예제 #1
0
파일: emit.cpp 프로젝트: hsk/docs
static void walk_exp_non_tail(FILE* oc, std::string dest, Exp* exp) {
	// 末尾でなかったら計算結果をdestにセット
	if (dynamic_cast<Nop*> (exp)) {
	} else
	if (auto e_ = dynamic_cast<Set*> (exp)) {
		fprintf(oc, "\tmovl\t$%d, %s\n", e_->v, dest.c_str());
	} else
	if (auto e_ = dynamic_cast<SetL*> (exp)) {
		fprintf(oc, "\tmovl\t$%s, %s\n", e_->l.c_str(), dest.c_str());
	} else
	if (auto e_ = dynamic_cast<Mov*> (exp)) {
		if (dest != e_->id)
			fprintf(oc, "\tmovl\t%s, %s\n", e_->id.c_str(), dest.c_str());
	} else
	if (auto e_ = dynamic_cast<Neg*> (exp)) {
		if (dest != e_->id)
			fprintf(oc, "\tmovl\t%s, %s\n", e_->id.c_str(), dest.c_str());
		fprintf(oc, "\tnegl\t%s\n", dest.c_str());
	} else
	if (auto e_ = dynamic_cast<Add*> (exp)) {
		if (auto v = dynamic_cast<V*> (e_->imm.get())) {
			if (v->v == dest) {
				fprintf(oc, "\taddl\t%s, %s\n", e_->id.c_str(), dest.c_str());
				return;
			}
		}
		if (dest != e_->id)
			fprintf(oc, "\tmovl\t%s, %s\n", e_->id.c_str(), dest.c_str());
		fprintf(oc, "\taddl\t%s, %s\n", pp_id_or_imm(e_->imm.get()).c_str(), dest.c_str());
	} else
	if (auto e_ = dynamic_cast<Sub*> (exp)) {
		if (auto v = dynamic_cast<V*> (e_->imm.get())) {
			if (v->v == dest) {
				fprintf(oc, "\tsubl\t%s, %s\n", e_->id.c_str(), dest.c_str());
				fprintf(oc, "\tnegl\t%s\n", dest.c_str());
				return;
			}
		}
		if (dest != e_->id)
			fprintf(oc, "\tmovl\t%s, %s\n", e_->id.c_str(), dest.c_str());
		fprintf(oc, "\tsubl\t%s, %s\n", pp_id_or_imm(e_->imm.get()).c_str(), dest.c_str());
	} else
	if (auto e_ = dynamic_cast<Ld*> (exp)) {
		if (auto v = dynamic_cast<V*> (e_->imm.get())) {
			fprintf(oc, "\tmovl\t(%s,%s,%d), %s\n", e_->id.c_str(), v->v.c_str(), e_->i, dest.c_str());
			return;
		}
		if (auto c = dynamic_cast<C*> (e_->imm.get())) {
			fprintf(oc, "\tmovl\t%d(%s), %s\n", c->i * e_->i, e_->id.c_str(), dest.c_str());
			return;
		}
		assert(false);
	} else
	if (auto e_ = dynamic_cast<St*> (exp)) {
		if (auto v = dynamic_cast<V*> (e_->imm.get())) {
			fprintf(oc, "\tmovl\t%s, (%s,%s,%d)\n", e_->id.c_str(), e_->id2.c_str(), v->v.c_str(), e_->i);
			return;
		}
		if (auto c = dynamic_cast<C*> (e_->imm.get())) {
			fprintf(oc, "\tmovl\t%s, %d(%s)\n", e_->id.c_str(), c->i * e_->i, e_->id2.c_str());
			return;
		}
		assert(false);
	} else
	// 退避の仮想命令の実装
	if (auto e_ = dynamic_cast<Save*> (exp)) {
		if (allregs.find(e_->id) != allregs.end() && stackset.find(e_->id2) == stackset.end()) {
			save(e_->id2);
			fprintf(oc, "\tmovl\t%s, %d(%s)\n", e_->id.c_str(), offset(e_->id2), reg_sp);
			return;
		}
		assert(stackset.find(e_->id2) != stackset.end());
	} else
	if (auto e_ = dynamic_cast<Restore*> (exp)) {
		// 復帰の仮想命令の実装
		fprintf(oc, "\tmovl\t%d(%s), %s\n", offset(e_->id), reg_sp, dest.c_str());
	} else
	if (auto e_ = dynamic_cast<IfEq*> (exp)) {
		fprintf(oc, "\tcmpl\t%s, %s\n", pp_id_or_imm(e_->imm.get()).c_str(), e_->id.c_str());
		walk_exp_non_tail_if(oc, dest, e_->e1.get(), e_->e2.get(), "je", "jne");
	} else
	if (auto e_ = dynamic_cast<IfLE*> (exp)) {
		fprintf(oc, "\tcmpl\t%s, %s\n", pp_id_or_imm(e_->imm.get()).c_str(), e_->id.c_str());
		walk_exp_non_tail_if(oc, dest, e_->e1.get(), e_->e2.get(), "jle", "jg");
	} else
	if (auto e_ = dynamic_cast<IfGE*> (exp)) {
		fprintf(oc, "\tcmpl\t%s, %s\n", pp_id_or_imm(e_->imm.get()).c_str(), e_->id.c_str());
		walk_exp_non_tail_if(oc, dest, e_->e1.get(), e_->e2.get(), "jge", "jl");
	} else
	if (auto e_ = dynamic_cast<Call*> (exp)) {
		walk_exp_args(oc, std::vector<std::pair < std::string, std::string >> (), e_->ids);
		auto ss = stacksize();
		if (ss > 0) fprintf(oc, "\taddl\t$%d, %s\n", ss, reg_sp);
		fprintf(oc, "\tcall\t%s\n", e_->id.c_str());
		if (ss > 0) fprintf(oc, "\tsubl\t$%d, %s\n", ss, reg_sp);
		if (allregs.find(dest) != allregs.end() && dest != regs[0])
			fprintf(oc, "\tmovl\t%s, %s\n", regs[0].c_str(), dest.c_str());
	} else {
		assert(false);
	}
}
예제 #2
0
void
RestartableDataIO::deserializeRestartableData(const std::map<std::string, RestartableDataValue *> & restartable_data, std::istream & stream, const std::set<std::string> & recoverable_data)
{
  bool recovering = _fe_problem.getMooseApp().isRecovering();

  std::vector<std::string> ignored_data;

  // number of data
  unsigned int n_data = 0;
  stream.read((char *) &n_data, sizeof(n_data));

  // data names
  std::vector<std::string> data_names(n_data);

  for (unsigned int i=0; i < n_data; i++)
  {
    std::string data_name;
    char ch = 0;
    do {
      stream.read(&ch, 1);
      if (ch != '\0')
        data_name += ch;
    } while (ch != '\0');
    data_names[i] = data_name;
  }

  // Grab this processor's block size
  unsigned int data_blk_size = 0;
  stream.read((char *) &data_blk_size, sizeof(data_blk_size));

  for (unsigned int i=0; i < n_data; i++)
  {
    std::string current_name = data_names[i];

    unsigned int data_size = 0;
    stream.read((char *) &data_size, sizeof(data_size));

    // Determine if the current data is recoverable
    bool is_data_restartable = restartable_data.find(current_name) != restartable_data.end();
    bool is_data_recoverable = recoverable_data.find(current_name) != recoverable_data.end();
    if (is_data_restartable // Only restore values if they're currently being used
        && (recovering || !is_data_recoverable)) // Only read this value if we're either recovering or this hasn't been specified to be recovery only data

    {
      // Moose::out<<"Loading "<<current_name<<std::endl;

      try
      {
        RestartableDataValue * current_data = restartable_data.at(current_name);
        current_data->load(stream);
      }
      catch(...)
      {
        mooseError("restartable_data missing " << current_name << std::endl);
      }
    }
    else
    {
      // Skip this piece of data and do not report if restarting and recoverable data is not used
      stream.seekg(data_size, std::ios_base::cur);
      if (recovering && !is_data_recoverable)
        ignored_data.push_back(current_name);

    }
  }

  // Produce a warning if restarting and restart data is being skipped
  // Do not produce the warning with recovery b/c in cases the parent defines a something as recoverable,
  // but only certain child classes use the value in recovery (i.e., FileOutput::_num_files is needed by Exodus but not Checkpoint)
  if (ignored_data.size() && !recovering)
  {
    std::ostringstream names;
    for (unsigned int i=0; i<ignored_data.size(); i++)
      names << ignored_data[i] << "\n";
    mooseWarning("The following RestartableData was found in restart file but is being ignored:\n" << names.str());
  }
}
예제 #3
0
파일: mic.c 프로젝트: msbritt/torque
int check_for_mics(
  
  uint32_t& num_engines)

  {
  uint32_t                 i = 0;

#ifdef NUMA_SUPPORT
    /* does this node board have mics configured? */
    if (node_boards[numa_index].mic_end_index < 0)
      return(PBSE_NONE);
#endif

    if (COIEngineGetCount(COI_ISA_MIC, &num_engines) != COI_SUCCESS)
      {
      log_err(-1, __func__, "Mics are present but apparently not configured correctly - can't get count");
      return(PBSE_SYSTEM);
      }

#ifdef NUMA_SUPPORT
  if (num_engines < node_boards[numa_index].mic_end_index)
    {
    snprintf(log_buffer, sizeof(log_buffer),
    "node board %d is supposed to have mic range %d-%d but there are only %d mics",
    numa_index, node_boards[numa_index].mic_start_index,
    node_boards[numa_index].mic_end_index, num_engines);
    log_err(-1, __func__, log_buffer);
    return(PBSE_SYSTEM);
    }

    for (i = node_boards[numa_index].mic_start_index; i <= node_boards[numa_index].mic_end_index; i++)
#else
  for (i = 0; i < num_engines; i++)
#endif

    {
    int                     rc;
    COIENGINE               engine;
    struct COI_ENGINE_INFO  mic_stat;
    std::set<int>::iterator it;

    memset(&engine, 0, sizeof(engine));
    memset(&mic_stat, 0, sizeof(mic_stat));

    rc = COIEngineGetHandle(COI_ISA_MIC, i, &engine);
    if (rc != COI_SUCCESS)
      {
      it = down_mics.find(i);
      if (it == down_mics.end())
        {
        snprintf(log_buffer, sizeof(log_buffer), "Can't get handle for mic index %d", (int)i);
        log_event(PBSEVENT_SYSTEM,PBS_EVENTCLASS_SERVER, __func__, log_buffer);
        down_mics.insert(i);
        }

      continue;
      }
    else
      {
      it = down_mics.find(i);
      if (it != down_mics.end())
        {
        /* if we made it here we have the mic again. remove it from the down_mics set */
        snprintf(log_buffer, sizeof(log_buffer), "handle for mic index %d is back online", (int)i);
        log_event(PBSEVENT_SYSTEM,PBS_EVENTCLASS_SERVER, __func__, log_buffer);
        down_mics.erase(it);
        }
      }
    }

  return(PBSE_NONE);
  }
예제 #4
0
  void Output(const Mode mode, const char *file, const int line, const char *prefix, const char *delim, const char *name, const string &str)
  {
    if (initialized && str.length())
    {
      string m = message(prefix,delim,name,str);

