/PTTorrentDownloadStatus.h | tushar1210/PopcornTime-Mac | c604116b7d91fc2b965c28f58226889eb5a5094f | [
"MIT"
] | 8 | 2016-04-05T02:38:33.000Z | 2017-06-01T20:16:29.000Z | PopcornTorrent.framework/Versions/A/Headers/PTTorrentDownloadStatus.h | tushar1210/PopcornTime-Mac | c604116b7d91fc2b965c28f58226889eb5a5094f | [
"MIT"
] | 53 | 2016-01-25T01:14:54.000Z | 2022-03-13T10:20:36.000Z |
#import <Foundation/Foundation.h>
typedef NS_ENUM(NSInteger, PTTorrentDownloadStatus) {
PTTorrentDownloadStatusPaused = 1,
PTTorrentDownloadStatusDownloading,
PTTorrentDownloadStatusFinished,
PTTorrentDownloadStatusFailed,
PTTorrentDownloadStatusProcessing
};
| 23.583333 | 53 | 0.812721 |
3865ffff45039d94b741ec51a1d42388c12a7581 | 3,293 | h | C | include/Raft.h | ZavierJin/AccountManager | b09235e71fa43a2c6ece1d6739ef44885d28af34 | [
"Apache-2.0"
] | null | null | null | include/Raft.h | ZavierJin/AccountManager | b09235e71fa43a2c6ece1d6739ef44885d28af34 | [
"Apache-2.0"
] | null | null | null | include/Raft.h | ZavierJin/AccountManager | b09235e71fa43a2c6ece1d6739ef44885d28af34 | [
"Apache-2.0"
] | null | null | null | /* Raft.h
** Brief introduction: definition of Raft class
** Create by Jin Zhanyu 2020/5/18
** Modify:
** 2020/5/29 (by Jin Zhanyu):
** 1. Split log and term, store shared_ptr<Request> in log
** 2. integrate answerVote & answerAppendEntries into accept fuctions
** 3. delete global message variable
** 4. change nextIndex & matchIndex from array to map
** 2020/5/31 (by Jin Zhanyu):
** 1. add setTerm()
** 2. separate class Timer & class Logs into files
** 3. add LogType & INVALID_ID
** 2020/6/3 (by Jin Zhanyu):
** 1. add matchTotal
** 2. remove some const
** 3. add showMyInfo
** 4. #include "raft_type.h"
** 2020/6/4 (by Jin Zhanyu):
** 1. add beatTimeOut
** 2. add writeSaid & std::ofstream fileWriter;
** 3. modify the type of entries
** 4. add discardVoteAnswer & discardAdditionAnswer
** 2020/6/9(by Jiangpin):
** add applyAppendEntries()
*/
#ifndef RAFT_H
#define RAFT_H
#include "Timer.h"
#include "Logs.h"
#include "raft_type.h"
#include "check.h"
#include"Global.h"
//#define JPDEBUG 1
// Message type
struct AppendEntries {
TermType term;
IdType leaderId;
IndexType prevLogIndex;
TermType prevLogTerm;
IndexType leaderCommit;
std::vector<LogType> entries;
};
struct AppendEntriesReply {
IdType nodeId;
TermType term;
bool success;
};
struct Vote {
TermType term;
IdType candidateId;
IndexType lastLogIndex;
TermType lastLogTerm;
};
class Raft
{
public:
Raft();
StateType getState() const { return nodeState; }
// check time
bool electionTimeOut(); // return is_change_role
bool beatTimeOut(); // return is_time_out
// manage raft messages, return is_change_role
bool acceptAppendEntries(); // 3 state
bool acceptAppendEntriesReply(); // leader
bool acceptVote(); // 3 state
bool acceptVote_request(); // candidate
void applyAppendEntries();
// Interaction with Examiner
void receiveExaminer();
void answerExaminer();
private:
// send msg to other node
void sendVote(); // only for candidate
void sendAppendEntries(); // only for leader
// change state or term
void changeRole(StateType nowState);
void setTerm(TermType new_term);
// others
void resetLeaderPara();
void showMyInfo();
void writeSaid(const std::string& raft_said);
void discardVoteAnswer();
void discardAdditionAnswer();
// check, used in acceptAppendEntriesReply()
void checkMatchIndex();
IdType nodeId = INVALID_ID; // random number, not increased from 0
//IdType leaderId = INVALID_ID;
StateType nodeState = INITIAL_STATE;
int nodeTotal = NODE_TOTAL;
int votedTotal = 0;
//int matchTotal = 0; // Changed to local variable
TermType currentTerm = INITIAL_TERM;
IdType votedFor = INVALID_ID;
IndexType commitIndex = INITIAL_INDEX;
IndexType lastApplied = INITIAL_INDEX;
Logs logs;
Timer raftTimer;
// Contain all servers' ID
std::vector<IdType> nodeIdList;
// only for leader
std::map<IdType, IndexType> nextIndex;
std::map<IdType, IndexType> matchIndex;
// record node output
std::ofstream fileWriter;
};
#endif
| 24.392593 | 79 | 0.657759 |
6da0721765b9e37e5c690460d6fb13ccd8d1d320 | 1,317 | h | C | ospray/include/ospray/ospray_cpp/Future.h | TOMiii9/ospray | c902dca37f165e01365e51b6bba107dcc53a6842 | [
"Apache-2.0"
] | 2 | 2022-01-20T19:28:39.000Z | 2022-01-21T00:14:07.000Z | ospray/include/ospray/ospray_cpp/Future.h | TOMiii9/ospray | c902dca37f165e01365e51b6bba107dcc53a6842 | [
"Apache-2.0"
] | 1 | 2020-04-24T22:15:32.000Z | 2020-04-24T22:15:32.000Z | ospray/include/ospray/ospray_cpp/Future.h | TOMiii9/ospray | c902dca37f165e01365e51b6bba107dcc53a6842 | [
"Apache-2.0"
] | 1 | 2021-05-19T17:45:06.000Z | 2021-05-19T17:45:06.000Z | // Copyright 2009-2020 Intel Corporation
// SPDX-License-Identifier: Apache-2.0
#pragma once
#include "ManagedObject.h"
namespace ospray {
namespace cpp {
class Future : public ManagedObject<OSPFuture, OSP_FUTURE>
{
public:
Future(const Future ©);
Future(OSPFuture existing = nullptr);
bool isReady(OSPSyncEvent = OSP_TASK_FINISHED);
void wait(OSPSyncEvent = OSP_TASK_FINISHED);
void cancel();
float progress();
float duration();
};
static_assert(sizeof(Future) == sizeof(OSPFuture),
"cpp::Future can't have data members!");
// Inlined function definitions ///////////////////////////////////////////
inline Future::Future(const Future ©)
: ManagedObject<OSPFuture, OSP_FUTURE>(copy.handle())
{
ospRetain(copy.handle());
}
inline Future::Future(OSPFuture existing)
: ManagedObject<OSPFuture, OSP_FUTURE>(existing)
{}
inline bool Future::isReady(OSPSyncEvent e)
{
return ospIsReady(handle(), e);
}
inline void Future::wait(OSPSyncEvent e)
{
ospWait(handle(), e);
}
inline void Future::cancel()
{
ospCancel(handle());
}
inline float Future::progress()
{
return ospGetProgress(handle());
}
inline float Future::duration()
{
return ospGetTaskDuration(handle());
}
} // namespace cpp
OSPTYPEFOR_SPECIALIZATION(cpp::Future, OSP_FUTURE);
} // namespace ospray
| 19.086957 | 75 | 0.700076 |
6af5db77a856990a8e752c2ee2287f62553610bc | 1,308 | h | C | OpenGL 2D Framework - Josh Savage/Player.h | AWanderingBear/GD2S02---Rock-Rush-Project | 3441230e623558b980c72dae83dfe4e42063c9ab | [
"MIT"
] | null | null | null | OpenGL 2D Framework - Josh Savage/Player.h | AWanderingBear/GD2S02---Rock-Rush-Project | 3441230e623558b980c72dae83dfe4e42063c9ab | [
"MIT"
] | null | null | null | OpenGL 2D Framework - Josh Savage/Player.h | AWanderingBear/GD2S02---Rock-Rush-Project | 3441230e623558b980c72dae83dfe4e42063c9ab | [
"MIT"
] | null | null | null | #pragma once
#include "GameAgent.h"
class Player :
protected GameAgent
{
public:
Player(GLuint Shader, std::string _strTexture, std::vector<GLfloat> Vertices, std::vector<GLuint> Elements, glm::vec3 Position, float Rotation, Camera * Camera, b2Body* Physics, int _playerCode);
~Player();
bool Update(float deltaTime);
void Render();
b2Body* GetPhysics();
int GetType();
void Player::SetSpeed(float playerSpeed);
void Move(int key);
void SetCurrentlyTouching(GameAgent* object);
GameAgent* GetCurrentlyTouching();
void SetCurrentlyHolding(GameAgent* object);
GameAgent* GetCurrentlyHolding();
void Kill();
void ResetJumps();
bool underWater = false; //Sorry for bad code, I have no fucks to give at this point - Amber.
private:
float m_Speed;
GLfloat DeltaTime = 0.0f; // Time between current frame and last frame
GLfloat lastFrame = 0.0f; // Time of last frame
GameAgent* currentlyTouching = nullptr; //The GameAgent that the player is currently touching.
GameAgent* currentlyHolding = nullptr; //Need a second variable because my logic was faulty with when things are being touched when held.
//bool isHolding; //Whether the player is currently holding a meteor
bool Alive;
float DeathCounter = 0;
float DeathTime;
int PlayerCode;
int RemainingJumps = 6;
};
| 29.066667 | 196 | 0.743884 |
4bbcd42ec589028e69758fe98162a3d0138d353a | 2,652 | c | C | ATMega328 2018-04-22 MAX7219 LED matrix/main_01_works.c | swharden/AVR-projects | 3a65c5280572e6567f54fa6be61383e1dbf9b29a | [
"MIT"
] | 121 | 2016-09-07T07:56:35.000Z | 2022-03-26T18:27:13.000Z | ATMega328 2018-04-22 MAX7219 LED matrix/main_01_works.c | NahlaHussien/AVR-projects | 68593c0e55304aa7fef8c00d36860f8b867c8c98 | [
"MIT"
] | 2 | 2019-07-03T12:47:50.000Z | 2020-08-31T23:12:00.000Z | ATMega328 2018-04-22 MAX7219 LED matrix/main_01_works.c | swharden/AVR-projects | 3a65c5280572e6567f54fa6be61383e1dbf9b29a | [
"MIT"
] | 55 | 2016-09-29T17:59:25.000Z | 2022-03-24T19:28:33.000Z | /*
demonstrates how to illuminate a single point on the LED matrix
https://github.com/dhepper/font8x8/blob/master/font8x8_basic.h
https://www.sparkfun.com/datasheets/Components/General/COM-09622-MAX7219-MAX7221.pdf
*/
#define F_CPU 8000000
#include <avr/io.h>
#include <util/delay.h>
uint8_t nSegments=4;
uint8_t nCols=8*4;
uint8_t nRows=8;
void spi_init_master (void)
{
DDRB |= (1<<PB5); // set SCK as output
DDRB |= (1<<PB3); // set MOSI as output
DDRB |= (1<<PB2); // set SS as output
PORTB |= (1<<PB2); // set SS high
SPCR |= (1<<SPE); // enable SPI
SPCR |= (1<<MSTR); // this device is SPI master
SPCR |= (1<<SPR0); // clock prescale osc/16
}
void spi_tranceiver(unsigned char data)
{
SPDR = data; // Load data into the buffer
while(!(SPSR&(1<<SPIF))); //Wait until transmission complete
}
void LEDsendInit(uint8_t address, uint8_t data){
uint8_t i = nSegments;
PORTB &=~(1<<PB2); // set SS low
while (i-->0){
spi_tranceiver(address);
spi_tranceiver(data);
}
PORTB |= (1<<PB2); // set SS high
}
void LEDsend(uint8_t address, uint8_t data){
PORTB &=~(1<<PB2); // set SS low
spi_tranceiver(address);
spi_tranceiver(data);
PORTB |= (1<<PB2); // set SS high
}
void LEDmatrixInit(){
LEDsendInit(0x0C,0x01); // shutdown mode: normal operation
LEDsendInit(0x09,0x00); // decode mode: no character decoding
LEDsendInit(0x0A,0x0F); // intensity: brightest (last byte)
LEDsendInit(0x0B,0x07); // scan limit (number of rows in matrix)
}
void LEDtest2(uint8_t lightCol, uint8_t lightRow){
// send a column and row too big to be real to clear the LED
uint8_t row;
uint8_t seg;
// create an empty matrix and fill it with zeros
uint8_t matrix[4][8];
for (row=0;row<8;row++){
for (seg=0;seg<4;seg++){
matrix[seg][row]=0;
}
}
// determine which bit to flip in the matrix
lightCol=(8*4)-lightCol;
uint8_t lightSeg=lightCol/8;
uint8_t lightColInSeg=lightCol-(lightSeg*8);
uint8_t lightData=(1<<(8-lightColInSeg));
if (lightColInSeg==0) {
lightData=0b00000001;
lightSeg-=1;
}
matrix[lightSeg][lightRow]=lightData;
// use the matrix to send commands to the display
for (row=0;row<8;row++){
PORTB &=~(1<<PB2); // set SS low
for (seg=0;seg<4;seg++){
spi_tranceiver(row+1);
spi_tranceiver(matrix[seg][row]);
}
PORTB |= (1<<PB2); // set SS high
}
}
int main(void){
spi_init_master();
LEDmatrixInit();
DDRB |= (1<<PB1); // set PD6 (pin 11) output (LED)
uint8_t lightCol=0;
uint8_t lightRow=0;
for(;;){
lightCol++;
if (lightCol>=8*4) {
lightCol=0;
lightRow++;
if (lightRow>=8) lightRow=0;
}
LEDtest2(lightCol,lightRow);
_delay_ms(10); // wait
}
}
| 23.06087 | 84 | 0.666667 |
33404b5debe97e2589cad0150cbcab59985573b5 | 6,898 | c | C | SpecialEffects/downeyeffects/gerbscurve.c | MormonJesus69420/Applied-Geometry-And-Special-Effects | d678d2f096b4d952204dc5a15bfb905353403a7a | [
"WTFPL"
] | 2 | 2019-08-04T09:41:42.000Z | 2022-03-08T02:13:00.000Z | SpecialEffects/downeyeffects/gerbscurve.c | MormonJesus69420/Applied-Geometry-And-Special-Effects | d678d2f096b4d952204dc5a15bfb905353403a7a | [
"WTFPL"
] | null | null | null | SpecialEffects/downeyeffects/gerbscurve.c | MormonJesus69420/Applied-Geometry-And-Special-Effects | d678d2f096b4d952204dc5a15bfb905353403a7a | [
"WTFPL"
] | null | null | null | #include <QtDebug>
#include <stdexcept>
#include "gerbscurve.h"
namespace tardzone {
template <typename T>
GERBSCurve<T>::GERBSCurve(GMlib::PCurve<T, 3>* model, int m)
: _modelCurve(model)
, _n(m)
{
// Setup random generator and distribution units
std::random_device rd;
_gen = std::mt19937(rd());
_dis = std::uniform_real_distribution<double>(0.0, 0.5);
_step = std::uniform_real_distribution<double>(0.0, 0.005);
// Set random start colour
_hue = _dis(_gen);
_colour = GMlib::Color(_hue, 1.0, 1.0);
_colour.toHSV();
this->setColor(_colour);
// Setup curve
createKnots();
createSubCurves();
}
template <typename T>
GERBSCurve<T>::GERBSCurve(const GERBSCurve<T>& replicant)
{
//TODO
}
template <typename T>
GERBSCurve<T>::~GERBSCurve()
{
//TODO
}
template <typename T>
bool GERBSCurve<T>::isClosed() const
{
return _modelCurve->isClosed();
}
template <typename T>
T GERBSCurve<T>::getStartP() const
{
return _t[_d];
}
template <typename T>
T GERBSCurve<T>::getEndP() const
{
return _t[_t.size() - _k];
}
template <typename T>
void GERBSCurve<T>::eval(T t, int d, bool) const
{
// Set dimension for p
this->_p.setDim(d + 1);
// Find i and blend two curves at this point
auto i = iFinder(t);
T b1 = T(1 - blendingFunction(wFunction(1, i, t)));
T b2 = T(blendingFunction(wFunction(1, i, t)));
// Set position value based on curve at i and previous curve with their blend values.
this->_p[0] = _c[i - 1]->evaluateParent(t, 0)[0] * b1 + _c[i]->evaluateParent(t, 0)[0] * b2;
}
template <typename T>
void GERBSCurve<T>::createKnots()
{
// Set dimension for t, dim(t) = n+k+1
_t.resize(_n + _k + 1);
// Initialize value for t at index i to start parameter value of model curve
T ti = _modelCurve->getParStart();
// Initialize vars used to calculate values for knot vector.
auto dt = _modelCurve->getParDelta() / _n;
T start = ti;
// Calculate values for knot vector
for (int i = 0; i < (int)_t.size(); ++i) {
// Before we reach k values are equal to start parameter of model curve.
// From k to n values are calculated based on start param, i and scaled step (dt).
// After n values are equal end parameter of model curve.
if (i >= _k && i <= _n) {
ti = start + (i - 1) * dt;
}
else if (i == _n + 1) {
ti = _modelCurve->getParEnd();
}
// Set t at i to ti
_t[i] = ti;
}
// If model curve is closed we need to adjust the start and end knots.
if (isClosed()) {
// First knot needs to be equal to second knot minus distance between third and second knot from the end.
_t[0] = _t[1] - (_t[_n + 1] - _t[_n]);
// Last knot needs to be equal to next to last knot minus distance between second and third knot from start
_t[_n + 2] = _t[_n + 1] + (_t[2] - _t[1]);
}
}
template <typename T>
void GERBSCurve<T>::createSubCurves()
{
// Set dimension for c, dim(c) = n+1
_c.resize(_n + 1);
// Create curves from 0 to n
for (auto i = 0; i <= _n; ++i) {
// If curve is closed, last element must be the same as first one
if (i == _n && isClosed()) {
_c[_n] = _c[0];
break;
}
// Make shared pointer to subcurve using model curve and knot vectors.
_c[i] = std::make_shared<GMlib::PSubCurve<T>>(_modelCurve, _t[i], _t[i + 2], _t[i + 1]);
this->insert(_c[i].get());
_c[i]->toggleDefaultVisualizer();
_c[i]->sample(100, 4);
_c[i]->setVisible(true);
_c[i]->setCollapsed(true);
}
// Used to colour curves different colours to differentiate them
_c[0]->setColor(GMlib::GMcolor::aqua());
_c[1]->setColor(GMlib::GMcolor::black());
_c[2]->setColor(GMlib::GMcolor::brown());
_c[3]->setColor(GMlib::GMcolor::red());
_c[4]->setColor(GMlib::GMcolor::green());
_c[5]->setColor(GMlib::GMcolor::yellow());
_c[6]->setColor(GMlib::GMcolor::violet());
_c[7]->setColor(GMlib::GMcolor::lightPink());
_c[8]->setColor(GMlib::GMcolor::purple());
_c[9]->setColor(GMlib::GMcolor::white());
}
template <typename T>
int GERBSCurve<T>::iFinder(T t) const
{
// Check if t is in legal range
if (t < getStartP() || t > getEndP()) {
QString err = QString("Illegal t in iFinder. Got: %1, %2 - %3 expected").arg(t).arg(getStartP()).arg(getEndP());
throw std::invalid_argument(err.toStdString());
}
// Start searching at d
auto i = _d;
// Increment i while t at i till i reach t (ends up being one interval over)
while (_t[i] <= t)
i++;
// Check if i is larger or equal to n, set to n then (ends up being one interval over)
if (_n + 1 < i)
i = _n + 1;
// Decrement by one, so i is in correct interval
return --i;
}
template <typename T>
T GERBSCurve<T>::blendingFunction(T t) const
{
// I am using Polynomial Blending function, since it easy to derivate it if I need to
return (3 * t * t) - (2 * t * t * t);
}
template <typename T>
T GERBSCurve<T>::wFunction(const int& d, const int& i, T t) const
{
// Check if t is between d and i arguments
if (_t[i] <= t && t <= _t[i + d]) {
// Calculate W_(d,i)(t) = (t - t_i)/(t_(i+d) - t_i)
return (t - _t[i]) / (_t[i + d] - _t[i]);
}
QString err = QString("Illegal t wFunction. Got: %1, %2 - %3 expected").arg(t).arg(_t[i]).arg(_t[i + d]);
throw std::invalid_argument(err.toStdString());
}
template <typename T>
void GERBSCurve<T>::localSimulate(double dt)
{
// If hue is over 1 or under 0 switch the up variable
if (_hue <= 0.0) {
_hue = 0.0;
_up = true;
}
else if (_hue >= 1.0) {
_hue = 1.0;
_up = false;
}
// Change colour value based on hue
_hue += _up ? _step(_gen) : -_step(_gen);
_colour.setRed(_hue);
_colour.toHSV();
this->setColor(_colour);
// Calculate rotation and translation values based on dt
_beat += _up ? 0.005 * dt : -0.005 * dt;
float trans1 = _beat * 0.1f;
float trans3 = _beat * 0.3f;
float trans4 = _beat * 0.4f;
float rot01 = _beat * 0.01f;
// Translate subcurves
_c[0]->translate({ 0.0f, 0.0f, _up ? -trans1 : trans1 });
_c[1]->translate({ _up ? trans1 : -trans1, 0.0f, 0.0f });
_c[2]->translate({ _up ? trans3 : -trans3, 0.0f, 0.0f });
_c[3]->translate({ _up ? trans4 : -trans4, 0.0f, 0.0f });
_c[4]->translate({ _up ? trans1 : -trans1, 0.0f, 0.0f });
_c[5]->translate({ 0.0f, 0.0f, _up ? -trans1 : trans1 });
_c[6]->translate({ _up ? -trans1 : trans1, 0.0f, 0.0f });
_c[7]->translate({ _up ? -trans4 : trans4, 0.0f, 0.0f });
_c[8]->translate({ _up ? -trans3 : trans3, 0.0f, 0.0f });
_c[9]->translate({ _up ? -trans1 : trans1, 0.0f, 0.0f });
// Rotate curves on top to smooth out the heart as it stretches out
_c[1]->rotateParent(_up ? -rot01 : rot01, _rot1);
_c[2]->rotateParent(_up ? -rot01 : rot01, _rot2);
_c[8]->rotateParent(_up ? rot01 : -rot01, _rot2);
_c[9]->rotateParent(_up ? rot01 : -rot01, _rot1);
// Resample the curve
this->sample(100, 0);
}
} // namespace tardzone
| 28.741667 | 116 | 0.621195 |
81e8f9dc64ce068729c5b180c5b3f57e53733c08 | 295 | h | C | DetoxInstruments/DetoxInstruments/RequestsPlayground/DTXRequestsPlaygroundWindowController.h | benlaverriere/DetoxInstruments | a9552432f1b613d703425fea1776f790e208d930 | [
"MIT"
] | null | null | null | DetoxInstruments/DetoxInstruments/RequestsPlayground/DTXRequestsPlaygroundWindowController.h | benlaverriere/DetoxInstruments | a9552432f1b613d703425fea1776f790e208d930 | [
"MIT"
] | null | null | null | DetoxInstruments/DetoxInstruments/RequestsPlayground/DTXRequestsPlaygroundWindowController.h | benlaverriere/DetoxInstruments | a9552432f1b613d703425fea1776f790e208d930 | [
"MIT"
] | null | null | null | //
// DTXRequestsPlaygroundWindowController.h
// DetoxInstruments
//
// Created by Leo Natan (Wix) on 3/4/19.
