diff options
Diffstat (limited to 'tester')
| -rw-r--r-- | tester/covoar/DesiredSymbols.cc | 465 | ||||
| -rw-r--r-- | tester/covoar/DesiredSymbols.h | 98 | ||||
| -rw-r--r-- | tester/covoar/ReportsBase.cc | 181 | ||||
| -rw-r--r-- | tester/covoar/ReportsBase.h | 40 | ||||
| -rw-r--r-- | tester/covoar/ReportsHtml.cc | 62 | ||||
| -rw-r--r-- | tester/covoar/ReportsHtml.h | 13 | ||||
| -rw-r--r-- | tester/covoar/ReportsText.cc | 66 | ||||
| -rw-r--r-- | tester/covoar/ReportsText.h | 13 | ||||
| -rw-r--r-- | tester/covoar/covoar.cc | 6 |
9 files changed, 542 insertions, 402 deletions
diff --git a/tester/covoar/DesiredSymbols.cc b/tester/covoar/DesiredSymbols.cc index ffc4f86..2866dbe 100644 --- a/tester/covoar/DesiredSymbols.cc +++ b/tester/covoar/DesiredSymbols.cc @@ -37,6 +37,11 @@ namespace Coverage { { } + const DesiredSymbols::symbolSet_t& DesiredSymbols::allSymbols() const + { + return set; + } + void DesiredSymbols::load( const std::string& symbolsSet, const std::string& buildTarget, @@ -44,8 +49,6 @@ namespace Coverage { bool verbose ) { - rld::files::cache cache; - // // Load the INI file looking for a top level: // @@ -60,61 +63,61 @@ namespace Coverage { // [B] // libraries = @BUILD-PREFIX@/c/@BSP@/B/libB.a // - try { - cache.open(); + rld::config::config config; - rld::config::config config; + if (verbose) + std::cerr << "Loading symbol sets: " << symbolsSet << std::endl; - if (verbose) - std::cerr << "Loading symbol sets: " << symbolsSet << std::endl; + config.load (symbolsSet); - config.load (symbolsSet); + const rld::config::section& sym_section = config.get_section("symbol-sets"); - const rld::config::section& sym_section = config.get_section("symbol-sets"); + rld::strings sets; + rld::config::parse_items (sym_section, "sets", sets, true); - rld::strings sets; - rld::config::parse_items (sym_section, "sets", sets, true); + // Load the symbols for each set specified in the config file. + for (const auto& setName : sets) { + rld::files::cache cache; + cache.open(); - for (const std::string set : sets) { + if (verbose) + std::cerr << "Loading symbols for set: " << setName << std::endl; + const rld::config::section& set_section = config.get_section(setName); + rld::strings libs; + rld::config::parse_items (set_section, "libraries", libs, true); + for (std::string lib : libs) { + lib = rld::find_replace(lib, "@BUILD-TARGET@", buildTarget); + lib = rld::find_replace(lib, "@BSP@", buildBSP); if (verbose) - std::cerr << " Symbol set: " << set << std::endl; - const rld::config::section& set_section = config.get_section(set); - rld::strings libs; - rld::config::parse_items (set_section, "libraries", libs, true); - for (std::string lib : libs) { - lib = rld::find_replace(lib, "@BUILD-TARGET@", buildTarget); - lib = rld::find_replace(lib, "@BSP@", buildBSP); - if (verbose) - std::cerr << " Loading library: " << lib << std::endl; - cache.add(lib); - } + std::cerr << " Loading library: " << lib << std::endl; + cache.add(lib); } rld::symbols::table symbols; cache.load_symbols (symbols, true); + // Populate the symbol maps with all global symbols. for (auto& kv : symbols.globals()) { const rld::symbols::symbol& sym = *(kv.second); - if (sym.type() == sym.st_func) + if (sym.type() == sym.st_func) { set[sym.name()] = *(new SymbolInformation); + setNamesToSymbols[setName].push_back(sym.name()); + } } + // Populate the symbol maps with all weak symbols. for (auto& kv : symbols.weaks()) { const rld::symbols::symbol& sym = *(kv.second); - if (sym.type() == sym.st_func) + if (sym.type() == sym.st_func) { set[sym.name()] = *(new SymbolInformation); + setNamesToSymbols[setName].push_back(sym.name()); + } } - } catch (...) { - cache.close(); - throw; } - - cache.close(); } void DesiredSymbols::preprocess( void ) { - // Look at each symbol. for (auto& s : SymbolsToAnalyze->set) { // If the unified coverage map does not exist, the symbol was @@ -135,48 +138,52 @@ namespace Coverage { void DesiredSymbols::calculateStatistics( void ) { - // Look at each symbol. - for (auto& s : SymbolsToAnalyze->set) { - // If the unified coverage map does not exist, the symbol was - // never referenced by any executable. Just skip it. - CoverageMapBase* theCoverageMap = s.second.unifiedCoverageMap; - if (theCoverageMap) - { - // Increment the total sizeInBytes by the bytes in the symbol - stats.sizeInBytes += s.second.stats.sizeInBytes; - - // Now scan through the coverage map of this symbol. - uint32_t endAddress = s.second.stats.sizeInBytes - 1; - - for (uint32_t a = 0; a <= endAddress; ++a) { - // If we are at the start of instruction increment - // instruction type counters as needed. - if ( theCoverageMap->isStartOfInstruction( a ) ) { - - stats.sizeInInstructions++; - s.second.stats.sizeInInstructions++; - - if (!theCoverageMap->wasExecuted( a ) ) { - stats.uncoveredInstructions++; - s.second.stats.uncoveredInstructions++; - - if ( theCoverageMap->isBranch( a )) { - stats.branchesNotExecuted++; - s.second.stats.branchesNotExecuted++; + // Look at each symbol set. + for (const auto& kv : setNamesToSymbols) { + // Look at each symbol. + for (const auto& symbol : kv.second) { + SymbolInformation& info = set.at(symbol); + + // If the unified coverage map does not exist, the symbol was + // never referenced by any executable. Just skip it. + CoverageMapBase* theCoverageMap = info.unifiedCoverageMap; + if (theCoverageMap) { + // Increment the total sizeInBytes by the bytes in the symbol + stats[kv.first].sizeInBytes += info.stats.sizeInBytes; + + // Now scan through the coverage map of this symbol. + uint32_t endAddress = info.stats.sizeInBytes - 1; + + for (uint32_t a = 0; a <= endAddress; ++a) { + // If we are at the start of instruction increment + // instruction type counters as needed. + if ( theCoverageMap->isStartOfInstruction( a ) ) { + + stats[kv.first].sizeInInstructions++; + info.stats.sizeInInstructions++; + + if (!theCoverageMap->wasExecuted( a ) ) { + stats[kv.first].uncoveredInstructions++; + info.stats.uncoveredInstructions++; + + if ( theCoverageMap->isBranch( a )) { + stats[kv.first].branchesNotExecuted++; + info.stats.branchesNotExecuted++; + } + } else if (theCoverageMap->isBranch( a )) { + stats[kv.first].branchesExecuted++; + info.stats.branchesExecuted++; } - } else if (theCoverageMap->isBranch( a )) { - stats.branchesExecuted++; - s.second.stats.branchesExecuted++; } - } - if (!theCoverageMap->wasExecuted( a )) { - stats.uncoveredBytes++; - s.second.stats.uncoveredBytes++; + if (!theCoverageMap->wasExecuted( a )) { + stats[kv.first].uncoveredBytes++; + info.stats.uncoveredBytes++; + } } + } else { + stats[kv.first].unreferencedSymbols++; } - } else { - stats.unreferencedSymbols++; } } } @@ -184,152 +191,155 @@ namespace Coverage { void DesiredSymbols::computeUncovered( void ) { - // Look at each symbol. - for (auto& s : SymbolsToAnalyze->set) { - // If the unified coverage map does not exist, the symbol was - // never referenced by any executable. Just skip it. - CoverageMapBase* theCoverageMap = s.second.unifiedCoverageMap; - if (theCoverageMap) - { - // Create containers for the symbol's uncovered ranges and branches. - CoverageRanges* theRanges = new CoverageRanges(); - s.second.uncoveredRanges = theRanges; - CoverageRanges* theBranches = new CoverageRanges(); - s.second.uncoveredBranches = theBranches; - - uint32_t a; - uint32_t la; - uint32_t ha; - uint32_t endAddress; - uint32_t count; - - // Mark NOPs as executed - a = s.second.stats.sizeInBytes - 1; - count = 0; - while (a > 0) { - if (theCoverageMap->isStartOfInstruction( a )) { - break; - } - - count++; - - if (theCoverageMap->isNop( a )) { - for (la = a; la < (a + count); la++) { - theCoverageMap->setWasExecuted( la ); + // Look at each symbol set. + for (const auto& kv : setNamesToSymbols) { + // Look at each symbol. + for (const auto& symbol : kv.second) { + SymbolInformation& info = set.at(symbol); + // If the unified coverage map does not exist, the symbol was + // never referenced by any executable. Just skip it. + CoverageMapBase* theCoverageMap = info.unifiedCoverageMap; + if (theCoverageMap) { + // Create containers for the symbol's uncovered ranges and branches. + CoverageRanges* theRanges = new CoverageRanges(); + info.uncoveredRanges = theRanges; + CoverageRanges* theBranches = new CoverageRanges(); + info.uncoveredBranches = theBranches; + + uint32_t a; + uint32_t la; + uint32_t ha; + uint32_t endAddress; + uint32_t count; + + // Mark NOPs as executed + a = info.stats.sizeInBytes - 1; + count = 0; + while (a > 0) { + if (theCoverageMap->isStartOfInstruction( a )) { + break; } - count = 0; - } + count++; - a--; - } + if (theCoverageMap->isNop( a )) { + for (la = a; la < (a + count); la++) { + theCoverageMap->setWasExecuted( la ); + } - endAddress = s.second.stats.sizeInBytes - 1; - a = 0; - while (a < endAddress) { - if (!theCoverageMap->wasExecuted( a )) { - a++; - continue; - } + count = 0; + } - for (ha=a+1; - ha <= endAddress && !theCoverageMap->isStartOfInstruction( ha ); - ha++) - ; - if ( ha >= endAddress ) - break; - - if (theCoverageMap->isNop( ha )) - do { - theCoverageMap->setWasExecuted( ha ); - ha++; - if ( ha >= endAddress ) - break; - } while ( !theCoverageMap->isStartOfInstruction( ha ) || - theCoverageMap->isNop( ha ) ); - a = ha; - } + a--; + } - // Now scan through the coverage map of this symbol. - endAddress = s.second.stats.sizeInBytesWithoutNops - 1; - a = 0; - while (a <= endAddress) { - // If an address was NOT executed, find consecutive unexecuted - // addresses and add them to the uncovered ranges. - if (!theCoverageMap->wasExecuted( a )) { - - la = a; - count = 1; - for (ha = a + 1; - ha <= endAddress && !theCoverageMap->wasExecuted( ha ); - ha++) - { - if ( theCoverageMap->isStartOfInstruction( ha ) ) - count++; + endAddress = info.stats.sizeInBytes - 1; + a = 0; + while (a < endAddress) { + if (!theCoverageMap->wasExecuted( a )) { + a++; + continue; } - ha--; - - stats.uncoveredRanges++; - s.second.stats.uncoveredRanges++; - theRanges->add( - s.second.baseAddress + la, - s.second.baseAddress + ha, - CoverageRanges::UNCOVERED_REASON_NOT_EXECUTED, - count - ); - a = ha + 1; - } - // If an address is a branch instruction, add any uncovered branches - // to the uncoverd branches. - else if (theCoverageMap->isBranch( a )) { - la = a; - for (ha = a + 1; - ha <= endAddress && !theCoverageMap->isStartOfInstruction( ha ); - ha++) + for (ha=a+1; + ha <= endAddress && !theCoverageMap->isStartOfInstruction( ha ); + ha++) ; - ha--; - - if (theCoverageMap->wasAlwaysTaken( la )) { - stats.branchesAlwaysTaken++; - s.second.stats.branchesAlwaysTaken++; - theBranches->add( - s.second.baseAddress + la, - s.second.baseAddress + ha, - CoverageRanges::UNCOVERED_REASON_BRANCH_ALWAYS_TAKEN, - 1 + if ( ha >= endAddress ) + break; + + if (theCoverageMap->isNop( ha )) + do { + theCoverageMap->setWasExecuted( ha ); + ha++; + if ( ha >= endAddress ) + break; + } while ( !theCoverageMap->isStartOfInstruction( ha ) || + theCoverageMap->isNop( ha ) ); + a = ha; + } + + // Now scan through the coverage map of this symbol. + endAddress = info.stats.sizeInBytesWithoutNops - 1; + a = 0; + while (a <= endAddress) { + // If an address was NOT executed, find consecutive unexecuted + // addresses and add them to the uncovered ranges. + if (!theCoverageMap->wasExecuted( a )) { + + la = a; + count = 1; + for (ha = a + 1; + ha <= endAddress && !theCoverageMap->wasExecuted( ha ); + ha++) + { + if ( theCoverageMap->isStartOfInstruction( ha ) ) + count++; + } + ha--; + + stats[kv.first].uncoveredRanges++; + info.stats.uncoveredRanges++; + theRanges->add( + info.baseAddress + la, + info.baseAddress + ha, + CoverageRanges::UNCOVERED_REASON_NOT_EXECUTED, + count ); - if (Verbose) - std::cerr << "Branch always taken found in" << s.first - << std::hex - << " (0x" << s.second.baseAddress + la - << " - 0x" << s.second.baseAddress + ha - << ")" - << std::dec - << std::endl; + a = ha + 1; } - else if (theCoverageMap->wasNeverTaken( la )) { - stats.branchesNeverTaken++; - s.second.stats.branchesNeverTaken++; - theBranches->add( - s.second.baseAddress + la, - s.second.baseAddress + ha, - CoverageRanges::UNCOVERED_REASON_BRANCH_NEVER_TAKEN, - 1 + + // If an address is a branch instruction, add any uncovered branches + // to the uncoverd branches. + else if (theCoverageMap->isBranch( a )) { + la = a; + for (ha = a + 1; + ha <= endAddress && !theCoverageMap->isStartOfInstruction( ha ); + ha++) + ; + ha--; + + if (theCoverageMap->wasAlwaysTaken( la )) { + stats[kv.first].branchesAlwaysTaken++; + info.stats.branchesAlwaysTaken++; + theBranches->add( + info.baseAddress + la, + info.baseAddress + ha, + CoverageRanges::UNCOVERED_REASON_BRANCH_ALWAYS_TAKEN, + 1 ); - if (Verbose) - std::cerr << "Branch never taken found in " << s.first - << std::hex - << " (0x" << s.second.baseAddress + la - << " - 