      // TODO - optional Regal source line numbers.
#if 1
      UNUSED_PARAMETER(file);
      UNUSED_PARAMETER(line);
#else
      m = print_string(file,":",line," ",m);
#endif

#if REGAL_LOG_ONCE
      if (once)
        switch (mode)
        {
          case LOG_WARNING:
            if (uniqueWarnings.find(m)!=uniqueWarnings.end())
              return;
            uniqueWarnings.insert(m);
            break;

          case LOG_ERROR:
            if (uniqueErrors.find(m)!=uniqueErrors.end())
              return;
            uniqueErrors.insert(m);
            break;

          default:
            break;
        }
#endif

      RegalContext *rCtx = NULL;

#if !REGAL_SYS_WGL && !REGAL_NO_TLS
      if (Thread::currentContextKey && pthread_getspecific(Thread::currentContextKey))
        rCtx = REGAL_GET_CONTEXT();
#else
      rCtx = REGAL_GET_CONTEXT();
#endif

#if REGAL_LOG_CALLBACK
      if (callback && rCtx && rCtx->logCallback)
        rCtx->logCallback(GL_LOG_INFO_REGAL, (GLsizei) m.length(), m.c_str(), reinterpret_cast<void *>(rCtx->sysCtx));
#endif

#if REGAL_SYS_WGL
      OutputDebugStringA(m.c_str());
#elif REGAL_SYS_ANDROID
      // ANDROID_LOG_INFO
      // ANDROID_LOG_WARN
      // ANDROID_LOG_ERROR
      __android_log_print(ANDROID_LOG_INFO, REGAL_LOG_TAG, m.c_str());
#endif

#if REGAL_LOG_JSON
      if (json && jsonOutput)
      {
        string m = jsonObject(prefix,name,str);
        fwrite(m.c_str(),m.length(),1,jsonOutput);
      }
#endif

#if REGAL_LOG
      if (log && logOutput)
      {
#if REGAL_SYS_WGL
        OutputDebugStringA(m.c_str());
        fprintf(logOutput, "%s", m.c_str());
        fflush(logOutput);
#elif REGAL_SYS_ANDROID

#else
        fprintf(logOutput, "%s", m.c_str());
        fflush(logOutput);
#endif
      }
#endif

      append(m);
    }
  }
예제 #5
0
	void FilterList::convert(const std::vector<std::string> & ruleList, const std::set<std::string> & disabled_list, std::vector<RegExpFilter *> & regexpList, std::vector<ElemHideSelector *> & elemHideFilter)
	{
		static const char * ELEMHIDE_PATTERN = "^([^\\/\\*\\|\\@\"]*?)#(?:([\\w\\-]+|\\*)((?:\\([\\w\\-]+(?:[$^*]?=[^\\(\\)\"]*)?\\))*)|#([^{}]+))$";
		static const char * REGEXPR_PATTERN = "^\\/(.*)\\/$";
		static const char * OPTIONS_PATTERN = "\\$(~?[\\w\\-]+(?:=[^,\\s]+)?(?:,~?[\\w\\-]+(?:=[^,\\s]+)?)*)$";

		for ( auto iter = ruleList.begin(); iter != ruleList.end(); iter++ )
		{
			std::string rule( * iter );

			if ( disabled_list.find(rule) != disabled_list.end() )
			{
				// 被禁用的规则,不做任何处理
				continue;
			}

			auto pos = knownFilters.find(rule);
			if ( pos != knownFilters.end() )
			{
				Filter * p = pos->second;
				if ( p )
				{
					RegExpFilter * regexpFilter = dynamic_cast<RegExpFilter *>(p);
					if ( regexpFilter )
					{
						regexpList.push_back(regexpFilter);
						// 加引用计数, 以免被释放
						regexpFilter->AddRef();
					}
					else
					{
						ElemHideSelector * selector = dynamic_cast<ElemHideSelector *>(p);
						if ( selector )
						{
							elemHideFilter.push_back(selector);
							// 加引用计数, 以免被释放
							selector->AddRef();
						}
						else
						{
							// 不应该走到这里, 但是如果真到这里了, 把 p 从 map 里面去掉
							knownFilters.erase(pos);
							p->Release();
						}
					}

					continue;
				}
			}

			// 元素隐藏规则
			std::string results[4];
			if ( regexpr_match(ELEMHIDE_PATTERN, rule.c_str(), FALSE, results, 4) )
			{
				const std::string & domain = results[0];
				const std::string & tagName = results[1];
				const std::string & attrRules = results[2];
				const std::string & selector = results[3];
				if ( ElemHideSelector * filter = ElemHideSelector::fromText(domain, tagName, attrRules, selector) )
				{
					elemHideFilter.push_back(filter);

					knownFilters[rule] = filter;
				}
			}
			else
			{
				std::string re_rule(rule);

				// 访问过滤规则
				std::string options_str;
				if ( regexpr_match(OPTIONS_PATTERN, re_rule.c_str(), FALSE, &options_str, 1) )
				{
					// 把参数部分去掉
					regexpr_replace(OPTIONS_PATTERN, re_rule.c_str(), "", re_rule);
				}
				
				if ( regexpr_match(REGEXPR_PATTERN, re_rule.c_str(), FALSE, results, 1) )
				{
					re_rule = results[0];
				}
				else
				{
					// 将 adblockplus 规则转换成正则表达式规则
					regexpr_replace("\\*+", re_rule.c_str(), "*", re_rule, TRUE);
					regexpr_replace("\\^\\|$", re_rule.c_str(), "^", re_rule, FALSE);
					regexpr_replace("(\\W)", re_rule.c_str(), "\r\\1", re_rule, TRUE);
					string_replace(re_rule, "\r", "\\");
					regexpr_replace("\\\\\\*", re_rule.c_str(), ".*", re_rule, TRUE);
					regexpr_replace("\\\\\\^", re_rule.c_str(), "(?:[^\rw\r-.%\ru0080-\ruFFFF]|$)", re_rule, TRUE);
					regexpr_replace("^\\\\\\|\\\\\\|", re_rule.c_str(), "^[\rw\r-]+:\r/+(?!\r/)(?:[^\r/]+\r.)?", re_rule, FALSE);
					string_replace(re_rule, "\r", "\\");
					regexpr_replace("^\\\\\\|", re_rule.c_str(), "^", re_rule, FALSE);
					regexpr_replace("\\\\\\|$", re_rule.c_str(), "$", re_rule, FALSE);
					regexpr_replace("^(\\.\\*)", re_rule.c_str(), "", re_rule, FALSE);
					regexpr_replace("(\\.\\*)$", re_rule.c_str(), "", re_rule, FALSE);
				}

				if ( RegExpFilter * filter = RegExpFilter::fromText(re_rule, options_str) )
				{
					regexpList.push_back(filter);

					knownFilters[rule] = filter;
				}
			}
		}
	}
예제 #6
0
    bool China::IbImpl::isBusinessDay(const Date& date) const {
        static const Date working_weekends[] = {
            // 2005
            Date(5, February, 2005),
            Date(6, February, 2005),
            Date(30, April, 2005),
            Date(8, May, 2005),
            Date(8, October, 2005),
            Date(9, October, 2005),
            Date(31, December, 2005),
            //2006
            Date(28, January, 2006),
            Date(29, April, 2006),
            Date(30, April, 2006),
            Date(30, September, 2006),
            Date(30, December, 2006),
            Date(31, December, 2006),
            // 2007
            Date(17, February, 2007),
            Date(25, February, 2007),
            Date(28, April, 2007),
            Date(29, April, 2007),
            Date(29, September, 2007),
            Date(30, September, 2007),
            Date(29, December, 2007),
            // 2008
            Date(2, February, 2008),
            Date(3, February, 2008),
            Date(4, May, 2008),
            Date(27, September, 2008),
            Date(28, September, 2008),
            // 2009
            Date(4, January, 2009),
            Date(24, January, 2009),
            Date(1, February, 2009),
            Date(31, May, 2009),
            Date(27, September, 2009),
            Date(10, October, 2009),
            // 2010
            Date(20, February, 2010),
            Date(21, February, 2010),
            Date(12, June, 2010),
            Date(13, June, 2010),
            Date(19, September, 2010),
            Date(25, September, 2010),
            Date(26, September, 2010),
            Date(9, October, 2010),
            // 2011
            Date(30, January, 2011),
            Date(12, February, 2011),
            Date(2, April, 2011),
            Date(8, October, 2011),
            Date(9, October, 2011),
            Date(31, December, 2011),
            // 2012
            Date(21, January, 2012),
            Date(29, January, 2012),
            Date(31, March, 2012),
            Date(1, April, 2012),
            Date(28, April, 2012),
            Date(29, September, 2012),
            // 2013
            Date(5,January,2013),
            Date(6,January,2013),
            Date(16,February,2013),
            Date(17,February,2013),
            Date(7,April,2013),
            Date(27,April,2013),
            Date(28,April,2013),
            Date(8,June,2013),
            Date(9,June,2013),
            Date(22,September,2013),
            Date(29,September,2013),
            Date(12,October,2013),
            // 2014
            Date(26,January,2014),
            Date(8,February,2014),
            Date(4,May,2014),
            Date(28,September,2014),
            Date(11,October,2014),
            // 2015
            Date(4,January,2015),
            Date(15,February,2015),
            Date(28,February,2015),
            Date(6,September,2015),
            Date(10,October,2015),
            // 2016
            Date(6,February,2016),
            Date(14,February,2016),
            Date(12,June,2016),
            Date(18,September,2016),
            Date(8,October,2016),
            Date(9,October,2016)
        };
        static const Size n =
            sizeof(working_weekends)/sizeof(working_weekends[0]);
        static const std::set<Date> workingWeekends(working_weekends+0,
                                                    working_weekends+n);