// Copyright © 2017-2020 Wix. All rights reserved.
//
#import <Cocoa/Cocoa.h>
@class DTXNetworkSample;
@interface DTXRequestsPlaygroundWindowController : NSWindowController
@end
| 19.666667 | 69 | 0.752542 |
373227f1982179b10ecd3b69d25eee708cb47cdd | 563 | h | C | Time.h | eviallet/myWRIO | df61bc468411cb7236968558f186ffef73ffa008 | [
"MIT"
] | 2 | 2019-09-26T12:19:26.000Z | 2021-06-18T08:24:18.000Z | Time.h | m9122006/myWRIO | df61bc468411cb7236968558f186ffef73ffa008 | [
"MIT"
] | null | null | null | Time.h | m9122006/myWRIO | df61bc468411cb7236968558f186ffef73ffa008 | [
"MIT"
] | 1 | 2020-07-20T05:19:57.000Z | 2020-07-20T05:19:57.000Z | #ifndef TIME_H_
#define TIME_H_
#include <time.h>
#include <sys/time.h>
#include <iostream>
namespace myRIO {
/**
* Stopwatch or countdown
*/
class Time {
public:
Time(unsigned long sec = 0, unsigned long nsec = 0);
static Time stopwatch();
void reset();
long elapsed_ns();
~Time();
static void wait_s(long int s);
static void wait_ms(long int ms);
static void wait_us(long int us);
private:
unsigned long startTimeSec; /**< The start time in seconds*/
unsigned long startTimeNsec; /**< The start time in nanosecond*/
};
}
#endif /* TIME_H_ */
| 16.558824 | 65 | 0.690941 |
472aef2be1977794885694784deb803ac491549d | 1,129 | h | C | src/tmx/Asn_J2735/include/asn_j2735_r63/YawRate.h | usdot-fhwa-OPS/V2X-Hub | c38f9ea0b5b4c7be60539c92c8ac3fd218edcd0c | [
"Apache-2.0"
] | 56 | 2019-04-25T19:06:11.000Z | 2022-03-25T20:26:25.000Z | src/tmx/Asn_J2735/include/asn_j2735_r63/YawRate.h | usdot-fhwa-OPS/V2X-Hub | c38f9ea0b5b4c7be60539c92c8ac3fd218edcd0c | [
"Apache-2.0"
] | 184 | 2019-04-24T18:20:08.000Z | 2022-03-22T18:56:45.000Z | src/tmx/Asn_J2735/include/asn_j2735_r63/YawRate.h | usdot-fhwa-OPS/V2X-Hub | c38f9ea0b5b4c7be60539c92c8ac3fd218edcd0c | [
"Apache-2.0"
] | 34 | 2019-04-03T15:21:16.000Z | 2022-03-20T04:26:53.000Z | /*
* Generated by asn1c-0.9.29 (http://lionet.info/asn1c)
* From ASN.1 module "DSRC"
* found in "J2735_201603_ASN_CC.asn"
* `asn1c -gen-PER -fcompound-names -fincludes-quoted -fskeletons-copy`
*/
#ifndef _YawRate_H_
#define _YawRate_H_
#include "asn_application.h"
/* Including external dependencies */
#include "NativeInteger.h"
#ifdef __cplusplus
extern "C" {
#endif
/* YawRate */
typedef long YawRate_t;
/* Implementation */
extern asn_per_constraints_t asn_PER_type_YawRate_constr_1;
extern asn_TYPE_descriptor_t asn_DEF_YawRate;
asn_struct_free_f YawRate_free;
asn_struct_print_f YawRate_print;
asn_constr_check_f YawRate_constraint;
ber_type_decoder_f YawRate_decode_ber;
der_type_encoder_f YawRate_encode_der;
xer_type_decoder_f YawRate_decode_xer;
xer_type_encoder_f YawRate_encode_xer;
oer_type_decoder_f YawRate_decode_oer;
oer_type_encoder_f YawRate_encode_oer;
per_type_decoder_f YawRate_decode_uper;
per_type_encoder_f YawRate_encode_uper;
per_type_decoder_f YawRate_decode_aper;
per_type_encoder_f YawRate_encode_aper;
#ifdef __cplusplus
}
#endif
#endif /* _YawRate_H_ */
#include "asn_internal.h"
| 24.021277 | 72 | 0.824624 |
b06aa2ce43777de6c9b2396f62a09e56a82feda2 | 10,499 | c | C | sw_smart/sw_user/sw_parameter.c | mingxin891018/ESP8266_RTOS_SDK-2.0.0 | a5a1f740e26ab81ac5e571f00c263e6cf976099e | [
"BSD-3-Clause"
] | null | null | null | sw_smart/sw_user/sw_parameter.c | mingxin891018/ESP8266_RTOS_SDK-2.0.0 | a5a1f740e26ab81ac5e571f00c263e6cf976099e | [
"BSD-3-Clause"
] | null | null | null | sw_smart/sw_user/sw_parameter.c | mingxin891018/ESP8266_RTOS_SDK-2.0.0 | a5a1f740e26ab81ac5e571f00c263e6cf976099e | [
"BSD-3-Clause"
] | null | null | null | #include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#include <ctype.h>
#include "esp_spiffs.h"
#include "spiffs_test_params.h"
#include "sw_common.h"
#include "sw_debug_log.h"
#define SW_PARAM_FILE_NAME "param.txt"
#define SW_PARAM_TOTAL_LENGTH 2560
#define SW_PARAM_SIGNAL_LENGTH 63
#define SW_PARAM_TOTAL_NUMBER 20
#define SW_PARAM_LINE_LENGTH 132
static char *param = NULL;
//初始化文件系统
static void spiffs_fs1_init(void)
{
struct esp_spiffs_config config;
config.phys_size = FS1_FLASH_SIZE;
config.phys_addr = FS1_FLASH_ADDR;
config.phys_erase_block = SECTOR_SIZE;
config.log_block_size = LOG_BLOCK;
config.log_page_size = LOG_PAGE;
config.fd_buf_size = FD_BUF_SIZE * 2;
config.cache_buf_size = CACHE_BUF_SIZE;
esp_spiffs_init(&config);
}
void sw_printf_param()
{
SW_LOG_DEBUG("param[0x%p]:\n%s", param, param);
}
static bool param_check(char *name)
{
int name_length = strlen(name);
if(name == NULL){
SW_LOG_ERROR("param is null");
return false;
}
if(name_length > SW_PARAM_SIGNAL_LENGTH || name_length <= 0){
SW_LOG_ERROR("param langth error!,can not set or get");
return false;
}
if(param == NULL){
SW_LOG_ERROR("param system is not init,can not set or get");
return false;
}
if(strstr(name, "=") || strstr(name, "\n")){
SW_LOG_ERROR("param can not include \"=\" or \"\n\"");
return false;
}
return true;
}
static char *find_string_from_param(char *str)
{
char *p = param, *q = NULL;
int ret = -1, tmp = 0, tmp_length = 0, str_length = 0;
if(param == NULL || str == NULL){
SW_LOG_ERROR("find string error!!!");
return NULL;
}
str_length = strlen(str);
while(tmp <= SW_PARAM_TOTAL_LENGTH - str_length){
ret = xstrncasecmp(p + tmp, str, str_length);
if(ret == 0){
q = strstr(p+tmp, "=");
tmp_length = q - (p + tmp);
if(tmp == 0 || (*(p +tmp -1) == '\n' && str_length == tmp_length) )
return p + tmp;
}
tmp++;
}
return NULL;
}
static bool create_empty_file(char *file_name,char *buf, size_t length)
{
size_t total = length, ret = 0;
int fd = -1;
if(file_name == NULL || buf == NULL || length <= 0)
return false;
remove(file_name);
fd = open(SW_PARAM_FILE_NAME, O_TRUNC | O_CREAT | O_RDWR, 0666);
if(fd <= 3)
return false;
while(total > 0){
ret = write(fd, buf + ret, total);
total -= ret;
}
close(fd);
fd = -1;
return true;
}
static bool check_param_buf(char *m)
{
int tmp = 0, tmp_1 = 0, tmp_2 = 0;
char *p = NULL, *q = NULL;
while( 1 ){
p = strstr(m, "=");
if(!p)
break;
q = strstr(p+1, "\n");
if(!q)
break;
m = q + 1;
tmp ++;
}
m = param;
p = NULL;
while(1){
p = strstr(m, "=");
if(!p)
break;
m = p + 1;
tmp_1 ++;
}
m = param;
p = NULL;
while(1){
p = strstr(m, "\n");
if(!p)
break;
m = p + 1;
tmp_2 ++;
}
SW_LOG_DEBUG("tmp=%d,tmp_1=%d,tmp_2=%d", tmp, tmp_1, tmp_2);
if(tmp != 20 || tmp_1 != 20 || tmp_2 != 20)
return false;
else
SW_LOG_DEBUG("check param file success!");
return true;
}
static bool load_file_to_buf(int fd)
{
int file_length = 0, ret = 0;
if(param == NULL){
SW_LOG_ERROR("param system int init!");
return false;
}
file_length = lseek(fd, 0, SEEK_END);
lseek(fd, 0, SEEK_SET);
SW_LOG_DEBUG("param file length=%d",file_length);
if(file_length > SW_PARAM_TOTAL_LENGTH)
return false;
while(file_length > 0){
ret = read(fd, param + ret, file_length);
file_length -= ret;
}
return check_param_buf(param);
}
bool sw_parameter_init()
{
char *param_buf = NULL;
off_t file_length = 0;
int fd = -1, i = 0, ret = 0, total = 0;
if(param != NULL){
SW_LOG_DEBUG("param system have already init!");
return false;
}
spiffs_fs1_init();
if(NULL == (param_buf = (char *)malloc(SW_PARAM_TOTAL_LENGTH))){
SW_LOG_ERROR("init param failed");
return false;
}
memset(param_buf, 0, SW_PARAM_TOTAL_LENGTH);
for(i = 0; i < SW_PARAM_TOTAL_NUMBER; i++)
total += snprintf(param_buf + total, SW_PARAM_TOTAL_LENGTH - total, "%s", "null=null\n");
param = param_buf;
i = 3;
while(i--){
fd = open(SW_PARAM_FILE_NAME, O_RDWR, 0666);
if(fd > 3)
break;
}
if(fd <= 3){
total = 0;
memset(param_buf, 0, SW_PARAM_TOTAL_LENGTH);
for(i = 0; i < SW_PARAM_TOTAL_NUMBER; i++)
total += snprintf(param_buf + total, SW_PARAM_TOTAL_LENGTH - total, "%s", "null=null\n");
create_empty_file(SW_PARAM_FILE_NAME, param_buf, strlen(param_buf));
SW_LOG_ERROR("can not find param file!,create null param file\n");
return true;
}
if( !load_file_to_buf(fd) ){
total = 0;
memset(param_buf, 0, SW_PARAM_TOTAL_LENGTH);
for(i = 0; i < SW_PARAM_TOTAL_NUMBER; i++)
total += snprintf(param_buf + total, SW_PARAM_TOTAL_LENGTH - total, "%s", "null=null\n");
create_empty_file(SW_PARAM_FILE_NAME, param_buf, strlen(param_buf));
SW_LOG_ERROR("check param file is error,create param file!!!\n");
}
close(fd);
SW_LOG_DEBUG("init param ok");
return true;
}
bool sw_parameter_set(char *name, char *value, int value_length)
{
char *tmp_buf = NULL;
char *tail = NULL;
char *is_param_string = NULL, *is_null_string = NULL;
char param_set[SW_PARAM_LINE_LENGTH] = {0};
char old_param[SW_PARAM_LINE_LENGTH] = {0};
int name_length = strlen(name);
int tail_length = 0;
if(!param_check(name))
return false;
int len = strlen(value);
if(len > SW_PARAM_SIGNAL_LENGTH)
return false;
if(value == NULL || value_length <= 0 || value_length > SW_PARAM_SIGNAL_LENGTH){
SW_LOG_ERROR("set param[%s] error,value is null", name);
return false;
}
is_param_string = find_string_from_param(name);
if( (NULL != is_param_string) && (NULL != xstrgetval(is_param_string, name, old_param, SW_PARAM_LINE_LENGTH)) ){
tail = strstr(is_param_string,"\n") + 1;
tail_length = strlen(tail);
if(!strcmp(value, old_param) && strlen(value) == strlen(old_param)){
SW_LOG_INFO("param \"%s\" is not changed,not neet set!",name);
return true;
}
}
else if( NULL != (is_null_string = find_string_from_param("null")) ){
tail = is_null_string + strlen("null=null\n");
tail_length = strlen(tail);
}
else{
SW_LOG_DEBUG("param buff is full!,can not set");
goto SET_ERROR;
}
if(NULL == (tmp_buf = (char *)malloc(tail_length+1)))
goto SET_ERROR;
memset(param_set, 0, sizeof(param_set));
memset(tmp_buf, 0, tail_length+1);
strncpy(tmp_buf, tail, tail_length);
if(is_null_string)
memset(is_null_string, 0, strlen(is_null_string));
else if(is_param_string)
memset(is_param_string, 0, strlen(is_param_string));
else
goto SET_ERROR;
strncpy(param_set, name, name_length);
strncpy(param_set + name_length, "=", 1);
strncpy(param_set + name_length + 1, value, value_length);
strncpy(param_set + name_length + 1 + value_length, "\n", 1);
strncpy(param_set + name_length + 1 + value_length + 1, "\0", 1);
if(*param == '\0')
strncpy(param, param_set, strlen(param_set));
else
strcat(param, param_set);
strcat(param, tmp_buf);
SW_LOG_DEBUG("set param[%s] ok",name);
return true;
SET_ERROR:
if(tmp_buf){
free(tmp_buf);
tmp_buf = NULL;
}
return false;
}
bool sw_parameter_get(char *name, char *value, int value_length)
{
char *is_param = NULL;
int name_length = strlen(name);
if(value == NULL || value_length <= 0){
SW_LOG_ERROR("param value is error!\n");
return false;
}
memset(value, 0, value_length);
if(value_length < SW_PARAM_SIGNAL_LENGTH){
SW_LOG_ERROR("param value length is error!\n");
return false;
}
if(!param_check(name))
return false;
if(NULL == (is_param = find_string_from_param(name)) || (NULL == xstrgetval(is_param, name, value, value_length))){
SW_LOG_DEBUG("can not find param [%s]",name);
return false;
}
else
SW_LOG_DEBUG("find param[%s] ok",name);
return true;
}
bool sw_parameter_get_int(char *name, int *value)
{
char buf[128] = {0};
memset(buf, 0, sizeof(buf));
if(!sw_parameter_get(name, buf, sizeof(buf)))
return false;
*value = atoi(buf);
return true;
}
bool sw_parameter_set_int(char*name, int value)
{
char buf[128] = {0};
memset(buf, 0, sizeof(buf));
sprintf(buf, "%d", value);
if(!sw_parameter_set(name, buf, strlen(buf)))
return false;
return true;
}
bool sw_parameter_delete(char *name)
{
int len = -1,tail_length = -1;
char *is_param = NULL;
char *tail = NULL;
char *tmp_buf = NULL;
if(!param_check(name))
return false;
if(NULL == (is_param = find_string_from_param(name)))
return true;
tail = strstr(is_param, "\n") +1;
tail_length = strlen(tail);
if(NULL == (tmp_buf = (char *)malloc(tail_length+1)))
return false;
memset(tmp_buf, 0, tail_length+1);
strncpy(tmp_buf, tail, tail_length);
memset(is_param, 0 ,strlen(is_param));
if(strlen(param))
strcat(param, tmp_buf);
else
strncpy(param, tmp_buf, tail_length);
strcat(param, "null=null\n");
SW_LOG_DEBUG("delete param[%s] success!",name);
return true;
}
bool sw_parameter_save()
{
int fd = -1, total = 0, ret = 0;
if(param == NULL){
SW_LOG_ERROR("param system init error,can not save param");
return false;
}
if( (fd = open(SW_PARAM_FILE_NAME, O_TRUNC | O_CREAT | O_RDWR, 0666)) <= 3){
SW_LOG_ERROR("open %s failed,can not save param!!!",SW_PARAM_FILE_NAME);
return false;
}
if(!check_param_buf(param))
return false;
total = strlen(param);
SW_LOG_DEBUG("param length=%d",total);
while(total > 0){
ret = write(fd, param + ret, total);
total -= ret;
}
close(fd);
fd = -1;
SW_LOG_DEBUG("save param to file ok!");
return true;
}
bool sw_parameter_clean()
{
int total = 0, i = 0;
if(param == NULL){
SW_LOG_ERROR("param system is not init,can not clean");
return false;
}
for(i = 0; i < SW_PARAM_TOTAL_NUMBER; i++)
total += snprintf(param + total, SW_PARAM_TOTAL_LENGTH - total, "%s", "null=null\n");
SW_LOG_ERROR("param clean success");
return true;
}
void sw_param_free()
{
if(param)
free(param);
}
| 23.487696 | 116 | 0.62806 |
b09272eee7050a63406526b0f5d0d566382d6de5 | 1,757 | h | C | test/performance-regression/full-apps/qmcpack/src/QMCWaveFunctions/Jastrow/Experimental/JAAPBCBuilder.h | FeiyangJin/hclib | d23c850dce914e2d80cae733670820812a1edeee | [
"BSD-3-Clause"
] | 55 | 2015-07-28T01:32:58.000Z | 2022-02-27T16:27:46.000Z | test/performance-regression/full-apps/qmcpack/src/QMCWaveFunctions/Jastrow/Experimental/JAAPBCBuilder.h | FeiyangJin/hclib | d23c850dce914e2d80cae733670820812a1edeee | [
"BSD-3-Clause"
] | 66 | 2015-06-15T20:38:19.000Z | 2020-08-26T00:11:43.000Z | test/performance-regression/full-apps/qmcpack/src/QMCWaveFunctions/Jastrow/Experimental/JAAPBCBuilder.h | FeiyangJin/hclib | d23c850dce914e2d80cae733670820812a1edeee | [
"BSD-3-Clause"
] | 26 | 2015-10-26T22:11:51.000Z | 2021-03-02T22:09:15.000Z | //////////////////////////////////////////////////////////////////
// (c) Copyright 2003- by Jeongnim Kim
//////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////
// National Center for Supercomputing Applications &
// Materials Computation Center
// University of Illinois, Urbana-Champaign
// Urbana, IL 61801
// e-mail: jnkim@ncsa.uiuc.edu
// Tel: 217-244-6319 (NCSA) 217-333-3324 (MCC)
//
// Supported by
// National Center for Supercomputing Applications, UIUC
// Materials Computation Center, UIUC
//////////////////////////////////////////////////////////////////
// -*- C++ -*-
#ifndef QMCPLUSPLUS_NUMERICAL_PBC_JASTROW_AA_BUILDER_H
#define QMCPLUSPLUS_NUMERICAL_PBC_JASTROW_AA_BUILDER_H
#include "QMCWaveFunctions/OrbitalBuilderBase.h"
#include "QMCWaveFunctions/Jastrow/NumericalJastrowFunctor.h"
namespace qmcplusplus
{
//forward declaration
class ParticleSet;
/**@ingroup WFSBuilder
*A builder class to add a numerical two-body Jastrow function to a TrialWaveFunction
*
*A xml node with OrbtialBuilderBase::jastrow_tag is parsed recursively.
*/
struct JAAPBCBuilder: public OrbitalBuilderBase
{
JAAPBCBuilder(ParticleSet& p, TrialWaveFunction& psi);
/**@param cur the current xmlNodePtr to be processed by NumericalJastrowBuilder
*@return true if succesful
*/
bool put(xmlNodePtr cur);
};
}
#endif
/***************************************************************************
* $RCSfile$ $Author: jmcminis $
* $Revision: 5794 $ $Date: 2013-04-25 20:14:53 -0400 (Thu, 25 Apr 2013) $
* $Id: JAAPBCBuilder.h 5794 2013-04-26 00:14:53Z jmcminis $
***************************************************************************/
| 34.45098 | 85 | 0.566306 |
b828ff6e479d7fc821b32b3671ab65643fb53787 | 10,191 | h | C | pheroes/Game/Magic.h | TripleMOMO/pocketheroes | 6a6f0726c8ea590592290ac53c38e653cf7f966c | [
"Apache-2.0"
] | 3 | 2015-08-08T09:10:02.000Z | 2016-03-21T08:48:19.000Z | pheroes/Game/Magic.h | TripleMOMO/pocketheroes | 6a6f0726c8ea590592290ac53c38e653cf7f966c | [
"Apache-2.0"
] | null | null | null | pheroes/Game/Magic.h | TripleMOMO/pocketheroes | 6a6f0726c8ea590592290ac53c38e653cf7f966c | [
"Apache-2.0"
] | 1 | 2015-08-21T23:32:49.000Z | 2015-08-21T23:32:49.000Z | /*
* This file is a part of Pocket Heroes Game project
* http://www.pocketheroes.net
* https://code.google.com/p/pocketheroes/
*
* Copyright 2004-2010 by Robert Tarasov and Anton Stuk (iO UPG)
*
* 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.