0x" << s.second.baseAddress + ha - << ")" - << std::dec - << std::endl; + if (Verbose) + std::cerr << "Branch always taken found in" << symbol + << std::hex + << " (0x" << info.baseAddress + la + << " - 0x" << info.baseAddress + ha + << ")" + << std::dec + << std::endl; + } + else if (theCoverageMap->wasNeverTaken( la )) { + stats[kv.first].branchesNeverTaken++; + info.stats.branchesNeverTaken++; + theBranches->add( + info.baseAddress + la, + info.baseAddress + ha, + CoverageRanges::UNCOVERED_REASON_BRANCH_NEVER_TAKEN, + 1 + ); + if (Verbose) + std::cerr << "Branch never taken found in " << symbol + << std::hex + << " (0x" << info.baseAddress + la + << " - 0x" << info.baseAddress + ha + << ")" + << std::dec + << std::endl; + } + a = ha + 1; } - a = ha + 1; + else + a++; } - else - a++; } } } @@ -460,30 +470,61 @@ namespace Coverage { } } - uint32_t DesiredSymbols::getNumberBranchesAlwaysTaken( void ) const { - return stats.branchesAlwaysTaken; + uint32_t DesiredSymbols::getNumberBranchesAlwaysTaken( + const std::string& symbolSetName + ) const { + return stats.at(symbolSetName).branchesAlwaysTaken; }; - uint32_t DesiredSymbols::getNumberBranchesFound( void ) const { - return (stats.branchesNotExecuted + stats.branchesExecuted); + uint32_t DesiredSymbols::getNumberBranchesFound( + const std::string& symbolSetName + ) const { + return ( + stats.at(symbolSetName).branchesNotExecuted + + stats.at(symbolSetName).branchesExecuted + ); }; - uint32_t DesiredSymbols::getNumberBranchesNeverTaken( void ) const { - return stats.branchesNeverTaken; + uint32_t DesiredSymbols::getNumberBranchesNeverTaken( + const std::string& symbolSetName + ) const { + return stats.at(symbolSetName).branchesNeverTaken; }; - uint32_t DesiredSymbols::getNumberBranchesNotExecuted( void ) const { - return stats.branchesNotExecuted; + uint32_t DesiredSymbols::getNumberBranchesNotExecuted( + const std::string& symbolSetName + ) const { + return stats.at(symbolSetName).branchesNotExecuted; }; - uint32_t DesiredSymbols::getNumberUncoveredRanges( void ) const { - return stats.uncoveredRanges; + uint32_t DesiredSymbols::getNumberUncoveredRanges( + const std::string& symbolSetName + ) const { + return stats.at(symbolSetName).uncoveredRanges; }; - uint32_t DesiredSymbols::getNumberUnreferencedSymbols( void ) const { - return stats.unreferencedSymbols; + uint32_t DesiredSymbols::getNumberUnreferencedSymbols( + const std::string& symbolSetName + ) const { + return stats.at(symbolSetName).unreferencedSymbols; }; + std::vector<std::string> DesiredSymbols::getSetNames( void ) const { + std::vector<std::string> setNames; + for (const auto &kv : setNamesToSymbols) { + setNames.push_back(kv.first); + } + + return setNames; + } + + const std::vector<std::string>& DesiredSymbols::getSymbolsForSet( + const std::string& symbolSetName + ) const + { + return setNamesToSymbols.at(symbolSetName); + } + bool DesiredSymbols::isDesired ( const std::string& symbolName ) const diff --git a/tester/covoar/DesiredSymbols.h b/tester/covoar/DesiredSymbols.h index 5cf96e9..411b818 100644 --- a/tester/covoar/DesiredSymbols.h +++ b/tester/covoar/DesiredSymbols.h @@ -198,12 +198,6 @@ namespace Coverage { typedef std::map<std::string, SymbolInformation> symbolSet_t; /*! - * This variable contains a map of symbol sets for each - * symbol in the system keyed on the symbol name. - */ - symbolSet_t set; - - /*! * This method constructs a DesiredSymbols instance. */ DesiredSymbols(); @@ -214,6 +208,11 @@ namespace Coverage { ~DesiredSymbols(); /*! + * The set of all symbols. + */ + const symbolSet_t& allSymbols() const; + + /*! * This method loops through the coverage map and * calculates the statistics that have not already * been filled in. @@ -262,51 +261,93 @@ namespace Coverage { /*! * This method returns the total number of branches always taken - * for all analyzed symbols. + * for all analyzed symbols in a given set. + * + * @param[in] symbolSetName specifies the symbol set of interest * * @return Returns the total number of branches always taken */ - uint32_t getNumberBranchesAlwaysTaken( void ) const; + uint32_t getNumberBranchesAlwaysTaken( + const std::string& symbolSetName + ) const; /*! * This method returns the total number of branches found for - * all analyzed symbols. + * all analyzed symbols in a given set. + * + * @param[in] symbolSetName specifies the symbol set of interest * * @return Returns the total number of branches found */ - uint32_t getNumberBranchesFound( void ) const; + uint32_t getNumberBranchesFound( + const std::string& symbolSetName + ) const; /*! * This method returns the total number of branches never taken - * for all analyzed symbols. + * for all analyzed symbols in a given set. + * + * @param[in] symbolSetName specifies the symbol set of interest * * @return Returns the total number of branches never taken */ - uint32_t getNumberBranchesNeverTaken( void ) const; + uint32_t getNumberBranchesNeverTaken( + const std::string& symbolSetName + ) const; /*! * This method returns the total number of branches not executed - * for all analyzed symbols. + * for all analyzed symbols in a given set. + * + * @param[in] symbolSetName specifies the symbol set of interest * * @return Returns the total number of branches not executed */ - uint32_t getNumberBranchesNotExecuted( void ) const; + uint32_t getNumberBranchesNotExecuted( + const std::string& symbolSetName + ) const; /*! * This method returns the total number of uncovered ranges - * for all analyzed symbols. + * for all analyzed symbols in a given set. + * + * @param[in] symbolSetName specifies the symbol set of interest * * @return Returns the total number of uncovered ranges */ - uint32_t getNumberUncoveredRanges( void ) const; + uint32_t getNumberUncoveredRanges( + const std::string& symbolSetName + ) const; /*! * This method returns the total number of unreferenced symbols - * for all analyzed symbols. + * for all analyzed symbols in a given set. + * + * @param[in] symbolSetName specifies the symbol set of interest * * @return Returns the total number of unreferenced symbols */ - uint32_t getNumberUnreferencedSymbols( void ) const; + uint32_t getNumberUnreferencedSymbols( + const std::string& symbolSetName + ) const; + + /*! + * This method returns all symbol set names. + * + * @return Returns all symbol set names + */ + std::vector<std::string> getSetNames( void ) const; + + /*! + * This method returns all symbols for a given