Source/CTest/cmParseGTMCoverage.cxx - third_party/cmake - Git at Google

 #include "cmStandardIncludes.h"
 #include <stdio.h>
 #include <stdlib.h>
 #include "cmSystemTools.h"
 #include "cmParseGTMCoverage.h"
 #include <cmsys/Directory.hxx>
 #include <cmsys/Glob.hxx>
 #include <cmsys/FStream.hxx>


 cmParseGTMCoverage::cmParseGTMCoverage(cmCTestCoverageHandlerContainer& cont,
                                        cmCTest* ctest)
   :cmParseMumpsCoverage(cont, ctest)
 {
 }


 bool cmParseGTMCoverage::LoadCoverageData(const char* d)
 {
   // load all the .mcov files in the specified directory
   cmsys::Directory dir;
   if(!dir.Load(d))
     {
     return false;
     }
   size_t numf;
   unsigned int i;
   numf = dir.GetNumberOfFiles();
   for (i = 0; i < numf; i++)
     {
     std::string file = dir.GetFile(i);
     if(file != "." && file != ".."
        && !cmSystemTools::FileIsDirectory(file))
       {
       std::string path = d;
       path += "/";
       path += file;
       if(cmSystemTools::GetFilenameLastExtension(path) == ".mcov")
         {
         if(!this->ReadMCovFile(path.c_str()))
           {
           return false;
           }
         }
       }
     }
   return true;
 }

 bool cmParseGTMCoverage::ReadMCovFile(const char* file)
 {
   cmsys::ifstream in(file);
   if(!in)
     {
     return false;
     }
   std::string line;
   std::string lastfunction;
   std::string lastroutine;
   std::string lastpath;
   int lastoffset = 0;
   while(  cmSystemTools::GetLineFromStream(in, line))
     {
     // only look at lines that have coverage data
     if(line.find("^ZZCOVERAGE") == line.npos)
       {
       continue;
       }
     std::string filepath;
     std::string function;
     std::string routine;
     int linenumber = 0;
     int count = 0;
     this->ParseMCOVLine(line, routine, function, linenumber, count);
     // skip this one
     if(routine == "RSEL")
       {
       continue;
       }
     // no need to search the file if we just did it
     if(function == lastfunction && lastroutine == routine)
       {
       if(!lastpath.empty())
         {
         this->Coverage.TotalCoverage[lastpath][lastoffset + linenumber]
           += count;
         }
       else
         {
         cmCTestLog(this->CTest, ERROR_MESSAGE,
                    "Can not find mumps file : "
                    << lastroutine <<
                    "  referenced in this line of mcov data:\n"
                    "[" << line << "]\n");
         }
       continue;
       }
     // Find the full path to the file
     bool found = this->FindMumpsFile(routine, filepath);
     if(found)
       {
       int lineoffset = 0;
       if(this->FindFunctionInMumpsFile(filepath,
                                        function,
                                        lineoffset))
         {
         cmCTestCoverageHandlerContainer::SingleFileCoverageVector&
           coverageVector = this->Coverage.TotalCoverage[filepath];
         // This section accounts for lines that were previously marked
         // as non-executable code (-1), if the parser comes back with
         // a non-zero count, increase the count by 1 to push the line
         // into the executable code set in addtion to the count found.
         if(coverageVector[lineoffset + linenumber] == -1 &&
            count > 0)
           {
           coverageVector[lineoffset + linenumber] += count+1;
           }
         else
           {
           coverageVector[lineoffset + linenumber] += count;
           }
         lastoffset = lineoffset;
         }
       }
     else
       {
       cmCTestLog(this->CTest, ERROR_MESSAGE,
                "Can not find mumps file : "
                << routine << "  referenced in this line of mcov data:\n"
                  "[" << line << "]\n");
       }
     lastfunction = function;
     lastroutine = routine;
     lastpath = filepath;
     }
   return true;
 }