*/
#ifndef _HMM_GAME_MAGIC_H_
#define _HMM_GAME_MAGIC_H_
// spell label descriptors
struct SPELL_LABEL_DESC_STRUCT {
uint8 dispos;
uint16 trid;
uint8 reserved;
};
extern const SPELL_LABEL_DESC_STRUCT SPELL_LABEL_DESCRIPTORS[SLB_COUNT];
// Magic school colors (Air, Earth, Fire, Water), (Background, Foreground)
extern const iDib::pixel MSCH_COLORS[MST_COUNT][2];
/*
* Base spell class
*/
class iHero;
class iBaseSpell : public TypeAware
{
public:
IMPL_TYPEAWARE(iBaseSpell)
iBaseSpell(MAGIC_SPELL spellId);
virtual ~iBaseSpell() {}
static MAGIC_SCHOOL_LEVEL GetSchoolLevel(MAGIC_SPELL spellId, const iHero* pCaster);
static uint8 GetSpellCost(MAGIC_SPELL spellId, const iHero* pCaster);
// inlines
inline TextResId NameKey() const { return TRID_SPNAME_MAGICARROW+m_spellId; }
inline TextResId DescKey(MAGIC_SCHOOL_LEVEL level) const { return TRID_SPDESC_MAGICARROW_NON+m_spellId*MSL_COUNT+level; }
inline SpriteId Icon() const { return PDGG_SPELL_ICONS+m_spellId;}
inline uint8 Type() const { return SPELL_DESCRIPTORS[m_spellId].type; }
inline uint8 Level() const { return SPELL_DESCRIPTORS[m_spellId].level; }
inline uint8 School() const { return SPELL_DESCRIPTORS[m_spellId].school; }
inline uint8 Cost(MAGIC_SCHOOL_LEVEL level) const { uint8 res = SPELL_DESCRIPTORS[m_spellId].bcost; if (level > MSL_NONE) res -= (SPELL_DESCRIPTORS[m_spellId].level+1); return res; }
inline uint8 SpellClass() const { return SPELL_DESCRIPTORS[m_spellId].spClass; }
inline MAGIC_SPELL Id() const { return m_spellId; }
inline MAGIC_SCHOOL_LEVEL GetSchoolLevel(const iHero* pCaster) const { return GetSchoolLevel(m_spellId, pCaster); }
protected:
MAGIC_SPELL m_spellId;
};
/*
* Overland spell
*/
class iOverlandSpell : public iBaseSpell
{
public:
IMPL_TYPEAWARE(iOverlandSpell)
iOverlandSpell(MAGIC_SPELL spellId) : iBaseSpell(spellId) { check(SPELL_DESCRIPTORS[spellId].type == SPT_OVERLAND); }
virtual ~iOverlandSpell() {}
// virtuals
virtual bool CanCast(iHero* pCaster);
virtual bool Cast(iHero* pCaster);
virtual void OnRemove(iHero* pCaster, sint32 param);
};
//////////////////////////////////////////////////////////////////////////
class iSpell_TownPortal : public iOverlandSpell
{
public:
iSpell_TownPortal(MAGIC_SPELL spellId) : iOverlandSpell(spellId) {}
bool Cast(iHero* pCaster);
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Vision : public iOverlandSpell
{
public:
iSpell_Vision(MAGIC_SPELL spellId) : iOverlandSpell(spellId) {}
bool Cast(iHero* pCaster);
void OnRemove(iHero* pCaster, sint32 param);
};
/*
* Combat spell
*/
class iBattleGroup;
class iBattleUnit_Hero;
class iCombatSpell : public iBaseSpell
{
public:
IMPL_TYPEAWARE(iCombatSpell)
iCombatSpell(MAGIC_SPELL spellId);
virtual ~iCombatSpell() {}
//
inline uint16 TargetMode(MAGIC_SCHOOL_LEVEL level) const { return SPELL_DESCRIPTORS[m_spellId].eff[level].tgtMode; }
inline uint16 TargetType(MAGIC_SCHOOL_LEVEL level) const { return SPELL_DESCRIPTORS[m_spellId].eff[level].tgtType; }
inline bool NeedTarget(MAGIC_SCHOOL_LEVEL level) const { return TargetMode(level) == STM_CREAT_GROUP || TargetMode(level) == STM_BALL_SET || TargetMode(level) == STM_BLAST_SET || TargetMode(level) == STM_RING_SET; }
inline bool HasCoverArea(MAGIC_SCHOOL_LEVEL level) const { return TargetMode(level) == STM_BALL_SET || TargetMode(level) == STM_BLAST_SET || TargetMode(level) == STM_RING_SET; }
inline SPELL_DISPOS SpellDispos() const { return (SPELL_DISPOS)SPELL_LABEL_DESCRIPTORS[SPELL_DESCRIPTORS[m_spellId].label].dispos; }
inline TextResId SpellLabel() const { check(SPELL_DESCRIPTORS[m_spellId].label != SLB_NONE); return SPELL_LABEL_DESCRIPTORS[SPELL_DESCRIPTORS[m_spellId].label].trid; }
// Virtuals
virtual bool CanCast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
virtual bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
virtual void OnRemove(iBattleGroup* pTarget, sint32 param) const { }
virtual iStringT ActionText(iHero* pCaster) const { return iStringT(); }
virtual bool AffectsToDead() const { return false; }
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Damage : public iCombatSpell
{
public:
iSpell_Damage(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
sint32 EstimateDamage(iHero* pCaster, iBattleGroup* pTarget = NULL) const;
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
iStringT ActionText(iHero* pCaster) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_FurtSkill : public iCombatSpell
{
public:
iSpell_FurtSkill(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
void OnRemove(iBattleGroup* pTarget, sint32 param) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_DisRay : public iCombatSpell
{
public:
iSpell_DisRay(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
void OnRemove(iBattleGroup* pTarget, sint32 param) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Resurrect : public iCombatSpell
{
public:
iSpell_Resurrect(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
sint32 EstimateHitPoints(iHero* pCaster) const;
bool CanCast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
iStringT ActionText(iHero* pCaster) const;
bool AffectsToDead() const { return true; }
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Summon : public iCombatSpell
{
public:
iSpell_Summon(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
sint32 EstimateQuant(iHero* pCaster) const;
CREATURE_TYPE CreatType() const;
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Bless: public iCombatSpell
{
public:
iSpell_Bless(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
void OnRemove(iBattleGroup* pTarget, sint32 param) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Blind : public iCombatSpell
{
public:
iSpell_Blind(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
void OnRemove(iBattleGroup* pTarget, sint32 param) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Earthquake : public iCombatSpell
{
public:
iSpell_Earthquake(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
bool CanCast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Dispel : public iCombatSpell
{
public:
iSpell_Dispel(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
bool CanCast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Cure : public iCombatSpell
{
public:
iSpell_Cure(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
sint32 EstimateHitPoints(iHero* pCaster) const;
bool CanCast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Antimagic : public iCombatSpell
{
public:
iSpell_Antimagic(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
void OnRemove(iBattleGroup* pTarget, sint32 param) const;
};
//////////////////////////////////////////////////////////////////////////
class iSpell_Prayer : public iCombatSpell
{
public:
iSpell_Prayer(MAGIC_SPELL spellId) : iCombatSpell(spellId) {}
bool Cast(iBattleUnit_Hero* pCaster, iBattleGroup* pTarget) const;
void OnRemove(iBattleGroup* pTarget, sint32 param) const;
};
/*
* Spell Book
*/
class iSpellBook
{
public:
iSpellBook();
void Add(uint16 spellId);
void Add(const iSpellList& spells);
void AddFavorite(uint16 spellId);
const iBaseSpell* SpellByIdx(uint32 idx) const;
const iBaseSpell* FavoriteByIdx(uint32 idx) const;
inline uint16 Spell(uint32 idx) const { return m_spells[idx]; }
inline uint16 Favorite(uint32 idx) const { return m_favorites[idx]; }
void Reset();
inline uint32 SpellsCount() const { return m_spells.GetSize(); }
inline const iSpellList& Spells() const { return m_spells; }
inline uint32 FavoritesCount() const { return m_favorites.GetSize(); }
inline const iSpellList& Favorites() const { return m_favorites; }
inline bool HasSpell(uint16 spellId) const { return m_spells.Find(spellId) != iSpellList::NOT_FOUND; }
private:
iSpellList m_spells;
iSpellList m_favorites;
};
#endif //_HMM_GAME_MAGIC_H_
| 39.34749 | 217 | 0.679031 |
8ed8f570312c626d628da346504d91a92eb99b1f | 825 | h | C | Engine/extern/Tools/fontexplorer/fontexplorer/FontSet.h | AnkurSheel/RoutePlanner | a50b6ccb735db42ff4e5b2f4c87e710819c4564b | [
"CC-BY-4.0"
] | null | null | null | Engine/extern/Tools/fontexplorer/fontexplorer/FontSet.h | AnkurSheel/RoutePlanner | a50b6ccb735db42ff4e5b2f4c87e710819c4564b | [
"CC-BY-4.0"
] | null | null | null | Engine/extern/Tools/fontexplorer/fontexplorer/FontSet.h | AnkurSheel/RoutePlanner | a50b6ccb735db42ff4e5b2f4c87e710819c4564b | [
"CC-BY-4.0"
] | null | null | null | // FontSet.h : header file
//
/////////////////////////////////////////////////////////////////////////////
// CFontSetup dialog
class CFontSetup : public CDialog
{
// Construction
public:
CFontSetup(CWnd* pParent = NULL); // standard constructor
// Dialog Data
//{{AFX_DATA(CFontSetup)
enum { IDD = IDD_FONT_SETUP };
CEdit c_FontInfoName;
//}}AFX_DATA
// Overrides
// ClassWizard generated virtual function overrides
//{{AFX_VIRTUAL(CFontSetup)
protected:
virtual void DoDataExchange(CDataExchange* pDX); // DDX/DDV support
//}}AFX_VIRTUAL
// Implementation
protected:
// Generated message map functions
//{{AFX_MSG(CFontSetup)
afx_msg void OnChange();
//}}AFX_MSG
DECLARE_MESSAGE_MAP()
};
| 22.916667 | 78 | 0.558788 |
8efd9a9da25de45107a328bc3cc7e46ac01920b2 | 63 | h | C | src/threads/tss_t.h | ung-org/lib-c | 55fc64c7ffd7792bc88451a736c2e94e5865282f | [
"MIT"
] | null | null | null | src/threads/tss_t.h | ung-org/lib-c | 55fc64c7ffd7792bc88451a736c2e94e5865282f | [
"MIT"
] | null | null | null | src/threads/tss_t.h | ung-org/lib-c | 55fc64c7ffd7792bc88451a736c2e94e5865282f | [
"MIT"
] | null | null | null | typedef /* same as pthread_key_t */ tss_t;
/*
STDC(201112)
*/
| 10.5 | 42 | 0.650794 |
f10774ecbaed8ca3589bbeb42e78b7eac039b836 | 263 | h | C | Pods/Headers/ParseKit/PKRootNode.h | allewun/Peckham | cfed35a410b70e0bbf2d376a231c03bd63292247 | [
"MIT"
] | null | null | null | Pods/Headers/ParseKit/PKRootNode.h | allewun/Peckham | cfed35a410b70e0bbf2d376a231c03bd63292247 | [
"MIT"
] | null | null | null | Pods/Headers/ParseKit/PKRootNode.h | allewun/Peckham | cfed35a410b70e0bbf2d376a231c03bd63292247 | [
"MIT"
] | null | null | null | //
// PKRootNode.h
// ParseKit
//
// Created by Todd Ditchendorf on 10/4/12.
//
//
#import "PKBaseNode.h"
@interface PKRootNode : PKBaseNode
@property (nonatomic, retain) NSString *grammarName;
@property (nonatomic, retain) NSMutableArray *tokenKinds;
@end
| 16.4375 | 57 | 0.714829 |
118dcd65fb6bfcb0916f5a2f6518e0a530595503 | 24 | h | C | docs/parallel/concrt/codesnippet/CPP/walkthrough-connecting-using-tasks-and-xml-http-requests_5.h | bobbrow/cpp-docs | 769b186399141c4ea93400863a7d8463987bf667 | [
"CC-BY-4.0",
"MIT"
] | 965 | 2017-06-25T23:57:11.000Z | 2022-03-31T14:17:32.000Z | docs/parallel/concrt/codesnippet/CPP/walkthrough-connecting-using-tasks-and-xml-http-requests_5.h | bobbrow/cpp-docs | 769b186399141c4ea93400863a7d8463987bf667 | [
"CC-BY-4.0",
"MIT"
] | 3,272 | 2017-06-24T00:26:34.000Z | 2022-03-31T22:14:07.000Z | docs/parallel/concrt/codesnippet/CPP/walkthrough-connecting-using-tasks-and-xml-http-requests_5.h | bobbrow/cpp-docs | 769b186399141c4ea93400863a7d8463987bf667 | [
"CC-BY-4.0",
"MIT"
] | 951 | 2017-06-25T12:36:14.000Z | 2022-03-26T22:49:06.000Z | #include "HttpRequest.h" | 24 | 24 | 0.791667 |
974a0fe85a9c139e00b9e8aae589b9db6bdbf993 | 10,060 | c | C | linux-2.6.0/lib/zlib_inflate/inflate.c | dnhua/Linux_study | 96863b599cbba9c925b3209bed07b1d7b60cb463 | [
"MIT"
] | 1 | 2020-11-10T12:47:02.000Z | 2020-11-10T12:47:02.000Z | linux-2.6.0/lib/zlib_inflate/inflate.c | dnhua/Linux_study | 96863b599cbba9c925b3209bed07b1d7b60cb463 | [
"MIT"
] | null | null | null | linux-2.6.0/lib/zlib_inflate/inflate.c | dnhua/Linux_study | 96863b599cbba9c925b3209bed07b1d7b60cb463 | [
"MIT"
] | null | null | null | /* inflate.c -- zlib interface to inflate modules
* Copyright (C) 1995-1998 Mark Adler
* For conditions of distribution and use, see copyright notice in zlib.h
*/
#include <linux/module.h>
#include <linux/zutil.h>
#include "infblock.h"
#include "infutil.h"
int zlib_inflate_workspacesize(void)
{
return sizeof(struct inflate_workspace);
}
int zlib_inflateReset(
z_streamp z
)
{
if (z == NULL || z->state == NULL || z->workspace == NULL)
return Z_STREAM_ERROR;
z->total_in = z->total_out = 0;
z->msg = NULL;
z->state->mode = z->state->nowrap ? BLOCKS : METHOD;
zlib_inflate_blocks_reset(z->state->blocks, z, NULL);
return Z_OK;
}
int zlib_inflateEnd(
z_streamp z
)
{
if (z == NULL || z->state == NULL || z->workspace == NULL)
return Z_STREAM_ERROR;
if (z->state->blocks != NULL)
zlib_inflate_blocks_free(z->state->blocks, z);
z->state = NULL;
return Z_OK;
}
int zlib_inflateInit2_(
z_streamp z,
int w,
const char *version,
int stream_size
)
{
if (version == NULL || version[0] != ZLIB_VERSION[0] ||
stream_size != sizeof(z_stream) || z->workspace == NULL)
return Z_VERSION_ERROR;
/* initialize state */
if (z == NULL)
return Z_STREAM_ERROR;
z->msg = NULL;
z->state = &WS(z)->internal_state;
z->state->blocks = NULL;
/* handle undocumented nowrap option (no zlib header or check) */
z->state->nowrap = 0;
if (w < 0)
{
w = - w;
z->state->nowrap = 1;
}
/* set window size */
if (w < 8 || w > 15)
{
zlib_inflateEnd(z);
return Z_STREAM_ERROR;
}
z->state->wbits = (uInt)w;
/* create inflate_blocks state */
if ((z->state->blocks =
zlib_inflate_blocks_new(z, z->state->nowrap ? NULL : zlib_adler32, (uInt)1 << w))
== NULL)
{
zlib_inflateEnd(z);
return Z_MEM_ERROR;
}
/* reset state */
zlib_inflateReset(z);
return Z_OK;
}
/*
* At the end of a Deflate-compressed PPP packet, we expect to have seen
* a `stored' block type value but not the (zero) length bytes.
*/
static int zlib_inflate_packet_flush(inflate_blocks_statef *s)
{
if (s->mode != LENS)
return Z_DATA_ERROR;
s->mode = TYPE;
return Z_OK;
}
int zlib_inflateInit_(
z_streamp z,
const char *version,
int stream_size
)
{
return zlib_inflateInit2_(z, DEF_WBITS, version, stream_size);
}
#undef NEEDBYTE
#undef NEXTBYTE
#define NEEDBYTE {if(z->avail_in==0)goto empty;r=trv;}
#define NEXTBYTE (z->avail_in--,z->total_in++,*z->next_in++)
int zlib_inflate(
z_streamp z,
int f
)
{
int r, trv;
uInt b;
if (z == NULL || z->state == NULL || z->next_in == NULL)
return Z_STREAM_ERROR;
trv = f == Z_FINISH ? Z_BUF_ERROR : Z_OK;
r = Z_BUF_ERROR;
while (1) switch (z->state->mode)
{
case METHOD:
NEEDBYTE
if (((z->state->sub.method = NEXTBYTE) & 0xf) != Z_DEFLATED)
{
z->state->mode = I_BAD;
z->msg = (char*)"unknown compression method";
z->state->sub.marker = 5; /* can't try inflateSync */
break;
}
if ((z->state->sub.method >> 4) + 8 > z->state->wbits)
{
z->state->mode = I_BAD;
z->msg = (char*)"invalid window size";
z->state->sub.marker = 5; /* can't try inflateSync */
break;
}
z->state->mode = FLAG;
case FLAG:
NEEDBYTE
b = NEXTBYTE;
if (((z->state->sub.method << 8) + b) % 31)
{
z->state->mode = I_BAD;
z->msg = (char*)"incorrect header check";
z->state->sub.marker = 5; /* can't try inflateSync */
break;
}
if (!(b & PRESET_DICT))
{
z->state->mode = BLOCKS;
break;
}
z->state->mode = DICT4;
case DICT4:
NEEDBYTE
z->state->sub.check.need = (uLong)NEXTBYTE << 24;
z->state->mode = DICT3;
case DICT3:
NEEDBYTE
z->state->sub.check.need += (uLong)NEXTBYTE << 16;
z->state->mode = DICT2;
case DICT2:
NEEDBYTE
z->state->sub.check.need += (uLong)NEXTBYTE << 8;
z->state->mode = DICT1;
case DICT1:
NEEDBYTE
z->state->sub.check.need += (uLong)NEXTBYTE;
z->adler = z->state->sub.check.need;
z->state->mode = DICT0;
return Z_NEED_DICT;
case DICT0:
z->state->mode = I_BAD;
z->msg = (char*)"need dictionary";
z->state->sub.marker = 0; /* can try inflateSync */
return Z_STREAM_ERROR;
case BLOCKS:
r = zlib_inflate_blocks(z->state->blocks, z, r);
if (f == Z_PACKET_FLUSH && z->avail_in == 0 && z->avail_out != 0)
r = zlib_inflate_packet_flush(z->state->blocks);
if (r == Z_DATA_ERROR)
{
z->state->mode = I_BAD;
z->state->sub.marker = 0; /* can try inflateSync */
break;
}
if (r == Z_OK)
r = trv;
if (r != Z_STREAM_END)
return r;
r = trv;
zlib_inflate_blocks_reset(z->state->blocks, z, &z->state->sub.check.was);
if (z->state->nowrap)
{
z->state->mode = I_DONE;
break;
}
z->state->mode = CHECK4;
case CHECK4:
NEEDBYTE
z->state->sub.check.need = (uLong)NEXTBYTE << 24;
z->state->mode = CHECK3;
case CHECK3:
NEEDBYTE
z->state->sub.check.need += (uLong)NEXTBYTE << 16;
z->state->mode = CHECK2;
case CHECK2:
NEEDBYTE
z->state->sub.check.need += (uLong)NEXTBYTE << 8;
z->state->mode = CHECK1;
case CHECK1:
NEEDBYTE
z->state->sub.check.need += (uLong)NEXTBYTE;
if (z->state->sub.check.was != z->state->sub.check.need)
{
z->state->mode = I_BAD;
z->msg = (char*)"incorrect data check";
z->state->sub.marker = 5; /* can't try inflateSync */
break;
}
z->state->mode = I_DONE;
case I_DONE:
return Z_STREAM_END;
case I_BAD:
return Z_DATA_ERROR;
default:
return Z_STREAM_ERROR;
}
empty:
if (f != Z_PACKET_FLUSH)
return r;
z->state->mode = I_BAD;
z->msg = (char *)"need more for packet flush";
z->state->sub.marker = 0; /* can try inflateSync */
return Z_DATA_ERROR;
}
int zlib_inflateSync(
z_streamp z
)
{
uInt n; /* number of bytes to look at */
Byte *p; /* pointer to bytes */
uInt m; /* number of marker bytes found in a row */
uLong r, w; /* temporaries to save total_in and total_out */
/* set up */
if (z == NULL || z->state == NULL)
return Z_STREAM_ERROR;
if (z->state->mode != I_BAD)
{
z->state->mode = I_BAD;
z->state->sub.marker = 0;
}
if ((n = z->avail_in) == 0)
return Z_BUF_ERROR;
p = z->next_in;
m = z->state->sub.marker;
/* search */
while (n && m < 4)
{
static const Byte mark[4] = {0, 0, 0xff, 0xff};
if (*p == mark[m])
m++;
else if (*p)
m = 0;
else
m = 4 - m;
p++, n--;
}
/* restore */
z->total_in += p - z->next_in;
z->next_in = p;
z->avail_in = n;
z->state->sub.marker = m;
/* return no joy or set up to restart on a new block */
if (m != 4)
return Z_DATA_ERROR;
r = z->total_in; w = z->total_out;
zlib_inflateReset(z);
z->total_in = r; z->total_out = w;
z->state->mode = BLOCKS;
return Z_OK;
}
/* Returns true if inflate is currently at the end of a block generated
* by Z_SYNC_FLUSH or Z_FULL_FLUSH. This function is used by one PPP
* implementation to provide an additional safety check. PPP uses Z_SYNC_FLUSH
* but removes the length bytes of the resulting empty stored block. When
* decompressing, PPP checks that at the end of input packet, inflate is
* waiting for these length bytes.
