/* This file is part of mhmake.
*
* Copyright (C) 2001-2009 Marc Haesen
*
* Mhmake is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Mhmake is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Mhmake. If not, see .
*/
/* $Rev$ */
#include "stdafx.h"
#include "util.h"
#include "md5.h"
#include "mhmakefileparser.h"
#include "rule.h"
#include "mhmakelexer.h"
///////////////////////////////////////////////////////////////////////////////
int mhmakefileparser::yylex(void)
{
m_yyloc=m_ptheLexer->m_Line;
return m_ptheLexer->yylex(m_theTokenValue);
}
///////////////////////////////////////////////////////////////////////////////
void mhmakefileparser::yyerror(char *m)
{
cerr << this->m_ptheLexer->m_InputFileName<< " ("< &FileInfo,bool SetMakeDir)
{
mhmakelexer theLexer;
m_ptheLexer=&theLexer;
if (SetMakeDir)
{
m_MakeDir=curdir::GetCurDir();
m_Variables[CURDIR]=m_MakeDir->GetFullFileName();
}
theLexer.m_InputFileName=FileInfo->GetFullFileName();
theLexer.m_pParser=(mhmakeparser*)this;
theLexer.yyin=::fopen(FileInfo->GetFullFileName().c_str(),"r");
if (!theLexer.yyin)
{
cerr << "Error opening makefile: "<GetFullFileName()< SplitExpr(const string &Expr,char Item)
{
int i=0;
char Char=Expr[i++];
while (Char!=Item)
{
if (Char=='"' || Char=='\'')
{
i=SkipUntilQuote(Expr,i,Char);
}
else if (Char=='$')
{
i=SkipMakeExpr(Expr,i);
}
Char=Expr[i++];
}
return pair(Expr.substr(0,i-1),Expr.substr(i));
}
///////////////////////////////////////////////////////////////////////////////
bool mhmakefileparser::IsEqual(const string &EqualExpr) const
{
string Expr=ExpandExpression(EqualExpr);
const char *pStr=Expr.c_str();
const char *pTmp=pStr;
while (*pTmp && *pTmp!=',') pTmp++;
int Pos=pTmp-pStr;
int Size=Expr.size();
pTmp=pStr+Size-1;
while (pTmp>pStr && strchr(" \t",*pTmp))
{
pTmp--;
}
if (2*Pos != pTmp-pStr)
{
return false;
}
pTmp=pStr;
const char *pTmp2=pTmp+Pos+1;
if (*pTmp=='(')
{
pTmp++;
Pos--;
}
for (int i=0; im_InExpandExpression++;
int i=0;
int Length=Expr.size();
string Ret;
bool DollarEscaped=false;
while (ii)
{
Ret+=ExpandMacro(Expr.substr(i,inew-i-1));
i=inew;
}
else
{
// This is a single character expression
Ret+=ExpandMacro(string(1,Expr[i-1]));
}
}
}
else
{
Ret+=Char;
}
}
// Here we do a special case in case we still have a $ without a %
if (m_InExpandExpression==1)
{
if (Ret.find('$')!=string::npos)
Ret=ExpandExpression(Ret);
if (DollarEscaped)
{
int Pos;
while ((Pos=Ret.find("$$"))!=string::npos)
{
Ret=Ret.replace(Pos,2,"$");
}
}
}
((mhmakefileparser*)this)->m_InExpandExpression--;
return Ret;
}
///////////////////////////////////////////////////////////////////////////////
string mhmakefileparser::ExpandMacro(const string &Expr) const
{
if (Expr.find('%')!=string::npos && Expr.find('$')==string::npos && Expr.find(':')==string::npos)
return string("$(")+Expr+")";
string ExpandedExpr=ExpandExpression(Expr);
const char *pTmp=ExpandedExpr.c_str();
/* First remove leading spaces */
while (*pTmp==' ' || *pTmp=='\t') pTmp++;
const char *pVar=pTmp;
while (*pTmp && *pTmp!=' ' && *pTmp!='\t' && *pTmp!=':') pTmp++;
const char *pVarEnd=pTmp;
char Type=*pTmp++;
while (*pTmp && (*pTmp==' ' || *pTmp=='\t')) pTmp++;
if (Type&&*pTmp)
{ // We have a match for the regular expression ^([^ \\t:]+)([: \\t])[ \\t]*(.+)
if (Type==':')
{