set. + * + * @param[in] symbolSetName specifies the symbol set of interest + * + * @return Returns all symbols for the given set + */ + const std::vector<std::string>& getSymbolsForSet( + const std::string& symbolSetName + ) const; /*! * This method returns an indication of whether or not the specified @@ -353,11 +394,6 @@ namespace Coverage { */ void preprocess( void ); - /*! - * This member contains the statistics kept on each symbol. - */ - Statistics stats; - private: /*! @@ -369,6 +405,22 @@ namespace Coverage { ExecutableInfo* const theExecutable ); + /*! + * This variable contains a map of symbol sets for each + * symbol in the system keyed on the symbol name. + */ + symbolSet_t set; + + /*! + * This variable contains a map of symbol set names to symbol name lists. + */ + std::map<std::string, std::vector<std::string>> setNamesToSymbols; + + /*! + * This member contains a map of symbol set names to statistics. + */ + std::map<std::string, Statistics> stats; + }; } diff --git a/tester/covoar/ReportsBase.cc b/tester/covoar/ReportsBase.cc index 40ed209..fea776c 100644 --- a/tester/covoar/ReportsBase.cc +++ b/tester/covoar/ReportsBase.cc @@ -20,8 +20,9 @@ namespace Coverage { -ReportsBase::ReportsBase( time_t timestamp ): +ReportsBase::ReportsBase( time_t timestamp, std::string symbolSetName ): reportExtension_m(""), + symbolSetName_m(symbolSetName), timestamp_m( timestamp ) { } @@ -31,27 +32,38 @@ ReportsBase::~ReportsBase() } FILE* ReportsBase::OpenFile( - const char* const fileName + const char* const fileName, + const char* const symbolSetName ) { int sc; FILE *aFile; std::string file; + std::string symbolSetOutputDirectory; + rld::path::path_join( + outputDirectory, + symbolSetName, + symbolSetOutputDirectory + ); + // Create the output directory if it does not already exist #ifdef _WIN32 - sc = _mkdir( outputDirectory ); + sc = _mkdir( symbolSetOutputDirectory ); #else - sc = mkdir( outputDirectory,0755 ); + sc = mkdir( symbolSetOutputDirectory.c_str(),0755 ); #endif if ( (sc == -1) && (errno != EEXIST) ) { - fprintf(stderr, "Unable to create output directory %s\n", outputDirectory); + fprintf( + stderr, + "Unable to create output directory %s\n", + symbolSetOutputDirectory.c_str() + ); return NULL; } - file = outputDirectory; - file += "/"; - file += fileName; + file = symbolSetOutputDirectory; + rld::path::path_join(file, fileName, file); // Open the file. aFile = fopen( file.c_str(), "w" ); @@ -71,7 +83,7 @@ FILE* ReportsBase::OpenAnnotatedFile( const char* const fileName ) { - return OpenFile(fileName); + return OpenFile(fileName, symbolSetName_m.c_str()); } FILE* ReportsBase::OpenBranchFile( @@ -79,21 +91,21 @@ FILE* ReportsBase::OpenBranchFile( bool hasBranches ) { - return OpenFile(fileName); + return OpenFile(fileName, symbolSetName_m.c_str()); } FILE* ReportsBase::OpenCoverageFile( const char* const fileName ) { - return OpenFile(fileName); + return OpenFile(fileName, symbolSetName_m.c_str()); } FILE* ReportsBase::OpenNoRangeFile( const char* const fileName ) { - return OpenFile(fileName); + return OpenFile(fileName, symbolSetName_m.c_str()); } @@ -101,14 +113,14 @@ FILE* ReportsBase::OpenSizeFile( const char* const fileName ) { - return OpenFile(fileName); + return OpenFile(fileName, symbolSetName_m.c_str()); } FILE* ReportsBase::OpenSymbolSummaryFile( const char* const fileName ) { - return OpenFile(fileName); + return OpenFile(fileName, symbolSetName_m.c_str()); } void ReportsBase::CloseFile( @@ -186,41 +198,42 @@ void ReportsBase::WriteAnnotatedReport( const char* const fileName ) { FILE* aFile = NULL; - Coverage::DesiredSymbols::symbolSet_t::iterator ditr; Coverage::CoverageRanges* theBranches; Coverage::CoverageRanges* theRanges; Coverage::CoverageMapBase* theCoverageMap = NULL; uint32_t bAddress = 0; AnnotatedLineState_t state; - std::list<Coverage::ObjdumpProcessor::objdumpLine_t>* theInstructions; - std::list<Coverage::ObjdumpProcessor::objdumpLine_t>::iterator itr; + const std::list<Coverage::ObjdumpProcessor::objdumpLine_t>* theInstructions; + std::list< + Coverage::ObjdumpProcessor::objdumpLine_t>::const_iterator itr; aFile = OpenAnnotatedFile(fileName); if (!aFile) return; // Process uncovered branches for each symbol. - for (ditr = SymbolsToAnalyze->set.begin(); - ditr != SymbolsToAnalyze->set.end(); - ditr++) { + const std::vector<std::string>& symbols = SymbolsToAnalyze->getSymbolsForSet(symbolSetName_m); + + for (const auto& symbol : symbols) { + const SymbolInformation& info = SymbolsToAnalyze->allSymbols().at(symbol); // If uncoveredRanges and uncoveredBranches don't exist, then the // symbol was never referenced by any executable. Just skip it. - if ((ditr->second.uncoveredRanges == NULL) && - (ditr->second.uncoveredBranches == NULL)) + if ((info.uncoveredRanges == NULL) && + (info.uncoveredBranches == NULL)) continue; // If uncoveredRanges and uncoveredBranches are empty, then everything // must have been covered for this symbol. Just skip it. - if ((ditr->second.uncoveredRanges->set.empty()) && - (ditr->second.uncoveredBranches->set.empty())) + if ((info.uncoveredRanges->set.empty()) && + (info.uncoveredBranches->set.empty())) continue; - theCoverageMap = ditr->second.unifiedCoverageMap; - bAddress = ditr->second.baseAddress; - theInstructions = &(ditr->second.instructions); - theRanges = ditr->second.uncoveredRanges; - theBranches = ditr->second.uncoveredBranches; + theCoverageMap = info.unifiedCoverageMap; + bAddress = info.baseAddress; + theInstructions = &(info.instructions); + theRanges = info.uncoveredRanges; + theBranches = info.uncoveredBranches; // Add annotations to each line where necessary AnnotatedStart( aFile ); @@ -274,14 +287,13 @@ void ReportsBase::WriteAnnotatedReport( void ReportsBase::WriteBranchReport( const char* const fileName ) { - Coverage::DesiredSymbols::symbolSet_t::iterator ditr; FILE* report = NULL; Coverage::CoverageRanges::ranges_t::iterator ritr; Coverage::CoverageRanges* theBranches; unsigned int count; bool hasBranches = true; - if ((SymbolsToAnalyze->getNumberBranchesFound() == 0) || + if ((SymbolsToAnalyze->getNumberBranchesFound(symbolSetName_m) == 0) || (BranchInfoAvailable == false) ) hasBranches = false; @@ -291,15 +303,16 @@ void ReportsBase::WriteBranchReport( return; // If no branches were found then branch coverage is not supported - if ((SymbolsToAnalyze->getNumberBranchesFound() != 0) && + if ((SymbolsToAnalyze->getNumberBranchesFound(symbolSetName_m) != 