/*------------------------------------------------------------------------- * drawElements Quality Program Tester Core * ---------------------------------------- * * Copyright 2014 The Android Open Source Project * * 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. * *//*! * \file * \brief Command line parsing. *//*--------------------------------------------------------------------*/ #include "tcuCommandLine.hpp" #include "tcuPlatform.hpp" #include "tcuTestCase.hpp" #include "deFilePath.hpp" #include "deStringUtil.hpp" #include "deString.h" #include "deInt32.h" #include "deCommandLine.h" #include "qpTestLog.h" #include "qpDebugOut.h" #include <string> #include <vector> #include <sstream> #include <fstream> #include <iostream> using std::string; using std::vector; // OOM tests are enabled by default only on platforms that don't do memory overcommit (Win32) #if (DE_OS == DE_OS_WIN32) # define TEST_OOM_DEFAULT "enable" #else # define TEST_OOM_DEFAULT "disable" #endif namespace tcu { namespace opt { DE_DECLARE_COMMAND_LINE_OPT(CasePath, std::string); DE_DECLARE_COMMAND_LINE_OPT(CaseList, std::string); DE_DECLARE_COMMAND_LINE_OPT(CaseListFile, std::string); DE_DECLARE_COMMAND_LINE_OPT(StdinCaseList, bool); DE_DECLARE_COMMAND_LINE_OPT(LogFilename, std::string); DE_DECLARE_COMMAND_LINE_OPT(RunMode, tcu::RunMode); DE_DECLARE_COMMAND_LINE_OPT(ExportFilenamePattern, std::string); DE_DECLARE_COMMAND_LINE_OPT(WatchDog, bool); DE_DECLARE_COMMAND_LINE_OPT(CrashHandler, bool); DE_DECLARE_COMMAND_LINE_OPT(BaseSeed, int); DE_DECLARE_COMMAND_LINE_OPT(TestIterationCount, int); DE_DECLARE_COMMAND_LINE_OPT(Visibility, WindowVisibility); DE_DECLARE_COMMAND_LINE_OPT(SurfaceWidth, int); DE_DECLARE_COMMAND_LINE_OPT(SurfaceHeight, int); DE_DECLARE_COMMAND_LINE_OPT(SurfaceType, tcu::SurfaceType); DE_DECLARE_COMMAND_LINE_OPT(ScreenRotation, tcu::ScreenRotation); DE_DECLARE_COMMAND_LINE_OPT(GLContextType, std::string); DE_DECLARE_COMMAND_LINE_OPT(GLConfigID, int); DE_DECLARE_COMMAND_LINE_OPT(GLConfigName, std::string); DE_DECLARE_COMMAND_LINE_OPT(GLContextFlags, std::string); DE_DECLARE_COMMAND_LINE_OPT(CLPlatformID, int); DE_DECLARE_COMMAND_LINE_OPT(CLDeviceIDs, std::vector<int>); DE_DECLARE_COMMAND_LINE_OPT(CLBuildOptions, std::string); DE_DECLARE_COMMAND_LINE_OPT(EGLDisplayType, std::string); DE_DECLARE_COMMAND_LINE_OPT(EGLWindowType, std::string); DE_DECLARE_COMMAND_LINE_OPT(EGLPixmapType, std::string); DE_DECLARE_COMMAND_LINE_OPT(LogImages, bool); DE_DECLARE_COMMAND_LINE_OPT(LogShaderSources, bool); DE_DECLARE_COMMAND_LINE_OPT(TestOOM, bool); DE_DECLARE_COMMAND_LINE_OPT(VKDeviceID, int); DE_DECLARE_COMMAND_LINE_OPT(LogFlush, bool); DE_DECLARE_COMMAND_LINE_OPT(Validation, bool); static void parseIntList (const char* src, std::vector<int>* dst) { std::istringstream str (src); std::string val; while (std::getline(str, val, ',')) { int intVal = 0; de::cmdline::parseType(val.c_str(), &intVal); dst->push_back(intVal); } } void registerOptions (de::cmdline::Parser& parser) { using de::cmdline::Option; using de::cmdline::NamedValue; static const NamedValue<bool> s_enableNames[] = { { "enable", true }, { "disable", false } }; static const NamedValue<tcu::RunMode> s_runModes[] = { { "execute", RUNMODE_EXECUTE }, { "xml-caselist", RUNMODE_DUMP_XML_CASELIST }, { "txt-caselist", RUNMODE_DUMP_TEXT_CASELIST }, { "stdout-caselist",RUNMODE_DUMP_STDOUT_CASELIST} }; static const NamedValue<WindowVisibility> s_visibilites[] = { { "windowed", WINDOWVISIBILITY_WINDOWED }, { "fullscreen", WINDOWVISIBILITY_FULLSCREEN }, { "hidden", WINDOWVISIBILITY_HIDDEN } }; static const NamedValue<tcu::SurfaceType> s_surfaceTypes[] = { { "window", SURFACETYPE_WINDOW }, { "pixmap", SURFACETYPE_OFFSCREEN_NATIVE }, { "pbuffer", SURFACETYPE_OFFSCREEN_GENERIC }, { "fbo", SURFACETYPE_FBO } }; static const NamedValue<tcu::ScreenRotation> s_screenRotations[] = { { "unspecified", SCREENROTATION_UNSPECIFIED }, { "0", SCREENROTATION_0 }, { "90", SCREENROTATION_90 }, { "180", SCREENROTATION_180 }, { "270", SCREENROTATION_270 } }; parser << Option<CasePath> ("n", "deqp-case", "Test case(s) to run, supports wildcards (e.g. dEQP-GLES2.info.