string ToSubst=ExpandExpression(ExpandVar(string(pVar,pVarEnd)));
const char *pSrc=pTmp;
const char *pStop=pSrc;
while (*pStop!='=') pStop++;
const char *pTo=pStop+1;
string SrcStr(pSrc,pStop);
string ToStr(pTo);
return Substitute(ToSubst,SrcStr,ToStr);
}
else if (Type==' ' || Type == '\t')
{
string Func(pVar,pVarEnd);
string Arg(pTmp);
if (Arg.find('%')!=string::npos && Arg.find('$')!=string::npos)
return string("$(")+ExpandedExpr+")";
function_f pFunc=m_Functions[Func];
#ifdef _DEBUG
if (pFunc)
{
return (this->*pFunc)(Arg);
}
else
{
cerr << "Unknown function specified in macro: "<*pFunc)(Arg);
#endif
}
else
{
#ifdef _DEBUG
cerr << "Fatal error in ExpandMacro (bug in mhmake ? ? ?)";
throw 1;
#else
return g_EmptyString;
#endif
}
}
else
{
return ExpandExpression(ExpandVar(ExpandedExpr));
}
}
///////////////////////////////////////////////////////////////////////////////
string mhmakefileparser::ExpandVar(const string &Var) const
{
map::const_iterator pIt=m_Variables.find(Var);
if (pIt==m_Variables.end())
{
if (Var.size()==1)
{
char Char=Var[0];
if (m_RuleThatIsBuild)
{
switch (Char)
{
case '<': // return first prerequisit
#ifdef _DEBUG
if (!m_RuleThatIsBuild->GetDeps().size())
{
return "";
}
#endif
return m_RuleThatIsBuild->GetDeps()[0]->GetFullFileName();
case '@': // return full target file name
return m_RuleThatIsBuild->GetFullFileName();
case '*': // return stem
return m_RuleThatIsBuild->GetRule()->GetStem();
case '^': // return all prerequisits
return m_RuleThatIsBuild->GetPrerequisits();
case '/':
return OSPATHSEPSTR;
default:
break;
}
}
else
{
switch (Char)
{
case '<': // return first prerequisit
case '@': // return full target file name
case '*': // return stem
case '^': // return all prerequisits
return Var; // To make comparing of rules more accurate
case '/':
return OSPATHSEPSTR;
default:
break;
}
}
}
string Env=GetFromEnv(Var);
if (Env.empty())
{
#ifdef _DEBUG
if (g_PrintAdditionalInfo)
{
cout<<"Warning: Variable "<second;
}
///////////////////////////////////////////////////////////////////////////////
void SplitToItems(const string &String,vector< refptr > &Items,refptr Dir)
{
const char *pTmp=String.c_str();
while (*pTmp)
{
string Item;
pTmp=NextItem(pTmp,Item);
if (!Item.empty())
{
if (Item[0]=='"')
{
Item=Item.substr(1,Item.size()-2);
}
Items.push_back(GetFileInfo(Item,Dir));
}
}
}
///////////////////////////////////////////////////////////////////////////////
void mhmakefileparser::ParseBuildedIncludeFiles()
{
vector::iterator It=m_ToBeIncludeAfterBuild.begin();
while (It!=m_ToBeIncludeAfterBuild.end())
{
int result=ParseFile(GetFileInfo(*It));
if (result)
{
fprintf(stderr,"Error parsing %s\n",It->c_str());
throw(1);
}
It++;
}
}
#ifdef _DEBUG
///////////////////////////////////////////////////////////////////////////////
void mhmakefileparser::PrintVariables(bool Expand) const
{
map::const_iterator It=m_Variables.begin();
while (It!=m_Variables.end())
{
if (Expand)
{
try
{
cout<first<<" : "<second)<first<<" : "<second<::const_iterator It2=m_Exports.begin();
while (It2!=m_Exports.end())
{
cout<<*It2< >::iterator pIt=m_pCurrentItems->begin();
while (pIt!=m_pCurrentItems->end())
{
if ((*pIt)->GetFullFileName().find('%')!=string::npos)
{
IMPLICITRULE::AddImplicitRule(*pIt,*m_pCurrentDeps,m_pCurrentRule);
}
else
{