*/
int zlib_inflateSyncPoint(
z_streamp z
)
{
if (z == NULL || z->state == NULL || z->state->blocks == NULL)
return Z_STREAM_ERROR;
return zlib_inflate_blocks_sync_point(z->state->blocks);
}
/*
* This subroutine adds the data at next_in/avail_in to the output history
* without performing any output. The output buffer must be "caught up";
* i.e. no pending output (hence s->read equals s->write), and the state must
* be BLOCKS (i.e. we should be willing to see the start of a series of
* BLOCKS). On exit, the output will also be caught up, and the checksum
* will have been updated if need be.
*/
static int zlib_inflate_addhistory(inflate_blocks_statef *s,
z_stream *z)
{
uLong b; /* bit buffer */ /* NOT USED HERE */
uInt k; /* bits in bit buffer */ /* NOT USED HERE */
uInt t; /* temporary storage */
Byte *p; /* input data pointer */
uInt n; /* bytes available there */
Byte *q; /* output window write pointer */
uInt m; /* bytes to end of window or read pointer */
if (s->read != s->write)
return Z_STREAM_ERROR;
if (s->mode != TYPE)
return Z_DATA_ERROR;
/* we're ready to rock */
LOAD
/* while there is input ready, copy to output buffer, moving
* pointers as needed.
*/
while (n) {
t = n; /* how many to do */
/* is there room until end of buffer? */
if (t > m) t = m;
/* update check information */
if (s->checkfn != NULL)
s->check = (*s->checkfn)(s->check, q, t);
memcpy(q, p, t);
q += t;
p += t;
n -= t;
z->total_out += t;
s->read = q; /* drag read pointer forward */
/* WWRAP */ /* expand WWRAP macro by hand to handle s->read */
if (q == s->end) {
s->read = q = s->window;
m = WAVAIL;
}
}
UPDATE
return Z_OK;
}
/*
* This subroutine adds the data at next_in/avail_in to the output history
* without performing any output. The output buffer must be "caught up";
* i.e. no pending output (hence s->read equals s->write), and the state must
* be BLOCKS (i.e. we should be willing to see the start of a series of
* BLOCKS). On exit, the output will also be caught up, and the checksum
* will have been updated if need be.
*/
int zlib_inflateIncomp(
z_stream *z
)
{
if (z->state->mode != BLOCKS)
return Z_DATA_ERROR;
return zlib_inflate_addhistory(z->state->blocks, z);
}
| 25.663265 | 87 | 0.585089 |
f5bc83ee27baef8099fa4cd37a4a9680978b22d3 | 1,562 | h | C | src/Math/Vec3.h | JJoosten/CSoftwareRasterizer | 7295c3f7de8c370f01d0cc6523486777aebcc9e2 | [
"MIT"
] | 1 | 2017-06-14T07:14:46.000Z | 2017-06-14T07:14:46.000Z | src/Math/Vec3.h | JJoosten/CSoftwareRasterizer | 7295c3f7de8c370f01d0cc6523486777aebcc9e2 | [
"MIT"
] | null | null | null | src/Math/Vec3.h | JJoosten/CSoftwareRasterizer | 7295c3f7de8c370f01d0cc6523486777aebcc9e2 | [
"MIT"
] | null | null | null | #ifndef CSR_VEC3_H
#define CSR_VEC3_H
#include "Vec2.h"
typedef struct
{
union
{
float RGB[3];
float XYZ[3];
struct
{
float X, Y, Z;
};
struct
{
float R, G, B;
};
Vec2 XY;
Vec2 RG;
};
} Vec3, RGB;
Vec3* Vec3_LoadZero( Vec3* const out);
Vec3* Vec3_LoadOne( Vec3* const out);
Vec3* Vec3_LoadXYZ( Vec3* const out, const float x, const float y, const float z);
Vec3* Vec3_LoadScalar( Vec3* const out, const float x);
Vec3* Vec3_LoadArray( Vec3* const out, const float* const xyz);
Vec3* Vec3_LoadForward( Vec3* const out);
Vec3* Vec3_LoadLeft( Vec3* const out);
Vec3* Vec3_LoadUp( Vec3* const out);
Vec3* Vec3_Copy( Vec3* const out, const Vec3* const a);
Vec3* Vec3_Add( Vec3* const out, const Vec3* const a, const Vec3* const b);
Vec3* Vec3_Sub( Vec3* const out, const Vec3* const a, const Vec3* const b);
Vec3* Vec3_Mul( Vec3* const out, const Vec3* const a, const Vec3* const b);
Vec3* Vec3_MulByFloat( Vec3* const out, const Vec3* const a, const float x);
Vec3* Vec3_DivByFloat( Vec3* const out, const Vec3* const a, const float w);
Vec3* Vec3_Scale( Vec3* const out, const Vec3* const a, const float b);
float Vec3_Dot( const Vec3* const a, const Vec3* const b);
Vec3* Vec3_Cross( Vec3* const out, const Vec3* const a, const Vec3* const b);
Vec3* Vec3_Normalize( Vec3* const out, const Vec3* const a);
float Vec3_Length( const Vec3* const a);
float Vec3_LengthSqr( const Vec3* const a);
// printf extension
void Printf_Vec3( const Vec3* const a);
#endif //CSR_VEC3_H | 28.4 | 83 | 0.678617 |
f564e4cb0e579f87f60d01354b1aea7d47704b9d | 8,202 | h | C | arch/arm/src/kinetis/hardware/kinetis_mcm.h | eenurkka/incubator-nuttx | 5c3d6bba6d9ec5015896c3019cd2064696373210 | [
"Apache-2.0"
] | 1,006 | 2019-12-17T23:45:41.000Z | 2022-03-31T19:42:44.000Z | arch/arm/src/kinetis/hardware/kinetis_mcm.h | eenurkka/incubator-nuttx | 5c3d6bba6d9ec5015896c3019cd2064696373210 | [
"Apache-2.0"
] | 2,661 | 2019-12-21T15:16:09.000Z | 2022-03-31T22:30:04.000Z | arch/arm/src/kinetis/hardware/kinetis_mcm.h | eenurkka/incubator-nuttx | 5c3d6bba6d9ec5015896c3019cd2064696373210 | [
"Apache-2.0"
] | 613 | 2019-12-21T10:17:37.000Z | 2022-03-28T09:42:20.000Z | /****************************************************************************
* arch/arm/src/kinetis/hardware/kinetis_mcm.h
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership. The
* ASF licenses this file to you 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.
*
****************************************************************************/
#ifndef __ARCH_ARM_SRC_KINETIS_HARDWARE_KINETIS_MCM_H
#define __ARCH_ARM_SRC_KINETIS_HARDWARE_KINETIS_MCM_H
/****************************************************************************
* Included Files
****************************************************************************/
#include <nuttx/config.h>
#include "chip.h"
/****************************************************************************
* Pre-processor Definitions
****************************************************************************/
/* Register Offsets *********************************************************/
#define KINETIS_MCM_PLASC_OFFSET 0x0008 /* Crossbar switch (AXBS) slave configuration */
#define KINETIS_MCM_PLAMC_OFFSET 0x000a /* Crossbar switch (AXBS) master configuration */
#define KINETIS_MCM_SRAMAP_OFFSET 0x000c /* SRAM arbitration and protection */
#define KINETIS_MCM_ISR_OFFSET 0x0010 /* Interrupt status register */
#define KINETIS_MCM_ETBCC_OFFSET 0x0014 /* ETB counter control register */
#define KINETIS_MCM_ETBRL_OFFSET 0x0018 /* ETB reload register */
#define KINETIS_MCM_ETBCNT_OFFSET 0x001c /* ETB counter value register */
#ifdef KINETIS_K64
# define KINETIS_MCM_PID_OFFSET 0x0030 /* Process ID register */
#endif
/* Register Addresses *******************************************************/
#define KINETIS_MCM_PLASC (KINETIS_MCM_BASE+KINETIS_MCM_PLASC_OFFSET)
#define KINETIS_MCM_PLAMC (KINETIS_MCM_BASE+KINETIS_MCM_PLAMC_OFFSET)
#define KINETIS_MCM_SRAMAP (KINETIS_MCM_BASE+KINETIS_MCM_SRAMAP_OFFSET)
#define KINETIS_MCM_ISR (KINETIS_MCM_BASE+KINETIS_MCM_ISR_OFFSET)
#define KINETIS_MCM_ETBCC (KINETIS_MCM_BASE+KINETIS_MCM_ETBCC_OFFSET)
#define KINETIS_MCM_ETBRL (KINETIS_MCM_BASE+KINETIS_MCM_ETBRL_OFFSET)
#define KINETIS_MCM_ETBCNT (KINETIS_MCM_BASE+KINETIS_MCM_ETBCNT_OFFSET)
#ifdef KINETIS_K64
# define KINETIS_MCM_PID (KINETIS_MCM_BASE+KINETIS_MCM_PID_OFFSET)
#endif
/* Register Bit Definitions *************************************************/
/* Crossbar switch (AXBS) slave configuration */
#define MCM_PLASC_ASC_SHIFT (0) /* Bits 0-7: Each bit in the ASC field
* indicates if there is a corresponding
* connection to the crossbar switch's
* slave input port. */
#define MCM_PLASC_ASC_MASK (0xff << MCM_PLASC_ASC_SHIFT)
#define MCM_PLASC_ASC(n) ((1 << (n)) << MCM_PLASC_ASC_SHIFT)
/* Bits 8-15: Reserved */
/* Crossbar switch (AXBS) master configuration */
#define MCM_PLAMC_AMC_SHIFT (0) /* Bits 0-7: Each bit in the AMC field
* indicates if there is a corresponding
* connection to the AXBS master input port. */
#define MCM_PLAMC_AMC_MASK (0xff << MCM_PLAMC_AMC_SHIFT)
#define MCM_PLAMC_AMC(n) ((1 << (n)) << MCM_PLAMC_AMC_SHIFT)
/* Bits 8-15: Reserved */
/* SRAM arbitration and protection */
/* Bits 0-23: Reserved */
#define MCM_SRAMAP_SRAMUAP_SHIFT (24) /* Bits 24-25: SRAM_U arbitration priority */
#define MCM_SRAMAP_SRAMUAP_MASK (3 << MCM_SRAMAP_SRAMUAP_SHIFT)
# define MCM_SRAMAP_SRAMUAP_RR (0 << MCM_SRAMAP_SRAMUAP_SHIFT) /* Round robin */
# define MCM_SRAMAP_SRAMUAP_SRR (1 << MCM_SRAMAP_SRAMUAP_SHIFT) /* Special round robin */
# define MCM_SRAMAP_SRAMUAP_FIXED1 (2 << MCM_SRAMAP_SRAMUAP_SHIFT) /* Fixed pri. Proc highest/backdoor lowest */
# define MCM_SRAMAP_SRAMUAP_FIXED2 (3 << MCM_SRAMAP_SRAMUAP_SHIFT) /* Fixed pri. Backdoor highest/proc lowest */
#define MCM_SRAMAP_SRAMUWP (1 << 26) /* Bit 26: SRAM_U write protect */
/* Bit 27: Reserved */
#define MCM_SRAMAP_SRAMLAP_SHIFT (28) /* Bits 28-29: SRAM_L arbitration priority */
#define MCM_SRAMAP_SRAMLAP_MASK (3 << MCM_SRAMAP_SRAMLAP_SHIFT)
# define MCM_SRAMAP_SRAMLAP_RR (0 << MCM_SRAMAP_SRAMLAP_SHIFT) /* Round robin */
# define MCM_SRAMAP_SRAMLAP_SRR (1 << MCM_SRAMAP_SRAMLAP_SHIFT) /* Special round robin */
# define MCM_SRAMAP_SRAMLAP_FIXED1 (2 << MCM_SRAMAP_SRAMLAP_SHIFT) /* Fixed pri. Proc highest/backdoor lowest */
# define MCM_SRAMAP_SRAMLAP_FIXED2 (3 << MCM_SRAMAP_SRAMLAP_SHIFT) /* Fixed pri. Backdoor highest/proc lowest */
#define MCM_SRAMAP_SRAMLWP (1 << 30) /* Bit 30: SRAM_L write protect */
/* Bit 31: Reserved */
/* Interrupt status register */
/* Bit 0: Reserved */
#define MCM_ISR_IRQ (1 << 1) /* Bit 1: Normal interrupt pending */
#define MCM_ISR_NMI (1 << 2) /* Bit 2: Non-maskable interrupt pending */
/* Bits 3-31: Reserved */
/* ETB counter control register */
#define MCM_ETBCC_CNTEN (1 << 0) /* Bit 0: Counter enable */
#define MCM_ETBCC_RSPT_SHIFT (1) /* Bits 1-2: Response type */
#define MCM_ETBCC_RSPT_MASK (3 << MCM_ETBCC_RSPT_SHIFT)
# define MCM_ETBCC_RSPT_NONE (0 << MCM_ETBCC_RSPT_SHIFT) /* No response when ETB count expires */
# define MCM_ETBCC_RSPT_INT (1 << MCM_ETBCC_RSPT_SHIFT) /* Normal interrupt when ETB count expires */
# define MCM_ETBCC_RSPT_NMI (2 << MCM_ETBCC_RSPT_SHIFT) /* NMI when ETB count expires */
# define MCM_ETBCC_RSPT_HALT (3 << MCM_ETBCC_RSPT_SHIFT) /* Debug halt when ETB count expires */
#define MCM_ETBCC_RLRQ (1 << 3) /* Bit 3: Reload request */
#define MCM_ETBCC_ETDIS (1 << 4) /* Bit 4: ETM-to-TPIU disable */
#define MCM_ETBCC_ITDIS (1 << 5) /* Bit 5: ITM-to-TPIU disable */
/* Bits 6-31: Reserved */
/* ETB reload register */
#define MCM_ETBRL_RELOAD_SHIFT (0) /* Bits 0-10: Byte count reload value */
#define MCM_ETBRL_RELOAD_MASK (0x7ff << MCM_ETBRL_RELOAD_SHIFT)
/* Bits 11-31: Reserved */
/* ETB counter value register */
#define MCM_ETBCNT_COUNTER_SHIFT (0) /* Bits 0-10: Byte count counter value */
#define MCM_ETBCNT_COUNTER_MASK (0x7ff << MCM_ETBCNT_COUNTER_SHIFT)
/* Bits 11-31: Reserved */
/****************************************************************************
* Public Types
****************************************************************************/
/****************************************************************************
* Public Data
****************************************************************************/
/****************************************************************************
* Public Functions Prototypes
****************************************************************************/
#endif /* __ARCH_ARM_SRC_KINETIS_HARDWARE_KINETIS_MCM_H */
| 53.960526 | 113 | 0.558888 |
91cb6ebbfe9f8f161464fd40b8b7533c229b216b | 6,455 | h | C | syzygy/core/unittest_util.h | nzeh/syzygy | 3573e3d458dbb4285753c28a7cb42ced739f9f55 | [
"Apache-2.0"
] | 343 | 2015-01-07T05:58:44.000Z | 2022-03-15T14:55:21.000Z | syzygy/core/unittest_util.h | nzeh/syzygy-nzeh | 3757e53f850644721284073de318e218224dd411 | [
"Apache-2.0"
] | 61 | 2015-03-19T18:20:21.000Z | 2019-10-23T12:58:23.000Z | syzygy/core/unittest_util.h | nzeh/syzygy-nzeh | 3757e53f850644721284073de318e218224dd411 | [
"Apache-2.0"
] | 66 | 2015-01-20T15:35:05.000Z | 2021-11-25T16:49:41.000Z | // Copyright 2012 Google Inc. 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.
//
// Declares some unittest helper functions.
#ifndef SYZYGY_CORE_UNITTEST_UTIL_H_
#define SYZYGY_CORE_UNITTEST_UTIL_H_
#include "base/files/file_path.h"
#include "base/files/file_util.h"
#include "gtest/gtest.h"
#include "syzygy/core/serialization.h"
namespace testing {
// Examples of the various file types that GuessFileType recognizes. These live
// in syzygy\core\test_data, thus should be referred to using
// GetSrcRelativePath.
extern const wchar_t kExampleArchiveName[];
extern const wchar_t kExampleCoff[];
extern const wchar_t kExampleCoffImportDefinition[];
extern const wchar_t kExampleCoffLtcgName[];
extern const wchar_t kExampleCoffMachineTypeNullName[];
extern const wchar_t kExamplePdbName[];
extern const wchar_t kExamplePeDll[];
extern const wchar_t kExamplePeExe[];
extern const wchar_t kExampleResources32Name[];
// A simple utility class for creating and cleaning up a temporary file.
class ScopedTempFile {
public:
ScopedTempFile() {
base::CreateTemporaryFile(&path_);
}
~ScopedTempFile() {
base::DeleteFile(path_, false);
}
const base::FilePath& path() const { return path_; }
private:
base::FilePath path_;
};
// This defines a simple test of serialization for a given object. Returns
// true on success, false otherwise. The data object must be default
// constructible and comparable.
template<class Data> bool TestSerialization(const Data& data) {
core::ByteVector bytes;
core::ScopedOutStreamPtr out_stream;
out_stream.reset(core::CreateByteOutStream(std::back_inserter(bytes)));
core::NativeBinaryOutArchive out_archive(out_stream.get());
if (!out_archive.Save(data))
return false;
if (!out_archive.Flush())
return false;
core::ScopedInStreamPtr in_stream;
in_stream.reset(core::CreateByteInStream(bytes.begin(), bytes.end()));
core::NativeBinaryInArchive in_archive(in_stream.get());
Data data_copy;
if (!in_archive.Load(&data_copy))
return false;
// Ensure the two elements are the same after a roundtrip through the
// serialization engine.
return (data == data_copy);
}
// Same as above, but serializes to the given file, which has to be opened
// in read-write mode.
template<class Data> bool TestSerialization(const Data& data, FILE* file) {
core::FileOutStream out_stream(file);
core::NativeBinaryOutArchive out_archive(&out_stream);
if (!out_archive.Save(data))
return false;
// Flush the output and rewind the file.
fflush(file);
fseek(file, 0, SEEK_SET);
core::FileInStream in_stream(file);
core::NativeBinaryInArchive in_archive(&in_stream);
Data data_copy;
if (!in_archive.Load(&data_copy))
return false;
// Ensure the two elements are the same after a roundtrip through the
// serialization engine.
return (data == data_copy);
}
// Converts a relative path to absolute using the src directory as base.
//
// @path rel_path the relative path to convert.
// @returns an absolute path.
base::FilePath GetSrcRelativePath(const wchar_t* rel_path);
// Converts a relative path to absolute using the executable directory as base.
//
// @path rel_path the relative path to convert.
// @returns an absolute path.
base::FilePath GetExeRelativePath(const wchar_t* rel_path);
// Converts a relative path to absolute using the output directory as base.
//
// @path rel_path the relative path to convert.
// @returns an absolute path.
base::FilePath GetOutputRelativePath(const wchar_t* rel_path);
// Converts a relative path to absolute using the test_data directory as base.
//
// @path rel_path the relative path to convert.
// @returns an absolute path.
base::FilePath GetExeTestDataRelativePath(const wchar_t* rel_path);
// Converts an absolute path to a relative path using the given root directory
// as a base.
//
// @param abs_path the absolute path to convert.
// @param root_path the root path to use.
// @returns the relative path to abs_path, starting from root. If there is no
// relative path, it returns the empty path.
// @pre Both abs_path and root_path must be absolute paths.
base::FilePath GetRelativePath(const base::FilePath& abs_path,
const base::FilePath& root_path);
// Converts an absolute path to a relative path using the current working
// directory as a base.
//
// @param abs_path the absolute path to convert.
// @returns the relative path to abs_path, starting from the current working
// directory. If there is no relative path, it returns the empty path.
base::FilePath GetRelativePath(const base::FilePath& abs_path);
// A utility for ensuring that two file paths point to the same file. Upon
// failure, outputs the actual paths as well. This is not intended to be used
// directly, but rather through the ASSERT_SAME_FILE and EXPECT_SAME_FILE
// macros.
// @param path1_expr the source code expression representing the contents of
// path1.
// @param path2_expr the source code expression representing the contents of
// path2.
// @param path1 the first path to compare.
// @param path2 the second path to compare.
// @returns AssertionSuccess if path1 and path2 refer to the same file on disk,
// even if they have different paths. Otherwise, returns an AssertionFailure
// with an informative error message.
AssertionResult AssertAreSameFile(const char* path1_expr,
const char* path2_expr,
const base::FilePath& path1,
const base::FilePath& path2);
// GTest macros for ensuring two paths refer to the same file.
#define ASSERT_SAME_FILE(path1, path2) \
ASSERT_PRED_FORMAT2(::testing::AssertAreSameFile, path1, path2)
#define EXPECT_SAME_FILE(path1, path2) \
EXPECT_PRED_FORMAT2(::testing::AssertAreSameFile, path1, path2)
} // namespace testing
#endif // SYZYGY_CORE_UNITTEST_UTIL_H_
| 36.676136 | 80 | 0.74237 |
efcce50ac713a4585c2b6477475bd50a41de80ff | 70,037 | h | C | objdicts/CiA302-4_MN/objdict.h | vinodpa/openPOWERLINK_V2 | 5f878963f9d95657bb95be69d93b10613ee7f796 | [
"BSD-3-Clause"
] | null | null | null | objdicts/CiA302-4_MN/objdict.h | vinodpa/openPOWERLINK_V2 | 5f878963f9d95657bb95be69d93b10613ee7f796 | [
"BSD-3-Clause"
] | null | null | null | objdicts/CiA302-4_MN/objdict.h | vinodpa/openPOWERLINK_V2 | 5f878963f9d95657bb95be69d93b10613ee7f796 | [
"BSD-3-Clause"
] | null | null | null | /**
********************************************************************************
\file objdicts/CiA302-4_MN/objdict.h
\brief Object dictionary according to CiA302-4
This file contains the object dictionary definition for the CANopen CiA302-4
device profile.