*)") << Option<CaseList> (DE_NULL, "deqp-caselist", "Case list to run in trie format (e.g. {dEQP-GLES2{info{version,renderer}}})") << Option<CaseListFile> (DE_NULL, "deqp-caselist-file", "Read case list (in trie format) from given file") << Option<StdinCaseList> (DE_NULL, "deqp-stdin-caselist", "Read case list (in trie format) from stdin") << Option<LogFilename> (DE_NULL, "deqp-log-filename", "Write test results to given file", "TestResults.qpa") << Option<RunMode> (DE_NULL, "deqp-runmode", "Execute tests, or write list of test cases into a file", s_runModes, "execute") << Option<ExportFilenamePattern>(DE_NULL, "deqp-caselist-export-file", "Set the target file name pattern for caselist export", "${packageName}-cases.${typeExtension}") << Option<WatchDog> (DE_NULL, "deqp-watchdog", "Enable test watchdog", s_enableNames, "disable") << Option<CrashHandler> (DE_NULL, "deqp-crashhandler", "Enable crash handling", s_enableNames, "disable") << Option<BaseSeed> (DE_NULL, "deqp-base-seed", "Base seed for test cases that use randomization", "0") << Option<TestIterationCount> (DE_NULL, "deqp-test-iteration-count", "Iteration count for cases that support variable number of iterations", "0") << Option<Visibility> (DE_NULL, "deqp-visibility", "Default test window visibility", s_visibilites, "windowed") << Option<SurfaceWidth> (DE_NULL, "deqp-surface-width", "Use given surface width if possible", "-1") << Option<SurfaceHeight> (DE_NULL, "deqp-surface-height", "Use given surface height if possible", "-1") << Option<SurfaceType> (DE_NULL, "deqp-surface-type", "Use given surface type", s_surfaceTypes, "window") << Option<ScreenRotation> (DE_NULL, "deqp-screen-rotation", "Screen rotation for platforms that support it", s_screenRotations, "0") << Option<GLContextType> (DE_NULL, "deqp-gl-context-type", "OpenGL context type for platforms that support multiple") << Option<GLConfigID> (DE_NULL, "deqp-gl-config-id", "OpenGL (ES) render config ID (EGL config id on EGL platforms)", "-1") << Option<GLConfigName> (DE_NULL, "deqp-gl-config-name", "Symbolic OpenGL (ES) render config name") << Option<GLContextFlags> (DE_NULL, "deqp-gl-context-flags", "OpenGL context flags (comma-separated, supports debug and robust)") << Option<CLPlatformID> (DE_NULL, "deqp-cl-platform-id", "Execute tests on given OpenCL platform (IDs start from 1)", "1") << Option<CLDeviceIDs> (DE_NULL, "deqp-cl-device-ids", "Execute tests on given CL devices (comma-separated, IDs start from 1)", parseIntList, "") << Option<CLBuildOptions> (DE_NULL, "deqp-cl-build-options", "Extra build options for OpenCL compiler") << Option<EGLDisplayType> (DE_NULL, "deqp-egl-display-type", "EGL native display type") << Option<EGLWindowType> (DE_NULL, "deqp-egl-window-type", "EGL native window type") << Option<EGLPixmapType> (DE_NULL, "deqp-egl-pixmap-type", "EGL native pixmap type") << Option<VKDeviceID> (DE_NULL, "deqp-vk-device-id", "Vulkan device ID (IDs start from 1)", "1") << Option<LogImages> (DE_NULL, "deqp-log-images", "Enable or disable logging of result images", s_enableNames, "enable") << Option<LogShaderSources> (DE_NULL, "deqp-log-shader-sources", "Enable or disable logging of shader sources", s_enableNames, "enable") << Option<TestOOM> (DE_NULL, "deqp-test-oom", "Run tests