0) && (BranchInfoAvailable == true) ) { - // Process uncovered branches for each symbol. + // Process uncovered branches for each symbol in the set. + const std::vector<std::string>& symbols = SymbolsToAnalyze->getSymbolsForSet(symbolSetName_m); + count = 0; - for (ditr = SymbolsToAnalyze->set.begin(); - ditr != SymbolsToAnalyze->set.end(); - ditr++) { + for (const auto& symbol : symbols) { + const SymbolInformation& info = SymbolsToAnalyze->allSymbols().at(symbol); - theBranches = ditr->second.uncoveredBranches; + theBranches = info.uncoveredBranches; if (theBranches && !theBranches->set.empty()) { @@ -307,7 +320,7 @@ void ReportsBase::WriteBranchReport( ritr != theBranches->set.end() ; ritr++ ) { count++; - PutBranchEntry( report, count, ditr, ritr ); + PutBranchEntry( report, count, symbol, info, ritr ); } } } @@ -323,7 +336,6 @@ void ReportsBase::WriteCoverageReport( const char* const fileName ) { - Coverage::DesiredSymbols::symbolSet_t::iterator ditr; FILE* report; Coverage::CoverageRanges::ranges_t::iterator ritr; Coverage::CoverageRanges* theRanges; @@ -346,26 +358,27 @@ void ReportsBase::WriteCoverageReport( } // Process uncovered ranges for each symbol. + const std::vector<std::string>& symbols = SymbolsToAnalyze->getSymbolsForSet(symbolSetName_m); + count = 0; - for (ditr = SymbolsToAnalyze->set.begin(); - ditr != SymbolsToAnalyze->set.end(); - ditr++) { + for (const auto& symbol : symbols) { + const SymbolInformation& info = SymbolsToAnalyze->allSymbols().at(symbol); - theRanges = ditr->second.uncoveredRanges; + theRanges = info.uncoveredRanges; // If uncoveredRanges doesn't exist, then the symbol was never // referenced by any executable. There may be a problem with the // desired symbols list or with the executables so put something // in the report. if (theRanges == NULL) { - putCoverageNoRange( report, NoRangeFile, count, ditr->first ); + putCoverageNoRange( report, NoRangeFile, count, symbol ); count++; } else if (!theRanges->set.empty()) { for (ritr = theRanges->set.begin() ; ritr != theRanges->set.end() ; ritr++ ) { - PutCoverageLine( report, count, ditr, ritr ); + PutCoverageLine( report, count, symbol, info, ritr ); count++; } } @@ -383,7 +396,6 @@ void ReportsBase::WriteSizeReport( const char* const fileName ) { - Coverage::DesiredSymbols::symbolSet_t::iterator ditr; FILE* report; Coverage::CoverageRanges::ranges_t::iterator ritr; Coverage::CoverageRanges* theRanges; @@ -396,19 +408,20 @@ void ReportsBase::WriteSizeReport( } // Process uncovered ranges for each symbol. + const std::vector<std::string>& symbols = SymbolsToAnalyze->getSymbolsForSet(symbolSetName_m); + count = 0; - for (ditr = SymbolsToAnalyze->set.begin(); - ditr != SymbolsToAnalyze->set.end(); - ditr++) { + for (const auto& symbol : symbols) { + const SymbolInformation& info = SymbolsToAnalyze->allSymbols().at(symbol); - theRanges = ditr->second.uncoveredRanges; + theRanges = info.uncoveredRanges; if (theRanges && !theRanges->set.empty()) { for (ritr = theRanges->set.begin() ; ritr != theRanges->set.end() ; ritr++ ) { - PutSizeLine( report, count, ditr, ritr ); + PutSizeLine( report, count, symbol, ritr ); count++; } } @@ -421,7 +434,6 @@ void ReportsBase::WriteSymbolSummaryReport( const char* const fileName ) { - Coverage::DesiredSymbols::symbolSet_t::iterator ditr; FILE* report; unsigned int count; @@ -432,12 +444,13 @@ void ReportsBase::WriteSymbolSummaryReport( } // Process each symbol. + const std::vector<std::string>& symbols = SymbolsToAnalyze->getSymbolsForSet(symbolSetName_m); + count = 0; - for (ditr = SymbolsToAnalyze->set.begin(); - ditr != SymbolsToAnalyze->set.end(); - ditr++) { + for (const auto& symbol : symbols) { + const SymbolInformation& info = SymbolsToAnalyze->allSymbols().at(symbol); - PutSymbolSummaryLine( report, count, ditr ); + PutSymbolSummaryLine( report, count, symbol, info ); count++; } @@ -445,13 +458,13 @@ void ReportsBase::WriteSymbolSummaryReport( } void ReportsBase::WriteSummaryReport( - const char* const fileName + const char* const fileName, + const char* const symbolSetName ) { // Calculate coverage statistics and output results. uint32_t a; uint32_t endAddress; - Coverage::DesiredSymbols::symbolSet_t::iterator itr; uint32_t notExecuted = 0; double percentage; double percentageBranches; @@ -460,22 +473,23 @@ void ReportsBase::WriteSummaryReport( FILE* report; // Open the report file. - report = OpenFile( fileName ); + report = OpenFile( fileName, symbolSetName ); if ( !report ) { return; } // Look at each symbol. - for (itr = SymbolsToAnalyze->set.begin(); - itr != SymbolsToAnalyze->set.end(); - itr++) { + const std::vector<std::string>& symbols = SymbolsToAnalyze->getSymbolsForSet(symbolSetName); + + for (const auto& symbol : symbols) { + SymbolInformation info = SymbolsToAnalyze->allSymbols().at(symbol); // If the symbol's unified coverage map exists, scan through it // and count bytes. - theCoverageMap = itr->second.unifiedCoverageMap; + theCoverageMap = info.unifiedCoverageMap; if (theCoverageMap) { - endAddress = itr->second.stats.sizeInBytes - 1; + endAddress = info.stats.sizeInBytes - 1; for (a = 0; a <= endAddress; a++) { totalBytes++; @@ -490,11 +504,12 @@ void ReportsBase::WriteSummaryReport( percentage *= 100.0; percentageBranches = (double) ( - SymbolsToAnalyze->getNumberBranchesAlwaysTaken() + - SymbolsToAnalyze->getNumberBranchesNeverTaken() + - (SymbolsToAnalyze->getNumberBranchesNotExecuted() * 2) + SymbolsToAnalyze->getNumberBranchesAlwaysTaken(symbolSetName) + + SymbolsToAnalyze->getNumberBranchesNeverTaken(symbolSetName) + + (SymbolsToAnalyze->getNumberBranchesNotExecuted(symbolSetName) * 2) ); - percentageBranches /= (double) SymbolsToAnalyze->getNumberBranchesFound() * 2; + percentageBranches /= + (double) SymbolsToAnalyze->getNumberBranchesFound(symbolSetName) * 2; percentageBranches *= 100.0; fprintf( report, "Bytes Analyzed : %d\n", totalBytes ); @@ -504,48 +519,48 @@ void ReportsBase::WriteSummaryReport( fprintf( report, "Unreferenced Symbols : %d\n", - SymbolsToAnalyze->getNumberUnreferencedSymbols() + SymbolsToAnalyze->getNumberUnreferencedSymbols(symbolSetName) ); fprintf( report, "Uncovered ranges found : %d\n\n", - SymbolsToAnalyze->getNumberUncoveredRanges() + SymbolsToAnalyze->getNumberUncoveredRanges(symbolSetName) ); - if ((SymbolsToAnalyze->getNumberBranchesFound() == 0) || + if ((SymbolsToAnalyze->getNumberBranchesFound(symbolSetName) == 