Exemplo n.º 1
0
bool Arguments::handleCommandLine() const
{
  if (!(mSaveLayout && haveFile() && haveOutputDir()))
    return false;

  CCopasiRootContainer::init(0, NULL, false);
  CCopasiDataModel& model = *CCopasiRootContainer::addDatamodel();

  try
    {
      if (!model.importSBML(mFilename, NULL))
        model.loadModel(mFilename, NULL);
    }
  catch (CCopasiException &ex)
    {
      std::cerr << ex.getMessage().getAllMessageText() << std::endl;
      return true;
    }

  for (size_t i = 0; i < model.getListOfLayouts()->size(); ++i)
    {
      CLayout* layout = (*model.getListOfLayouts())[i];
      CQLayoutScene scene(layout, &model);
      scene.recreate();
      scene.saveToFile(mOutputDir + "/" + QFileInfo(mFilename.c_str()).baseName().toStdString() + "_" + layout->getObjectName() + "." + mFileType, mFileType);
    }

  return true;
}
Exemplo n.º 2
0
bool Arguments::isValid() const
{
  if (!haveFile()) return false;

  if (!QFile(mFilename.c_str()).exists()) return false;

  return true;
}
Exemplo n.º 3
0
  kernel_t<COI>* kernel_t<COI>::buildFromSource(const std::string &filename,
                                                          const std::string &functionName_,
                                                          const kernelInfo &info_){
    functionName = functionName_;

    kernelInfo info = info_;
    info.addDefine("OCCA_USING_CPU", 1);
    info.addDefine("OCCA_USING_COI", 1);

    info.addOCCAKeywords(occaCOIDefines);

    std::stringstream salt;
    salt << "COI"
         << info.salt()
         << dev->dHandle->compilerEnvScript
         << dev->dHandle->compiler
         << dev->dHandle->compilerFlags
         << functionName;

    std::string cachedBinary = getCachedName(filename, salt.str());
    std::string libPath, soname;

    getFilePrefixAndName(cachedBinary, libPath, soname);

    std::string libName = "lib" + soname + ".so";

    cachedBinary = libPath + libName;

    struct stat buffer;
    bool fileExists = (stat(cachedBinary.c_str(), &buffer) == 0);

    if(fileExists){
      std::cout << "Found cached binary of [" << filename << "] in [" << cachedBinary << "]\n";
      return buildFromBinary(cachedBinary, functionName);
    }

    if(!haveFile(cachedBinary)){
      waitForFile(cachedBinary);

      return buildFromBinary(cachedBinary, functionName);
    }

    std::string iCachedBinary = createIntermediateSource(filename,
                                                         cachedBinary,
                                                         info);

    std::stringstream command;

    if(dev->dHandle->compilerEnvScript.size())
      command << dev->dHandle->compilerEnvScript << " && ";

    command << dev->dHandle->compiler
#if (OCCA_OS == LINUX_OS) || (OCCA_OS == OSX_OS)
            << " -x c++ -w -nodefaultlibs -fPIC -shared"
#else
            << " /TP /LD /D MC_CL_EXE"
#endif
            << ' '    << dev->dHandle->compilerFlags
            << ' '    << info.flags
            << ' '    << iCachedBinary
#if (OCCA_OS == LINUX_OS) || (OCCA_OS == OSX_OS)
            << " -o " << cachedBinary
#else
            << " /link /OUT:" << cachedBinary
#endif
            << std::endl;

    const std::string &sCommand = command.str();

    std::cout << "Compiling [" << functionName << "]\n" << sCommand << "\n";

    const int compileError = system(sCommand.c_str());

    if(compileError){
      releaseFile(cachedBinary);
      throw 1;
    }

    OCCA_EXTRACT_DATA(COI, Kernel);

    COILIBRARY outLibrary;

    const COIRESULT loadingLibraryResult = COIProcessLoadLibraryFromFile(data_.chiefID,
                                                                         cachedBinary.c_str(),
                                                                         soname.c_str(),
                                                                         NULL,
                                                                         &outLibrary);

    if(errorCode != COI_SUCCESS)
      releaseFile(cachedBinary);