that exhaust memory on purpose", s_enableNames, TEST_OOM_DEFAULT) << Option<LogFlush> (DE_NULL, "deqp-log-flush", "Enable or disable log file fflush", s_enableNames, "enable") << Option<Validation> (DE_NULL, "deqp-validation", "Enable or disable test case validation", s_enableNames, "disable"); } void registerLegacyOptions (de::cmdline::Parser& parser) { using de::cmdline::Option; parser << Option<GLConfigID> (DE_NULL, "deqp-egl-config-id", "Legacy name for --deqp-gl-config-id", "-1") << Option<GLConfigName> (DE_NULL, "deqp-egl-config-name", "Legacy name for --deqp-gl-config-name"); } } // opt // \todo [2014-02-13 pyry] This could be useful elsewhere as well. class DebugOutStreambuf : public std::streambuf { public: DebugOutStreambuf (void); ~DebugOutStreambuf (void); protected: std::streamsize xsputn (const char* s, std::streamsize count); int overflow (int ch = -1); private: void flushLine (void); std::ostringstream m_curLine; }; DebugOutStreambuf::DebugOutStreambuf (void) { } DebugOutStreambuf::~DebugOutStreambuf (void) { if (m_curLine.tellp() != std::streampos(0)) flushLine(); } std::streamsize DebugOutStreambuf::xsputn (const char* s, std::streamsize count) { for (std::streamsize pos = 0; pos < count; pos++) { m_curLine.put(s[pos]); if (s[pos] == '\n') flushLine(); } return count; } int DebugOutStreambuf::overflow (int ch) { if (ch == -1) return -1; else { DE_ASSERT((ch & 0xff) == ch); const char chVal = (char)(deUint8)(ch & 0xff); return xsputn(&chVal, 1) == 1 ? ch : -1; } } void DebugOutStreambuf::flushLine (void) { qpPrint(m_curLine.str().c_str()); m_curLine.str(""); } class CaseTreeNode { public: CaseTreeNode (const std::string& name) : m_name(name) {} ~CaseTreeNode (void); const std::string& getName (void) const { return m_name; } bool hasChildren (void) const { return !m_children.empty(); } bool hasChild (const std::string& name) const; const CaseTreeNode* getChild (const std::string& name) const; CaseTreeNode* getChild (const std::string& name); void addChild (CaseTreeNode* child) { m_children.push_back(child); } private: CaseTreeNode (const CaseTreeNode&); CaseTreeNode& operator= (const CaseTreeNode&); enum { NOT_FOUND = -1 }; // \todo [2014-10-30 pyry] Speed up with hash / sorting int findChildNdx (const std::string& name) const; std::string m_name; std::vector<CaseTreeNode*> m_children; }; CaseTreeNode::~CaseTreeNode (void) { for (vector<CaseTreeNode*>::const_iterator i = m_children.begin(); i != m_children.end(); ++i) delete *i; } int CaseTreeNode::findChildNdx (const std::string& name) const { for (int ndx = 0; ndx < (int)m_children.size(); ++ndx) { if (m_children[ndx]->getName() == name) return ndx; } return NOT_FOUND; } inline bool CaseTreeNode::hasChild (const std::string& name) const { return findChildNdx(name) != NOT_FOUND; } inline const CaseTreeNode* CaseTreeNode::getChild (const std::string& name) const { const int ndx = findChildNdx(name); return ndx == NOT_FOUND ? DE_NULL : m_children[ndx]; } inline CaseTreeNode* CaseTreeNode::getChild (const std::string& name) { const int ndx = findChildNdx(name); return ndx == NOT_FOUND ? DE_NULL : m_children[ndx]; } static int getCurrentComponentLen (const char* path) { int ndx = 0; for (; path[ndx] != 0 && path[ndx] != '.'; ++ndx); return ndx; } static const CaseTreeNode* findNode (const CaseTreeNode* root, const char* path) { const CaseTreeNode* curNode = root; const char* curPath = path; int curLen = getCurrentComponentLen(curPath); for (;;) { curNode = curNode->getChild(std::string(curPath, curPath+curLen)); if (!curNode) break; curPath += curLen; if (curPath[0] == 0) break; else { DE_ASSERT(curPath[0] == '.'); curPath += 1; curLen = getCurrentComponentLen(curPath); } } return