// If we had a double colon we must make sure that the target is always build
if (m_DoubleColonRule)
{
(*pIt)->SetNotExist();
}
(*pIt)->SetRuleIfNotExist(m_pCurrentRule);
if (!m_pCurrentRule)
(*pIt)->AddDeps(*m_pCurrentDeps);
else
(*pIt)->InsertDeps(*m_pCurrentDeps);
if (!m_FirstTarget)
{ // Only check this if the rule is not an implicit rule
m_FirstTarget=(*m_pCurrentItems)[0];
}
}
pIt++;
}
m_pCurrentItems=NULL;
m_pCurrentRule=NullRule;
}
///////////////////////////////////////////////////////////////////////////////
void mhmakefileparser::GetAutoDeps(const refptr &FirstDep,set< refptr > &Autodeps)
{
/* Here we have to scan only c/c++ headers so skip certain extensions */
const char *pFullName=FirstDep->GetFullFileName().c_str();
const char *pExt=strrchr(pFullName,'.');
bool bPython=false;
if (pExt)
{
if (!_stricmp(pExt+1,"py"))
bPython=true;
}
FILE *pIn=fopen(pFullName,"r");
if (!pIn)
return;
refptr CurDir=curdir::GetCurDir(); /* Since we are calling BuildTarget, the current directory might change, which is not what we should expecting */
char IncludeList[255];
int PrevRet=0;
int Ret=fgetc(pIn);
while(Ret!=EOF)
{
char Type[2];
bool bFound=false;
if (bPython)
{
Type[0]='"';
if (Ret=='i')
{
Ret=fscanf(pIn,"mport %254[^\"\n]",IncludeList);
if (Ret==1)
{
if (IncludeList[0]!='*')
bFound=true;
}
}
}
else
{
if (PrevRet=='/')
{
if (Ret=='/')
{
/* This is a C++ command so read until the next line-feed */
do
{
Ret=fgetc(pIn);
} while (Ret!='\n' && Ret!=EOF);
}
else if (Ret=='*')
{
/* This is a standard C comment, so read until then end of the command */
do
{
PrevRet=Ret;
Ret=fgetc(pIn);
} while ((PrevRet!='*' || Ret!='/') && Ret!=EOF);
}
}
else if (Ret=='#' || Ret=='.')
{
if (Ret=='#')
Ret=fscanf(pIn,"include %1[\"<]%254[^>\"]%*[\">]",&Type,IncludeList);
else
Ret=fscanf(pIn,"import %1[\"<]%254[^>\"]%*[\">]",&Type,IncludeList);
if (Ret==2)
{
bFound=true;
}
}
}
if (bFound)
{
const char *pTmp=IncludeList;
while (*pTmp)
{
string IncludeFile;
pTmp=NextItem(pTmp,IncludeFile," \t,");
if (bPython)
IncludeFile+=".py";
if (SkipHeaderFile(IncludeFile))
continue;
#ifdef _DEBUG
m_ImplicitSearch++; // This is to avoid warnings of targets that does not exist
#endif
if (Type[0]=='"')
{
refptr pInclude=GetFileInfo(IncludeFile,FirstDep->GetDir());
/* Add the dependency when the file alrady exist or there is a rule available to be build */
if (BuildTarget(pInclude).DoesExist()) // Try to build the target, and add it if it exists after building
{
set< refptr >::iterator pFind=Autodeps.find(pInclude);
if (pFind==Autodeps.end())
{
Autodeps.insert(pInclude);
GetAutoDeps(pInclude,Autodeps);
}
}
}
const refptr IncludeDirs=GetIncludeDirs();
vector< refptr >::const_iterator It=IncludeDirs->begin();
while (Itend())
{
refptr pInclude=GetFileInfo(IncludeFile,*It);
if (BuildTarget(pInclude).DoesExist()) // Try to build the target, and add it if it exists after building
{
set< refptr >::iterator pFind=Autodeps.find(pInclude);
if (pFind==Autodeps.end())
{
Autodeps.insert(pInclude);
GetAutoDeps(pInclude,Autodeps);
}
break;
}
It++;
}
#ifdef _DEBUG
m_ImplicitSearch--;
#endif
}
}
PrevRet=Ret;
Ret=fgetc(pIn);
}
fclose(pIn);
curdir::ChangeCurDir(CurDir);
}
///////////////////////////////////////////////////////////////////////////////
void mhmakefileparser::UpdateAutomaticDependencies(const refptr &Target)
{