        // If it is already a SSE business day, it must be a IB business day
        return sseImpl->isBusinessDay(date) ||
            (workingWeekends.find(date) != workingWeekends.end());
    }
	void Check(){
		for (auto& it : mFileMonitorThread){
			if (it.HasChangedFiles()){
				std::set<std::string> changedFiles;
				it.GetChangedFiles(changedFiles);
				mChangedFiles.insert(changedFiles.begin(), changedFiles.end());				
			}
		}

		if (gpTimer->GetTickCount() - mLastCheckedTime > 500)
		{
			for (auto it = mChangedFiles.begin(); it != mChangedFiles.end();)
			{
				std::string filepath = it->c_str();
				auto strs = Split(filepath, "~");
				if (strs.size() >= 2)
				{
					filepath = strs[0];
				}
				const char* extension = FileSystem::GetExtension(filepath.c_str());
				bool shader = _stricmp(extension, "hlsl") == 0 || _stricmp(extension, "h") == 0;
				bool material = _stricmp(extension, "material") == 0;
				bool texture = _stricmp(extension, "png") == 0 || _stricmp(extension, "dds") == 0;
				bool particle = _stricmp(extension, "particle") == 0;
				bool xml = _stricmp(extension, "xml") == 0;
				bool hasExtension = strlen(extension) != 0;
				bool sdfFile = _stricmp(extension, "sdf") == 0;
				bool canOpen = true;
				bool throwAway = false;
				auto ignoreIt = mIgnoreFileChanges.find(filepath);
				if (ignoreIt != mIgnoreFileChanges.end()){
					mIgnoreFileChanges.erase(ignoreIt);
					throwAway = true;
				}
				if (!hasExtension || sdfFile || throwAway)
				{
					auto nextit = it;
					++nextit;
					mChangedFiles.erase(it);
					it = nextit;
					continue;
				}
				FILE* file = 0;
				errno_t err = fopen_s(&file, filepath.c_str(), "r");
				if (!err && file)
				{
					fclose(file);
					err = fopen_s(&file, filepath.c_str(), "a+");
					if (err)
						canOpen = false;
					else if (file)
						fclose(file);
				}

				if (canOpen)
				{
					int startEnum = shader || material || texture || particle || xml ?
						IFileChangeObserver::FileChange_Engine : IFileChangeObserver::FileChange_Game;
					for (int i = startEnum; i < 2; ++i){
						auto& observers = mSelf->mObservers_[i]; //FileChange_Engine and FileChange_Game
						for (auto oit = observers.begin(); oit != observers.end(); /**/){
							auto observer = oit->lock();
							if (!observer){
								oit = observers.erase(oit);
								continue;
							}
							++oit;
							observer->OnFileChanged(filepath.c_str());
						}
					}
					/*if (shader)
						IShader::ReloadShader(filepath.c_str());
					else if (material)
						IMaterial::ReloadMaterial(filepath.c_str());
					else if (texture)
						ITexture::ReloadTexture(filepath.c_str());
					else if (particle)
						ParticleManager::GetParticleManager().ReloadParticle(filepath.c_str());
					else if (xml && gFBEnv->pRenderer)
						mRenderer->ReloadTextureAtlas(filepath.c_str());*/

					auto nextit = it;
					++nextit;
					mChangedFiles.erase(it);
					it = nextit;					
				}
				else
				{
					++it;
				}
			}
		}
	}
예제 #8
0
void ProjectCollector::extract_files()
{
    static const std::string configuration_name =  m_configuration_name + "|Win32";
    static const path extension_list[] = { ".c", ".cpp", ".cxx", ".cc", ".h", ".hpp", ".hxx", ".hh", ".inl" };
    static size_t size = sizeof(extension_list) / sizeof(path);
    static const std::set<path> extensions( extension_list, extension_list + size );

    // extract files
    static const boost::regex file_regex
    (
        "(?x)"
        "<File \\s+"
        "    RelativePath=\" ( [^\"]+ ) \" \\s+ > "   //$1, file relative path
        "    ( .*? ) \\s+ "                           //$2, configurations
        "</File>"
    );
    boost::sregex_iterator it( m_str.begin(), m_str.end(), file_regex );
    boost::sregex_iterator end;

    for ( ; it != end; ++it )
    {
        path source_file_relative_path = it->str(1);
        std::string configurations = it->str(2);
        bool is_excluded = false;

        if ( false == configurations.empty() )
        {
            static const boost::regex file_configuration_regex
            (
                "(?x)"
                "<FileConfiguration \\s+"
                "    Name= \" ( .+? )  \" \\s+"                 //$1, Name
                "    ExcludedFromBuild= \" ( .+? ) \" \\s+ "    //$2, ExcludedFromBuild
                ">"
            );
            boost::sregex_iterator it( configurations.begin(), configurations.end(), file_configuration_regex );
            boost::sregex_iterator end;

            for ( ; it != end; ++it )
            {
                std::string file_configuration_name = it->str(1);
                std::string excluded_form_build = it->str(2);

                if ( file_configuration_name == configuration_name )
                {
                    if ( "true" == excluded_form_build )
                    {
                        is_excluded = true;
                    }

                    break;
                }
            }
        }

        if ( false == is_excluded )
        {
            path p = boost::filesystem::system_complete( m_current_path / source_file_relative_path  );

            if ( extensions.find( p.extension() ) != extensions.end() )
            {
                //std::cout << p.string() << std::endl;
                m_files.push_back( p );
            }
        }
    }
}
예제 #9
0
bool is_ignored(int i) {
  static std::set<int> ignore = {};
  return ignore.find(i) != ignore.end();
}
예제 #10
0
/**
 * Checks whether epsilon is present in the given set.
 * @param  first -> The set being checked for epsilon
 * @return the result of the test
 */
bool Parser::hasEpsilon(const std::set<char> first) {
  return first.find(EPSILON[0]) != first.end();
}
예제 #11
0
//*****************************************************************************
//
void MASTERSERVER_ParseCommands( BYTESTREAM_s *pByteStream )
{
	long			lCommand;
	NETADDRESS_s	AddressFrom;

	AddressFrom = NETWORK_GetFromAddress( );

	// [RC] If this IP is in our flood queue, ignore it completely.
	if ( g_floodProtectionIPQueue.addressInQueue( AddressFrom ) || g_ShortFloodQueue.addressInQueue( AddressFrom ))
	{
		while ( NETWORK_ReadByte( pByteStream ) != -1 ) // [RC] Is this really necessary?
			;
		return;
	}

	// Is this IP banned? Send the user an explanation, and ignore the IP for 30 seconds.
	if ( !g_BannedIPExemptions.isIPInList( AddressFrom ) && g_BannedIPs.isIPInList( AddressFrom ))
	{
		NETWORK_ClearBuffer( &g_MessageBuffer );
		NETWORK_WriteLong( &g_MessageBuffer.ByteStream, MSC_IPISBANNED );
		NETWORK_LaunchPacket( &g_MessageBuffer, AddressFrom );

		printf( "* Received challenge from banned IP (%s). Ignoring for 10 seconds.\n", NETWORK_AddressToString( AddressFrom ));
		g_queryIPQueue.addAddress( AddressFrom, g_lCurrentTime, &std::cerr );
		return;
	}

	lCommand = NETWORK_ReadLong( pByteStream );
	switch ( lCommand )
	{

	// Server is telling master server of its existence.
	case SERVER_MASTER_CHALLENGE:
		{
			// Certain IPs can be blocked from just hosting.
			if ( !g_BannedIPExemptions.isIPInList( AddressFrom ) && g_BlockedIPs.isIPInList( AddressFrom ))
			{
				NETWORK_ClearBuffer( &g_MessageBuffer );
				NETWORK_WriteLong( &g_MessageBuffer.ByteStream, MSC_IPISBANNED );
				NETWORK_LaunchPacket( &g_MessageBuffer, AddressFrom );

				printf( "* Received server challenge from blocked IP (%s). Ignoring for 10 seconds.\n", NETWORK_AddressToString( AddressFrom ));
				g_queryIPQueue.addAddress( AddressFrom, g_lCurrentTime, &std::cerr );
				return;
			}
			SERVER_s newServer;
			newServer.Address = AddressFrom;
			// [BB] If no verification string was send, NETWORK_ReadString just returns an empty string.
			// Thus, this is still compatible with older servers that don't send the string.
			newServer.MasterBanlistVerificationString = NETWORK_ReadString( pByteStream );
			// [BB] If no value was send, NETWORK_ReadByte just returns -1.
			// Thus, this is still compatible with older servers that don't tell us whether they enforce our bans
			// and gives them the benefit of the doubt, i.e. it assumes that they enforce our bans.
			const int temp = NETWORK_ReadByte( pByteStream );
			newServer.bEnforcesBanList = ( temp != 0 );
			newServer.bNewFormatServer = ( temp != -1 );
			newServer.iServerRevision = NETWORK_ReadShort( pByteStream );

			std::set<SERVER_s, SERVERCompFunc>::iterator currentServer = g_Servers.find ( newServer );

			// This is a new server; add it to the list.
			if ( currentServer == g_Servers.end() )
			{
				unsigned int iNumOtherServers = 0;

				// First count the number of servers from this IP.
				for( std::set<SERVER_s, SERVERCompFunc>::const_iterator it = g_Servers.begin(); it != g_Servers.end(); ++it )
				{
					if ( NETWORK_CompareAddress( it->Address, AddressFrom, true ))
						iNumOtherServers++;
				}

				if ( iNumOtherServers >= 10 && !g_MultiServerExceptions.isIPInList( AddressFrom ))
					printf( "* More than 10 servers received from %s. Ignoring request...\n", NETWORK_AddressToString( AddressFrom ));
				else
				{
					if ( newServer.bNewFormatServer )
					{
						std::set<SERVER_s, SERVERCompFunc>::iterator currentUnverifiedServer = g_UnverifiedServers.find ( newServer );
						// [BB] This is a new server, but we still need to verify it.
						if ( currentUnverifiedServer == g_UnverifiedServers.end() )
						{
							srand ( time(NULL) );
							newServer.ServerVerificationInt = rand() + rand() * rand() + rand() * rand() * rand();
							// [BB] We don't send the ban list to unverified servers, so just pretent the server already has the list.
							newServer.bHasLatestBanList = true;

							MASTERSERVER_RequestServerVerification ( newServer );
							MASTERSERVER_AddServer( newServer, g_UnverifiedServers );
						}
					}
					else
					{
						printf( "* Received server challenge from old server (%s). Ignoring IP for 10 seconds.\n", NETWORK_AddressToString( newServer.Address ));
						g_queryIPQueue.addAddress( newServer.Address, g_lCurrentTime, &std::cerr );
					}
				}
			}

			// Command is from a server already on the list. It's just sending us a heartbeat.
			else
			{
				// [BB] Only if the verification string matches.
				if ( stricmp ( currentServer->MasterBanlistVerificationString.c_str(), newServer.MasterBanlistVerificationString.c_str() ) == 0 )
				{
					currentServer->lLastReceived = g_lCurrentTime;
					// [BB] The server possibly changed the ban setting, so update it.
					currentServer->bEnforcesBanList = newServer.bEnforcesBanList;
				}
			}

			// Ignore IP for 10 seconds.
		//	if ( !g_MultiServerExceptions.isIPInList( Address ) )
		//		g_floodProtectionIPQueue.addAddress( AddressFrom, g_lCurrentTime, &std::cerr );
			return;
		}
	case SERVER_MASTER_VERIFICATION:
		{
			SERVER_s newServer;
			newServer.Address = AddressFrom;
			newServer.MasterBanlistVerificationString = NETWORK_ReadString( pByteStream );
			newServer.ServerVerificationInt = NETWORK_ReadLong( pByteStream );

			std::set<SERVER_s, SERVERCompFunc>::iterator currentServer = g_UnverifiedServers.find ( newServer );