*******************************************************************************/
/*------------------------------------------------------------------------------
Copyright (c) 2014, Bernecker+Rainer Industrie-Elektronik Ges.m.b.H. (B&R)
Copyright (c) 2013, SYSTEC electronic GmbH
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
* Neither the name of the copyright holders nor the
names of its contributors may be used to endorse or promote products
derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL COPYRIGHT HOLDERS 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.
------------------------------------------------------------------------------*/
#define OBD_DEFINE_MACRO
#include <oplk/obdmacro.h>
#undef OBD_DEFINE_MACRO
OBD_BEGIN ()
OBD_BEGIN_PART_GENERIC ()
#include "../generic/objdict_1000-13ff.h"
// Object 1400h: PDO_RxCommParam_00h_REC
OBD_BEGIN_INDEX_RAM(0x1400, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1400, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1400, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1400, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1400)
// Object 1401h: PDO_RxCommParam_01h_REC
OBD_BEGIN_INDEX_RAM(0x1401, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1401, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1401, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1401, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1401)
#if defined(CONFIG_INCLUDE_NMT_MN)
// additional RxPDOs if master is enabled
// Object 1402h: PDO_RxCommParam_02h_REC
OBD_BEGIN_INDEX_RAM(0x1402, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1402, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1402, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1402, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1402)
// Object 1403h: PDO_RxCommParam_03h_REC
OBD_BEGIN_INDEX_RAM(0x1403, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1403, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1403, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1403, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1403)
// Object 1404h: PDO_RxCommParam_04h_REC
OBD_BEGIN_INDEX_RAM(0x1404, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1404, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1404, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1404, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1404)
// Object 1405h: PDO_RxCommParam_05h_REC
OBD_BEGIN_INDEX_RAM(0x1405, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1405, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1405, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1405, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1405)
// Object 1406h: PDO_RxCommParam_06h_REC
OBD_BEGIN_INDEX_RAM(0x1406, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1406, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1406, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1406, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1406)
// Object 1407h: PDO_RxCommParam_07h_REC
OBD_BEGIN_INDEX_RAM(0x1407, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1407, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1407, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1407, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1407)
// Object 1408h: PDO_RxCommParam_08h_REC
OBD_BEGIN_INDEX_RAM(0x1408, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1408, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1408, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1408, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1408)
// Object 1409h: PDO_RxCommParam_09h_REC
OBD_BEGIN_INDEX_RAM(0x1409, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1409, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1409, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1409, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1409)
// Object 140Ah: PDO_RxCommParam_0Ah_REC
OBD_BEGIN_INDEX_RAM(0x140A, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x140A, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x140A, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x140A, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x140A)
// Object 140Bh: PDO_RxCommParam_0Bh_REC
OBD_BEGIN_INDEX_RAM(0x140B, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x140B, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x140B, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x140B, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x140B)
// Object 140Ch: PDO_RxCommParam_0Ch_REC
OBD_BEGIN_INDEX_RAM(0x140C, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x140C, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x140C, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x140C, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x140C)
// Object 140Dh: PDO_RxCommParam_0Dh_REC
OBD_BEGIN_INDEX_RAM(0x140D, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x140D, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x140D, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x140D, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x140D)
// Object 140Eh: PDO_RxCommParam_0Eh_REC
OBD_BEGIN_INDEX_RAM(0x140E, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x140E, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x140E, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x140E, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x140E)
// Object 140Fh: PDO_RxCommParam_0Fh_REC
OBD_BEGIN_INDEX_RAM(0x140F, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x140F, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x140F, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x140F, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x140F)
// Object 1410h: PDO_RxCommParam_10h_REC
OBD_BEGIN_INDEX_RAM(0x1410, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1410, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1410, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1410, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1410)
// Object 1411h: PDO_RxCommParam_11h_REC
OBD_BEGIN_INDEX_RAM(0x1411, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1411, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1411, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1411, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1411)
// Object 1412h: PDO_RxCommParam_12h_REC
OBD_BEGIN_INDEX_RAM(0x1412, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1412, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1412, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1412, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1412)
// Object 1413h: PDO_RxCommParam_13h_REC
OBD_BEGIN_INDEX_RAM(0x1413, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1413, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1413, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1413, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1413)
// Object 1414h: PDO_RxCommParam_14h_REC
OBD_BEGIN_INDEX_RAM(0x1414, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1414, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1414, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1414, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1414)
// Object 1415h: PDO_RxCommParam_15h_REC
OBD_BEGIN_INDEX_RAM(0x1415, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1415, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1415, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1415, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1415)
// Object 1416h: PDO_RxCommParam_16h_REC
OBD_BEGIN_INDEX_RAM(0x1416, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1416, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1416, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1416, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1416)
// Object 1417h: PDO_RxCommParam_17h_REC
OBD_BEGIN_INDEX_RAM(0x1417, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1417, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1417, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1417, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1417)
// Object 1418h: PDO_RxCommParam_18h_REC
OBD_BEGIN_INDEX_RAM(0x1418, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1418, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1418, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1418, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1418)
// Object 1419h: PDO_RxCommParam_19h_REC
OBD_BEGIN_INDEX_RAM(0x1419, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1419, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1419, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1419, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1419)
// Object 141Ah: PDO_RxCommParam_1Ah_REC
OBD_BEGIN_INDEX_RAM(0x141A, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x141A, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x141A, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x141A, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x141A)
// Object 141Bh: PDO_RxCommParam_1Bh_REC
OBD_BEGIN_INDEX_RAM(0x141B, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x141B, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x141B, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x141B, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x141B)
// Object 141Ch: PDO_RxCommParam_1Ch_REC
OBD_BEGIN_INDEX_RAM(0x141C, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x141C, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x141C, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x141C, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x141C)
// Object 141Dh: PDO_RxCommParam_1Dh_REC
OBD_BEGIN_INDEX_RAM(0x141D, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x141D, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x141D, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x141D, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x141D)
// Object 141Eh: PDO_RxCommParam_1Eh_REC
OBD_BEGIN_INDEX_RAM(0x141E, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x141E, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x141E, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x141E, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x141E)
// Object 141Fh: PDO_RxCommParam_1Fh_REC
OBD_BEGIN_INDEX_RAM(0x141F, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x141F, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x141F, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x141F, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x141F)
// Object 1420h: PDO_RxCommParam_20h_REC
OBD_BEGIN_INDEX_RAM(0x1420, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1420, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1420, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1420, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1420)
// Object 1421h: PDO_RxCommParam_21h_REC
OBD_BEGIN_INDEX_RAM(0x1421, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1421, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1421, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1421, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1421)
// Object 1422h: PDO_RxCommParam_22h_REC
OBD_BEGIN_INDEX_RAM(0x1422, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1422, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1422, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1422, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1422)
// Object 1423h: PDO_RxCommParam_23h_REC
OBD_BEGIN_INDEX_RAM(0x1423, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1423, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1423, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1423, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1423)
// Object 1424h: PDO_RxCommParam_24h_REC
OBD_BEGIN_INDEX_RAM(0x1424, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1424, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1424, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1424, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1424)
// Object 1425h: PDO_RxCommParam_25h_REC
OBD_BEGIN_INDEX_RAM(0x1425, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1425, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1425, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1425, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1425)
// Object 1426h: PDO_RxCommParam_26h_REC
OBD_BEGIN_INDEX_RAM(0x1426, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1426, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1426, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1426, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1426)
// Object 1427h: PDO_RxCommParam_27h_REC
OBD_BEGIN_INDEX_RAM(0x1427, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1427, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1427, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1427, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1427)
#endif
// Object 1600h: PDO_RxMappParam_00h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1600, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1601h: PDO_RxMappParam_01h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1601, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
#if defined(CONFIG_INCLUDE_NMT_MN)
// additional RxPDOs if master is enabled
// Object 1602h: PDO_RxMappParam_02h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1602, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1603h: PDO_RxMappParam_03h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1603, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1604h: PDO_RxMappParam_04h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1604, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1605h: PDO_RxMappParam_05h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1605, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1606h: PDO_RxMappParam_06h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1606, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1607h: PDO_RxMappParam_07h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1607, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1608h: PDO_RxMappParam_08h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1608, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1609h: PDO_RxMappParam_09h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1609, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 160Ah: PDO_RxMappParam_0Ah_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x160A, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 160Bh: PDO_RxMappParam_0Bh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x160B, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 160Ch: PDO_RxMappParam_0Ch_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x160C, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 160Dh: PDO_RxMappParam_0Dh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x160D, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 160Eh: PDO_RxMappParam_0Eh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x160E, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 160Fh: PDO_RxMappParam_0Fh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x160F, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1610h: PDO_RxMappParam_10h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1610, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1611h: PDO_RxMappParam_11h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1611, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1612h: PDO_RxMappParam_12h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1612, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1613h: PDO_RxMappParam_13h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1613, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1614h: PDO_RxMappParam_14h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1614, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1615h: PDO_RxMappParam_15h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1615, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1616h: PDO_RxMappParam_16h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1616, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1617h: PDO_RxMappParam_17h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1617, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1618h: PDO_RxMappParam_18h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1618, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1619h: PDO_RxMappParam_19h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1619, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 161Ah: PDO_RxMappParam_1Ah_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x161A, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 161Bh: PDO_RxMappParam_1Bh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x161B, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 161Ch: PDO_RxMappParam_1Ch_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x161C, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 161Dh: PDO_RxMappParam_1Dh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x161D, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 161Eh: PDO_RxMappParam_1Eh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x161E, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 161Fh: PDO_RxMappParam_1Fh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x161F, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1620h: PDO_RxMappParam_20h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1620, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1621h: PDO_RxMappParam_21h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1621, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1622h: PDO_RxMappParam_22h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1622, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1623h: PDO_RxMappParam_23h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1623, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1624h: PDO_RxMappParam_24h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1624, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1625h: PDO_RxMappParam_25h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1625, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1626h: PDO_RxMappParam_26h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1626, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1627h: PDO_RxMappParam_27h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1627, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
#endif
// Object 1800h: PDO_TxCommParam_00h_REC
OBD_BEGIN_INDEX_RAM(0x1800, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1800, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1800, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1800, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1800)
#if defined(CONFIG_INCLUDE_NMT_MN)
// additional TxPDOs if master is enabled
// Object 1801h: PDO_TxCommParam_01h_REC
OBD_BEGIN_INDEX_RAM(0x1801, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1801, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1801, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1801, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1801)
// Object 1802h: PDO_TxCommParam_02h_REC
OBD_BEGIN_INDEX_RAM(0x1802, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1802, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1802, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1802, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1802)
// Object 1803h: PDO_TxCommParam_03h_REC
OBD_BEGIN_INDEX_RAM(0x1803, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1803, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1803, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1803, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1803)
// Object 1804h: PDO_TxCommParam_04h_REC
OBD_BEGIN_INDEX_RAM(0x1804, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1804, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1804, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1804, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1804)
// Object 1805h: PDO_TxCommParam_05h_REC
OBD_BEGIN_INDEX_RAM(0x1805, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1805, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1805, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1805, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1805)
// Object 1806h: PDO_TxCommParam_06h_REC
OBD_BEGIN_INDEX_RAM(0x1806, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1806, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1806, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1806, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1806)
// Object 1807h: PDO_TxCommParam_07h_REC
OBD_BEGIN_INDEX_RAM(0x1807, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1807, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1807, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1807, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1807)
// Object 1808h: PDO_TxCommParam_08h_REC
OBD_BEGIN_INDEX_RAM(0x1808, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1808, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1808, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1808, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1808)
// Object 1809h: PDO_TxCommParam_09h_REC
OBD_BEGIN_INDEX_RAM(0x1809, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1809, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1809, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1809, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1809)
// Object 180Ah: PDO_TxCommParam_0Ah_REC
OBD_BEGIN_INDEX_RAM(0x180A, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x180A, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x180A, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x180A, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x180A)
// Object 180Bh: PDO_TxCommParam_0Bh_REC
OBD_BEGIN_INDEX_RAM(0x180B, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x180B, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x180B, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x180B, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x180B)
// Object 180Ch: PDO_TxCommParam_0Ch_REC
OBD_BEGIN_INDEX_RAM(0x180C, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x180C, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x180C, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x180C, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x180C)
// Object 180Dh: PDO_TxCommParam_0Dh_REC
OBD_BEGIN_INDEX_RAM(0x180D, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x180D, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x180D, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x180D, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x180D)
// Object 180Eh: PDO_TxCommParam_0Eh_REC
OBD_BEGIN_INDEX_RAM(0x180E, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x180E, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x180E, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x180E, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x180E)
// Object 180Fh: PDO_TxCommParam_0Fh_REC
OBD_BEGIN_INDEX_RAM(0x180F, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x180F, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x180F, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x180F, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x180F)
// Object 1810h: PDO_TxCommParam_10h_REC
OBD_BEGIN_INDEX_RAM(0x1810, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1810, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1810, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1810, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1810)
// Object 1811h: PDO_TxCommParam_11h_REC
OBD_BEGIN_INDEX_RAM(0x1811, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1811, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1811, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1811, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1811)
// Object 1812h: PDO_TxCommParam_12h_REC
OBD_BEGIN_INDEX_RAM(0x1812, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1812, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1812, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1812, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1812)
// Object 1813h: PDO_TxCommParam_13h_REC
OBD_BEGIN_INDEX_RAM(0x1813, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1813, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1813, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1813, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1813)
// Object 1814h: PDO_TxCommParam_14h_REC
OBD_BEGIN_INDEX_RAM(0x1814, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1814, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1814, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1814, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1814)
// Object 1815h: PDO_TxCommParam_15h_REC
OBD_BEGIN_INDEX_RAM(0x1815, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1815, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1815, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1815, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1815)
// Object 1816h: PDO_TxCommParam_16h_REC
OBD_BEGIN_INDEX_RAM(0x1816, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1816, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1816, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1816, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1816)
// Object 1817h: PDO_TxCommParam_17h_REC
OBD_BEGIN_INDEX_RAM(0x1817, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1817, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1817, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1817, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1817)
// Object 1818h: PDO_TxCommParam_18h_REC
OBD_BEGIN_INDEX_RAM(0x1818, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1818, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1818, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1818, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1818)
// Object 1819h: PDO_TxCommParam_19h_REC
OBD_BEGIN_INDEX_RAM(0x1819, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1819, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1819, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1819, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1819)
// Object 181Ah: PDO_TxCommParam_1Ah_REC
OBD_BEGIN_INDEX_RAM(0x181A, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x181A, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x181A, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x181A, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x181A)
// Object 181Bh: PDO_TxCommParam_1Bh_REC
OBD_BEGIN_INDEX_RAM(0x181B, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x181B, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x181B, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x181B, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x181B)
// Object 181Ch: PDO_TxCommParam_1Ch_REC
OBD_BEGIN_INDEX_RAM(0x181C, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x181C, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x181C, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x181C, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x181C)
// Object 181Dh: PDO_TxCommParam_1Dh_REC
OBD_BEGIN_INDEX_RAM(0x181D, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x181D, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x181D, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x181D, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x181D)
// Object 181Eh: PDO_TxCommParam_1Eh_REC
OBD_BEGIN_INDEX_RAM(0x181E, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x181E, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x181E, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x181E, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x181E)
// Object 181Fh: PDO_TxCommParam_1Fh_REC
OBD_BEGIN_INDEX_RAM(0x181F, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x181F, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x181F, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x181F, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x181F)
// Object 1820h: PDO_TxCommParam_20h_REC
OBD_BEGIN_INDEX_RAM(0x1820, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1820, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1820, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1820, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1820)
// Object 1821h: PDO_TxCommParam_21h_REC
OBD_BEGIN_INDEX_RAM(0x1821, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1821, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1821, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1821, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1821)
// Object 1822h: PDO_TxCommParam_22h_REC
OBD_BEGIN_INDEX_RAM(0x1822, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1822, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1822, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1822, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1822)
// Object 1823h: PDO_TxCommParam_23h_REC
OBD_BEGIN_INDEX_RAM(0x1823, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1823, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1823, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1823, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1823)
// Object 1824h: PDO_TxCommParam_24h_REC