    OCCA_COI_CHECK("Kernel: Loading Kernel To Chief", loadingLibraryResult);

    const char *c_functionName = functionName.c_str();

    const COIRESULT getFunctionHandleResult = COIProcessGetFunctionHandles(data_.chiefID,
                                                                           1,
                                                                           &c_functionName,
                                                                           &(data_.kernel));

    if(errorCode != COI_SUCCESS)
      releaseFile(cachedBinary);

    OCCA_COI_CHECK("Kernel: Getting Handle", getFunctionHandleResult);

    releaseFile(cachedBinary);

    return this;
  }
Exemplo n.º 4
0
  kernel_t<CUDA>* kernel_t<CUDA>::buildFromSource(const std::string &filename,
                                                  const std::string &functionName_,
                                                  const kernelInfo &info_){
    OCCA_EXTRACT_DATA(CUDA, Kernel);

    functionName = functionName_;

    kernelInfo info = info_;
    std::string cachedBinary = getCachedBinaryName(filename, info);

    struct stat buffer;
    const bool fileExists = (stat(cachedBinary.c_str(), &buffer) == 0);

    if(fileExists){
      std::cout << "Found cached binary of [" << filename << "] in [" << cachedBinary << "]\n";
      return buildFromBinary(cachedBinary, functionName);
    }

    if(!haveFile(cachedBinary)){
      waitForFile(cachedBinary);

      return buildFromBinary(cachedBinary, functionName);
    }

    std::string iCachedBinary = createIntermediateSource(filename,
                                                         cachedBinary,
                                                         info);

    std::string libPath, soname;
    getFilePrefixAndName(cachedBinary, libPath, soname);

    std::string oCachedBinary = libPath + "o_" + soname + ".o";

    std::string archSM = "";

    if(dev->dHandle->compilerFlags.find("-arch=sm_") == std::string::npos){
      std::stringstream archSM_;

      int major, minor;
      OCCA_CUDA_CHECK("Kernel (" + functionName + ") : Getting CUDA Device Arch",
                      cuDeviceComputeCapability(&major, &minor, data_.device) );

      archSM_ << " -arch=sm_" << major << minor << ' ';

      archSM = archSM_.str();
    }

    std::stringstream command;

    //---[ PTX Check Command ]----------
    if(dev->dHandle->compilerEnvScript.size())
      command << dev->dHandle->compilerEnvScript << " && ";

    command << dev->dHandle->compiler
            << ' '          << dev->dHandle->compilerFlags
            << archSM
            << " -Xptxas -v,-dlcm=cg,-abi=no"
            << ' '          << info.flags
            << " -x cu -c " << iCachedBinary
            << " -o "       << oCachedBinary;

    const std::string &ptxCommand = command.str();

    std::cout << "Compiling [" << functionName << "]\n" << ptxCommand << "\n";

#if (OCCA_OS == LINUX_OS) || (OCCA_OS == OSX_OS)
    const int ptxError = system(ptxCommand.c_str());
#else
    const int ptxError = system(("\"" +  ptxCommand + "\"").c_str());
#endif

    // Not needed here I guess
    // if(ptxError){
    //   releaseFile(cachedBinary);
    //   throw 1;
    // }

    //---[ Compiling Command ]----------
    command.str("");

    command << dev->dHandle->compiler
            << " -o "       << cachedBinary
            << " -ptx -I."
            << ' '          << dev->dHandle->compilerFlags
            << archSM
            << ' '          << info.flags
            << " -x cu "    << iCachedBinary;

    const std::string &sCommand = command.str();

    std::cout << sCommand << '\n';

    const int compileError = system(sCommand.c_str());

    if(compileError){
      releaseFile(cachedBinary);
      throw 1;
    }

    const CUresult moduleLoadError = cuModuleLoad(&data_.module,
                                                  cachedBinary.c_str());

    if(moduleLoadError)
      releaseFile(cachedBinary);

    OCCA_CUDA_CHECK("Kernel (" + functionName + ") : Loading Module",
                    moduleLoadError);

    const CUresult moduleGetFunctionError = cuModuleGetFunction(&data_.function,
                                                                data_.module,
                                                                functionName.c_str());

    if(moduleGetFunctionError)
      releaseFile(cachedBinary);