 bool cmParseGTMCoverage::FindFunctionInMumpsFile(std::string const& filepath,
                                                  std::string const& function,
                                                  int& lineoffset)
 {
   cmsys::ifstream in(filepath.c_str());
   if(!in)
     {
     return false;
     }
   std::string line;
   int linenum = 0;
   while(  cmSystemTools::GetLineFromStream(in, line))
     {
     std::string::size_type pos = line.find(function.c_str());
     if(pos == 0)
       {
       char nextchar = line[function.size()];
       if(nextchar == ' ' || nextchar == '('|| nextchar == '\t')
         {
         lineoffset = linenum;
         return true;
         }
       }
     if(pos == 1)
       {
       char prevchar = line[0];
       char nextchar = line[function.size()+1];
       if(prevchar == '%' && (nextchar == ' ' || nextchar == '('))
         {
         lineoffset = linenum;
         return true;
         }
       }
     linenum++; // move to next line count
     }
   lineoffset = 0;
   cmCTestLog(this->CTest, ERROR_MESSAGE,
              "Could not find entry point : "
              << function << " in " << filepath << "\n");
   return false;
 }

 bool cmParseGTMCoverage::ParseMCOVLine(std::string const& line,
                                        std::string& routine,
                                        std::string& function,
                                        int& linenumber,
                                        int& count)
 {
   // this method parses lines from the .mcov file
   // each line has ^COVERAGE(...) in it, and there
   // are several varients of coverage lines:
   //
   // ^COVERAGE("DIC11","PR1",0)="2:0:0:0"
   //          ( file  , entry, line ) = "number_executed:timing_info"
   // ^COVERAGE("%RSEL","SRC")="1:0:0:0"
   //          ( file  , entry ) = "number_executed:timing_info"
   // ^COVERAGE("%RSEL","init",8,"FOR_LOOP",1)=1
   //          ( file  , entry, line, IGNORE ) =number_executed
   std::vector<std::string> args;
   std::string::size_type pos = line.find('(', 0);
   // if no ( is found, then return line has no coverage
   if(pos == std::string::npos)
     {
     return false;
     }
   std::string arg;
   bool done = false;
   // separate out all of the comma separated arguments found
   // in the COVERAGE(...) line
   while(line[pos] && !done)
     {
     // save the char we are looking at
     char cur = line[pos];
     // , or ) means end of argument
     if(cur == ',' || cur == ')')
       {
       // save the argument into the argument vector
       args.push_back(arg);
       // start on a new argument
       arg = "";
       // if we are at the end of the ), then finish while loop
       if(cur == ')')
         {
         done = true;
         }
       }
     else
       {
       // all chars except ", (, and % get stored in the arg string
       if(cur != '\"' && cur != '(' && cur != '%')
         {
         arg.append(1, line[pos]);
         }
       }
     // move to next char
     pos++;
     }
   // now parse the right hand side of the =
   pos = line.find('=');
   // no = found, this is an error
   if(pos == line.npos)
     {
     return false;
     }
   pos++; // move past =

   // if the next positing is not a ", then this is a
   // COVERAGE(..)=count line and turn the rest of the string
   // past the = into an integer and set it to count
   if(line[pos] != '\"')
     {
     count = atoi(line.substr(pos).c_str());
     }
   else
     {
     // this means line[pos] is a ", and we have a
     // COVERAGE(...)="1:0:0:0" type of line
     pos++; // move past "
     // find the first : past the "
     std::string::size_type pos2 = line.find(':', pos);
     // turn the string between the " and the first : into an integer
     // and set it to count
     count = atoi(line.substr(pos, pos2-pos).c_str());
     }
   // less then two arguments is an error
   if(args.size() < 2)
     {
     cmCTestLog(this->CTest, ERROR_MESSAGE,
                "Error parsing mcov line: [" << line << "]\n");
     return false;
     }
   routine = args[0]; // the routine is the first argument
   function = args[1]; // the function in the routine is the second
   // in the two argument only format
   // ^COVERAGE("%RSEL","SRC"), the line offset is 0
   if(args.size() == 2)
     {
     // To avoid double counting of line 0 of each entry point,
     // Don't count the lines that do not give an explicit line
     // number.
     routine="";
     function="";
     }
   else
     {
     // this is the format for this line
     // ^COVERAGE("%RSEL","SRC",count)
     linenumber = atoi(args[2].c_str());
     }
   return true;
 }
	#include "cmStandardIncludes.h"
	#include <stdio.h>
	#include <stdlib.h>
	#include "cmSystemTools.h"
	#include "cmParseGTMCoverage.h"
	#include <cmsys/Directory.hxx>
	#include <cmsys/Glob.hxx>
	#include <cmsys/FStream.hxx>