OBD_BEGIN_INDEX_RAM(0x1824, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1824, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1824, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1824, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1824)
// Object 1825h: PDO_TxCommParam_25h_REC
OBD_BEGIN_INDEX_RAM(0x1825, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1825, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1825, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1825, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1825)
// Object 1826h: PDO_TxCommParam_26h_REC
OBD_BEGIN_INDEX_RAM(0x1826, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1826, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1826, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1826, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1826)
// Object 1827h: PDO_TxCommParam_27h_REC
OBD_BEGIN_INDEX_RAM(0x1827, 0x03, pdou_cbObdAccess)
OBD_SUBINDEX_RAM_VAR(0x1827, 0x00, kObdTypeUInt8, kObdAccConst, tObdUnsigned8, NumberOfEntries, 0x02)
OBD_SUBINDEX_RAM_VAR_RG(0x1827, 0x01, kObdTypeUInt8, kObdAccGRW, tObdUnsigned8, NodeID_U8, 0x00, 0, 254)
OBD_SUBINDEX_RAM_VAR(0x1827, 0x02, kObdTypeUInt8, kObdAccRW, tObdUnsigned8, MappingVersion_U8, 0x00)
OBD_END_INDEX(0x1827)
#endif
// Object 1A00h: PDO_TxMappParam_00h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A00, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
#if defined(CONFIG_INCLUDE_NMT_MN)
// additional TxPDOs if master is enabled
// Object 1A01h: PDO_TxMappParam_01h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A01, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A02h: PDO_TxMappParam_02h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A02, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A03h: PDO_TxMappParam_03h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A03, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A04h: PDO_TxMappParam_04h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A04, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A05h: PDO_TxMappParam_05h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A05, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A06h: PDO_TxMappParam_06h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A06, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A07h: PDO_TxMappParam_07h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A07, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A08h: PDO_TxMappParam_08h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A08, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A09h: PDO_TxMappParam_09h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A09, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A0Ah: PDO_TxMappParam_0Ah_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A0A, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A0Bh: PDO_TxMappParam_0Bh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A0B, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A0Ch: PDO_TxMappParam_0Ch_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A0C, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A0Dh: PDO_TxMappParam_0Dh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A0D, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A0Eh: PDO_TxMappParam_0Eh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A0E, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A0Fh: PDO_TxMappParam_0Fh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A0F, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A10h: PDO_TxMappParam_10h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A10, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A11h: PDO_TxMappParam_11h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A11, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A12h: PDO_TxMappParam_12h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A12, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A13h: PDO_TxMappParam_13h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A13, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A14h: PDO_TxMappParam_14h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A14, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A15h: PDO_TxMappParam_15h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A15, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A16h: PDO_TxMappParam_16h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A16, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A17h: PDO_TxMappParam_17h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A17, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A18h: PDO_TxMappParam_18h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A18, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A19h: PDO_TxMappParam_19h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A19, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A1Ah: PDO_TxMappParam_1Ah_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A1A, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A1Bh: PDO_TxMappParam_1Bh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A1B, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A1Ch: PDO_TxMappParam_1Ch_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A1C, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A1Dh: PDO_TxMappParam_1Dh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A1D, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A1Eh: PDO_TxMappParam_1Eh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A1E, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A1Fh: PDO_TxMappParam_1Fh_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A1F, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A20h: PDO_TxMappParam_20h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A20, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A21h: PDO_TxMappParam_21h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A21, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A22h: PDO_TxMappParam_22h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A22, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A23h: PDO_TxMappParam_23h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A23, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A24h: PDO_TxMappParam_24h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A24, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A25h: PDO_TxMappParam_25h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A25, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A26h: PDO_TxMappParam_26h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A26, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
// Object 1A27h: PDO_TxMappParam_27h_AU64
OBD_RAM_INDEX_RAM_PDO_MAPPING(0x1A27, 0xFE, pdou_cbObdAccess, kObdAccRW, ObjectMapping, 0x0000000000000000LL)
#endif
#include "../generic/objdict_1b00-1fff.h"
OBD_END_PART ()
OBD_BEGIN_PART_MANUFACTURER ()
OBD_END_PART ()
OBD_BEGIN_PART_DEVICE ()
// static input process image (from network point of view)
OBD_RAM_INDEX_RAM_VARARRAY (0xA000, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA001, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA002, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA003, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA004, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA005, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA006, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA007, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA008, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA009, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA00A, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA00B, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA00C, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA00D, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA00E, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA00F, (252), NULL, kObdTypeInt8, kObdAccVPR, tObdInteger8, PI_Input_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA040, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA041, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA042, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA043, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA044, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA045, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA046, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA047, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA048, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA049, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA04A, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA04B, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA04C, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA04D, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA04E, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA04F, (252), NULL, kObdTypeUInt8, kObdAccVPR, tObdUnsigned8, PI_Input_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA0C0, (252), NULL, kObdTypeInt16, kObdAccVPR, tObdInteger16, PI_Input_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA0C1, (252), NULL, kObdTypeInt16, kObdAccVPR, tObdInteger16, PI_Input_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA0C2, (252), NULL, kObdTypeInt16, kObdAccVPR, tObdInteger16, PI_Input_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA0C3, (252), NULL, kObdTypeInt16, kObdAccVPR, tObdInteger16, PI_Input_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA0C4, (252), NULL, kObdTypeInt16, kObdAccVPR, tObdInteger16, PI_Input_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA0C5, (252), NULL, kObdTypeInt16, kObdAccVPR, tObdInteger16, PI_Input_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA0C6, (252), NULL, kObdTypeInt16, kObdAccVPR, tObdInteger16, PI_Input_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA0C7, (252), NULL, kObdTypeInt16, kObdAccVPR, tObdInteger16, PI_Input_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA100, (252), NULL, kObdTypeUInt16, kObdAccVPR, tObdUnsigned16, PI_Input_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA101, (252), NULL, kObdTypeUInt16, kObdAccVPR, tObdUnsigned16, PI_Input_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA102, (252), NULL, kObdTypeUInt16, kObdAccVPR, tObdUnsigned16, PI_Input_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA103, (252), NULL, kObdTypeUInt16, kObdAccVPR, tObdUnsigned16, PI_Input_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA104, (252), NULL, kObdTypeUInt16, kObdAccVPR, tObdUnsigned16, PI_Input_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA105, (252), NULL, kObdTypeUInt16, kObdAccVPR, tObdUnsigned16, PI_Input_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA106, (252), NULL, kObdTypeUInt16, kObdAccVPR, tObdUnsigned16, PI_Input_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA107, (252), NULL, kObdTypeUInt16, kObdAccVPR, tObdUnsigned16, PI_Input_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA1C0, (252), NULL, kObdTypeInt32, kObdAccVPR, tObdInteger32, PI_Input_I32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA1C1, (252), NULL, kObdTypeInt32, kObdAccVPR, tObdInteger32, PI_Input_I32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA1C2, (252), NULL, kObdTypeInt32, kObdAccVPR, tObdInteger32, PI_Input_I32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA1C3, (252), NULL, kObdTypeInt32, kObdAccVPR, tObdInteger32, PI_Input_I32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA200, (252), NULL, kObdTypeUInt32, kObdAccVPR, tObdUnsigned32, PI_Input_U32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA201, (252), NULL, kObdTypeUInt32, kObdAccVPR, tObdUnsigned32, PI_Input_U32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA202, (252), NULL, kObdTypeUInt32, kObdAccVPR, tObdUnsigned32, PI_Input_U32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA203, (252), NULL, kObdTypeUInt32, kObdAccVPR, tObdUnsigned32, PI_Input_U32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA400, (252), NULL, kObdTypeInt64, kObdAccVPR, tObdInteger64, PI_Input_I64, 0x0000000000000000LL)
OBD_RAM_INDEX_RAM_VARARRAY (0xA401, (252), NULL, kObdTypeInt64, kObdAccVPR, tObdInteger64, PI_Input_I64, 0x0000000000000000LL)
OBD_RAM_INDEX_RAM_VARARRAY (0xA440, (252), NULL, kObdTypeUInt64, kObdAccVPR, tObdUnsigned64, PI_Input_U64, 0x0000000000000000LL)
OBD_RAM_INDEX_RAM_VARARRAY (0xA441, (252), NULL, kObdTypeUInt64, kObdAccVPR, tObdUnsigned64, PI_Input_U64, 0x0000000000000000LL)
// static output process image (from network point of view)
OBD_RAM_INDEX_RAM_VARARRAY (0xA480, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA481, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA482, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA483, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA484, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA485, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA486, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA487, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA488, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA489, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA48A, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA48B, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA48C, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA48D, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA48E, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA48F, (252), NULL, kObdTypeInt8, kObdAccVPRW, tObdInteger8, PI_Output_I8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C0, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C1, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C2, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C3, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C4, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C5, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C6, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C7, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C8, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4C9, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4CA, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4CB, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4CC, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4CD, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4CE, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA4CF, (252), NULL, kObdTypeUInt8, kObdAccVPRW, tObdUnsigned8, PI_Output_U8, 0x00)
OBD_RAM_INDEX_RAM_VARARRAY (0xA540, (252), NULL, kObdTypeInt16, kObdAccVPRW, tObdInteger16, PI_Output_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA541, (252), NULL, kObdTypeInt16, kObdAccVPRW, tObdInteger16, PI_Output_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA542, (252), NULL, kObdTypeInt16, kObdAccVPRW, tObdInteger16, PI_Output_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA543, (252), NULL, kObdTypeInt16, kObdAccVPRW, tObdInteger16, PI_Output_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA544, (252), NULL, kObdTypeInt16, kObdAccVPRW, tObdInteger16, PI_Output_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA545, (252), NULL, kObdTypeInt16, kObdAccVPRW, tObdInteger16, PI_Output_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA546, (252), NULL, kObdTypeInt16, kObdAccVPRW, tObdInteger16, PI_Output_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA547, (252), NULL, kObdTypeInt16, kObdAccVPRW, tObdInteger16, PI_Output_I16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA580, (252), NULL, kObdTypeUInt16, kObdAccVPRW, tObdUnsigned16, PI_Output_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA581, (252), NULL, kObdTypeUInt16, kObdAccVPRW, tObdUnsigned16, PI_Output_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA582, (252), NULL, kObdTypeUInt16, kObdAccVPRW, tObdUnsigned16, PI_Output_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA583, (252), NULL, kObdTypeUInt16, kObdAccVPRW, tObdUnsigned16, PI_Output_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA584, (252), NULL, kObdTypeUInt16, kObdAccVPRW, tObdUnsigned16, PI_Output_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA585, (252), NULL, kObdTypeUInt16, kObdAccVPRW, tObdUnsigned16, PI_Output_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA586, (252), NULL, kObdTypeUInt16, kObdAccVPRW, tObdUnsigned16, PI_Output_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA587, (252), NULL, kObdTypeUInt16, kObdAccVPRW, tObdUnsigned16, PI_Output_U16, 0x0000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA640, (252), NULL, kObdTypeInt32, kObdAccVPRW, tObdInteger32, PI_Output_I32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA641, (252), NULL, kObdTypeInt32, kObdAccVPRW, tObdInteger32, PI_Output_I32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA642, (252), NULL, kObdTypeInt32, kObdAccVPRW, tObdInteger32, PI_Output_I32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA643, (252), NULL, kObdTypeInt32, kObdAccVPRW, tObdInteger32, PI_Output_I32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA680, (252), NULL, kObdTypeUInt32, kObdAccVPRW, tObdUnsigned32, PI_Output_U32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA681, (252), NULL, kObdTypeUInt32, kObdAccVPRW, tObdUnsigned32, PI_Output_U32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA682, (252), NULL, kObdTypeUInt32, kObdAccVPRW, tObdUnsigned32, PI_Output_U32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA683, (252), NULL, kObdTypeUInt32, kObdAccVPRW, tObdUnsigned32, PI_Output_U32, 0x00000000)
OBD_RAM_INDEX_RAM_VARARRAY (0xA880, (252), NULL, kObdTypeInt64, kObdAccVPRW, tObdInteger64, PI_Output_I64, 0x0000000000000000LL)
OBD_RAM_INDEX_RAM_VARARRAY (0xA881, (252), NULL, kObdTypeInt64, kObdAccVPRW, tObdInteger64, PI_Output_I64, 0x0000000000000000LL)
OBD_RAM_INDEX_RAM_VARARRAY (0xA8C0, (252), NULL, kObdTypeUInt64, kObdAccVPRW, tObdUnsigned64, PI_Output_U64, 0x0000000000000000LL)
OBD_RAM_INDEX_RAM_VARARRAY (0xA8C1, (252), NULL, kObdTypeUInt64, kObdAccVPRW, tObdUnsigned64, PI_Output_U64, 0x0000000000000000LL)
OBD_END_PART ()
OBD_END ()
#define OBD_UNDEFINE_MACRO
#include <oplk/obdmacro.h>
#undef OBD_UNDEFINE_MACRO
| 61.815534 | 138 | 0.749018 |
3ca384b3735571bd56ee74863a45509f02c3c2ba | 8,876 | c | C | source/benchmark.c | Iskeletu/SAA | 38599f0bda62da2703299593e61baf1327081cd0 | [
"MIT"
] | 1 | 2021-12-27T17:25:21.000Z | 2021-12-27T17:25:21.000Z | source/benchmark.c | Iskeletu/SAA | 38599f0bda62da2703299593e61baf1327081cd0 | [
"MIT"
] | null | null | null | source/benchmark.c | Iskeletu/SAA | 38599f0bda62da2703299593e61baf1327081cd0 | [
"MIT"
] | null | null | null | #include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <time.h>
#include <windows.h>
#include <winbase.h>
#include <psapi.h>
//Includes the C implementation of the following sorting algorithms:
/*
- Bubble Sort
- Selection Sort
- Insertion Sort
- Shell Sort
- Heap Sort
- Merge Sort
- Quick Sort
- Counting Sort
*/
#include "sortingAlgorithms.h"
//Includes a vector generation function and a vector verification function.
//"vectorGenerator" Returns 1 if generation was successful or 0 if it failed to do so.
//"vectorVerifier" Returns 1 if the input vector is sorted or 0 if it is not.
#include "vectorFunctions.h"
//Converts data from memory counters into memory usage in megabytes.
double get_memory_used_MB()
{
PROCESS_MEMORY_COUNTERS info;
GetProcessMemoryInfo(GetCurrentProcess(), &info, sizeof(info));
return ((double)info.PeakWorkingSetSize/(1024*1024));
}
//Receives data from "benchmark" function and prints it to console.
void printResults(double cpu_time_used, double memory_used, int algorithm, int vector_size, int generation_type)
{
printf("------------------------------\n");
printf("Algorithm: ");
switch(algorithm)
{
case 1:
printf("Bubble Sort.\n");
break;
case 2:
printf("Selection Sort.\n");
break;
case 3:
printf("Insertion Sort.\n");
break;
case 4:
printf("Shell Sort.\n");
break;
case 5:
printf("Heap Sort.\n");
break;
case 6:
printf("Merge Sort.\n");
break;
case 7:
printf("Quick Sort.\n");
break;
case 8:
printf("Counting Sort.\n");
break;
default:
printf("Error!\n");
exit(3); //Means that the algorithm value is invalid.
}
printf("Vector Size: %d.\n", vector_size);
printf("Vector Generation Type: ");
switch(generation_type)
{
case 1:
printf("Ascending.\n");
break;
case 2:
printf("Descending.\n");
break;
case 3:
printf("Random.\n");
break;
default:
printf("Error!\n");
exit(4); //Means that the vector generation type is invalid.
}
printf("Runtime: %f Seconds.\n", cpu_time_used);
printf("Memory Usage: %f MB.\n", memory_used);
}
//Receives data from "benchmark" function and converts into a .dat file (BenchmarkResults.dat).
void saveResults(double cpu_time_used, double memory_used, int algorithm, int vector_size, int generation_type)
{
FILE *BenchmarkResults;
BenchmarkResults = fopen("Benchmark\\BenchmarkResults.dat", "a");
if(BenchmarkResults == NULL)
{
printf("Error!\n");
exit(2); //Means that the program has failed to create/open a .dat file to write results.
}
else
{
fprintf(BenchmarkResults, "Algorithm: ");
switch(algorithm)
{
case 1:
fprintf(BenchmarkResults, "Bubble Sort.\n");
break;
case 2:
fprintf(BenchmarkResults, "Selection Sort.\n");
break;
case 3:
fprintf(BenchmarkResults, "Insertion Sort.\n");
break;
case 4:
fprintf(BenchmarkResults, "Shell Sort.\n");
break;
case 5:
fprintf(BenchmarkResults, "Heap Sort.\n");
break;
case 6:
fprintf(BenchmarkResults, "Merge Sort.\n");
break;
case 7:
fprintf(BenchmarkResults, "Quick Sort.\n");
break;
case 8:
fprintf(BenchmarkResults, "Counting Sort.\n");
break;
default:
printf("Error!\n");
exit(3); //Means that the algorithm value is invalid.
}
fprintf(BenchmarkResults, "Vector Size: %d.\n", vector_size);
fprintf(BenchmarkResults, "Vector Generation Type: ");
switch(generation_type)
{
case 1:
fprintf(BenchmarkResults, "Ascending.\n");
break;
case 2:
fprintf(BenchmarkResults, "Descending.\n");
break;
case 3:
fprintf(BenchmarkResults, "Random.\n");
break;
default:
printf("Error!\n");
exit(4); //Means that the vector generation type is invalid.
}
fprintf(BenchmarkResults, "Runtime: %f Seconds.\n", cpu_time_used);
fprintf(BenchmarkResults, "Memory Usage: %f MB.\n\n\n\n", memory_used);
}
printf("Results saved.\n");
printf("------------------------------\n\n\n\n");
fclose(BenchmarkResults);
}
//Benchmark function monitors CPU runtime and memory usage of sorting algorithms.
//Receives a integer that indicates which sorting algorithm it should run.
//Returns 1 if benchmark was successful.
int benchmark(int algorithm)
{
//Algorithm types:
/*
1 - Bubble Sort
2 - Selection Sort
3 - Insertion Sort
4 - Shell Sort
5 - Heap Sort
6 - Merge Sort
7 - Quick Sort
8 - Counting Sort
*/
clock_t start_time, end_time;
double cpu_time_used, memory_used;
/*size_t peakSize;*/
int error;
int vector_size = 2000, generation_type = 1; //Standard benchmark, vector with 2000 integers and ascending number generation.
//Generation types:
/*
1 - Ascending.
2 - Descending.
3 - Random.
*/
//Runs benchmark until vector size reaches 128000 integers.
do
{
//Runs benchmark for every type of vector generation (ascending, descending, random).
do
{
//Vector Generation (not included in benchmark time/memory usage).
int* vector = (int*)malloc(vector_size * sizeof(int));
error = vectorGenerator(vector, vector_size, generation_type);
if(error == 0)
{
printf("Error!\n");
exit(1); //Means that the function "vectorGeneration" has failed to to fill the vector with integers.
}
//Benchmark start.
start_time = clock();
switch(algorithm)
{
case 1:
bubbleSort(vector, vector_size);
break;
case 2:
selectionSort(vector, vector_size);
break;
case 3:
insertionSort(vector, vector_size);
break;
case 4:
shellSort(vector, vector_size);
break;
case 5:
heapSort(vector, vector_size);
break;
case 6:
mergeSort(vector, vector_size);
break;
case 7:
quickSort(vector, vector_size);
break;
case 8:
countingSort(vector, vector_size);
break;
default:
exit(300); //Means that the algorithm is invalid.
}
//Benchmark end.
end_time = clock();
cpu_time_used = ((double) (end_time - start_time)) / CLOCKS_PER_SEC;
memory_used = get_memory_used_MB();
//Checks if vector if sorted:
error = vectorVerifier(vector, vector_size);
if(error == 0)
{
printf("Invalid Benchmark!\n");
exit(100); //Means that the benchmark is invalid because the vector is not sorted properly!
}
free(vector);
//Shows status on console:
printResults(cpu_time_used, memory_used, algorithm, vector_size, generation_type);
//Saves results in text file:
saveResults(cpu_time_used, memory_used, algorithm, vector_size, generation_type);
generation_type++;
} while(generation_type <= 3);
vector_size *= 2;
generation_type = 1;
} while(vector_size <= 128000);
return 1;
}
| 27.65109 | 130 | 0.506647 |
29ade732ff98cfc522efbce3983b131bf0ff8ca5 | 550 | h | C | app/src/main/cpp/ndkcamera/public/Frame.h | kkroid/NDKCameraFaceRec | 5bce54a9bb7a3a6b1152ad1a23520e55b165c85a | [
"Apache-2.0"
] | null | null | null | app/src/main/cpp/ndkcamera/public/Frame.h | kkroid/NDKCameraFaceRec | 5bce54a9bb7a3a6b1152ad1a23520e55b165c85a | [
"Apache-2.0"
] | null | null | null | app/src/main/cpp/ndkcamera/public/Frame.h | kkroid/NDKCameraFaceRec | 5bce54a9bb7a3a6b1152ad1a23520e55b165c85a | [
"Apache-2.0"
] | null | null | null | #ifndef FRAME_H
#define FRAME_H
#include <stdint.h>
#include "native_debug.h"
class Frame {
public:
uint8_t *data;
int width = 0;
int height = 0;
int len = 0;
Frame(uint8_t *data, int width, int height, int len)
: data(data), width(width), height(height), len(len) {
}
~Frame() {
// LOGI("~Frame");
delete data;
}
Frame *copy() {
auto *copy = new uint8_t[len];
memcpy(copy, data, len);
return new Frame(copy, width, height, len);
}
};
#endif //FRAME_H
| 17.741935 | 66 | 0.550909 |
09993e4ee3436e6c81732b403134cb33d8edff90 | 813 | h | C | YLCleaner/Xcode-RuntimeHeaders/IDESourceEditor/IDEDiagnosticAnnotation.h | liyong03/YLCleaner | 7453187a884c8e783bda1af82cbbb51655ec41c6 | [
"MIT"
] | 1 | 2019-02-15T02:16:35.000Z | 2019-02-15T02:16:35.000Z | YLCleaner/Xcode-RuntimeHeaders/IDESourceEditor/IDEDiagnosticAnnotation.h | liyong03/YLCleaner | 7453187a884c8e783bda1af82cbbb51655ec41c6 | [
"MIT"
] | null | null | null | YLCleaner/Xcode-RuntimeHeaders/IDESourceEditor/IDEDiagnosticAnnotation.h | liyong03/YLCleaner | 7453187a884c8e783bda1af82cbbb51655ec41c6 | [
"MIT"
] | null | null | null | /*
* Generated by class-dump 3.3.4 (64 bit).
*
* class-dump is Copyright (C) 1997-1998, 2000-2001, 2004-2011 by Steve Nygard.
*/
#import "IDEBuildIssueAnnotation.h"
@class IDEDiagnosticActivityLogMessage;
@interface IDEDiagnosticAnnotation : IDEBuildIssueAnnotation
{
IDEDiagnosticActivityLogMessage *_diagnosticItem;
}
+ (id)sidebarFixItIcon;
+ (unsigned long long)severity;
+ (double)precedence;
@property(retain, nonatomic) IDEDiagnosticActivityLogMessage *diagnosticItem; // @synthesize diagnosticItem=_diagnosticItem;
- (void).cxx_destruct;
- (id)annotationDisplayDescription;
- (void)drawHighlightedRangesInRect:(struct CGRect)arg1 textView:(id)arg2;
- (BOOL)drawsHighlightedRanges;
- (void)resolveLocationIfNeededForLayoutManager:(id)arg1;
- (id)initWithDiagnosticItem:(id)arg1;
@end
| 28.034483 | 124 | 0.778598 |
5d5941d1b3033af10c0ba196f2fcd52948ec3413 | 1,119 | h | C | src/cmd/aoe.h | szhilkin/opensrx-7.0 | 15482b597c5f4991464150ff01383e7eb2d9675c | [
"BSD-2-Clause"
] | null | null | null | src/cmd/aoe.h | szhilkin/opensrx-7.0 | 15482b597c5f4991464150ff01383e7eb2d9675c | [
"BSD-2-Clause"
] | null | null | null | src/cmd/aoe.h | szhilkin/opensrx-7.0 | 15482b597c5f4991464150ff01383e7eb2d9675c | [
"BSD-2-Clause"
] | null | null | null |
#define SS2TARG(sh, sl) ((sh)<<16 | (sl))
#define TARG2SH(targ) ((targ)>>16)
#define TARG2SL(targ) ((targ) & 0xff)
enum {
// Ndevs = 512,
Ndevs = 4096,
Nconf = 1024,
Niomax = 8*1024,
Nmodel = 16,
Nserial = 20,
Nfw = 8,
};
typedef struct Eth Eth;
typedef struct Aoepath Aoepath;
typedef struct Aoedev Aoedev;
struct Eth {
int fd;
char *name;
uchar ea[6];
ulong iomax;
};
struct Aoepath {
Eth *eth;
uchar dst[6];
};
struct Aoedev {
uchar ident[512];
char model[Nmodel+1];
char serial[Nserial+1];
char firmware[Nfw+1];
uvlong length;
ulong targ; /* sh << 16 | sl */
uchar conf[Nconf];
int nconf;
int wnd; /* max outstanding command window */
int iomax; /* max data per ata command */
Aoepath; /* later, an array */
};
#pragma varargck type "T" ulong
#pragma varargck type "S" uvlong
int aoeinit(int, char **);
void aoediscover(void);
long aoeread(Aoedev *, void *, long, uvlong);
long aoewrite(Aoedev *, void *, long, uvlong);
long aoeio(Aoedev *, void *, long, uvlong, int);
Aoedev *aoetarg2dev(ulong);
void aoestop(void);
Aoedev devs[Ndevs];
int ndevs;
int aoetrace;
int aoerexmit;
| 18.048387 | 48 | 0.660411 |
79676b0ec7226561cbb56ba92d8715ffc7ea42cd | 1,522 | h | C | arduino/opencr_develop/opencr_fw_template/opencr_fw_arduino/src/arduino/libraries/OP3/examples/opencr_op3/dxl_hw_op3.h | yemiaobing/opencr | 8700d276f60cb72db4f1ed85deff26a5f96ce7b6 | [
"Apache-2.0"
] | 3 | 2019-12-06T08:28:21.000Z | 2021-05-28T22:56:22.000Z | arduino/opencr_develop/opencr_fw_template/opencr_fw_arduino/src/arduino/libraries/OP3/examples/opencr_op3/dxl_hw_op3.h | yemiaobing/opencr | 8700d276f60cb72db4f1ed85deff26a5f96ce7b6 | [
"Apache-2.0"
] | null | null | null | arduino/opencr_develop/opencr_fw_template/opencr_fw_arduino/src/arduino/libraries/OP3/examples/opencr_op3/dxl_hw_op3.h | yemiaobing/opencr | 8700d276f60cb72db4f1ed85deff26a5f96ce7b6 | [
"Apache-2.0"
] | 1 | 2019-02-03T04:49:15.000Z | 2019-02-03T04:49:15.000Z | /*
* dxl_hw_op3.h
*
* dynamixel hardware op3
*
* Created on: 2016. 10. 21.