			// [BB] Apparently, we didn't request any verification from this server, so ignore it.
			if ( currentServer == g_UnverifiedServers.end() )
				return;

			if ( ( stricmp ( newServer.MasterBanlistVerificationString.c_str(), currentServer->MasterBanlistVerificationString.c_str() ) == 0 )
				&& ( newServer.ServerVerificationInt == currentServer->ServerVerificationInt ) )
			{
				MASTERSERVER_AddServer( *currentServer, g_Servers );
				g_UnverifiedServers.erase ( currentServer );
			}
			return;
		}
	case SERVER_MASTER_BANLIST_RECEIPT:
		{
			SERVER_s server;
			server.Address = AddressFrom;
			server.MasterBanlistVerificationString = NETWORK_ReadString( pByteStream );

			std::set<SERVER_s, SERVERCompFunc>::iterator currentServer = g_Servers.find ( server );

			// [BB] We don't know the server. Just ignore it.
			if ( currentServer == g_Servers.end() )
				return;

			if ( stricmp ( server.MasterBanlistVerificationString.c_str(), currentServer->MasterBanlistVerificationString.c_str() ) == 0 )
			{
				currentServer->bVerifiedLatestBanList = true;
				std::cerr << NETWORK_AddressToString ( AddressFrom ) << " acknowledged receipt of the banlist.\n";
			}
		}
		return;
	// Launcher is asking master server for server list.
	case LAUNCHER_SERVER_CHALLENGE:
	case LAUNCHER_MASTER_CHALLENGE:
		{
			NETWORK_ClearBuffer( &g_MessageBuffer );

			// Did this IP query us recently? If so, send it an explanation, and ignore it completely for 3 seconds.
			if ( g_queryIPQueue.addressInQueue( AddressFrom ))
			{
				NETWORK_WriteLong( &g_MessageBuffer.ByteStream, MSC_REQUESTIGNORED );
				NETWORK_LaunchPacket( &g_MessageBuffer, AddressFrom );

				printf( "* Extra launcher challenge from %s. Ignoring for 3 seconds.\n", NETWORK_AddressToString( AddressFrom ));
				g_ShortFloodQueue.addAddress( AddressFrom, g_lCurrentTime, &std::cerr );
				return;
			}

			// [BB] The launcher only sends the protocol version with LAUNCHER_MASTER_CHALLENGE.
			if ( lCommand == LAUNCHER_MASTER_CHALLENGE )
			{
				// [BB] Check if the requested version of the protocol matches ours.
				const unsigned short usVersion = NETWORK_ReadShort( pByteStream );

				if ( usVersion != MASTER_SERVER_VERSION )
				{
					NETWORK_WriteLong( &g_MessageBuffer.ByteStream, MSC_WRONGVERSION );
					NETWORK_LaunchPacket( &g_MessageBuffer, AddressFrom );
					return;
				}
			}

			printf( "-> Sending server list to %s.\n", NETWORK_AddressToString( AddressFrom ));

			// Wait 10 seconds before sending this IP the server list again.
			g_queryIPQueue.addAddress( AddressFrom, g_lCurrentTime, &std::cerr );

			switch ( lCommand )
			{
			case LAUNCHER_SERVER_CHALLENGE:
				// Send the list of servers.
				NETWORK_WriteLong( &g_MessageBuffer.ByteStream, MSC_BEGINSERVERLIST );
				for( std::set<SERVER_s, SERVERCompFunc>::const_iterator it = g_Servers.begin(); it != g_Servers.end(); ++it )
				{
					// [BB] Possibly omit servers that don't enforce our ban list.
					if ( ( it->bEnforcesBanList == true ) || ( g_bHideBanIgnoringServers == false ) )
						MASTERSERVER_SendServerIPToLauncher ( it->Address, &g_MessageBuffer.ByteStream );
				}

				// Tell the launcher that we're done sending servers.
				NETWORK_WriteByte( &g_MessageBuffer.ByteStream, MSC_ENDSERVERLIST );

				// Send the launcher our packet.
				NETWORK_LaunchPacket( &g_MessageBuffer, AddressFrom );
				return;

			case LAUNCHER_MASTER_CHALLENGE:

				const unsigned long ulMaxPacketSize = 1024;
				unsigned long ulPacketNum = 0;

				std::set<SERVER_s, SERVERCompFunc>::const_iterator it = g_Servers.begin();

				NETWORK_WriteLong( &g_MessageBuffer.ByteStream, MSC_BEGINSERVERLISTPART );
				NETWORK_WriteByte( &g_MessageBuffer.ByteStream, ulPacketNum );
				NETWORK_WriteByte( &g_MessageBuffer.ByteStream, MSC_SERVERBLOCK );
				unsigned long ulSizeOfPacket = 6; // 4 (MSC_BEGINSERVERLISTPART) + 1 (0) + 1 (MSC_SERVERBLOCK)

				while ( it != g_Servers.end() )
				{
					NETADDRESS_s serverAddress = it->Address;
					std::vector<USHORT> serverPortList;

					do {
						// [BB] Possibly omit servers that don't enforce our ban list.
						if ( ( it->bEnforcesBanList == true ) || ( g_bHideBanIgnoringServers == false ) )
							serverPortList.push_back ( it->Address.usPort );
						++it;
					} while ( ( it != g_Servers.end() ) && NETWORK_CompareAddress( it->Address, serverAddress, true ) );

					// [BB] All servers on this IP ignore the list, nothing to send.
					if ( serverPortList.size() == 0 )
						continue;

					const unsigned long ulServerBlockNetSize = MASTERSERVER_CalcServerIPBlockNetSize( serverAddress, serverPortList );

					// [BB] If sending this block would cause the current packet to exceed ulMaxPacketSize ...
					if ( ulSizeOfPacket + ulServerBlockNetSize > ulMaxPacketSize - 1 )
					{
						// [BB] ... close the current packet and start a new one.
						NETWORK_WriteByte( &g_MessageBuffer.ByteStream, 0 ); // [BB] Terminate MSC_SERVERBLOCK by sending 0 ports.
						NETWORK_WriteByte( &g_MessageBuffer.ByteStream, MSC_ENDSERVERLISTPART );
						NETWORK_LaunchPacket( &g_MessageBuffer, AddressFrom );

						NETWORK_ClearBuffer( &g_MessageBuffer );
						++ulPacketNum;
						ulSizeOfPacket = 5;
						NETWORK_WriteLong( &g_MessageBuffer.ByteStream, MSC_BEGINSERVERLISTPART );
						NETWORK_WriteByte( &g_MessageBuffer.ByteStream, ulPacketNum );
						NETWORK_WriteByte( &g_MessageBuffer.ByteStream, MSC_SERVERBLOCK );
					}
					ulSizeOfPacket += ulServerBlockNetSize;
					MASTERSERVER_SendServerIPBlockToLauncher ( serverAddress, serverPortList, &g_MessageBuffer.ByteStream );
				}
				NETWORK_WriteByte( &g_MessageBuffer.ByteStream, 0 ); // [BB] Terminate MSC_SERVERBLOCK by sending 0 ports.
				NETWORK_WriteByte( &g_MessageBuffer.ByteStream, MSC_ENDSERVERLIST );
				NETWORK_LaunchPacket( &g_MessageBuffer, AddressFrom );
				return;
			}
		}
	}

	printf( "* Received unknown challenge (%d) from %s. Ignoring for 10 seconds...\n", lCommand, NETWORK_AddressToString( AddressFrom ));
	g_floodProtectionIPQueue.addAddress( AddressFrom, g_lCurrentTime, &std::cerr );
}
예제 #12
0
파일: env.cpp 프로젝트: octaexon/fish-shell
static bool is_electric(const wcstring &key)
{
    return env_electric.find(key) != env_electric.end();
}
예제 #13
0
파일: env.cpp 프로젝트: octaexon/fish-shell
static bool is_read_only(const wcstring &key)
{
    return env_read_only.find(key) != env_read_only.end();
}
예제 #14
0
void remove_function_pointerst::remove_function_pointer(
  goto_programt &goto_program,
  goto_programt::targett target)
{
  const code_function_callt &code=
    to_code_function_call(target->code);

  const exprt &function=code.function();

  // this better have the right type
  code_typet call_type=to_code_type(function.type());

  // refine the type in case the forward declaration was incomplete
  if(call_type.has_ellipsis() &&
     call_type.parameters().empty())
  {
    call_type.remove_ellipsis();
    forall_expr(it, code.arguments())
      call_type.parameters().push_back(
        code_typet::parametert(it->type()));
  }

  assert(function.id()==ID_dereference);
  assert(function.operands().size()==1);

  const exprt &pointer=function.op0();

  // Is this simple?
  if(pointer.id()==ID_address_of &&
     to_address_of_expr(pointer).object().id()==ID_symbol)
  {
    to_code_function_call(target->code).function()=
      to_address_of_expr(pointer).object();
    return;
  }

  typedef std::list<exprt> functionst;
  functionst functions;

  bool return_value_used=code.lhs().is_not_nil();

  // get all type-compatible functions
  // whose address is ever taken
  for(type_mapt::const_iterator f_it=
      type_map.begin();
      f_it!=type_map.end();
      f_it++)
  {
    // address taken?
    if(address_taken.find(f_it->first)==address_taken.end())
      continue;

    // type-compatible?
    if(!is_type_compatible(return_value_used, call_type, f_it->second))
      continue;

    if(f_it->first=="pthread_mutex_cleanup")
      continue;

    symbol_exprt expr;
    expr.type()=f_it->second;
    expr.set_identifier(f_it->first);
    functions.push_back(expr);
  }

  // the final target is a skip
  goto_programt final_skip;

  goto_programt::targett t_final=final_skip.add_instruction();
  t_final->make_skip();

  // build the calls and gotos

  goto_programt new_code_calls;
  goto_programt new_code_gotos;

  for(functionst::const_iterator
      it=functions.begin();
      it!=functions.end();
      it++)
  {
    // call function
    goto_programt::targett t1=new_code_calls.add_instruction();
    t1->make_function_call(code);
    to_code_function_call(t1->code).function()=*it;

    // the signature of the function might not match precisely
    fix_argument_types(to_code_function_call(t1->code));

    fix_return_type(to_code_function_call(t1->code), new_code_calls);
    // goto final
    goto_programt::targett t3=new_code_calls.add_instruction();
    t3->make_goto(t_final, true_exprt());