curNode; } static void parseCaseTrie (CaseTreeNode* root, std::istream& in) { vector<CaseTreeNode*> nodeStack; string curName; bool expectNode = true; if (in.get() != '{') throw std::invalid_argument("Malformed case trie"); nodeStack.push_back(root); while (!nodeStack.empty()) { const int curChr = in.get(); if (curChr == std::char_traits<char>::eof() || curChr == 0) throw std::invalid_argument("Unterminated case tree"); if (curChr == '{' || curChr == ',' || curChr == '}') { if (!curName.empty() && expectNode) { CaseTreeNode* const newChild = new CaseTreeNode(curName); try { nodeStack.back()->addChild(newChild); } catch (...) { delete newChild; throw; } if (curChr == '{') nodeStack.push_back(newChild); curName.clear(); } else if (curName.empty() == expectNode) throw std::invalid_argument(expectNode ? "Empty node name" : "Missing node separator"); if (curChr == '}') { expectNode = false; nodeStack.pop_back(); // consume trailing new line if (nodeStack.empty()) { if (in.peek() == '\r') in.get(); if (in.peek() == '\n') in.get(); } } else expectNode = true; } else if (isValidTestCaseNameChar((char)curChr)) curName += (char)curChr; else throw std::invalid_argument("Illegal character in node name"); } } static void parseCaseList (CaseTreeNode* root, std::istream& in) { // \note Algorithm assumes that cases are sorted by groups, but will // function fine, albeit more slowly, if that is not the case. vector<CaseTreeNode*> nodeStack; int stackPos = 0; string curName; nodeStack.resize(8, DE_NULL); nodeStack[0] = root; for (;;) { const int curChr = in.get(); if (curChr == std::char_traits<char>::eof() || curChr == 0 || curChr == '\n' || curChr == '\r') { if (curName.empty()) throw std::invalid_argument("Empty test case name"); if (nodeStack[stackPos]->hasChild(curName)) throw std::invalid_argument("Duplicate test case"); CaseTreeNode* const newChild = new CaseTreeNode(curName); try { nodeStack[stackPos]->addChild(newChild); } catch (...) { delete newChild; throw; } curName.clear(); stackPos = 0; if (curChr == '\r' && in.peek() == '\n') in.get(); { const int nextChr = in.peek(); if (nextChr == std::char_traits<char>::eof() || nextChr == 0) break; } } else if (curChr == '.') { if (curName.empty()) throw std::invalid_argument("Empty test group name"); if ((int)nodeStack.size() <= stackPos+1) nodeStack.resize(nodeStack.size()*2, DE_NULL); if (!nodeStack[stackPos+1] || nodeStack[stackPos+1]->getName() != curName) { CaseTreeNode* curGroup = nodeStack[stackPos]->getChild(curName); if (!curGroup) { curGroup = new CaseTreeNode(curName); try { nodeStack[stackPos]->addChild(curGroup); } catch (...) { delete curGroup; throw; } } nodeStack[stackPos+1] = curGroup; if ((int)nodeStack.size() > stackPos+2) nodeStack[stackPos+2] = DE_NULL; // Invalidate rest of entries } DE_ASSERT(nodeStack[stackPos+1]->getName() == curName); curName.clear(); stackPos += 1; } else if (isValidTestCaseNameChar((char)curChr)) curName += (char)curChr; else throw std::invalid_argument("Illegal character in test case name"); } } static CaseTreeNode* parseCaseList (std::istream& in) { CaseTreeNode* const root = new CaseTreeNode(""); try { if (in.peek() == '{') parseCaseTrie(root, in); else parseCaseList(root, in); { const int curChr = in.get(); if (curChr != std::char_traits<char>::eof() && curChr != 0) throw std::invalid_argument("Trailing characters at end of case list"); } return root; } catch (...) { delete root; throw; } } class CasePaths { public: CasePaths (const string& pathList); bool matches (const string& caseName, bool allowPrefix=false) const; private: const vector<string> m_casePatterns; }; CasePaths::CasePaths (const string& pathList) : m_casePatterns(de::splitString(pathList, ',')) { } // Match