* Author: Baram
*/
#ifndef DXL_HW_OP3_H
#define DXL_HW_OP3_H
#include "dxl_def.h"
#ifdef __cplusplus
extern "C" {
#endif
#ifdef __cplusplus
}
#endif
#define PIN_LED_R 50
#define PIN_LED_G 51
#define PIN_LED_B 52
#define PIN_LED_1 53
#define PIN_LED_2 54
#define PIN_LED_3 55
#define PIN_BUTTON_S1 56
#define PIN_BUTTON_S2 57
#define PIN_BUTTON_S3 58
#define PIN_BUTTON_S4 59
void dxl_hw_op3_init(void);
void dxl_hw_op3_update(void);
// button
uint8_t dxl_hw_op3_button_read(uint8_t pin_num);
// led
void dxl_hw_op3_led_set(uint8_t pin_num, uint8_t value);
void dxl_hw_op3_led_pwm(uint8_t pin_num, uint8_t value);
// voltage
uint8_t dxl_hw_op3_voltage_read(void);
// acc
int16_t dxl_hw_op3_gyro_get_x(void);
int16_t dxl_hw_op3_gyro_get_y(void);
int16_t dxl_hw_op3_gyro_get_z(void);
int16_t dxl_hw_op3_acc_get_x(void);
int16_t dxl_hw_op3_acc_get_y(void);
int16_t dxl_hw_op3_acc_get_z(void);
int16_t dxl_hw_op3_get_rpy(uint8_t rpy);
void dxl_hw_op3_start_cali(uint8_t index);
int16_t dxl_hw_op3_get_cali(uint8_t index);
void dxl_hw_op3_clear_cali(uint8_t index);
void dxl_hw_op3_set_offset(uint8_t index, float offset_data);
float dxl_hw_op3_get_offset(uint8_t index);
void dxl_hw_op3_start_gyro_cali(void);
bool dxl_hw_op3_get_gyro_cali_done(void);
#endif
| 19.025 | 63 | 0.714849 |
f91947cfb238b18a2cbd70ca02dca170e58a9d92 | 5,584 | c | C | kernel/src/main.c | lambda-11235/riscv-console | 186ea56b32211ce8566fa13e8a3d6c20d27be4bb | [
"BSD-3-Clause"
] | null | null | null | kernel/src/main.c | lambda-11235/riscv-console | 186ea56b32211ce8566fa13e8a3d6c20d27be4bb | [
"BSD-3-Clause"
] | null | null | null | kernel/src/main.c | lambda-11235/riscv-console | 186ea56b32211ce8566fa13e8a3d6c20d27be4bb | [
"BSD-3-Clause"
] | null | null | null | #include <stdlib.h>
#include <stdint.h>
#include <stdio.h>
#include "alloc.h"
#include "context.h"
#include "fault.h"
#include "input.h"
#include "registers.h"
#include "signal.h"
#include "time.h"
#include "thread.h"
#include "video.h"
#define OS_VERSION 4
int run_cartridge(void);
volatile int start_program = 0;
volatile int program_running = 0;
volatile uint32_t c_mcause;
/* Current running context when not servicing an interrupt.
* Is saved on entering the interrupt handler, and restored after.
* Context switching is done by reassigning it.
*/
volatile struct context current_ctx;
// Contains stack and global pointer for interrupt handler.
volatile struct context interrupt_ctx;
int main() {
char buf[256];
uint32_t ret;
mem_init();
time_init();
thread_init();
video_write_text(0, 0, "Please insert cartridge");
while(1) {
if (start_program) {
start_program = 0;
ret = run_cartridge();
// TODO: Cleanup
video_set_mode(TEXT_MODE);
video_clear_text();
video_write_text(0, 0, "Program exited with");
sprintf(buf, "%lX", ret);
video_write_text(4, 1, buf);
}
}
while(1) {}
return 0;
}
void c_interrupt_handler(void){
switch (c_mcause) {
case 0x80000007: // Timer Interrupt
time_on_timeout();
thread_on_timeout();
signal_raise(1);
break;
case 0xB: // ECALL
fault("Syscall handled improperly as asynchronous interrupt");
break;
default:
// Unrecognized interrupt
break;
}
if (INTERRUPT_PENDING & 1) {
if (program_running) {
// TODO: cleanup
fault("Cartridge removed, cleanup not implemented");
}
if (CARTRIDGE & 0x1)
start_program = 1;
signal_raise(2);
// Clear interrupt
INTERRUPT_PENDING &= 1;
}
if (INTERRUPT_PENDING & 2) {
// Video interrupt
signal_raise(3);
// Clear interrupt
INTERRUPT_PENDING &= 2;
}
if (INTERRUPT_PENDING & 4) {
// CMD button press
signal_raise(4);
// Clear interrupt
INTERRUPT_PENDING &= 4;
}
}
void c_syscall_handler(void) {
uint32_t a0 = current_ctx.a0;
uint32_t a1 = current_ctx.a1;
uint32_t a2 = current_ctx.a2;
uint32_t a3 = current_ctx.a3;
//uint32_t a4 = current_ctx.a4;
//uint32_t a5 = current_ctx.a5;
uint32_t ret = 0;
char buf[256];
switch (a0) {
case 0:
ret = OS_VERSION;
break;
case 1:
fault((const char*) a1);
break;
case 2:
ret = (uint32_t) mem_alloc((size_t) a1);
break;
case 3:
mem_free((void*) a1);
break;
case 4:
ret = (uint32_t) mem_realloc((void*) a1, (size_t) a2);
break;
case 5:
ret = time_us((uint64_t*) a1);
break;
case 6:
ret = set_timeout_us((uint64_t*) a1);
break;
// Input
case 128:
ret = input_ctlr_poll((struct input_ctlr*) a1);
break;
// Video
case 256:
ret = video_set_mode((enum video_mode) a1);
break;
case 257:
ret = video_clear_text();
break;
case 258:
ret = video_write_text(a1, a2, (char*) a3);
break;
case 259:
ret = video_write_bg_palette_data(a1, (uint32_t*) a2);
break;
case 260:
ret = video_write_sprite_palette_data(a1, (uint32_t*) a2);
break;
case 261:
ret = video_write_bg_data(a1, (uint8_t*) a2);
break;
case 262:
ret = video_write_bg_control(a1, (struct bg_control*) a2);
break;
case 263:
ret = video_write_ls_data(a1, (uint8_t*) a2);
break;
case 264:
ret = video_write_ls_control(a1, (struct ls_control*) a2);
break;
case 265:
ret = video_write_ss_data(a1, (uint8_t*) a2);
break;
case 266:
ret = video_write_ss_control(a1, (struct ss_control*) a2);
break;
case 384:
ret = thread_create((int (*)(void*)) a1, (void*) a2);
break;
case 385:
ret = thread_yield();
break;
case 386:
ret = thread_join(a1, (int*) a2);
break;
case 387:
thread_exit(a1);
break;
case 388:
ret = thread_set_preemption(a1);
break;
case 389:
ret = thread_sleep_us((uint64_t*) a1);
break;
case 404:
ret = (uint32_t) mutex_new();
break;
case 405:
ret = mutex_lock((struct mutex_t*) a1);
break;
case 406:
ret = mutex_unlock((struct mutex_t*) a1);
break;
case 407:
ret = mutex_free((struct mutex_t*) a1);
break;
case 424:
ret = (uint32_t) condvar_new();
break;
case 425:
ret = condvar_wait((struct condvar_t*) a1,
(struct mutex_t*) a2);
break;
case 426:
ret = condvar_signal((struct condvar_t*) a1);
break;
case 427:
ret = condvar_broadcast((struct condvar_t*) a1);
break;
case 428:
ret = condvar_free((struct condvar_t*) a1);
break;
// Signals
case 512:
ret = signal_register(a1, (void (*)(int)) a2);
break;
case 513:
ret = signal_raise(a1);
break;
default:
sprintf(buf, "Got unknown syscall %lu", a0);
fault(buf);
}
current_ctx.a0 = ret;
current_ctx.mepc += 4;
}
| 22.15873 | 70 | 0.55659 |
f96dd00f36e920927079ff2cdee5a7b0e265c36b | 1,695 | h | C | src/auth/SecurityDatabase/LegacyClient.h | aafemt/firebird | 6f5617524996a8ef6eb721cc782d7fa3513b7d3b | [
"Condor-1.1"
] | 6 | 2015-02-07T05:12:45.000Z | 2015-09-29T06:55:45.000Z | src/auth/SecurityDatabase/LegacyClient.h | mistmist/firebird | d31495be14daa8bca46c879bdaf0e30194abd891 | [
"Condor-1.1"
] | 2 | 2015-05-26T14:29:00.000Z | 2016-02-15T15:30:54.000Z | src/auth/SecurityDatabase/LegacyClient.h | mistmist/firebird | d31495be14daa8bca46c879bdaf0e30194abd891 | [
"Condor-1.1"
] | 8 | 2015-01-24T05:43:29.000Z | 2016-01-16T07:59:03.000Z | /*
* PROGRAM: Firebird authentication
* MODULE: LegacyClient.h
* DESCRIPTION: Performs legacy actions on DPB at client side.
*
* The contents of this file are subject to the Initial
* Developer's Public License Version 1.0 (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.ibphoenix.com/main.nfs?a=ibphoenix&page=ibp_idpl.
*
* Software distributed under the License is distributed AS IS,
* WITHOUT WARRANTY OF ANY KIND, either express or implied.
* See the License for the specific language governing rights
* and limitations under the License.
*
* The Original Code was created by Alex Peshkov
* for the Firebird Open Source RDBMS project.
*
* Copyright (c) 2010 Alex Peshkov <peshkoff at mail.ru>
* and all contributors signed below.
*
* All Rights Reserved.
* Contributor(s): ______________________________________.
*/
#ifndef AUTH_LEGACY_CLIENT_H
#define AUTH_LEGACY_CLIENT_H
#include "firebird/Interface.h"
#include "../common/classes/ImplementHelper.h"
namespace Auth {
// Required to stop analyzing rest of plugins before first roundtrip to server
// if legacy login is present in DPB
class SecurityDatabaseClient FB_FINAL :
public Firebird::StdPlugin<Firebird::IClientImpl<SecurityDatabaseClient, Firebird::CheckStatusWrapper> >
{
public:
explicit SecurityDatabaseClient(Firebird::IPluginConfig*)
{
}
// IClient implementation
int authenticate(Firebird::CheckStatusWrapper*, Firebird::IClientBlock* data);
int release();
};
void registerLegacyClient(Firebird::IPluginManager* iPlugin);
} // namespace Auth
#endif // AUTH_LEGACY_CLIENT_H
| 30.267857 | 105 | 0.758702 |
4427432be5cfe64d7c406ada9b30d20e6fcaa67f | 286 | h | C | DemoCollections/DemoCollections/HLPresentEffectViewController.h | heron-newland/allDemos | 07c572617d053d74df06d6de1b914147ef0d4558 | [
"MIT"
] | 1 | 2016-08-21T00:01:14.000Z | 2016-08-21T00:01:14.000Z | DemoCollections/DemoCollections/HLPresentEffectViewController.h | heron-newland/allDemos | 07c572617d053d74df06d6de1b914147ef0d4558 | [
"MIT"
] | null | null | null | DemoCollections/DemoCollections/HLPresentEffectViewController.h | heron-newland/allDemos | 07c572617d053d74df06d6de1b914147ef0d4558 | [
"MIT"
] | null | null | null | //
// HLPresentEffectViewController.h
// DemoCollections
//
// Created by 李白 on 2021/1/6.
// Copyright © 2021 helong. All rights reserved.
//
#import <UIKit/UIKit.h>
NS_ASSUME_NONNULL_BEGIN
@interface HLPresentEffectViewController : UIViewController
@end
NS_ASSUME_NONNULL_END
| 15.888889 | 59 | 0.762238 |
db494f682545ddb0b267fff9a80750e453a80bd1 | 5,749 | h | C | src/libYARP_dev/sciTo56f807/linux/yarp/YARPSciDeviceDriver.h | robotology-legacy/yarp1 | 21434f5b776edea201b39a9644552dca59339dbc | [
"Artistic-1.0-Perl"
] | null | null | null | src/libYARP_dev/sciTo56f807/linux/yarp/YARPSciDeviceDriver.h | robotology-legacy/yarp1 | 21434f5b776edea201b39a9644552dca59339dbc | [
"Artistic-1.0-Perl"
] | null | null | null | src/libYARP_dev/sciTo56f807/linux/yarp/YARPSciDeviceDriver.h | robotology-legacy/yarp1 | 21434f5b776edea201b39a9644552dca59339dbc | [
"Artistic-1.0-Perl"
] | null | null | null | /////////////////////////////////////////////////////////////////////////
/// ///
/// YARP - Yet Another Robotic Platform (c) 2001-2003 ///
/// ///
/// #nat# ///
/// ///
/// "Licensed under the Academic Free License Version 1.0" ///
/// ///
/// The complete license description is contained in the ///
/// licence.template file included in this distribution in ///
/// $YARP_ROOT/conf. Please refer to this file for complete ///
/// information about the licensing of YARP ///
/// ///
/// DISCLAIMERS: LICENSOR WARRANTS THAT THE COPYRIGHT IN AND TO THE ///
/// SOFTWARE IS OWNED BY THE LICENSOR OR THAT THE SOFTWARE IS ///
/// DISTRIBUTED BY LICENSOR UNDER A VALID CURRENT LICENSE. EXCEPT AS ///
/// EXPRESSLY STATED IN THE IMMEDIATELY PRECEDING SENTENCE, THE ///
/// SOFTWARE IS PROVIDED BY THE LICENSOR, CONTRIBUTORS AND COPYRIGHT ///
/// OWNERS "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 NON-INFRINGEMENT. IN NO ///
/// EVENT SHALL THE LICENSOR, CONTRIBUTORS OR COPYRIGHT OWNERS 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. ///
/// ///
/////////////////////////////////////////////////////////////////////////
///
/// $Id: YARPSciDeviceDriver.h,v 1.13 2005-04-20 20:45:48 natta Exp $
///
///
#ifndef __YARPSciDeviceDriverh__
#define __YARPSciDeviceDriverh__
#include <yarp/YARPConfig.h>
#include <yarp/YARPDeviceDriver.h>
#include <yarp/YARPControlBoardUtils.h>
#include <yarp/YARPSemaphore.h>
#include <yarp/YARPSerialProtocol.h>
/**
* \file YARPSciDeviceDriver.h
* class for interfacing with the value can device driver.
*/
const char __defaultPortName[] = "/dev/ttyS0";
struct SciOpenParameters
{
/**
* Constructor.
*/
SciOpenParameters (const char *portName=NULL)
{
// leave it empty for now
if (portName!=NULL)
strcpy(_portname, portName);
else
strcpy(_portname, __defaultPortName);
}
char _portname[80];
int _njoints;
};
/**
* The sci device driver.
*/
class YARPSciDeviceDriver :
public YARPDeviceDriver<YARPNullSemaphore, YARPSciDeviceDriver >
{
private:
YARPSciDeviceDriver (const YARPSciDeviceDriver &);
void operator=(const YARPSciDeviceDriver &);
public:
/**
* Constructor.
*/
YARPSciDeviceDriver ();
/**
* Destructor.
*/
virtual ~YARPSciDeviceDriver ();
/**
* Opens the device driver.
* @param d is the pointer to the parameter structure which is expected to be
* of type SciCanOpenParameters.
* @return YARP_OK on success.
*/
virtual int open(void *d);
/**
* Closes the device driver.
* @return YARP_OK on success.
*/
virtual int close(void);
public: //later private:
int getPosition(void *cmd);
int setPosition(void *cmd);
int setPositionMode(void *cmd);
int setForceMode(void *cmd);
int getPositions(void *cmd);
int getSpeeds(void *cmd);
int getAccelerations(void *cmd);
int getSpeed(void *cmd);
int getPWM(void *cmd);
int getPWMs(void *cmd);
int getTorques(void *cmd);
int getTorque(void *cmd);
int readAnalog(void *cmd);
int servoHere(void *cmd);
int getPIDError(void *cmd);
int relativeMotion(void *cmd);
/*
int getRefPosition (void *cmd);
int getRefPositions(void *cmd);
int setPosition(void *cmd);
int setPositions(void *cmd);
int getError(void *cmd);
int setSpeed(void *cmd);
int setSpeeds(void *cmd);
int getRefSpeeds(void *cmd);
int setAcceleration(void *cmd);
int setAccelerations(void *cmd);
int getRefAccelerations(void *cmd);
int setOffset(void *cmd);
int setOffsets(void *cmd);
int setPid(void *cmd);
int getPid(void *cmd);
int setIntegratorLimit(void *cmd);
int setIntegratorLimits(void *cmd);
int definePosition(void *cmd);
int definePositions(void *cmd);
int enableAmp(void *cmd);
int disableAmp(void *cmd);
int controllerIdle(void *cmd);
int controllerRun(void *cmd);
int velocityMove(void *cmd);
int setCommand(void *cmd);
int setCommands(void *cmd);
int readBootMemory(void *cmd);
int writeBootMemory(void *cmd);
int setSwPositiveLimit(void *cmd);
int setSwNegativeLimit(void *cmd);
int getSwPositiveLimit(void *cmd);
int getSwNegativeLimit(void *cmd);
int setTorqueLimit (void *cmd);
int setTorqueLimits (void *cmd);
int getTorqueLimit (void *cmd);
int getTorqueLimits (void *cmd);
int getErrorStatus (void *cmd);
int checkMotionDone (void *cmd);
int setDebugMessageFilter (void *cmd);
int setDebugPrintFunction (void *cmd);
*/
/**
* Helpers to write/read from/to the serial port
*/
// LATER: inline
int _readUWord(char msg, char joint, int &value);
int _readSWord(char msg, char joint, int &value);
int _readU16Vector(char msg, double *v, int n);
int _readS16Vector(char msg, double *v, int n);
int _writeWord(char msg, char joint, int value);
int _writeWord(char msg, char joint);
int _writeWord(char msg);
int _readPWMGroup(char msg, double *v, int n);
void readDebugger();
protected:
YARPSemaphore _mutex;
SerialProtocol _serialPort;
double *_tmpDouble;
int _nj;
};
#endif
| 30.099476 | 78 | 0.618542 |
d547dd058da973579649d0a3523fa2f4e7a4ebfd | 760 | h | C | MMOCoreORB/src/server/zone/objects/creature/events/RespawnCreatureTask.h | V-Fib/FlurryClone | 40e0ca7245ec31b3815eb6459329fd9e70f88936 | [
"Zlib",
"OpenSSL"
] | 18 | 2017-02-09T15:36:05.000Z | 2021-12-21T04:22:15.000Z | MMOCoreORB/src/server/zone/objects/creature/events/RespawnCreatureTask.h | V-Fib/FlurryClone | 40e0ca7245ec31b3815eb6459329fd9e70f88936 | [
"Zlib",
"OpenSSL"
] | 61 | 2016-12-30T21:51:10.000Z | 2021-12-10T20:25:56.000Z | MMOCoreORB/src/server/zone/objects/creature/events/RespawnCreatureTask.h | V-Fib/FlurryClone | 40e0ca7245ec31b3815eb6459329fd9e70f88936 | [
"Zlib",
"OpenSSL"
] | 71 | 2017-01-01T05:34:38.000Z | 2022-03-29T01:04:00.000Z | /*
* RespawnCreatureTask.h
*
* Created on: 03/08/2010
* Author: victor
*/
#ifndef RESPAWNCREATURETASK_H_
#define RESPAWNCREATURETASK_H_
#include "server/zone/objects/creature/ai/AiAgent.h"
#include "server/zone/Zone.h"
class RespawnCreatureTask : public Task {
ManagedReference<AiAgent*> creature;
Zone* zone;
int level;
public:
RespawnCreatureTask(AiAgent* cr, Zone* zn, int level) {
creature = cr;
zone = zn;
this->level = level;
setCustomTaskQueue(zone->getZoneName());
}
void run() {
Locker locker(creature);
creature->respawn(zone, level);
//creature->printReferenceHolders();
/*PatrolPoint* homeLocation = creature->getHomeLocation();
if (homeLocation->getPosit)*/
}
};
#endif /* RESPAWNCREATURETASK_H_ */
| 17.674419 | 60 | 0.705263 |
9c74caa78a0dfdc2406ca4a151e70bba085ca0e5 | 464 | h | C | ARC/ARC/ARC.h | saiasta/ARC | 39aee87d102ad7ad28069f3c58f3f60ed93708e1 | [
"MIT"
] | 3 | 2019-09-27T06:14:27.000Z | 2019-11-20T18:12:02.000Z | ARC/ARC/ARC.h | saiasta/ARC | 39aee87d102ad7ad28069f3c58f3f60ed93708e1 | [
"MIT"
] | null | null | null | ARC/ARC/ARC.h | saiasta/ARC | 39aee87d102ad7ad28069f3c58f3f60ed93708e1 | [
"MIT"
] | null | null | null | //
// ARC.h
// ARC
//
// Created by Pawan Kumar on 25/09/19.
// Copyright © 2019 Pawan Kumar. All rights reserved.
//
#import <Foundation/Foundation.h>
//! Project version number for ARC.
FOUNDATION_EXPORT double ARCVersionNumber;
//! Project version string for ARC.