    // goto to call
    address_of_exprt address_of;
    address_of.object()=*it;
    address_of.type()=pointer_typet();
    address_of.type().subtype()=it->type();

    if(address_of.type()!=pointer.type())
      address_of.make_typecast(pointer.type());

    goto_programt::targett t4=new_code_gotos.add_instruction();
    t4->make_goto(t1, equal_exprt(pointer, address_of));
  }

  // fall-through
  if(add_safety_assertion)
  {
    goto_programt::targett t=new_code_gotos.add_instruction();
    t->make_assertion(false_exprt());
    t->source_location.set_property_class("pointer dereference");
    t->source_location.set_comment("invalid function pointer");
  }

  goto_programt new_code;

  // patch them all together
  new_code.destructive_append(new_code_gotos);
  new_code.destructive_append(new_code_calls);
  new_code.destructive_append(final_skip);

  // set locations
  Forall_goto_program_instructions(it, new_code)
  {
    irep_idt property_class=it->source_location.get_property_class();
    irep_idt comment=it->source_location.get_comment();
    it->source_location=target->source_location;
    it->function=target->function;
    if(!property_class.empty()) it->source_location.set_property_class(property_class);
    if(!comment.empty()) it->source_location.set_comment(comment);
  }
예제 #15
0
// This function meshes the top surface of a QuadToTri extrusion.  It returns 0 if it is given a
// non-quadToTri extrusion or if it fails.
// Args:
//       'GFace *to' is the top surface to mesh, 'from' is the source surface, 'pos' is a std::set
//       of vertex positions for the top surface.
int MeshQuadToTriTopSurface( GFace *from, GFace *to, std::set<MVertex*,
                             MVertexLessThanLexicographic> &pos )
{
  if( !to->meshAttributes.extrude || !to->meshAttributes.extrude->mesh.QuadToTri  )
   return 0;

  // if the source is all triangles, then just let this function is not needed. Return 1.
  if( from->triangles.size() && !from->quadrangles.size() )
    return 1;

  // in weird case of NO quads and NO tri
  if( !from->triangles.size() && !from->quadrangles.size() )
    return 0;


  ExtrudeParams *ep = to->meshAttributes.extrude;
  if( !ep || !ep->mesh.ExtrudeMesh || !(ep->geo.Mode == COPIED_ENTITY) ){
    Msg::Error("In MeshQuadToTriTopSurface(), incomplete or no "
		"extrude information for top face %d.", to->tag() );
    return 0;
  }
  
  // is this a quadtri extrusion with added vertices?
  bool is_addverts = false;
  if( ep && (ep->mesh.QuadToTri == QUADTRI_ADDVERTS_1 || ep->mesh.QuadToTri == QUADTRI_ADDVERTS_1_RECOMB) )
    is_addverts = true;

  // execute this section if 
  // IF this is a 'no new vertices' quadToTri, mesh the surfaces according to this modified
  // least point value method: if a 3 boundary point quad, draw diagonals from middle corner toward
  // interior.  If a a 2- or 1- point boundary quad, draw toward lowest pointer number NOT on boundary.
  // All interior quad, draw diagonal to vertex with lowest pointer number.

  if( !is_addverts ){
    std::set<MVertex*, MVertexLessThanLexicographic> pos_src_edge;
    QuadToTriInsertFaceEdgeVertices(from, pos_src_edge);
    std::set<MVertex*, MVertexLessThanLexicographic>::iterator itp;

    // loop through each element source quadrangle and extrude
    for(unsigned int i = 0; i < from->quadrangles.size(); i++){
      std::vector<MVertex*> verts;
      for(int j = 0; j < from->quadrangles[i]->getNumVertices(); j++){
        MVertex *v = from->quadrangles[i]->getVertex(j);
        MVertex tmp(v->x(), v->y(), v->z(), 0, -1);
        ExtrudeParams *ep = to->meshAttributes.extrude;
        ep->Extrude(ep->mesh.NbLayer - 1, ep->mesh.NbElmLayer[ep->mesh.NbLayer - 1],
                    tmp.x(), tmp.y(), tmp.z());
        itp = pos.find(&tmp);
        if(itp == pos.end()){ // FIXME: workaround
          Msg::Info("Linear search for (%.16g, %.16g, %.16g)", tmp.x(), tmp.y(), tmp.z());
          itp = tmp.linearSearch(pos);
        }
        if(itp == pos.end()) {
          Msg::Error("In MeshQuadToTriTopSurface(), Could not find "
                     "extruded vertex (%.16g, %.16g, %.16g) in surface %d",
              tmp.x(), tmp.y(), tmp.z(), to->tag());
          to->triangles.reserve(to->triangles.size()+1);
          return 0;
        }
        verts.push_back(*itp);
      }


      if( verts.size() != 4 ){
        Msg::Error("During mesh of QuadToTri surface %d, %d vertices found "
                   "in quad of source surface %d.", to->tag(), verts.size(),
                   from->tag() );
        return 0;
      }

      // make the element
      MElement *element = from->quadrangles[i];

      // count vertices that are on a boundary edge
      int edge_verts_count = 0;
      //int skip_index = 0;
      int bnd_indices[4];
      for( int p = 0; p < element->getNumVertices(); p++ ){
        if( pos_src_edge.find( element->getVertex(p) ) != pos_src_edge.end() ){
          edge_verts_count++;
          bnd_indices[p] = 1;
        }
        else{
          //skip_index = p;
          bnd_indices[p] = 0;
        }
      }

      // Apply modified lowest vertex pointer diagonalization
      int low_index = -1;
      if( edge_verts_count == 3 || edge_verts_count == 2 || edge_verts_count == 1 ){
        for( int p = 0; p < 4; p++ ){
          if( !bnd_indices[p] && verts[p] != element->getVertex(p) ){
            if( low_index < 0 )
              low_index = p;
            else if( verts[p] < verts[low_index] )
              low_index = p;
          }
        }
        if( low_index < 0 ) // what if they are all degenerate?  Avoid the out-of-bounds error.
          low_index = 0;
      }

      // lowest possible vertex pointer, regardless of if on edge or not
      else if( edge_verts_count == 4 || edge_verts_count == 0 )
        low_index = getIndexForLowestVertexPointer(verts);

      addTriangle( verts[low_index],verts[(low_index+1)%verts.size()],
                   verts[(low_index+2)%verts.size()],to);
      addTriangle( verts[low_index],verts[(low_index+2)%verts.size()],
                   verts[(low_index+3)%verts.size()],to);
    }
    return 1;
  }


  // AFTER THIS POINT IN FUNCTION, CODE IS ALL FOR 'ADD INTERNAL VERTEX' EXTRUSIONS (Less restrictive).

  // if source face is unstructured, can try to make the top mesh a little neater
  GFace *root_source = findRootSourceFaceForFace( from );
  ExtrudeParams *ep_src = root_source->meshAttributes.extrude;
  bool struct_root = false;
  if( root_source &&
      ( (ep_src && ep_src->mesh.ExtrudeMesh && ep_src->geo.Mode == EXTRUDED_ENTITY) ||
        root_source->meshAttributes.method == MESH_TRANSFINITE ) )
    struct_root = true;

  if( !struct_root && MeshQuadToTriTopUnstructured(from, to, pos) )
    return 1;

  // And top surface for the 'added internal vertex' method can be meshed quite easily
  else{
    std::set<MVertex *, MVertexLessThanLexicographic >::iterator itp;
    // loop through each element source quadrangle and extrude
    for(unsigned int i = 0; i < from->quadrangles.size(); i++){
      std::vector<MVertex*> verts;
      for(int j = 0; j < from->quadrangles[i]->getNumVertices(); j++){
        MVertex *v = from->quadrangles[i]->getVertex(j);
        MVertex tmp(v->x(), v->y(), v->z(), 0, -1);
        ExtrudeParams *ep = to->meshAttributes.extrude;
        ep->Extrude(ep->mesh.NbLayer - 1, ep->mesh.NbElmLayer[ep->mesh.NbLayer - 1],
                    tmp.x(), tmp.y(), tmp.z());
        itp = pos.find(&tmp);
        if(itp == pos.end()){ // FIXME: workaround
          Msg::Info("Linear search for (%.16g, %.16g, %.16g)", tmp.x(), tmp.y(), tmp.z());
          itp = tmp.linearSearch(pos);
        }
        if(itp == pos.end()) {
          Msg::Error("In MeshQuadToTriTopSurface(), Could not find "
                     "extruded vertex (%.16g, %.16g, %.16g) in surface %d",
              tmp.x(), tmp.y(), tmp.z(), to->tag());
          to->triangles.reserve(to->triangles.size()+1);
          return 0;
        }
        verts.push_back(*itp);
      }


      if( verts.size() != 4 ){
        Msg::Error("During mesh of QuadToTri surface %d, %d vertices found "
                   "in quad of source surface %d.", to->tag(), verts.size(),
                   from->tag() );
        return 0;
      }

      // make the elements
      addTriangle( verts[0],verts[2], verts[3],to);
      addTriangle( verts[0],verts[1], verts[2],to);
    }
    return 1;
  }

  return 0;

}
예제 #16
0
// Simple function taht helps with cutting down repetition
bool inline inSet(const std::set<std::string>& a, const std::string& b)
{
    return a.end() != a.find(b);
}
예제 #17
0
void remove_function_pointerst::remove_function_pointer(
  goto_programt &goto_program,
  goto_programt::targett target)
{
  const code_function_callt &code=
    to_code_function_call(target->code);

  const exprt &function=code.function();
  
  // this better have the right type
  const code_typet &call_type=to_code_type(function.type());
  
  assert(function.id()==ID_dereference);
  assert(function.operands().size()==1);

  const exprt &pointer=function.op0();
  
  typedef std::list<exprt> functionst;
  functionst functions;
  
  // get all type-compatible functions
  // whose address is ever taken
  for(type_mapt::const_iterator f_it=
      type_map.begin();
      f_it!=type_map.end();
      f_it++)
  {
    // address taken?
    if(address_taken.find(f_it->first)==address_taken.end())
      continue;

    // type-compatible?
    if(!is_type_compatible(call_type, f_it->second))
      continue;
    
    symbol_exprt expr;
    expr.type()=f_it->second;
    expr.set_identifier(f_it->first);
    functions.push_back(expr);
  }
  
  // the final target is a skip
  goto_programt final_skip;

  goto_programt::targett t_final=final_skip.add_instruction();
  t_final->make_skip();
  
  // build the calls and gotos

  goto_programt new_code_calls;
  goto_programt new_code_gotos;

  for(functionst::const_iterator
      it=functions.begin();
      it!=functions.end();
      it++)
  {
    // call function
    goto_programt::targett t1=new_code_calls.add_instruction();
    t1->make_function_call(code);
    to_code_function_call(t1->code).function()=*it;
    
    // the signature of the function might not match precisely
    fix_argument_types(to_code_function_call(t1->code));
    
    fix_return_type(to_code_function_call(t1->code), new_code_calls);
    // goto final
    goto_programt::targett t3=new_code_calls.add_instruction();
    t3->make_goto(t_final, true_exprt());
  