    OCCA_CUDA_CHECK("Kernel (" + functionName + ") : Loading Function",
                    moduleGetFunctionError);

    releaseFile(cachedBinary);

    return this;
  }
Exemplo n.º 5
0
  void device_t<COI>::setup(const int device, const int memoryAllocated){
    data = new COIDeviceData_t;

    OCCA_EXTRACT_DATA(COI, Device);

    uint32_t deviceCount;
    OCCA_COI_CHECK("Device: Get Count",
                   COIEngineGetCount(COI_ISA_MIC, &deviceCount));

    OCCA_CHECK(device < deviceCount);

    OCCA_COI_CHECK("Device: Get Handle",
                   COIEngineGetHandle(COI_ISA_MIC, device, &data_.deviceID) );

    std::stringstream salt;
    salt << "COI"
         << occaCOIMain;

    std::string cachedBinary = getCachedName("occaCOIMain", salt.str());

    struct stat buffer;
    bool fileExists = (stat(cachedBinary.c_str(), &buffer) == 0);

    if(fileExists)
      std::cout << "Found cached binary of [occaCOIMain] in [" << cachedBinary << "]\n";
    else{
      //---[ Write File ]-----------------
      std::string prefix, name;

      getFilePrefixAndName(cachedBinary, prefix, name);

      const std::string iCachedBinary = prefix + "i_" + name;

      if(haveFile(cachedBinary)){
        std::cout << "Making [" << iCachedBinary << "]\n";

        std::ofstream fs;
        fs.open(iCachedBinary.c_str());

        fs << occaCOIMain;

        fs.close();

        std::stringstream command;

        command << dev->dHandle->compiler
                << " -o " << cachedBinary
                << " -x c++"
                << ' '    << dev->dHandle->compilerFlags
                << ' '    << iCachedBinary;

        const std::string &sCommand = command.str();

        std::cout << "Compiling [" << functionName << "]\n" << sCommand << "\n\n";

        system(sCommand.c_str());

        releaseFile(cachedBinary);
      }
      else
        waitForFile(cachedBinary);
    }

    // [-] Tentative
    std::string SINK_LD_LIBRARY_PATH;

    char *c_SINK_LD_LIBRARY_PATH = getenv("SINK_LD_LIBRARY_PATH");
    if(c_SINK_LD_LIBRARY_PATH != NULL)
      SINK_LD_LIBRARY_PATH = std::string(c_SINK_LD_LIBRARY_PATH);

    OCCA_COI_CHECK("Device: Initializing",
                   COIProcessCreateFromFile(data_.deviceID,
                                            cachedBinary.c_str(),
                                            0   , NULL,
                                            true, NULL,
                                            true, NULL,
                                            memoryAllocated ? memoryAllocated : (4 << 30), // 4 GB
                                            SINK_LD_LIBRARY_PATH.c_str(),
                                            &(data_.chiefID)) );

    const char *kernelNames[] = {"occaKernelWith1Argument"  , "occaKernelWith2Arguments" , "occaKernelWith3Arguments" ,
                                 "occaKernelWith4Arguments" , "occaKernelWith5Arguments" , "occaKernelWith6Arguments" ,
                                 "occaKernelWith7Arguments" , "occaKernelWith8Arguments" , "occaKernelWith9Arguments" ,
                                 "occaKernelWith10Arguments", "occaKernelWith11Arguments", "occaKernelWith12Arguments",
                                 "occaKernelWith13Arguments", "occaKernelWith14Arguments", "occaKernelWith15Arguments",
                                 "occaKernelWith16Arguments", "occaKernelWith17Arguments", "occaKernelWith18Arguments",
                                 "occaKernelWith19Arguments", "occaKernelWith20Arguments", "occaKernelWith21Arguments",
                                 "occaKernelWith22Arguments", "occaKernelWith23Arguments", "occaKernelWith24Arguments",
                                 "occaKernelWith25Arguments"};

    // [-] More hard-coding, if you know what I mean
    OCCA_COI_CHECK("Device: Getting Kernel Wrappers",
                   COIProcessGetFunctionHandles(data_.chiefID,
                                                25,
                                                kernelNames,
                                                data_.kernelWrapper));
  }