0) || (BranchInfoAvailable == false) ) { fprintf( report, "No branch information available\n" ); } else { fprintf( report, "Total conditional branches found : %d\n", - SymbolsToAnalyze->getNumberBranchesFound() + SymbolsToAnalyze->getNumberBranchesFound(symbolSetName) ); fprintf( report, "Total branch paths found : %d\n", - SymbolsToAnalyze->getNumberBranchesFound() * 2 + SymbolsToAnalyze->getNumberBranchesFound(symbolSetName) * 2 ); fprintf( report, "Uncovered branch paths found : %d\n", - SymbolsToAnalyze->getNumberBranchesAlwaysTaken() + - SymbolsToAnalyze->getNumberBranchesNeverTaken() + - (SymbolsToAnalyze->getNumberBranchesNotExecuted() * 2) + SymbolsToAnalyze->getNumberBranchesAlwaysTaken(symbolSetName) + + SymbolsToAnalyze->getNumberBranchesNeverTaken(symbolSetName) + + (SymbolsToAnalyze->getNumberBranchesNotExecuted(symbolSetName) * 2) ); fprintf( report, " %d branches always taken\n", - SymbolsToAnalyze->getNumberBranchesAlwaysTaken() + SymbolsToAnalyze->getNumberBranchesAlwaysTaken(symbolSetName) ); fprintf( report, " %d branches never taken\n", - SymbolsToAnalyze->getNumberBranchesNeverTaken() + SymbolsToAnalyze->getNumberBranchesNeverTaken(symbolSetName) ); fprintf( report, " %d branch paths not executed\n", - SymbolsToAnalyze->getNumberBranchesNotExecuted() * 2 + SymbolsToAnalyze->getNumberBranchesNotExecuted(symbolSetName) * 2 ); fprintf( report, @@ -555,7 +570,7 @@ void ReportsBase::WriteSummaryReport( } } -void GenerateReports() +void GenerateReports(const std::string& symbolSetName) { typedef std::list<ReportsBase *> reportList_t; @@ -568,9 +583,9 @@ void GenerateReports() timestamp = time(NULL); /* get current cal time */ - reports = new ReportsText(timestamp); + reports = new ReportsText(timestamp, symbolSetName); reportList.push_back(reports); - reports = new ReportsHtml(timestamp); + reports = new ReportsHtml(timestamp, symbolSetName); reportList.push_back(reports); for (ritr = reportList.begin(); ritr != reportList.end(); ritr++ ) { @@ -624,7 +639,7 @@ void GenerateReports() delete reports; } - ReportsBase::WriteSummaryReport( "summary.txt" ); + ReportsBase::WriteSummaryReport( "summary.txt", symbolSetName.c_str() ); } } diff --git a/tester/covoar/ReportsBase.h b/tester/covoar/ReportsBase.h index 7e28fd8..43cd80e 100644 --- a/tester/covoar/ReportsBase.h +++ b/tester/covoar/ReportsBase.h @@ -24,7 +24,7 @@ namespace Coverage { class ReportsBase { public: - ReportsBase( time_t timestamp ); + ReportsBase( time_t timestamp, std::string symbolSetName ); virtual ~ReportsBase(); /*! @@ -90,7 +90,8 @@ class ReportsBase { * This method produces a sumary report for the overall test run. */ static void WriteSummaryReport( - const char* const fileName + const char* const fileName, + const char* const symbolSetName ); /*! @@ -119,6 +120,11 @@ class ReportsBase { std::string reportExtension_m; /*! + * This member variable contains the name of the symbol set for the report. + */ + std::string symbolSetName_m; + + /*! * This member variable contains the timestamp for the report. */ time_t timestamp_m; @@ -128,9 +134,11 @@ class ReportsBase { * correctly. Upon failure NULL is returned. * * @param[in] fileName identifies the report file name + * @param[in] symbolSetName identifies the name of the report's symbol set */ static FILE* OpenFile( - const char* const fileName + const char* const fileName, + const char* const symbolSetName ); /*! @@ -318,13 +326,15 @@ class ReportsBase { * * @param[in] report identifies the report file name * @param[in] number identifies the line number. - * @param[in] symbolPtr is a pointer to the symbol information + * @param[in] symbolName is the symbol's name. + * @param[in] symbolInfo is the symbol's information. * @param[in] rangePtr is a pointer to the range information. */ virtual bool PutBranchEntry( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbolPtr, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator rangePtr )=0; @@ -348,13 +358,15 @@ class ReportsBase { * * @param[in] report identifies the report file name * @param[in] number identifies the line number. - * @param[in] ditr is a iterator to the symbol information + * @param[in] symbolName is the symbol's name. + * @param[in] symbolInfo is the symbol's information. * @param[in] ritr is a iterator to the range information. */ virtual bool PutCoverageLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator ditr, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator ritr )=0; @@ -363,13 +375,13 @@ class ReportsBase { * * @param[in] report identifies the size report file name * @param[in] number identifies the line number. - * @param[in] symbol is a pointer to the symbol information + * @param[in] symbolName is the symbol's name. * @param[in] range is a iterator to the range information. */ virtual bool PutSizeLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol, + const std::string& symbolName, Coverage::CoverageRanges::ranges_t::iterator range )=0; @@ -378,20 +390,24 @@ class ReportsBase { * * @param[in] report identifies the report file name * @param[in] number identifies the line number. - * @param[in] symbol is a pointer to the symbol information + * @param[in] symbolName is the symbol's name. + * @param[in] symbolInfo is the symbol's information. */ virtual bool PutSymbolSummaryLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol + const std::string& symbolName, + const SymbolInformation& symbolInfo )=0; }; /*! * This method iterates over all report set types and generates * all reports. + * + * @param[in] symbolSetName is the name of the symbol set to report on. */ -void GenerateReports(); +void GenerateReports(const std::string& symbolSetName); } diff --git a/tester/covoar/ReportsHtml.cc b/tester/covoar/ReportsHtml.cc index 6406a48..7137016 100644 --- a/tester/covoar/ReportsHtml.cc +++ b/tester/covoar/ReportsHtml.cc @@ -31,8 +31,8 @@ namespace Coverage { - ReportsHtml::ReportsHtml( time_t timestamp ): - ReportsBase( timestamp ) + ReportsHtml::ReportsHtml( time_t timestamp, std::string symbolSetName ): + ReportsBase( timestamp, symbolSetName ) { reportExtension_m = ".html"; } @@ -113,7 +113,7 @@ namespace Coverage { FILE* aFile; // Open the file - aFile = ReportsBase::OpenFile( fileName ); + aFile = ReportsBase::OpenFile( fileName, symbolSetName_m.c_str() ); // Put Header information on the file fprintf( @@ -488,7 +488,8 @@ namespace Coverage { FILE* report ) { - if (BranchInfoAvailable && SymbolsToAnalyze->getNumberBranchesFound() != 0) + if (BranchInfoAvailable && + SymbolsToAnalyze->getNumberBranchesFound(symbolSetName_m) != 0) fprintf( report, "All branch paths taken.