    // goto to call
    address_of_exprt address_of;
    address_of.object()=*it;
    address_of.type()=pointer_typet();
    address_of.type().subtype()=it->type();
    
    if(address_of.type()!=pointer.type())
      address_of.make_typecast(pointer.type());
    
    goto_programt::targett t4=new_code_gotos.add_instruction();
    t4->make_goto(t1, equal_exprt(pointer, address_of));
  }

  // fall-through
  if(add_safety_assertion)
  {
    goto_programt::targett t=new_code_gotos.add_instruction();
    t->make_assertion(false_exprt());
    t->location.set(ID_property, "pointer dereference");
    t->location.set(ID_comment, "invalid function pointer");
  }
  
  goto_programt new_code;
  
  // patch them all together
  new_code.destructive_append(new_code_gotos);
  new_code.destructive_append(new_code_calls);
  new_code.destructive_append(final_skip);
  
  // set locations
  Forall_goto_program_instructions(it, new_code)
  {
    irep_idt property=it->location.get_property();
    irep_idt comment=it->location.get_comment();
    it->location=target->location;
    it->function=target->function;
    if(!property.empty()) it->location.set_property(property);
    if(!comment.empty()) it->location.set_comment(comment);
  }
예제 #18
0
bool find_sql_updates()
{
    printf("+ finding new sql updates on HEAD\n");
    // add all updates from HEAD
    snprintf(cmd, MAX_CMD, "git show HEAD:%s", sql_update_dir);
    if( (cmd_pipe = popen( cmd, "r" )) == NULL )
        return false;

    // skip first two lines
    if(!fgets(buffer, MAX_BUF, cmd_pipe)) { pclose(cmd_pipe); return false; }
    if(!fgets(buffer, MAX_BUF, cmd_pipe)) { pclose(cmd_pipe); return false; }

    sql_update_info info;

    while(fgets(buffer, MAX_BUF, cmd_pipe))
    {
        buffer[strlen(buffer) - 1] = '\0';
        if(!get_sql_update_info(buffer, info)) continue;

        if(info.db_idx == NUM_DATABASES)
        {
             if(info.rev > 0) printf("WARNING: incorrect database name for sql update %s\n", buffer);
             continue;
        }

        new_sql_updates.insert(buffer);
    }

    pclose(cmd_pipe);

    // remove updates from the last commit also found on origin
    snprintf(cmd, MAX_CMD, "git show %s:%s", origin_hash, sql_update_dir);
    if( (cmd_pipe = popen( cmd, "r" )) == NULL )
        return false;

    // skip first two lines
    if(!fgets(buffer, MAX_BUF, cmd_pipe)) { pclose(cmd_pipe); return false; }
    if(!fgets(buffer, MAX_BUF, cmd_pipe)) { pclose(cmd_pipe); return false; }

    while(fgets(buffer, MAX_BUF, cmd_pipe))
    {
        buffer[strlen(buffer) - 1] = '\0';
        if(!get_sql_update_info(buffer, info)) continue;

        // find the old update with the highest rev for each database
        // (will be the required version for the new update)
        std::set<std::string>::iterator itr = new_sql_updates.find(buffer);
        if(itr != new_sql_updates.end() )
        {
            if(info.rev > 0 && (info.rev > last_sql_rev[info.db_idx] ||
                (info.rev == last_sql_rev[info.db_idx] && info.nr > last_sql_nr[info.db_idx])))
            {
                last_sql_rev[info.db_idx] = info.rev;
                last_sql_nr[info.db_idx] = info.nr;
                if(db_sql_rev_parent[info.db_idx])
                    snprintf(last_sql_update[info.db_idx], MAX_PATH, "%s_%0*d_%s%s%s", info.parentRev, 2, info.nr, info.db, info.has_table ? "_" : "", info.table);
                else
                    sscanf(buffer, "%[^.]", last_sql_update[info.db_idx]);
            }
            new_sql_updates.erase(itr);
        }
    }

    pclose(cmd_pipe);

    if(!new_sql_updates.empty())
    {
        for(std::set<std::string>::iterator itr = new_sql_updates.begin(); itr != new_sql_updates.end(); ++itr)
            printf("%s\n", itr->c_str());
    }
    else
        printf("WARNING: no new sql updates found.\n");

    return true;
}
예제 #19
0
	~Wall()
	{
		walls.erase(walls.find(this));
	}
예제 #20
0
bool generate_sql_makefile()
{
    if(new_sql_updates.empty()) return true;

    // find all files in the update dir
    snprintf(cmd, MAX_CMD, "git show HEAD:%s", sql_update_dir);
    if( (cmd_pipe = popen( cmd, "r" )) == NULL )
        return false;

    // skip first two lines
    if(!fgets(buffer, MAX_BUF, cmd_pipe)) { pclose(cmd_pipe); return false; }
    if(!fgets(buffer, MAX_BUF, cmd_pipe)) { pclose(cmd_pipe); return false; }

    char newname[MAX_PATH];
    std::set<std::string> file_list;
    sql_update_info info;

    while(fgets(buffer, MAX_BUF, cmd_pipe))
    {
        buffer[strlen(buffer) - 1] = '\0';
        if(buffer[strlen(buffer) - 1] != '/' &&
            strncmp(buffer, "Makefile.am", MAX_BUF) != 0)
        {
            if(new_sql_updates.find(buffer) != new_sql_updates.end())
            {
                if(!get_sql_update_info(buffer, info)) return false;
                snprintf(newname, MAX_PATH, REV_PRINT "_%s_%0*d_%s%s%s.sql", rev, info.parentRev, 2, info.nr, info.db, info.has_table ? "_" : "", info.table);
                file_list.insert(newname);
            }
            else
                file_list.insert(buffer);
        }
    }

    pclose(cmd_pipe);

    // write the makefile
    char file_name[MAX_PATH];
    snprintf(file_name, MAX_PATH, "%s%s/Makefile.am", path_prefix, sql_update_dir);
    FILE *fout = fopen(file_name, "w");
    if(!fout) { pclose(cmd_pipe); return false; }

    fprintf(fout,
        "# Copyright (C) 2005-2011 MaNGOS <http://getmangos.com/>\n"
        "#\n"
        "# This program is free software; you can redistribute it and/or modify\n"
        "# it under the terms of the GNU General Public License as published by\n"
        "# the Free Software Foundation; either version 2 of the License, or\n"
        "# (at your option) any later version.\n"
        "#\n"
        "# This program is distributed in the hope that it will be useful,\n"
        "# but WITHOUT ANY WARRANTY; without even the implied warranty of\n"
        "# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the\n"
        "# GNU General Public License for more details.\n"
        "#\n"
        "# You should have received a copy of the GNU General Public License\n"
        "# along with this program; if not, write to the Free Software\n"
        "# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA\n"
        "\n"
        "## Process this file with automake to produce Makefile.in\n"
        "\n"
        "## Sub-directories to parse\n"
        "SUBDIRS = before_upgrade_to_0.13\n"
        "\n"
        "## Change installation location\n"
        "#  datadir = mangos/%s\n"
        "pkgdatadir = $(datadir)/mangos/%s\n"
        "\n"
        "## Files to be installed\n"
        "#  Install basic SQL files to datadir\n"
        "pkgdata_DATA = \\\n",
        sql_update_dir, sql_update_dir
    );

    for(std::set<std::string>::iterator itr = file_list.begin(), next; itr != file_list.end(); ++itr)
    {
        next = itr; ++next;
        fprintf(fout, "\t%s%s\n", itr->c_str(), next == file_list.end() ? "" : " \\");
    }

    fprintf(fout,
        "\n## Additional files to include when running 'make dist'\n"
        "#  SQL update files, to upgrade database schema from older revisions\n"
        "EXTRA_DIST = \\\n"
    );

    for(std::set<std::string>::iterator itr = file_list.begin(), next; itr != file_list.end(); ++itr)
    {
        next = itr; ++next;
        fprintf(fout, "\t%s%s\n", itr->c_str(), next == file_list.end() ? "" : " \\");
    }

    fclose(fout);

    snprintf(cmd, MAX_CMD, "git add %s%s/Makefile.am", path_prefix, sql_update_dir);
    system_switch_index(cmd);

    return true;
}
예제 #21
0
	void ResumeMonitoringOnFile(const char* filepath){
		auto it = mIgnoreFileChanges.find(filepath);
		if (it != mIgnoreFileChanges.end())
			mIgnoreFileChanges.erase(it);
	}
예제 #22
0
파일: mglib.c 프로젝트: rblake/petsc_amg
bool
is_member(T& element, std::set<T>& Set) {
    return (Set.find(element) != Set.end());
}
예제 #23
0
void ColorSpaceTransformOp::findConversion(
	const InputColorSpace &inputColorSpace,
	const OutputColorSpace &outputColorSpace,
	std::set< Conversion > &visitedConversions,
	std::vector< ConversionInfo > &currentConversion,
	std::vector< ConversionInfo > &bestConversion
	)
{
	Conversion conversion( inputColorSpace, outputColorSpace );

	/// Only proceed if we've not found a conversion yet, or if the conversion we're working on is likely to yield a better one than the best conversion found so far
	if ( ( bestConversion.size() > 0 ) && currentConversion.size() >= bestConversion.size() )
	{
		return;
	}

	/// Prevent cycles and back-tracking
	if ( visitedConversions.find( conversion ) != visitedConversions.end()
		|| visitedConversions.find( Conversion( outputColorSpace, inputColorSpace ) ) != visitedConversions.end())
	{
		return;
	}

	/// Mark conversion as visited so we don't try it again
	visitedConversions.insert( conversion );

	/// Find all converters which take our input color space
	ConvertersMap::const_iterator it = converters().find( inputColorSpace );
	if ( it == converters().end() )
	{
		return;
	}
	ConvertersMap::const_iterator end = converters().upper_bound( inputColorSpace );

	/// For each of these converters, either see if we can directly convert to the output color space, or recurse to find a sub-chain which can convert to it,
	/// keeping track of the best conversion found so far (shorter chains are better).
	for (; it != end; ++it )
	{
		ConversionInfo info = it->second;

		currentConversion.push_back( info );

		if ( it->second.get<2>() == outputColorSpace )
		{
			/// Termination condition
			bestConversion = currentConversion;
			currentConversion.pop_back();
			return;
		}