m_AutoDepsDirty=true; /* Always assume dirty since in the autodeps file, the md5 strings are also saved. */
const char *pName=Target->GetFullFileName().c_str();
const char *pExt=strrchr(pName,'.');
if (!pExt)
return;
if (Target->IsAutoDepExtention())
{
// we have to search for the include files in the first dependency of Target
vector< refptr > &Deps=Target->GetDeps();
if (!Deps.size())
return; // There is no first dep
refptr FirstDep=Deps[0];
set< refptr > &Autodeps=m_AutoDeps[Target];
Autodeps.clear(); // We are going to scan again, so clear the list
GetAutoDeps(FirstDep,Autodeps);
// Now add these dependencies also to the rules
set< refptr >::iterator It=Autodeps.begin();
while (It!=Autodeps.end())
{
Target->AddDep(*It);
It++;
}
}
}
///////////////////////////////////////////////////////////////////////////////
const refptr mhmakefileparser::GetIncludeDirs() const
{
string Includes=ExpandExpression("$(INCLUDES)");
if (!m_pIncludeDirs || Includes != m_IncludeDirs)
{
((mhmakefileparser*)this)->m_IncludeDirs=Includes;
((mhmakefileparser*)this)->m_pIncludeDirs=refptr(new fileinfoarray);
if (Includes.empty()) // If not defined try a default path
Includes="include inc .."OSPATHSEPSTR"include .."OSPATHSEPSTR"inc";
const char *pTmp=Includes.c_str();
while (*pTmp)
{
string Item;
pTmp=NextItem(pTmp,Item);
refptr pIncDir=GetFileInfo(Item,m_MakeDir);
if (pIncDir->Exists() || pIncDir->GetRule())
((mhmakefileparser*)this)->m_pIncludeDirs->push_back(pIncDir);
}
}
return m_pIncludeDirs;
}
static void ReadStr(FILE *pFile,char *Str)
{
int i=0;
while (1)
{
Str[i]=fgetc(pFile);
#ifdef _DEBUG
if (Str[i]==EOF)
{
cout<<"Premature end of depency file.\n";
Str[i]=0;
return;
}
#endif
if (Str[i]=='\n')
break;
i++;
}
Str[i]='\0';
}
void mhmakefileparser::LoadAutoDepsFile(refptr &DepFile)
{
if (m_AutoDepFileLoaded && m_AutoDepFileLoaded==DepFile)
return; /* This autodep file is already loaded. */
m_AutoDepFileLoaded=DepFile;
FILE *pIn=fopen(DepFile->GetFullFileName().c_str(),"rb");
#ifdef _DEBUG
if (!pIn)
{
cerr << "Error opening autodep file "<GetFullFileName()<GetFullFileName()<<": "< Target=GetFileInfo(FileName);
set< refptr > &Autodeps=m_AutoDeps[Target];
ReadStr(pIn,FileName);
while (FileName[0])
{
if (!g_ForceAutoDepRescan) /* If we are forcing the autodepscan we do not have to load the dependencies. */
{
refptr Dep=GetFileInfo(FileName);
Autodeps.insert(Dep);
Target->AddDep(Dep);
}
ReadStr(pIn,FileName);
}
ReadStr(pIn,FileName);
}
uint32 Md5_32;
while (fread(&Md5_32,sizeof(Md5_32),1,pIn))
{
ReadStr(pIn,FileName);
pair ,less_refptrfileinfo >::iterator, bool> pPair=g_FileInfos.insert(new fileinfo(FileName,Md5_32));
if (!pPair.second)
{
#ifdef _DEBUG
if (!(*pPair.first)->CompareMd5_32(Md5_32) && !(*pPair.first)->CompareMd5_32(0))
cout << "Warning: trying to set to different md5's for Target "<<(*pPair.first)->GetFullFileName()<<" Old: "<GetCommandsMd5_32()<<" New: "<GetFullFileName()<<" to "<SetCommandsMd5_32(Md5_32); // If it was already there, just update the md5 value
}
AddTarget(*pPair.first);
}
fclose(pIn);
}
static void MakeDirs(const refptr & Dir)
{
refptr ParentDir=Dir->GetDir();
if (!ParentDir->GetDate().DoesExist())
{ /* First make parent dirs */
MakeDirs(ParentDir);
}
if (!Dir->GetDate().DoesExist())
{ /* Create directory */
mkdir(Dir->GetFullFileName().c_str(),S_IRWXU);