	cmParseGTMCoverage::cmParseGTMCoverage(cmCTestCoverageHandlerContainer& cont,
	cmCTest* ctest)
	:cmParseMumpsCoverage(cont, ctest)
	{
	}


	bool cmParseGTMCoverage::LoadCoverageData(const char* d)
	{
	// load all the .mcov files in the specified directory
	cmsys::Directory dir;
	if(!dir.Load(d))
	{
	return false;
	}
	size_t numf;
	unsigned int i;
	numf = dir.GetNumberOfFiles();
	for (i = 0; i < numf; i++)
	{
	std::string file = dir.GetFile(i);
	if(file != "." && file != ".."
	&& !cmSystemTools::FileIsDirectory(file))
	{
	std::string path = d;
	path += "/";
	path += file;
	if(cmSystemTools::GetFilenameLastExtension(path) == ".mcov")
	{
	if(!this->ReadMCovFile(path.c_str()))
	{
	return false;
	}
	}
	}
	}
	return true;
	}

	bool cmParseGTMCoverage::ReadMCovFile(const char* file)
	{
	cmsys::ifstream in(file);
	if(!in)
	{
	return false;
	}
	std::string line;
	std::string lastfunction;
	std::string lastroutine;
	std::string lastpath;
	int lastoffset = 0;
	while( cmSystemTools::GetLineFromStream(in, line))
	{
	// only look at lines that have coverage data
	if(line.find("^ZZCOVERAGE") == line.npos)
	{
	continue;
	}
	std::string filepath;
	std::string function;
	std::string routine;
	int linenumber = 0;
	int count = 0;
	this->ParseMCOVLine(line, routine, function, linenumber, count);
	// skip this one
	if(routine == "RSEL")
	{
	continue;
	}
	// no need to search the file if we just did it
	if(function == lastfunction && lastroutine == routine)
	{
	if(!lastpath.empty())
	{
	this->Coverage.TotalCoverage[lastpath][lastoffset + linenumber]
	+= count;
	}
	else
	{
	cmCTestLog(this->CTest, ERROR_MESSAGE,
	"Can not find mumps file : "
	<< lastroutine <<
	" referenced in this line of mcov data:\n"
	"[" << line << "]\n");
	}
	continue;
	}
	// Find the full path to the file
	bool found = this->FindMumpsFile(routine, filepath);
	if(found)
	{
	int lineoffset = 0;
	if(this->FindFunctionInMumpsFile(filepath,
	function,
	lineoffset))
	{
	cmCTestCoverageHandlerContainer::SingleFileCoverageVector&
	coverageVector = this->Coverage.TotalCoverage[filepath];
	// This section accounts for lines that were previously marked
	// as non-executable code (-1), if the parser comes back with
	// a non-zero count, increase the count by 1 to push the line
	// into the executable code set in addtion to the count found.
	if(coverageVector[lineoffset + linenumber] == -1 &&
	count > 0)
	{
	coverageVector[lineoffset + linenumber] += count+1;
	}
	else
	{
	coverageVector[lineoffset + linenumber] += count;
	}
	lastoffset = lineoffset;
	}
	}
	else
	{
	cmCTestLog(this->CTest, ERROR_MESSAGE,
	"Can not find mumps file : "
	<< routine << " referenced in this line of mcov data:\n"
	"[" << line << "]\n");
	}
	lastfunction = function;
	lastroutine = routine;
	lastpath = filepath;
	}
	return true;
	}