		/// Recurse
		ConverterTypesMap::const_iterator cIt = converterTypes().find( it->second.get<0>() );
		assert( cIt != converterTypes().end() );

		findConversion(
			cIt->second.second,
			outputColorSpace,

			visitedConversions,
			currentConversion,
			bestConversion
		);

		currentConversion.pop_back();
	}
}
예제 #24
0
void
RubberBandStretcher::Impl::ChannelData::construct(const std::set<size_t> &windowSizes,
                                                  size_t initialWindowSize,
                                                  size_t outbufSize)
{
    size_t maxSize = initialWindowSize;

    if (!windowSizes.empty()) {
        // std::set is ordered by value
        std::set<size_t>::const_iterator i = windowSizes.end();
        maxSize = *--i;
    }
    if (windowSizes.find(initialWindowSize) == windowSizes.end()) {
        if (initialWindowSize > maxSize) maxSize = initialWindowSize;
    }

    // max size of the real "half" of freq data
    size_t realSize = (maxSize * oversample)/2 + 1;

//    std::cerr << "ChannelData::construct([" << windowSizes.size() << "], " << maxSize << ", " << outbufSize << ")" << std::endl;
    
    if (outbufSize < maxSize) outbufSize = maxSize;

    inbuf = new RingBuffer<float>(maxSize);
    outbuf = new RingBuffer<float>(outbufSize);

    mag = allocDouble(realSize);
    phase = allocDouble(realSize);
    prevPhase = allocDouble(realSize);
    prevError = allocDouble(realSize);
    unwrappedPhase = allocDouble(realSize);
    envelope = allocDouble(realSize);

    freqPeak = new size_t[realSize];

    fltbuf = allocFloat(maxSize);

    accumulator = allocFloat(maxSize);
    windowAccumulator = allocFloat(maxSize);

    for (std::set<size_t>::const_iterator i = windowSizes.begin();
         i != windowSizes.end(); ++i) {
        ffts[*i] = new FFT(*i * oversample);
        ffts[*i]->initDouble();
    }
    if (windowSizes.find(initialWindowSize) == windowSizes.end()) {
        ffts[initialWindowSize] = new FFT(initialWindowSize * oversample);
        ffts[initialWindowSize]->initDouble();
    }
    fft = ffts[initialWindowSize];

    dblbuf = fft->getDoubleTimeBuffer();

    resampler = 0;
    resamplebuf = 0;
    resamplebufSize = 0;

    reset();

    for (size_t i = 0; i < realSize; ++i) {
        freqPeak[i] = 0;
    }

    for (size_t i = 0; i < initialWindowSize * oversample; ++i) {
        dblbuf[i] = 0.0;
    }

    for (size_t i = 0; i < maxSize; ++i) {
        accumulator[i] = 0.f;
        windowAccumulator[i] = 0.f;
    }

    // Avoid dividing opening sample (which will be discarded anyway) by zero
    windowAccumulator[0] = 1.f;
}
예제 #25
0
void
UserObjectWarehouse::updateDependObjects(const std::set<std::string> & depend_uo)
{
  // Bin the user objects into either Pre or Post AuxKernel bins
  for (std::map<SubdomainID, std::vector<ElementUserObject *> >::iterator it1 = _block_element_user_objects.begin(); it1 != _block_element_user_objects.end(); ++it1)
  {
    _pre_element_user_objects[it1->first].clear();
    _post_element_user_objects[it1->first].clear();
    for (std::vector<ElementUserObject *>::iterator it2 = it1->second.begin(); it2 != it1->second.end(); ++it2)
    {
      if (depend_uo.find((*it2)->name()) != depend_uo.end())
        _pre_element_user_objects[it1->first].push_back(*it2);
      else
        _post_element_user_objects[it1->first].push_back(*it2);
    }
  }

  for (std::map<BoundaryID, std::vector<SideUserObject *> >::iterator it1 = _boundary_side_user_objects.begin(); it1 != _boundary_side_user_objects.end(); ++it1)
  {
    _pre_side_user_objects[it1->first].clear();
    _post_side_user_objects[it1->first].clear();
    for (std::vector<SideUserObject *>::iterator it2 = it1->second.begin(); it2 != it1->second.end(); ++it2)
    {
      if (depend_uo.find((*it2)->name()) != depend_uo.end())
        _pre_side_user_objects[it1->first].push_back(*it2);
      else
        _post_side_user_objects[it1->first].push_back(*it2);
    }
  }

  _pre_internal_side_user_objects.clear();
  _post_internal_side_user_objects.clear();
  for (std::map<SubdomainID, std::vector<InternalSideUserObject *> >::iterator it1 = _block_internal_side_user_objects.begin(); it1 != _block_internal_side_user_objects.end(); ++it1)
  {
    _pre_internal_side_user_objects[it1->first].clear();
    _post_internal_side_user_objects[it1->first].clear();
    for (std::vector<InternalSideUserObject *>::iterator it2 = it1->second.begin(); it2 != it1->second.end(); ++it2)
    {
      if (depend_uo.find((*it2)->name()) != depend_uo.end())
        _pre_internal_side_user_objects[it1->first].push_back(*it2);
      else
        _post_internal_side_user_objects[it1->first].push_back(*it2);
    }
  }


  for (std::map<BoundaryID, std::vector<NodalUserObject *> >::iterator it1 = _boundary_nodal_user_objects.begin(); it1 != _boundary_nodal_user_objects.end(); ++it1)
  {
    _pre_nodal_user_objects[it1->first].clear();
    _post_nodal_user_objects[it1->first].clear();
    for (std::vector<NodalUserObject *>::iterator it2 = it1->second.begin(); it2 != it1->second.end(); ++it2)
    {
      if (depend_uo.find((*it2)->name()) != depend_uo.end())
        _pre_nodal_user_objects[it1->first].push_back(*it2);
      else
        _post_nodal_user_objects[it1->first].push_back(*it2);
    }
  }

  for (std::map<SubdomainID, std::vector<NodalUserObject *> >::iterator it1 = _block_nodal_user_objects.begin(); it1 != _block_nodal_user_objects.end(); ++it1)
  {
    _pre_block_nodal_user_objects[it1->first].clear();
    _post_block_nodal_user_objects[it1->first].clear();
    for (std::vector<NodalUserObject *>::iterator it2 = it1->second.begin(); it2 != it1->second.end(); ++it2)
    {
      if (depend_uo.find((*it2)->name()) != depend_uo.end())
        _pre_block_nodal_user_objects[it1->first].push_back(*it2);
      else
        _post_block_nodal_user_objects[it1->first].push_back(*it2);
    }
  }

  // Sort the General UserObjects
  sortUserObjects(_all_generic_user_objects);
  _pre_generic_user_objects.clear();
  _post_generic_user_objects.clear();
  for (std::vector<GeneralUserObject *>::iterator it2 = _all_generic_user_objects.begin(); it2 != _all_generic_user_objects.end(); ++it2)
  {
    if (depend_uo.find((*it2)->name()) != depend_uo.end())
      _pre_generic_user_objects.push_back(*it2);
    else
      _post_generic_user_objects.push_back(*it2);
  }
}
예제 #26
0
BOOL LLWindowManager::isWindowValid(LLWindow *window)
{
	return sWindowList.find(window) != sWindowList.end();
}
예제 #27
0
std::vector<ClassManager::ClassConnection> ClassManager::GetConnections(const string& type, const string& namespaceId, const std::set<string>& ids, EProtectionLevel protLevel, bool Virtual) const
{
	std::vector<ClassConnection> result;
	ClassConnection connection;
	connection.Virtual = Virtual;
	connection.protectionLevel = protLevel;

	switch (protLevel)
	{
	case PRIVATE: connection.connectionCode = _T("private "); break;
	case PROTECTED: connection.connectionCode = _T("protected "); break;
	case PUBLIC: connection.connectionCode = _T("public "); break;
	}
	if (Virtual) {
		connection.connectionCode = _T("virtual ");
	}
	connection.connectionCode += type;

	const std::size_t templateDelimiter = type.find_first_of(_T('<'));
	string directType = (templateDelimiter == string::npos) ? type : type.substr(0, templateDelimiter);
	string indirectTypes = (templateDelimiter == string::npos) ? string() : type.substr(templateDelimiter + 1);

	connection.type = DIRECT_INHERITANCE;
	for (const auto& defItem: split(directType, _T(" \t&*"))) {
		if (ids.find(defItem) != ids.end()) {
			connection.targetId = defItem;
			result.push_back(connection);
		} else {
			string namespaceStr = namespaceId;
			while(!namespaceStr.empty()) {
				if (ids.find(namespaceStr + _T("::") + defItem) != ids.end()) {
					connection.targetId = namespaceStr + _T("::") + defItem;
					result.push_back(connection);
					break;
				}

				const std::size_t pos = namespaceStr.rfind(_T("::"));
				if (pos == string::npos) break;
				namespaceStr = namespaceStr.substr(0, pos);
			}
		}
	}

	connection.type = INDIRECT_INHERITANCE;
	for (const auto& defItem: split(indirectTypes, _T(",<> \t&*"))) {
		if (ids.find(defItem) != ids.end()) {
			connection.targetId = defItem;
			result.push_back(connection);
		} else {
			string namespaceStr = namespaceId;
			while(!namespaceStr.empty()) {
				if (ids.find(namespaceStr + _T("::") + defItem) != ids.end()) {
					connection.targetId = namespaceStr + _T("::") + defItem;
					result.push_back(connection);
					break;
				}

				const std::size_t pos = namespaceStr.rfind(_T("::"));
				if (pos == string::npos) break;
				namespaceStr = namespaceStr.substr(0, pos);
			}
		}

	}

	return result;
}
예제 #28
0
// this function specifically meshes a quadToTri top in an unstructured way
// return 1 if success, return 0 if failed.
// Added 2010-12-20
static int MeshQuadToTriTopUnstructured(GFace *from, GFace *to,
                                   std::set<MVertex*, MVertexLessThanLexicographic> &pos)
{

  // if the source is all triangles, then just return 1.
  if( from->triangles.size() && !from->quadrangles.size() )
    return 1;

  if( !to->meshAttributes.extrude || !to->meshAttributes.extrude->mesh.QuadToTri  )
    return 0;


  // in weird case of NO quads and NO tri
  if( !from->triangles.size() && !from->quadrangles.size() )
    return 0;


  // make set of source edge vertices
  std::set<MVertex*, MVertexLessThanLexicographic> pos_src_edge;
  QuadToTriInsertFaceEdgeVertices(from, pos_src_edge);

  // Loop through all the quads and make the triangles with diagonals running
  // in a selected direction.