FOUNDATION_EXPORT const unsigned char ARCVersionString[];
// In this header, you should import all the public headers of your framework using statements like #import <ARC/PublicHeader.h>
| 23.2 | 128 | 0.741379 |
80cec60ddf0a26ec91d71e79cf8ddd0ee206818f | 2,933 | c | C | src/path.c | mguerrea/lem_in | cdd3109d79f7a9b5c611daec91a0f61461c76147 | [
"MIT"
] | 1 | 2020-11-27T17:14:25.000Z | 2020-11-27T17:14:25.000Z | src/path.c | mguerrea/lem_in | cdd3109d79f7a9b5c611daec91a0f61461c76147 | [
"MIT"
] | null | null | null | src/path.c | mguerrea/lem_in | cdd3109d79f7a9b5c611daec91a0f61461c76147 | [
"MIT"
] | null | null | null | /* ************************************************************************** */
/* */
/* ::: :::::::: */
/* path.c :+: :+: :+: */
/* +:+ +:+ +:+ */
/* By: mguerrea <mguerrea@student.42.fr> +#+ +:+ +#+ */
/* +#+#+#+#+#+ +#+ */
/* Created: 2020/01/25 14:06:26 by mguerrea #+# #+# */
/* Updated: 2020/02/19 12:48:01 by mguerrea ### ########.fr */
/* */
/* ************************************************************************** */
#include "lem_in.h"
void actualize_paths(int **paths, t_lem_in lem_in, int next_ant)
{
int i;
int res;
int lines;
i = 1;
lines = lem_in.ant_nbr - next_ant + tab_len(paths[0]);
while (paths[i])
{
res = (float)(lem_in.ant_nbr - next_ant) / (i + 1) + tab_len(paths[i]);
if (res <= lines + 1)
lines = res;
else
break ;
i++;
}
while (paths[i] && paths[i][0] == lem_in.start)
{
tab_cpy(paths[i], &(paths[i][1]));
i++;
}
}
int **maximize_flux(int **paths, t_lem_in lem_in)
{
int i;
int res;
int lines;
i = 1;
lines = lem_in.ant_nbr + tab_len(paths[0]);
while (paths[i])
{
res = lem_in.ant_nbr / (i + 1) + tab_len(paths[i]);
res += (lem_in.ant_nbr % (i + 1) != 0);
if (res <= lines)
lines = res;
else
break ;
i++;
}
while (paths[i])
{
free(paths[i]);
paths[i] = NULL;
i++;
}
return (paths);
}
void reset_dist(t_lem_in lem_in)
{
int i;
i = 0;
while (lem_in.rooms[i].name)
{
if (lem_in.rooms[i].dist != -2)
lem_in.rooms[i].dist = -1;
i++;
}
}
int *find_shortest(t_lem_in lem_in)
{
t_node *tmp;
int *path;
int i;
int dist;
tmp = lem_in.rooms[lem_in.start].adjs;
if (!(path = malloc(sizeof(int) * (lem_in.rooms[lem_in.start].dist + 2))))
return (NULL);
i = 1;
path[0] = lem_in.start;
dist = lem_in.rooms[lem_in.start].dist;
while (dist != 0)
{
while (lem_in.rooms[tmp->id].dist >= dist
|| lem_in.rooms[tmp->id].dist == -2)
tmp = tmp->nxt;
path[i] = tmp->id;
i++;
dist = lem_in.rooms[tmp->id].dist;
lem_in.rooms[tmp->id].dist = -2;
tmp = lem_in.rooms[tmp->id].adjs;
}
path[i] = -1;
return (path);
}
int **find_paths(t_lem_in lem_in)
{
int **paths;
int *shortest;
int max;
int i;
max = nodes_len(lem_in.rooms[lem_in.start].adjs);
if (!(paths = malloc(sizeof(int *) * (max + 1))))
return (NULL);
i = 0;
while (i < max)
{
reset_dist(lem_in);
bfs(lem_in);
if (lem_in.rooms[lem_in.start].dist == -1)
break ;
shortest = find_shortest(lem_in);
paths[i] = shortest;
i++;
}
paths[i] = NULL;
return (paths);
}
| 22.389313 | 80 | 0.439482 |
d5e67fbc8dad577e3138905db52302cdeb61ecfa | 659 | h | C | gluecodium/src/test/resources/smoke/skip/output/cbridge/include/smoke/cbridge_EnableIfSkipped.h | hiteshbedre/gluecodium | 262d0d5bd901c2292509bb83d6b877f4adc6c123 | [
"Apache-2.0"
] | 138 | 2019-12-11T13:16:52.000Z | 2022-03-28T01:24:21.000Z | gluecodium/src/test/resources/smoke/skip/output/cbridge/include/smoke/cbridge_EnableIfSkipped.h | hiteshbedre/gluecodium | 262d0d5bd901c2292509bb83d6b877f4adc6c123 | [
"Apache-2.0"
] | 310 | 2020-01-14T11:46:26.000Z | 2022-03-31T15:05:40.000Z | gluecodium/src/test/resources/smoke/skip/output/cbridge/include/smoke/cbridge_EnableIfSkipped.h | heremaps/gluecodium | 2d69e3e00cae511efe852556c8019eb378a45136 | [
"Apache-2.0"
] | 10 | 2019-12-11T11:46:16.000Z | 2021-11-02T10:41:59.000Z | //
//
#pragma once
#ifdef __cplusplus
extern "C" {
#endif
#include "cbridge/include/BaseHandle.h"
#include "cbridge/include/Export.h"
_GLUECODIUM_C_EXPORT void smoke_EnableIfSkipped_release_handle(_baseRef handle);
_GLUECODIUM_C_EXPORT _baseRef smoke_EnableIfSkipped_copy_handle(_baseRef handle);
_GLUECODIUM_C_EXPORT const void* smoke_EnableIfSkipped_get_swift_object_from_wrapper_cache(_baseRef handle);
_GLUECODIUM_C_EXPORT void smoke_EnableIfSkipped_cache_swift_object_wrapper(_baseRef handle, const void* swift_pointer);
_GLUECODIUM_C_EXPORT void smoke_EnableIfSkipped_remove_swift_object_from_wrapper_cache(_baseRef handle);
#ifdef __cplusplus
}
#endif
| 38.764706 | 119 | 0.871017 |
70b0576567fd3d7bd85e22d0017212bfd747f270 | 2,686 | h | C | OpenGL/ParticleSystem.h | CyberPlaton/OpenGL | 79afbb1356a2bdebfa4b3f11197c6fe7dd568a19 | [
"MIT"
] | null | null | null | OpenGL/ParticleSystem.h | CyberPlaton/OpenGL | 79afbb1356a2bdebfa4b3f11197c6fe7dd568a19 | [
"MIT"
] | null | null | null | OpenGL/ParticleSystem.h | CyberPlaton/OpenGL | 79afbb1356a2bdebfa4b3f11197c6fe7dd568a19 | [
"MIT"
] | null | null | null | #pragma once
#include<memory>
#include<string>
#include<vector>
#include<utility>
#include"Sprite.h"
#include <random>
#include<glm/gtx/quaternion.hpp>
#include"yaml-cpp/yaml.h"
float common_lerp(float x, float y, float t);
class Random
{
public:
static void Init()
{
s_RandomEngine.seed(std::random_device()());
}
static float Float()
{
return (float)s_Distribution(s_RandomEngine) / (float)std::numeric_limits<uint32_t>::max();
}
private:
static std::mt19937 s_RandomEngine;
static std::uniform_int_distribution<std::mt19937::result_type> s_Distribution;
};
struct ParticleData {
glm::vec2 m_Position, m_Velocity, m_VelocityVariation;
glm::vec4 m_ColorBegin, m_ColorEnd;
float m_MaxLifeTime;
float m_SizeBegin, m_SizeEnd, m_SizeVariation;
float m_Rotation;
float m_RotationVariation;
int m_RotationDir = 1; // -1 or 1 for direction..
float m_RotationSpeed = 1.0f;
};
class ParticleSystem {
public:
struct Particle {
glm::vec2 m_Position;
glm::vec2 m_Velocity;
glm::vec4 m_ColorBegin, m_ColorEnd;
float m_Rotation = 0.0f;
float m_SizeBegin, m_SizeEnd;
float m_CurrentLifeTime = 1.0f;
float m_LifeRemaining = 0.0f;
int m_RotationDirection = 1; // Default.
bool m_Active = false;
};
enum class EmitPositionMode {
Invalid = -1,
Fixed_On_Object = 0, // Psition of particles is relative to the position of some given object (expressed as a 2D-vec).
Fixed_To_Space = 1, // Position of particles is some definde 2D-space.
};
public:
static ParticleSystem* createFromFile(std::string file);
ParticleSystem(Sprite* sprite);
void onUpdate(float dt, glm::vec3 camerPos);
void onRender();
void emit();
void setEntitiyPositionModeFixedOnObject(glm::vec2 pos) { m_EmitModeA->setEntityPositionModeA(pos); }
bool isFixedOnObjectMode()const { return m_EmitModeA != nullptr; }
ParticleData* m_ParticleData = nullptr;
private:
std::vector<Particle> m_ParticlePool;
uint32_t m_PoolIndex = 999;
Sprite* m_ParticleSprite = nullptr;
EmitPositionMode m_EmitPositionMode = EmitPositionMode::Invalid;
struct EmitModeA { // Fixed on object.
glm::vec2 m_EntityPosition; // Simulate position of the object.
void setEntityPositionModeA(glm::vec2 pos) { m_EntityPosition = pos; }
};
struct EmitModeB { // Fixed to space.
glm::vec2 m_Point;
float m_Width;
};
EmitModeA* m_EmitModeA = nullptr;
EmitModeB* m_EmitModeB = nullptr;
private:
}; | 22.016393 | 126 | 0.665302 |
02c61a982e400ed85febbc23b7563d33ce29653a | 17,003 | h | C | include/spio/stream.h | eliaskosunen/spio | d65757315bf4f0bfb7976782e33651a5662bbe1c | [
"Apache-2.0"
] | 3 | 2017-08-27T12:52:14.000Z | 2018-06-28T18:03:39.000Z | include/spio/stream.h | eliaskosunen/spio | d65757315bf4f0bfb7976782e33651a5662bbe1c | [
"Apache-2.0"
] | 9 | 2018-01-01T13:50:55.000Z | 2018-02-03T13:13:29.000Z | include/spio/stream.h | eliaskosunen/spio | d65757315bf4f0bfb7976782e33651a5662bbe1c | [
"Apache-2.0"
] | null | null | null | // Copyright 2017-2018 Elias Kosunen
//
// 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
//
// https://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.
//
// This file is a part of spio:
// https://github.com/eliaskosunen/spio
#ifndef SPIO_STREAM_H
#define SPIO_STREAM_H
#include "config.h"
#include "filter.h"
#include "formatter.h"
#include "sink.h"
#include "source.h"
#include "stream_base.h"
#include "third_party/optional.h"
namespace spio {
SPIO_BEGIN_NAMESPACE
template <typename CharT>
struct basic_scanner;
struct ascii_tag {
};
template <typename CharT, typename Tag = ascii_tag, typename Enable = void>
struct encoding;
template <typename CharT>
struct encoding<CharT, ascii_tag> {
using value_type = CharT;
static SPIO_CONSTEXPR streampos to_device(streampos pos) noexcept
{
return pos.operator streamoff() *
static_cast<streamoff>(sizeof(value_type));
}
static SPIO_CONSTEXPR streampos from_device(streampos pos) noexcept
{
return pos.operator streamoff() /
static_cast<streamoff>(sizeof(value_type));
}
static SPIO_CONSTEXPR streamoff to_device(streamoff off) noexcept
{
return off * static_cast<streamoff>(sizeof(value_type));
}
static SPIO_CONSTEXPR streamoff from_device(streamoff off) noexcept
{
return off / static_cast<streamoff>(sizeof(value_type));
}
};
namespace detail {
template <typename Device>
class guarded_buffered_writable : public basic_buffered_writable<Device> {
using base = basic_buffered_writable<Device>;
public:
template <typename... Args>
guarded_buffered_writable(Args&&... a) : base(std::forward<Args>(a)...)
{
}
guarded_buffered_writable(const guarded_buffered_writable&) = delete;
guarded_buffered_writable& operator=(const guarded_buffered_writable&) =
delete;
guarded_buffered_writable(guarded_buffered_writable&&) noexcept =
default;
guarded_buffered_writable& operator=(
guarded_buffered_writable&&) noexcept = default;
~guarded_buffered_writable()
{
if (base::use_buffering()) {
base::flush();
}
}
};
template <typename Device, typename Encoding, typename Enable = void>
class output_stream_base {
public:
output_stream_base() = default;
};
template <typename Device, typename Encoding>
class output_stream_base<
Device,
Encoding,
typename std::enable_if<is_sink<Device>::value &&
!is_writable<Device>::value>::type> {
public:
using formatter_type = basic_formatter<Encoding>;
SPIO_CONSTEXPR output_stream_base() = default;
SPIO_CONSTEXPR formatter_type formatter() const noexcept
{
return formatter_type{};
}
};
template <typename Device, typename Encoding>
class output_stream_base<
Device,
Encoding,
typename std::enable_if<is_writable<Device>::value>::type> {
public:
using sink_type = guarded_buffered_writable<Device>;
using formatter_type = basic_formatter<Encoding>;
SPIO_CONSTEXPR output_stream_base() = default;
SPIO_CONSTEXPR14 output_stream_base(sink_type s) noexcept
: m_sink(std::move(s))
{
}
SPIO_CONSTEXPR14 sink_type& sink() noexcept
{
Expects(m_sink.has_value());
return *m_sink;
}
SPIO_CONSTEXPR14 const sink_type& sink() const noexcept
{
Expects(m_sink.has_value());
return *m_sink;
}
SPIO_CONSTEXPR14 optional<sink_type>& sink_storage() noexcept
{
return m_sink;
}
SPIO_CONSTEXPR formatter_type formatter() const noexcept
{
return formatter_type{};
}
private:
optional<sink_type> m_sink;
};
template <typename Device, typename Encoding, typename Enable = void>
class input_stream_base {
public:
using scanner_type = basic_scanner<Encoding>;
input_stream_base() = default;
SPIO_CONSTEXPR scanner_type scanner() const noexcept
{
return scanner_type{};
}
};
template <typename Device, typename Encoding>
class input_stream_base<
Device,
Encoding,
typename std::enable_if<is_readable<Device>::value>::type> {
public:
using source_type = basic_buffered_readable<Device>;
using scanner_type = basic_scanner<Encoding>;
SPIO_CONSTEXPR input_stream_base() = default;
SPIO_CONSTEXPR input_stream_base(source_type s) : m_source(std::move(s))
{
}
SPIO_CONSTEXPR14 source_type& source() & noexcept
{
Expects(m_source.has_value());
return *m_source;
}
SPIO_CONSTEXPR14 const source_type& source() const& noexcept
{
Expects(m_source.has_value());
return *m_source;
}
SPIO_CONSTEXPR14 optional<source_type> source_storage()
{
return m_source;
}
SPIO_CONSTEXPR scanner_type scanner() const noexcept
{
return scanner_type{};
}
private:
optional<source_type> m_source;
};
} // namespace detail
template <typename Encoding, typename Properties>
class basic_stream_ref;
template <typename Device, typename Encoding, typename Chain>
class stream : public stream_base,
public detail::input_stream_base<Device, Encoding>,
public detail::output_stream_base<Device, Encoding> {
public:
using input_base = detail::input_stream_base<Device, Encoding>;
using output_base = detail::output_stream_base<Device, Encoding>;
using encoding_type = Encoding;
using char_type = typename Encoding::value_type;
using chain_type = Chain;
using device_type = Device;
using tied_type = basic_stream_ref<Encoding, flushable_tag>;
class output_sentry {
public:
output_sentry(stream& s)
{
if (!s) {
m_result = make_unexpected(sentry_error);
s.set_bad();
return;
}
auto t = _handle_tied(s);
if (t.has_error()) {
m_result = make_unexpected(t.error());
return;
}
if (!s) {
m_result = make_unexpected(sentry_error);
}
}
SPIO_CONSTEXPR const failure& error() const noexcept
{
return m_result.error();
}
SPIO_CONSTEXPR explicit operator bool() const noexcept
{
return m_result.operator bool();
}
private:
result _handle_tied(stream& s);
expected<void, failure> m_result{};
};
class input_sentry {
public:
input_sentry(stream& s, bool skipws = true)
{
if (!s) {
m_result = make_unexpected(sentry_error);
s.set_bad();
return;
}
auto t = _handle_tied(s);
if (t.has_error()) {
m_result = make_unexpected(t.error());
return;
}
if (skipws) {
// TODO: skipws
/* auto w = _skipws(s); */
/* if(w.has_error()) { */
/* m_result = make_unexpected(t.error()); */
/* return; */
/* } */
}
if (!s) {
m_result = make_unexpected(sentry_error);
}
}
SPIO_CONSTEXPR const failure& error() const noexcept
{
return m_result.error();
}
SPIO_CONSTEXPR explicit operator bool() const noexcept
{
return m_result.operator bool();
}
private:
result _handle_tied(stream& s);
expected<void, failure> m_result{};
};
stream(device_type d, input_base i, output_base o, chain_type c)
: input_base(std::move(i)),
output_base(std::move(o)),
m_chain(std::move(c)),
m_device(std::move(d))
{
}
virtual bool is_open() const
{
return device().is_open();
}
virtual expected<void, failure> close()
{
return device().close();
}
SPIO_CONSTEXPR14 chain_type& chain() noexcept
{
return m_chain;
}
SPIO_CONSTEXPR const chain_type& chain() const noexcept
{
return m_chain;
}
SPIO_CONSTEXPR14 device_type& device() & noexcept
{
return m_device;
}
SPIO_CONSTEXPR const device_type& device() const& noexcept
{
return m_device;
}
SPIO_CONSTEXPR14 device_type&& device() && noexcept
{
return std::move(m_device);
}
SPIO_CONSTEXPR tied_type* tie() const noexcept
{
return m_tie;
}
SPIO_CONSTEXPR14 tied_type* tie(tied_type* s) noexcept
{
auto prev = m_tie;
m_tie = s;
return prev;
}
protected:
stream(device_type d, chain_type c)
: m_chain(std::move(c)), m_device(std::move(d))
{
}
private:
chain_type m_chain;
device_type m_device;
tied_type* m_tie{nullptr};
};
template <typename Stream>
auto write(Stream& s, std::vector<byte> buf) ->
typename std::enable_if<is_writable_stream<Stream>::value, result>::type
{
auto sentry = typename Stream::output_sentry(s);
if (!sentry) {
return make_result(0, sentry.error());
}
if (!s.chain().output_empty()) {
auto r = s.chain().write(buf);
if (r.value() < static_cast<std::ptrdiff_t>(buf.size()) ||
r.has_error()) {
return r;
}
}
if (s.sink().use_buffering()) {
return s.sink().write(buf);
}
return s.device().write(buf);
}
template <typename Stream>
result write(Stream& s, span<const byte> data)
{
if (!s.chain().output_empty()) {
std::vector<byte> buf(data.begin(), data.end());
return write(s, buf);
}
if (s.sink().use_buffering()) {
return s.sink().write(data);
}
return s.device().write(data);
}
template <typename Stream>
result write_at(Stream& s, std::vector<byte> buf, streampos pos)
{
auto sentry = typename Stream::output_sentry(s);
if (!sentry) {
return make_result(0, sentry.error());
}
if (!s.chain().output_empty()) {
auto r = s.chain().write(buf);
if (r.value() < static_cast<std::ptrdiff_t>(buf.size()) ||
r.has_error()) {
return r;
}
}
return s.device().write_at(buf, Stream::encoding_type::to_device(pos));
}
template <typename Stream>
result write_at(Stream& s, span<const byte> data, streampos pos)
{
std::vector<byte> buf(data.begin(), data.end());
return write_at(s, buf, pos);
}
template <typename Stream>
auto put(Stream& s, byte data) ->
typename std::enable_if<is_byte_writable_stream<Stream>::value,
result>::type
{
auto sentry = typename Stream::output_sentry(s);
if (!sentry) {
return make_result(0, sentry.error());
}
if (!s.chain().output_empty()) {
auto r = s.chain().put(data);
if (r.value() != 1 || r.has_error()) {
return r;
}
}
return s.device().put(data);
}
template <typename Stream>
typename Stream::formatter_type get_formatter(Stream& s)
{
return s.formatter();
}
template <typename Stream>
result flush(Stream& s)
{
auto sentry = typename Stream::output_sentry(s);
if (!sentry) {
return make_result(0, sentry.error());
}
return s.sink().flush();
}
template <typename Stream>
expected<void, failure> sync(Stream& s)
{
return s.device().sync();
}
template <typename Stream>
result read(Stream& s, span<byte> data)
{
auto sentry = typename Stream::input_sentry(s);
if (!sentry) {
return make_result(0, sentry.error());
}
bool eof = false;
auto r = s.source().read(data, eof);
if (r.has_error()) {
putback(s, data.first(r.value()));
return make_result(0, r.error());
}
if (eof) {
s.set_eof();
}
if (!s.chain().input_empty()) {
data = data.first(r.value());
r = s.chain().read(data);
if (r.has_error()) {
putback(s, data);
return make_result(0, r.error());
}
if (r.value() < data.size()) {
putback(s, data.subspan(r.value()));
}
}
return r;
}
namespace detail {
template <typename Stream>
auto _read_at_putback(Stream& s, span<byte> data)
-> decltype(putback(std::declval<Stream&>(),
std::declval<span<byte>>()),
bool())
{
return putback(s, data);
}
template <typename Stream>
auto _read_at_putback(Stream&, span<byte>) -> bool
{
return {};
}
} // namespace detail
template <typename Stream>
result read_at(Stream& s, span<byte> data, streampos pos)
{
auto sentry = typename Stream::input_sentry(s);
if (!sentry) {
return make_result(0, sentry.error());
}
bool eof = false;
auto r =
s.device().read_at(data, Stream::encoding_type::to_device(pos), eof);
if (r.has_error()) {
detail::_read_at_putback(s, data.first(r.value()));
return make_result(0, r.error());
}
if (eof) {
s.set_eof();
}
if (!s.chain().input_empty()) {
data = data.first(r.value());
r = s.chain().read(data);
if (r.has_error()) {
detail::_read_at_putback(s, data);
return make_result(0, r.error());
}
if (r.value() < data.size()) {
detail::_read_at_putback(s, data.subspan(r.value()));
}
}
return r;
}
template <typename Stream>
result get(Stream& s, byte& data)
{
auto sentry = typename Stream::input_sentry(s);
if (!sentry) {
return make_result(0, sentry.error());
}
bool eof = false;
auto r = s.device().get(data, eof);
if (r.has_error()) {
if (r.value() == 1) {
putback(s, data);
}
return make_result(0, r.error());
}
if (eof) {
s.set_eof();
}
if (!s.chain().input_empty()) {
r = s.chain().get(data);
if (r.has_error()) {
if (r.value() == 1) {
putback(s, data);
}
return make_result(0, r.error());
}
}
return r;
}
template <typename Stream>
typename Stream::scanner_type get_scanner(Stream& s)
{
return s.scanner();
}
template <typename Stream>
auto putback(Stream& s, span<const byte> d) ->
typename std::enable_if<is_readable<Stream>::value, bool>::type
{
s.clear_eof();
auto sentry = typename Stream::input_sentry(s);
if (!sentry) {
s.set_bad();
return false;
}
return s.source().putback(d);
}
template <typename Stream>
auto putback(Stream& s, byte d) ->
typename std::enable_if<is_byte_readable<Stream>::value &&
!is_readable<Stream>::value,
bool>::type
{
s.clear_eof();
auto sentry = typename Stream::input_sentry(s);
if (!sentry) {
s.set_bad();
return false;
}
return s.device().putback(d);
}
template <typename Stream>
expected<streampos, failure> seek(Stream& s,
streampos pos,
inout which = in | out)
{
auto ret = s.device().seek(Stream::encoding_type::to_device(pos), which);
if (ret) {
ret.value() = Stream::encoding_type::from_device(ret.value());
}
return ret;
}
template <typename Stream>
expected<streampos, failure> seek(Stream& s,
streamoff off,
seekdir dir,
inout which = in | out)
{
auto ret =
s.device().seek(Stream::encoding_type::to_device(off), dir, which);
if (ret) {
ret.value() = Stream::encoding_type::from_device(ret.value());
}
return ret;
}
template <typename Stream>
expected<streampos, failure> tell(Stream& s, inout which = in | out)
{
return seek(s, 0, seekdir::cur, which);
}
SPIO_END_NAMESPACE
} // namespace spio
#endif // SPIO_STREAM_H
| 26.988889 | 80 | 0.580309 |
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