\n" ); else fprintf( report, "No branch information found.\n" ); @@ -498,7 +499,8 @@ namespace Coverage { bool ReportsHtml::PutBranchEntry( FILE* report, unsigned int count, - Coverage::DesiredSymbols::symbolSet_t::iterator symbolPtr, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator rangePtr ) { @@ -519,7 +521,7 @@ namespace Coverage { fprintf( report, "<td class=\"covoar-td\" align=\"center\">%s</td>\n", - symbolPtr->first.c_str() + symbolName.c_str() ); // line @@ -562,8 +564,8 @@ namespace Coverage { // Taken / Not taken counts lowAddress = rangePtr->lowAddress; - bAddress = symbolPtr->second.baseAddress; - theCoverageMap = symbolPtr->second.unifiedCoverageMap; + bAddress = symbolInfo.baseAddress; + theCoverageMap = symbolInfo.unifiedCoverageMap; fprintf( report, "<td class=\"covoar-td\" align=\"center\">%d</td>\n", @@ -703,7 +705,8 @@ namespace Coverage { bool ReportsHtml::PutCoverageLine( FILE* report, unsigned int count, - Coverage::DesiredSymbols::symbolSet_t::iterator symbolPtr, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator rangePtr ) { @@ -721,7 +724,7 @@ namespace Coverage { fprintf( report, "<td class=\"covoar-td\" align=\"center\">%s</td>\n", - symbolPtr->first.c_str() + symbolName.c_str() ); // Range @@ -790,7 +793,7 @@ namespace Coverage { bool ReportsHtml::PutSizeLine( FILE* report, unsigned int count, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol, + const std::string& symbolName, Coverage::CoverageRanges::ranges_t::iterator range ) { @@ -814,7 +817,7 @@ namespace Coverage { fprintf( report, "<td class=\"covoar-td\" align=\"center\">%s</td>\n", - symbol->first.c_str() + symbolName.c_str() ); // line @@ -842,7 +845,8 @@ namespace Coverage { bool ReportsHtml::PutSymbolSummaryLine( FILE* report, unsigned int count, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol + const std::string& symbolName, + const SymbolInformation& symbolInfo ) { @@ -856,10 +860,10 @@ namespace Coverage { fprintf( report, "<td class=\"covoar-td\" align=\"center\">%s</td>\n", - symbol->first.c_str() + symbolName.c_str() ); - if (symbol->second.stats.sizeInBytes == 0) { + if (symbolInfo.stats.sizeInBytes == 0) { // The symbol has never been seen. Write "unknown" for all columns. fprintf( report, @@ -879,60 +883,60 @@ namespace Coverage { fprintf( report, "<td class=\"covoar-td\" align=\"center\">%d</td>\n", - symbol->second.stats.sizeInBytes + symbolInfo.stats.sizeInBytes ); // Total Size in Instructions fprintf( report, "<td class=\"covoar-td\" align=\"center\">%d</td>\n", - symbol->second.stats.sizeInInstructions + symbolInfo.stats.sizeInInstructions ); // Total Uncovered Ranges fprintf( report, "<td class=\"covoar-td\" align=\"center\">%d</td>\n", - symbol->second.stats.uncoveredRanges + symbolInfo.stats.uncoveredRanges ); // Uncovered Size in Bytes fprintf( report, "<td class=\"covoar-td\" align=\"center\">%d</td>\n", - symbol->second.stats.uncoveredBytes + symbolInfo.stats.uncoveredBytes ); // Uncovered Size in Instructions fprintf( report, "<td class=\"covoar-td\" align=\"center\">%d</td>\n", - symbol->second.stats.uncoveredInstructions + symbolInfo.stats.uncoveredInstructions ); // Total number of branches fprintf( report, "<td class=\"covoar-td\" align=\"center\">%d</td>\n", - symbol->second.stats.branchesNotExecuted + symbol->second.stats.branchesExecuted + symbolInfo.stats.branchesNotExecuted + symbolInfo.stats.branchesExecuted ); // Total Always Taken fprintf( report, "<td class=\"covoar-td\" align=\"center\">%d</td>\n", - symbol->second.stats.branchesAlwaysTaken + symbolInfo.stats.branchesAlwaysTaken ); // Total Never Taken fprintf( report, "<td class=\"covoar-td\" align=\"center\">%d</td>\n", - symbol->second.stats.branchesNeverTaken + symbolInfo.stats.branchesNeverTaken ); // % Uncovered Instructions - if ( symbol->second.stats.sizeInInstructions == 0 ) + if ( symbolInfo.stats.sizeInInstructions == 0 ) fprintf( report, "<td class=\"covoar-td\" align=\"center\">100.00</td>\n" @@ -941,12 +945,12 @@ namespace Coverage { fprintf( report, "<td class=\"covoar-td\" align=\"center\">%.2f</td>\n", - (symbol->second.stats.uncoveredInstructions*100.0)/ - symbol->second.stats.sizeInInstructions + (symbolInfo.stats.uncoveredInstructions*100.0)/ + symbolInfo.stats.sizeInInstructions ); // % Uncovered Bytes - if ( symbol->second.stats.sizeInBytes == 0 ) + if ( symbolInfo.stats.sizeInBytes == 0 ) fprintf( report, "<td class=\"covoar-td\" align=\"center\">100.00</td>\n" @@ -955,8 +959,8 @@ namespace Coverage { fprintf( report, "<td class=\"covoar-td\" align=\"center\">%.2f</td>\n", - (symbol->second.stats.uncoveredBytes*100.0)/ - symbol->second.stats.sizeInBytes + (symbolInfo.stats.uncoveredBytes*100.0)/ + symbolInfo.stats.sizeInBytes ); } diff --git a/tester/covoar/ReportsHtml.h b/tester/covoar/ReportsHtml.h index 34193da..7972ce1 100644 --- a/tester/covoar/ReportsHtml.h +++ b/tester/covoar/ReportsHtml.h @@ -22,7 +22,7 @@ namespace Coverage { class ReportsHtml: public ReportsBase { public: - ReportsHtml( time_t timestamp ); + ReportsHtml( time_t timestamp, std::string symbolSetName ); ~ReportsHtml(); /*! @@ -163,7 +163,8 @@ class ReportsHtml: public ReportsBase { virtual bool PutBranchEntry( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbolPtr, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator rangePtr ); @@ -179,7 +180,8 @@ class ReportsHtml: public ReportsBase { virtual bool PutCoverageLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator ditr, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator ritr ); @@ -187,7 +189,7 @@ class ReportsHtml: public ReportsBase { virtual bool PutSizeLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol, + const std::string& symbolName, Coverage::CoverageRanges::ranges_t::iterator range ); @@ -195,7 +197,8 @@ class ReportsHtml: public ReportsBase { virtual bool PutSymbolSummaryLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol + const std::string& symbolName, + const SymbolInformation& symbolInfo ); /* Inherit documentation from base class. */ diff --git a/tester/covoar/ReportsText.cc b/tester/covoar/ReportsText.cc index a3923e6..f552cdd 100644 --- a/tester/covoar/ReportsText.cc +++ b/tester/covoar/ReportsText.cc @@ -11,8 +11,8 @@ namespace Coverage { -ReportsText::ReportsText( time_t timestamp ): - ReportsBase( timestamp ) +ReportsText::ReportsText( time_t timestamp, std::string symbolSetName ): + ReportsBase( timestamp, symbolSetName ) { reportExtension_m = ".txt"; } @@ -52,7 +52,8 @@ bool ReportsText::PutNoBranchInfo( FILE* report ) { - if ( BranchInfoAvailable && SymbolsToAnalyze->getNumberBranchesFound() != 0 ) + if ( BranchInfoAvailable && + SymbolsToAnalyze->getNumberBranchesFound(symbolSetName_m) != 0 ) fprintf( report, "All branch paths taken.