a single path component against a pattern component that may contain *-wildcards. static bool matchWildcards(string::const_iterator patternStart, string::const_iterator patternEnd, string::const_iterator pathStart, string::const_iterator pathEnd, bool allowPrefix) { string::const_iterator pattern = patternStart; string::const_iterator path = pathStart; while (pattern != patternEnd && path != pathEnd && *pattern == *path) { ++pattern; ++path; } if (pattern == patternEnd) return (path == pathEnd); else if (*pattern == '*') { for (; path != pathEnd; ++path) { if (matchWildcards(pattern + 1, patternEnd, path, pathEnd, allowPrefix)) return true; } if (matchWildcards(pattern + 1, patternEnd, pathEnd, pathEnd, allowPrefix)) return true; } else if (path == pathEnd && allowPrefix) return true; return false; } #if defined(TCU_HIERARCHICAL_CASEPATHS) // Match a list of pattern components to a list of path components. A pattern // component may contain *-wildcards. A pattern component "**" matches zero or // more whole path components. static bool patternMatches(vector<string>::const_iterator patternStart, vector<string>::const_iterator patternEnd, vector<string>::const_iterator pathStart, vector<string>::const_iterator pathEnd, bool allowPrefix) { vector<string>::const_iterator pattern = patternStart; vector<string>::const_iterator path = pathStart; while (pattern != patternEnd && path != pathEnd && *pattern != "**" && (*pattern == *path || matchWildcards(pattern->begin(), pattern->end(), path->begin(), path->end(), false))) { ++pattern; ++path; } if (path == pathEnd && (allowPrefix || pattern == patternEnd)) return true; else if (pattern != patternEnd && *pattern == "**") { for (; path != pathEnd; ++path) if (patternMatches(pattern + 1, patternEnd, path, pathEnd, allowPrefix)) return true; if (patternMatches(pattern + 1, patternEnd, path, pathEnd, allowPrefix)) return true; } return false; } #endif bool CasePaths::matches (const string& caseName, bool allowPrefix) const { const vector<string> components = de::splitString(caseName, '.'); for (size_t ndx = 0; ndx < m_casePatterns.size(); ++ndx) { #if defined(TCU_HIERARCHICAL_CASEPATHS) const vector<string> patternComponents = de::splitString(m_casePatterns[ndx], '.'); if (patternMatches(patternComponents.begin(), patternComponents.end(), components.begin(), components.end(), allowPrefix)) return true; #else if (matchWildcards(m_casePatterns[ndx].begin(), m_casePatterns[ndx].end(), caseName.begin(), caseName.end(), allowPrefix)) return true; #endif } return false; } /*--------------------------------------------------------------------*//*! * \brief Construct command line * \note CommandLine is not fully initialized until parse() has been called. *//*--------------------------------------------------------------------*/ CommandLine::CommandLine (void) : m_logFlags (0) , m_caseTree (DE_NULL) { } /*--------------------------------------------------------------------*//*! * \brief Construct command line from standard argc, argv pair. * * Calls parse() with given arguments * \param argc Number of arguments * \param argv Command line arguments *//*--------------------------------------------------------------------*/ CommandLine::CommandLine (int argc, const char* const* argv) : m_logFlags (0) , m_caseTree (DE_NULL) { if (!parse(argc, argv)) throw Exception("Failed to parse command line"); } /*--------------------------------------------------------------------*//*! * \brief Construct command line from string. * * Calls parse() with given argument. * \param cmdLine Full command line string. *//*--------------------------------------------------------------------*/ CommandLine::CommandLine (const std::string& cmdLine) : m_logFlags (0) , m_caseTree (DE_NULL) { if (!parse(cmdLine)) throw Exception("Failed to parse command line"); } CommandLine::~CommandLine (void) { delete m_caseTree; } void CommandLine::clear (void) { m_cmdLine.clear(); m_logFlags = 0; delete m_caseTree; m_caseTree = DE_NULL; } const de::cmdline::CommandLine& CommandLine::getCommandLine (void) const { return m_cmdLine; } void CommandLine::registerExtendedOptions (de::cmdline::Parser& parser) { DE_UNREF(parser); } /*--------------------------------------------------------------------*//*! * \brief Parse command line from standard argc, argv pair. * \note parse() must be called exactly once. * \param argc Number of arguments * \param argv Command line arguments *//*--------------------------------------------------------------------*/ bool CommandLine::parse (int argc, const char* const* argv) { DebugOutStreambuf sbuf; std::ostream debugOut (&sbuf); de::cmdline::Parser parser; opt::registerOptions(parser); opt::registerLegacyOptions(parser); registerExtendedOptions(parser); clear(); if (!parser.parse(argc-1, argv+1, &m_cmdLine, std::cerr)) { debugOut << "\n" << de::FilePath(argv[0]).getBaseName() << " [options]\n\n"; parser.help(debugOut); clear(); return false; } if (!m_cmdLine.getOption<opt::LogImages>()) m_logFlags |= QP_TEST_LOG_EXCLUDE_IMAGES; if (!m_cmdLine.getOption<opt::LogShaderSources>()) m_logFlags |= QP_TEST_LOG_EXCLUDE_SHADER_SOURCES; if (!m_cmdLine.getOption<opt::LogFlush>()) m_logFlags |= QP_TEST_LOG_NO_FLUSH; if ((m_cmdLine.hasOption<opt::CasePath>()?1:0) + (m_cmdLine.hasOption<opt::CaseList>()?1:0) + (m_cmdLine.hasOption<opt::CaseListFile>()?1:0) + (m_cmdLine.getOption<opt::StdinCaseList>()?1:0) > 1) { debugOut << "ERROR: multiple test case list options given!\n" << std::endl; clear(); return false; } try { if (m_cmdLine.hasOption<opt::CaseList>()) { std::istringstream str(m_cmdLine.getOption<opt::CaseList>()); m_caseTree = parseCaseList(str); } else if (m_cmdLine.hasOption<opt::CaseListFile>()) { std::ifstream in(m_cmdLine.getOption<opt::CaseListFile>().c_str(), std::ios_base::binary); if (!in.is_open() || !in.good()) throw Exception("Failed to open case list file '" + m_cmdLine.getOption<opt::CaseListFile>() + "'"); m_caseTree = parseCaseList(in); } else if (m_cmdLine.getOption<opt::StdinCaseList>()) { m_caseTree = parseCaseList(std::cin); } else if (m_cmdLine.hasOption<opt::CasePath>()) m_casePaths = de::MovePtr<const CasePaths>(new CasePaths(m_cmdLine.getOption<opt::CasePath>())); } catch (const std::exception& e) { debugOut << "ERROR: Failed to parse test case list: " << e.what() << "\n"; clear(); return false; } return true; } /*--------------------------------------------------------------------*//*! * \brief Parse command line from string. * \note parse() must be called exactly once. * \param cmdLine Full command line string. *//*--------------------------------------------------------------------*/ bool CommandLine::parse (const std::string& cmdLine) { deCommandLine* parsedCmdLine = deCommandLine_parse(cmdLine.c_str()); if (!parsedCmdLine) throw std::bad_alloc(); bool isOk = false; try { isOk = parse(parsedCmdLine->numArgs, parsedCmdLine->args); } catch (...) { deCommandLine_destroy(parsedCmdLine); throw; } deCommandLine_destroy(parsedCmdLine); return isOk; } const char* CommandLine::getLogFileName (void) const { return m_cmdLine.getOption<opt::LogFilename>().c_str(); } deUint32 CommandLine::getLogFlags (void) const { return m_logFlags; } RunMode CommandLine::getRunMode (void) const { return m_cmdLine.getOption<opt::RunMode>(); } const char* CommandLine::getCaseListExportFile (void) const { return