  to->triangles.reserve(to->triangles.size()+from->quadrangles.size()*2);
  std::set<MVertex*, MVertexLessThanLexicographic>::iterator itp;

  for(unsigned int i = 0; i < from->quadrangles.size(); i++){
    std::vector<MVertex*> verts;
    for(int j = 0; j < from->quadrangles[i]->getNumVertices(); j++){
      MVertex *v = from->quadrangles[i]->getVertex(j);
      MVertex tmp(v->x(), v->y(), v->z(), 0, -1);
      ExtrudeParams *ep = to->meshAttributes.extrude;
      ep->Extrude(ep->mesh.NbLayer - 1, ep->mesh.NbElmLayer[ep->mesh.NbLayer - 1],
                  tmp.x(), tmp.y(), tmp.z());
      itp = pos.find(&tmp);
      if(itp == pos.end()){ // FIXME: workaround
        Msg::Info("Linear search for (%.16g, %.16g, %.16g)", tmp.x(), tmp.y(), tmp.z());
        itp = tmp.linearSearch(pos);
      }
      if(itp == pos.end()) {
        Msg::Error("Could not find extruded vertex (%.16g, %.16g, %.16g) in surface %d",
            tmp.x(), tmp.y(), tmp.z(), to->tag());
        to->triangles.reserve(to->triangles.size()+1);
        return 0;
      }
      verts.push_back(*itp);
    }


    if( verts.size() != 4 ){
      Msg::Error("During mesh of QuadToTri surface %d, %d vertices found "
                 "in quad of source surface %d.", to->tag(), verts.size(),
                 from->tag() );
      return 0;
    }


    // draw other diagonals to minimize difference in average edge length with diagonal length, in quadrature

    double mag_sq_ave = 0.0;
    for( int p = 0; p < 4; p++ ){
      int d_leg = verts[p]->distance(verts[(p+1)%4]);
      mag_sq_ave += d_leg*d_leg;
    }
    mag_sq_ave /= 4;

    double d1 = verts[0]->distance(verts[2]);
    double d2 = verts[1]->distance(verts[3]);

    if(fabs(d1*d1-mag_sq_ave) <= fabs(d2*d2-mag_sq_ave) ){
      addTriangle(verts[0],verts[1],verts[2],to);
      addTriangle(verts[0],verts[2],verts[3],to);
    }
    else{
      addTriangle(verts[1],verts[2],verts[3],to);
      addTriangle(verts[1],verts[3],verts[0],to);
    }
  }

  return 1;
}
예제 #29
0
파일: mic.c 프로젝트: msbritt/torque
int add_mic_status(

  std::vector<std::string> &status)

  {
  uint32_t                 num_engines = 0;
  uint32_t                 i = 0;

#ifdef NUMA_SUPPORT
  /* does this node board have mics configured? */
  if (node_boards[numa_index].mic_end_index < 0)
    return(PBSE_NONE);
#endif

  if (COIEngineGetCount(COI_ISA_MIC, &num_engines) != COI_SUCCESS)
    {
    log_err(-1, __func__, "Mics are present but apparently not configured correctly - can't get count");
    return(PBSE_SYSTEM);
    }

  status.push_back(START_MIC_STATUS);

#ifdef NUMA_SUPPORT
  if (num_engines < node_boards[numa_index].mic_end_index)
    {
    snprintf(log_buffer, sizeof(log_buffer),
      "node board %d is supposed to have mic range %d-%d but there are only %d mics",
      numa_index, node_boards[numa_index].mic_start_index,
      node_boards[numa_index].mic_end_index, num_engines);
    log_err(-1, __func__, log_buffer);
    return(PBSE_SYSTEM);
    }

  for (i = node_boards[numa_index].mic_start_index; i <= node_boards[numa_index].mic_end_index; i++)
#else
  for (i = 0; i < num_engines; i++)
#endif
    {
    COIENGINE                engine;
    struct COI_ENGINE_INFO   mic_stat;

    memset(&engine, 0, sizeof(engine));
    memset(&mic_stat, 0, sizeof(mic_stat));

    if (COIEngineGetHandle(COI_ISA_MIC, i, &engine) != COI_SUCCESS)
      {
      if (down_mics.find(i) == down_mics.end())
        {
        snprintf(log_buffer, sizeof(log_buffer), "Can't get handle for mic index %d", (int)i);
        log_event(PBSEVENT_SYSTEM, PBS_EVENTCLASS_SERVER, __func__, log_buffer);
        down_mics.insert(i);
        }

      continue;
      }

    if (COIEngineGetInfo(engine, sizeof(struct COI_ENGINE_INFO), &mic_stat) != COI_SUCCESS)
      {
      snprintf(log_buffer, sizeof(log_buffer), "Can't get information for mic index %d", (int)i);
      log_err(-1, __func__, log_buffer);

      continue;
      }

    add_single_mic_info(status, &mic_stat);
    }

  status.push_back(END_MIC_STATUS);

  return(PBSE_NONE);
  } /* END add_mic_status() */
예제 #30
0
void DoCommands(const ConfigParameters& config, const shared_ptr<MPIWrapper>& mpi)
{
    ConfigArray command = config(L"command", "train");

    if (Globals::ShouldForceDeterministicAlgorithms())
        ForceDeterministicAlgorithmsOnCPU();
    else
    {
        // Setting specified number of threads.
        int numCPUThreads = config(L"numCPUThreads", "0");
        numCPUThreads = CPUMatrix<ElemType>::SetNumThreads(numCPUThreads);
        if (numCPUThreads > 0)
        {
            LOGPRINTF(stderr, "Using %d CPU threads.\n", numCPUThreads);
        }
    }

    bool progressTracing = config(L"progressTracing", false);

    // temporary hack to prevent users from failing due to a small breaking change related to the "truncated" flag (will be redone bigger and better some day)
    DisableLegacyUsage(config, command);

    // summarize command info upfront in the log and stdout
    size_t fullTotalMaxEpochs = 0;
    for (int i = 0; i < command.size(); i++)
    {
        // get the configuration parameters that match the command
        ConfigParameters commandParams(config(command[i]));
        ConfigArray action = commandParams("action", "train");

        // determine the action to perform, and do it
        for (int j = 0; j < action.size(); j++)
        {
            if (action[j] == "train" || action[j] == "trainRNN")
            {
                wstring modelPath = commandParams("modelPath");
                size_t maxEpochs = GetMaxEpochs(commandParams);
                if (progressTracing)
                {
                    LOGPRINTF(stderr, "CNTKModelPath: %ls\n", modelPath.c_str());
                    LOGPRINTF(stderr, "CNTKCommandTrainInfo: %s : %d\n", command[i].c_str(), (int)maxEpochs);
                }
                fullTotalMaxEpochs += maxEpochs;
            }
        }
    }
    if (progressTracing)
    {
        LOGPRINTF(stderr, "CNTKCommandTrainInfo: CNTKNoMoreCommands_Total : %d\n", (int)fullTotalMaxEpochs);
    }

    // set up progress tracing for compute cluster management
    if (progressTracing && (!mpi || mpi->IsMainNode()))
    {
        ProgressTracing::SetTracingFlag();
        ProgressTracing::TraceTotalNumberOfSteps(fullTotalMaxEpochs); // enable tracing, using this as the total number of epochs
    }

    size_t fullEpochsOffset = 0;

    // execute the commands
    for (int i = 0; i < command.size(); i++)
    {
        // get the configuration parameters that match the command
        const string thisCommand = command[i];
        ConfigParameters commandParams(config(thisCommand));
        ConfigArray action = commandParams("action", "train");
        int traceLevel = commandParams("traceLevel", "0");

        if (progressTracing && ((mpi == nullptr) || mpi->IsMainNode()))
        {
            ProgressTracing::SetStepOffset(fullEpochsOffset); // this is the epoch number that SGD will log relative to
        }

        // determine the action to perform, and do it
        for (int j = 0; j < action.size(); j++)
        {
            const string thisAction = action[j];

            // print a banner to visually separate each action in the log
            const char* delim = "##############################################################################";
            string showActionAs = thisCommand + " command (" + thisAction + " action)";
            fprintf(stderr, "\n");
            LOGPRINTF(stderr, "%s\n", delim);
            LOGPRINTF(stderr, "#%*s#\n", (int)(strlen(delim) - 2), "");
            LOGPRINTF(stderr, "# %s%*s #\n", showActionAs.c_str(), (int)(strlen(delim) - showActionAs.size() - 4), "");
            LOGPRINTF(stderr, "#%*s#\n", (int)(strlen(delim) - 2), "");
            LOGPRINTF(stderr, "%s\n\n", delim);

            if ((mpi == nullptr) || (commandstoRunOnAllRanks.find(thisAction) != commandstoRunOnAllRanks.end()) || mpi->IsMainNode())
            {
                if (thisAction == "train" || thisAction == "trainRNN")
                {
                    if (progressTracing)
                    {
                        LOGPRINTF(stderr, "CNTKCommandTrainBegin: %s\n", command[i].c_str());
                    }
                    DoTrain<ConfigParameters, ElemType>(commandParams);
                    if (progressTracing)
                    {
                        LOGPRINTF(stderr, "CNTKCommandTrainEnd: %s\n", command[i].c_str());
                    }
                    fullEpochsOffset += GetMaxEpochs(commandParams);
                }
                else if (thisAction == "bnstat")
                {
                    DoBatchNormalizationStat<ElemType>(commandParams);
                }
                else if (thisAction == "adapt")
                {
                    DoAdapt<ElemType>(commandParams);
                }
                else if (thisAction == "test" || thisAction == "eval")
                {
                    DoEval<ElemType>(commandParams);
                }
                else if (thisAction == "edit")
                {
                    DoEdit<ElemType>(commandParams);
                }
                else if (thisAction == "cv")
                {
                    DoCrossValidate<ElemType>(commandParams);
                }
                else if (thisAction == "write")
                {
                    DoWriteOutput<ElemType>(commandParams);
                }
                else if (thisAction == "devtest")
                {
                    TestCn<ElemType>(config); // for "devtest" action pass the root config instead
                }
                else if (thisAction == "dumpNodes" /*deprecated:*/ || thisAction == "dumpNode" || thisAction == "dumpnode")
                {
                    DoDumpNodes<ElemType>(commandParams);
                }
                else if (thisAction == "convertdbn")
                {
                    DoConvertFromDbn<ElemType>(commandParams);
                }
                else if (thisAction == "exportdbn")
                {
                    DoExportToDbn<ElemType>(commandParams);
                }
                else if (thisAction == "createLabelMap")
                {
                    DoCreateLabelMap<ElemType>(commandParams);
                }
                else if (thisAction == "writeWordAndClass")
                {
                    DoWriteWordAndClassInfo<ElemType>(commandParams);
                }
                else if (thisAction == "plot")
                {
                    DoTopologyPlot<ElemType>(commandParams);
                }
                else if (thisAction == "SVD")
                {
                    DoParameterSVD<ElemType>(commandParams);
                }
                else
                {
                    RuntimeError("unknown action: %s  in command set: %s", thisAction.c_str(), command[i].c_str());
                }
            }

            fprintf(stderr, "\n");
            if (traceLevel > 0)
            {
            LOGPRINTF(stderr, "Action \"%s\" complete.\n\n", thisAction.c_str());
            }

            NDLScript<ElemType> ndlScript;
            ndlScript.ClearGlobal(); // clear global macros between commands

            // Synchronize all ranks before proceeding to next action/command
            if (mpi)
                mpi->WaitAll();
        }
    }
}