\n" ); else fprintf( report, "No branch information found.\n" ); @@ -61,9 +62,10 @@ bool ReportsText::PutNoBranchInfo( bool ReportsText::PutBranchEntry( - FILE* report, + FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbolPtr, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator rangePtr ) { @@ -76,8 +78,8 @@ bool ReportsText::PutBranchEntry( "Symbol : %s (0x%x)\n" "Line : %s (0x%x)\n" "Size in Bytes : %d\n", - symbolPtr->first.c_str(), - symbolPtr->second.baseAddress, + symbolName.c_str(), + symbolInfo.baseAddress, rangePtr->lowSourceLine.c_str(), rangePtr->lowAddress, rangePtr->highAddress - rangePtr->lowAddress + 1 @@ -153,9 +155,10 @@ void ReportsText::putCoverageNoRange( } bool ReportsText::PutCoverageLine( - FILE* report, - unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator ditr, + FILE* report, + unsigned int number, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator ritr ) { @@ -171,8 +174,8 @@ bool ReportsText::PutCoverageLine( "Size in Bytes : %d\n" "Size in Instructions : %d\n\n", ritr->id, - ditr->first.c_str(), - ditr->second.baseAddress, + symbolName.c_str(), + symbolInfo.baseAddress, ritr->lowSourceLine.c_str(), ritr->lowAddress, ritr->highSourceLine.c_str(), @@ -210,9 +213,9 @@ bool ReportsText::PutCoverageLine( } bool ReportsText::PutSizeLine( - FILE* report, - unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol, + FILE* report, + unsigned int number, + const std::string& symbolName, Coverage::CoverageRanges::ranges_t::iterator range ) { @@ -220,7 +223,7 @@ bool ReportsText::PutSizeLine( report, "%d\t%s\t%s\n", range->highAddress - range->lowAddress + 1, - symbol->first.c_str(), + symbolName.c_str(), range->lowSourceLine.c_str() ); return true; @@ -229,13 +232,14 @@ bool ReportsText::PutSizeLine( bool ReportsText::PutSymbolSummaryLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol + const std::string& symbolName, + const SymbolInformation& symbolInfo ) { float uncoveredBytes; float uncoveredInstructions; - if (symbol->second.stats.sizeInBytes == 0) { + if (symbolInfo.stats.sizeInBytes == 0) { fprintf( report, "============================================\n" @@ -245,20 +249,20 @@ bool ReportsText::PutSymbolSummaryLine( "Therefore there is no size or disassembly for this symbol.\n" "This could be due to symbol misspelling or lack of a test for\n" "this symbol.\n", - symbol->first.c_str() + symbolName.c_str() ); } else { - if ( symbol->second.stats.sizeInInstructions == 0 ) + if ( symbolInfo.stats.sizeInInstructions == 0 ) uncoveredInstructions = 0; else - uncoveredInstructions = (symbol->second.stats.uncoveredInstructions*100.0)/ - symbol->second.stats.sizeInInstructions; + uncoveredInstructions = (symbolInfo.stats.uncoveredInstructions*100.0)/ + symbolInfo.stats.sizeInInstructions; - if ( symbol->second.stats.sizeInBytes == 0 ) + if ( symbolInfo.stats.sizeInBytes == 0 ) uncoveredBytes = 0; else - uncoveredBytes = (symbol->second.stats.uncoveredBytes*100.0)/ - symbol->second.stats.sizeInBytes; + uncoveredBytes = (symbolInfo.stats.uncoveredBytes*100.0)/ + symbolInfo.stats.sizeInBytes; fprintf( report, @@ -271,12 +275,12 @@ bool ReportsText::PutSymbolSummaryLine( "Total Never Taken : %d\n" "Percentage Uncovered Instructions : %.2f\n" "Percentage Uncovered Bytes : %.2f\n", - symbol->first.c_str(), - symbol->second.stats.sizeInBytes, - symbol->second.stats.sizeInInstructions, - symbol->second.stats.branchesNotExecuted + symbol->second.stats.branchesExecuted, - symbol->second.stats.branchesAlwaysTaken, - symbol->second.stats.branchesNeverTaken, + symbolName.c_str(), + symbolInfo.stats.sizeInBytes, + symbolInfo.stats.sizeInInstructions, + symbolInfo.stats.branchesNotExecuted + symbolInfo.stats.branchesExecuted, + symbolInfo.stats.branchesAlwaysTaken, + symbolInfo.stats.branchesNeverTaken, uncoveredInstructions, uncoveredBytes ); diff --git a/tester/covoar/ReportsText.h b/tester/covoar/ReportsText.h index 9ae87d4..cf8a813 100644 --- a/tester/covoar/ReportsText.h +++ b/tester/covoar/ReportsText.h @@ -21,7 +21,7 @@ namespace Coverage { class ReportsText: public ReportsBase { public: - ReportsText( time_t timestamp ); + ReportsText( time_t timestamp, std::string symbolSetName ); virtual ~ReportsText(); /*! @@ -83,7 +83,8 @@ class ReportsText: public ReportsBase { virtual bool PutBranchEntry( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbolPtr, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator rangePtr ); @@ -99,7 +100,8 @@ class ReportsText: public ReportsBase { virtual bool PutCoverageLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator ditr, + const std::string& symbolName, + const SymbolInformation& symbolInfo, Coverage::CoverageRanges::ranges_t::iterator ritr ); @@ -107,7 +109,7 @@ class ReportsText: public ReportsBase { virtual bool PutSizeLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol, + const std::string& symbolName, Coverage::CoverageRanges::ranges_t::iterator range ); @@ -115,7 +117,8 @@ class ReportsText: public ReportsBase { virtual bool PutSymbolSummaryLine( FILE* report, unsigned int number, - Coverage::DesiredSymbols::symbolSet_t::iterator symbol + const std::string& symbolName, + const SymbolInformation& symbolInfo ); }; diff --git a/tester/covoar/covoar.cc b/tester/covoar/covoar.cc index 84d883a..8d63132 100644 --- a/tester/covoar/covoar.cc +++ b/tester/covoar/covoar.cc @@ -350,7 +350,7 @@ int covoar( throw rld::error( "executables and coverage name size mismatch", "covoar" ); if ( Verbose ) - std::cerr << "Analyzing " << SymbolsToAnalyze->set.size() + std::cerr << "Analyzing " << SymbolsToAnalyze->allSymbols().size() << " symbols" << std::endl; // Create explanations. @@ -473,7 +473,9 @@ int covoar( if (Verbose) std::cerr << "Generate Reports" << std::endl; - Coverage::GenerateReports(); + for (const auto& setName : SymbolsToAnalyze->getSetNames()) { + Coverage::GenerateReports(setName); + } // Write explanations that were not found. if ( explanations ) { |