	bool cmParseGTMCoverage::FindFunctionInMumpsFile(std::string const& filepath,
	std::string const& function,
	int& lineoffset)
	{
	cmsys::ifstream in(filepath.c_str());
	if(!in)
	{
	return false;
	}
	std::string line;
	int linenum = 0;
	while( cmSystemTools::GetLineFromStream(in, line))
	{
	std::string::size_type pos = line.find(function.c_str());
	if(pos == 0)
	{
	char nextchar = line[function.size()];
	if(nextchar == ' ' \|\| nextchar == '('\|\| nextchar == '\t')
	{
	lineoffset = linenum;
	return true;
	}
	}
	if(pos == 1)
	{
	char prevchar = line[0];
	char nextchar = line[function.size()+1];
	if(prevchar == '%' && (nextchar == ' ' \|\| nextchar == '('))
	{
	lineoffset = linenum;
	return true;
	}
	}
	linenum++; // move to next line count
	}
	lineoffset = 0;
	cmCTestLog(this->CTest, ERROR_MESSAGE,
	"Could not find entry point : "
	<< function << " in " << filepath << "\n");
	return false;
	}

	bool cmParseGTMCoverage::ParseMCOVLine(std::string const& line,
	std::string& routine,
	std::string& function,
	int& linenumber,
	int& count)
	{
	// this method parses lines from the .mcov file
	// each line has ^COVERAGE(...) in it, and there
	// are several varients of coverage lines:
	//
	// ^COVERAGE("DIC11","PR1",0)="2:0:0:0"
	// ( file , entry, line ) = "number_executed:timing_info"
	// ^COVERAGE("%RSEL","SRC")="1:0:0:0"
	// ( file , entry ) = "number_executed:timing_info"
	// ^COVERAGE("%RSEL","init",8,"FOR_LOOP",1)=1
	// ( file , entry, line, IGNORE ) =number_executed
	std::vector<std::string> args;
	std::string::size_type pos = line.find('(', 0);
	// if no ( is found, then return line has no coverage
	if(pos == std::string::npos)
	{
	return false;
	}
	std::string arg;
	bool done = false;
	// separate out all of the comma separated arguments found
	// in the COVERAGE(...) line
	while(line[pos] && !done)
	{
	// save the char we are looking at
	char cur = line[pos];
	// , or ) means end of argument
	if(cur == ',' \|\| cur == ')')
	{
	// save the argument into the argument vector
	args.push_back(arg);
	// start on a new argument
	arg = "";
	// if we are at the end of the ), then finish while loop
	if(cur == ')')
	{
	done = true;
	}
	}
	else
	{
	// all chars except ", (, and % get stored in the arg string
	if(cur != '\"' && cur != '(' && cur != '%')
	{
	arg.append(1, line[pos]);
	}
	}
	// move to next char
	pos++;
	}
	// now parse the right hand side of the =
	pos = line.find('=');
	// no = found, this is an error
	if(pos == line.npos)
	{
	return false;
	}
	pos++; // move past =

	// if the next positing is not a ", then this is a
	// COVERAGE(..)=count line and turn the rest of the string
	// past the = into an integer and set it to count
	if(line[pos] != '\"')
	{
	count = atoi(line.substr(pos).c_str());
	}
	else
	{
	// this means line[pos] is a ", and we have a
	// COVERAGE(...)="1:0:0:0" type of line
	pos++; // move past "
	// find the first : past the "
	std::string::size_type pos2 = line.find(':', pos);
	// turn the string between the " and the first : into an integer
	// and set it to count
	count = atoi(line.substr(pos, pos2-pos).c_str());
	}
	// less then two arguments is an error
	if(args.size() < 2)
	{
	cmCTestLog(this->CTest, ERROR_MESSAGE,
	"Error parsing mcov line: [" << line << "]\n");
	return false;
	}
	routine = args[0]; // the routine is the first argument
	function = args[1]; // the function in the routine is the second
	// in the two argument only format
	// ^COVERAGE("%RSEL","SRC"), the line offset is 0
	if(args.size() == 2)
	{
	// To avoid double counting of line 0 of each entry point,
	// Don't count the lines that do not give an explicit line
	// number.
	routine="";
	function="";
	}
	else
	{
	// this is the format for this line
	// ^COVERAGE("%RSEL","SRC",count)
	linenumber = atoi(args[2].c_str());
	}
	return true;
	}