}
}
void mhmakefileparser::SaveAutoDepsFile()
{
if (!m_AutoDepsDirty)
return;
if (g_Clean
#ifdef _DEBUG
|| g_DoNotExecute || g_GenProjectTree
#endif
)
return; // do not save on clean or if no commands are executed
string DepFile=ExpandVar(AUTODEPFILE);
if (!DepFile.size())
{
return;
}
#ifdef _DEBUG
if (g_PrintAdditionalInfo)
cout<<"Saving automatic dependency file "<, set< refptr > >::const_iterator It=m_AutoDeps.begin();
while (It!=m_AutoDeps.end())
{
fprintf(pOut,"%s\n",It->first->GetFullFileName().c_str());
set< refptr >::const_iterator DepIt=It->second.begin();
while (DepIt!=It->second.end())
{
fprintf(pOut,"%s\n",(*DepIt)->GetFullFileName().c_str());
DepIt++;
}
fprintf(pOut,"\n");
It++;
}
/* Now save the Md5 strings */
fprintf(pOut,"\n");
set< const fileinfo * , less_fileinfo>::iterator pIt=m_Targets.begin();
while (pIt!=m_Targets.end())
{
if (!(*pIt)->CompareMd5_32(0))
{
(*pIt)->WriteMd5_32(pOut);
string FileName=(*pIt)->GetFullFileName();
fwrite(FileName.c_str(),FileName.size(),1,pOut);
fputc('\n',pOut);
}
pIt++;
}
fclose(pOut);
}
///////////////////////////////////////////////////////////////////////////////
// Uses the SKIPHEADERS variable to check if we have to skip the header in
// the automatic dependency scanning
bool mhmakefileparser::SkipHeaderFile(const string &FileName)
{
if (!m_SkipHeadersInitialized)
{
m_SkipHeadersInitialized=true;
string HeadersToSkip=ExpandVar(SKIPHEADERS);
const char *pTmp=HeadersToSkip.c_str();
while (*pTmp)
{
string Item;
pTmp=NextItem(pTmp,Item);
if (Item.find('%')==string::npos)
{
m_SkipHeaders.insert(Item);
}
else
{
m_PercentHeaders.push_back(Item);
}
}
}
if (m_SkipHeaders.find(FileName)!=m_SkipHeaders.end())
return true;
vector::const_iterator It=m_PercentHeaders.begin();
vector::const_iterator ItEnd=m_PercentHeaders.end();
while (It!=ItEnd)
{
if (PercentMatch(FileName,*It++))
return true;
}
return false;
}
///////////////////////////////////////////////////////////////////////////////
// Makes sure that the makefile exports are set in the environment
const mhmakefileparser *mhmakefileparser::m_spCurEnv; // Identifies which makefiles exports are currently set
void mhmakefileparser::InitEnv() const
{
if (this!=m_spCurEnv)
{
/* First restore the previous set environment variables */
if (m_spCurEnv)
m_spCurEnv->RestoreEnv();
((mhmakefileparser*)this)->SaveEnv();
vector::const_iterator It=m_Exports.begin();
vector::const_iterator ItEnd=m_Exports.end();
while (It!=ItEnd)
{
putenv((char *)It->c_str());
It++;
}
m_spCurEnv=this;
}
}
///////////////////////////////////////////////////////////////////////////////
void mhmakefileparser::SaveEnv()
{
vector::const_iterator It=m_Exports.begin();
vector::const_iterator ItEnd=m_Exports.end();
while (It!=ItEnd)
{
string Export=*It++;
const char *pTmp=Export.c_str();
string Var;
NextItem(pTmp,Var,"=");
const char *pEnv=getenv(Var.c_str());
string Env;
if (pEnv)
Env=pEnv;
m_SavedExports[Var]=Env;
}
}
///////////////////////////////////////////////////////////////////////////////
void mhmakefileparser::RestoreEnv() const
{
if (m_spCurEnv && this!=m_spCurEnv)
{
m_spCurEnv->RestoreEnv(); // Make sure that environment variable that were set in the other makefile (m_spCurEnv) are cleared, otherwise the environment is not completely restored.