m_cmdLine.getOption<opt::ExportFilenamePattern>().c_str(); } WindowVisibility CommandLine::getVisibility (void) const { return m_cmdLine.getOption<opt::Visibility>(); } bool CommandLine::isWatchDogEnabled (void) const { return m_cmdLine.getOption<opt::WatchDog>(); } bool CommandLine::isCrashHandlingEnabled (void) const { return m_cmdLine.getOption<opt::CrashHandler>(); } int CommandLine::getBaseSeed (void) const { return m_cmdLine.getOption<opt::BaseSeed>(); } int CommandLine::getTestIterationCount (void) const { return m_cmdLine.getOption<opt::TestIterationCount>(); } int CommandLine::getSurfaceWidth (void) const { return m_cmdLine.getOption<opt::SurfaceWidth>(); } int CommandLine::getSurfaceHeight (void) const { return m_cmdLine.getOption<opt::SurfaceHeight>(); } SurfaceType CommandLine::getSurfaceType (void) const { return m_cmdLine.getOption<opt::SurfaceType>(); } ScreenRotation CommandLine::getScreenRotation (void) const { return m_cmdLine.getOption<opt::ScreenRotation>(); } int CommandLine::getGLConfigId (void) const { return m_cmdLine.getOption<opt::GLConfigID>(); } int CommandLine::getCLPlatformId (void) const { return m_cmdLine.getOption<opt::CLPlatformID>(); } const std::vector<int>& CommandLine::getCLDeviceIds (void) const { return m_cmdLine.getOption<opt::CLDeviceIDs>(); } int CommandLine::getVKDeviceId (void) const { return m_cmdLine.getOption<opt::VKDeviceID>(); } bool CommandLine::isValidationEnabled (void) const { return m_cmdLine.getOption<opt::Validation>(); } bool CommandLine::isOutOfMemoryTestEnabled (void) const { return m_cmdLine.getOption<opt::TestOOM>(); } const char* CommandLine::getGLContextType (void) const { if (m_cmdLine.hasOption<opt::GLContextType>()) return m_cmdLine.getOption<opt::GLContextType>().c_str(); else return DE_NULL; } const char* CommandLine::getGLConfigName (void) const { if (m_cmdLine.hasOption<opt::GLConfigName>()) return m_cmdLine.getOption<opt::GLConfigName>().c_str(); else return DE_NULL; } const char* CommandLine::getGLContextFlags (void) const { if (m_cmdLine.hasOption<opt::GLContextFlags>()) return m_cmdLine.getOption<opt::GLContextFlags>().c_str(); else return DE_NULL; } const char* CommandLine::getCLBuildOptions (void) const { if (m_cmdLine.hasOption<opt::CLBuildOptions>()) return m_cmdLine.getOption<opt::CLBuildOptions>().c_str(); else return DE_NULL; } const char* CommandLine::getEGLDisplayType (void) const { if (m_cmdLine.hasOption<opt::EGLDisplayType>()) return m_cmdLine.getOption<opt::EGLDisplayType>().c_str(); else return DE_NULL; } const char* CommandLine::getEGLWindowType (void) const { if (m_cmdLine.hasOption<opt::EGLWindowType>()) return m_cmdLine.getOption<opt::EGLWindowType>().c_str(); else return DE_NULL; } const char* CommandLine::getEGLPixmapType (void) const { if (m_cmdLine.hasOption<opt::EGLPixmapType>()) return m_cmdLine.getOption<opt::EGLPixmapType>().c_str(); else return DE_NULL; } static bool checkTestGroupName (const CaseTreeNode* root, const char* groupPath) { const CaseTreeNode* node = findNode(root, groupPath); return node && node->hasChildren(); } static bool checkTestCaseName (const CaseTreeNode* root, const char* casePath) { const CaseTreeNode* node = findNode(root, casePath); return node && !node->hasChildren(); } bool CommandLine::checkTestGroupName (const char* groupName) const { if (m_casePaths) return m_casePaths->matches(groupName, true); else if (m_caseTree) return groupName[0] == 0 || tcu::checkTestGroupName(m_caseTree, groupName); else return true; } bool CommandLine::checkTestCaseName (const char* caseName) const { if (m_casePaths) return m_casePaths->matches(caseName, false); else if (m_caseTree) return tcu::checkTestCaseName(m_caseTree, caseName); else return true; } } // tcu