}
map::const_iterator It=m_SavedExports.begin();
map::const_iterator ItEnd=m_SavedExports.end();
while (It!=ItEnd)
{
#ifdef WIN32
char Env[1024];
sprintf(Env,"%s=%s",It->first.c_str(),It->second.c_str());
putenv(Env);
#else
/* on linux, only use putenv if you know the supplied string will stay in memory */
setenv(It->first.c_str(),It->second.c_str(),1);
#endif
It++;
}
((mhmakefileparser*)this)->m_SavedExports.clear();
m_spCurEnv=NULL;
}
///////////////////////////////////////////////////////////////////////////////
//
//Create a Md5 string from m_GlobalCommandLineVars and USED_ENVVARS
//
static bool SkipVar(const string &Var)
{
if (Var==WC_REVISION)
return true;
if (Var==WC_URL)
return true;
if (Var==MAKE)
return true;
return false;
}
#define DBGOUT(stuff)
uint32 mhmakefileparser::CreateEnvMd5_32() const
{
md5_context ctx;
string Md5;
string EnvVars=ExpandVar(USED_ENVVARS);
const char *pTmp=EnvVars.c_str();
map Variables;
RestoreEnv(); // Restore the environment before creating the md5, so that we have the original environment when the makefile was parsed.
/* First create a list of variables to put in the md5 string. This is needed because a variable could be in the
* environment and passed on the command-line. This is especially important when switching environments were a certain
* variable sometimes is passed with the environment and sometimes on the command line */
while (*pTmp)
{
string Var;
pTmp=NextItem(pTmp,Var,";");
if (!SkipVar(Var))
{
string Val=GetFromEnv(Var,false);
transform(Var.begin(),Var.end(),Var.begin(),(int(__CDECL *)(int))toupper);
transform(Val.begin(),Val.end(),Val.begin(),(int(__CDECL *)(int))toupper);
DBGOUT(cout << GetMakeDir()->GetFullFileName() << " -> Setting GetFromEnv var " << Var << " to " << Val << endl);
Variables[Var]=Val;
}
}
map::const_iterator ItEnd=loadedmakefile::sm_Statics.m_GlobalCommandLineVars.end();
map::const_iterator It=loadedmakefile::sm_Statics.m_GlobalCommandLineVars.begin();
while (It!=ItEnd)
{
if (!SkipVar(It->first))
{
string Var=It->first;
transform(Var.begin(),Var.end(),Var.begin(),(int(__CDECL *)(int))toupper);
string Val=It->second;
transform(Val.begin(),Val.end(),Val.begin(),(int(__CDECL *)(int))toupper);
DBGOUT(cout << GetMakeDir()->GetFullFileName() << " -> Setting Commandline var " << Var << " to " << Val << endl);
Variables[Var]=Val;
}
It++;
}
// Now create the md5 string
md5_starts( &ctx );
DBGOUT(cout << "MD5 of " << m_MakeDir->GetFullFileName() << endl);
map::const_iterator VarIt=Variables.begin();
map::const_iterator VarItEnd=Variables.end();
while (VarIt!=VarItEnd)
{
md5_update( &ctx, (uint8 *) VarIt->first.c_str(), (unsigned long)VarIt->first.size());
if (!VarIt->second.empty())
{
md5_update( &ctx, (uint8 *) "=", 1);
md5_update( &ctx, (uint8 *) VarIt->second.c_str(), (unsigned long)VarIt->second.size());
DBGOUT(cout << VarIt->first << "=" << VarIt->second << endl);
}
DBGOUT(else cout << VarIt->first << endl;)
VarIt++;
}
return md5_finish32( &ctx);
}
///////////////////////////////////////////////////////////////////////////////
// Makes sure that the makefile exports are set in the environment
bool mhmakefileparser::CompareEnv() const
{
uint32 Md5_32=CreateEnvMd5_32();
#ifdef _DEBUG
if (!g_GenProjectTree && Md5_32!=m_EnvMd5_32)
cout << "Environment has been changed: "<::const_iterator pLineFind=m_CommandLineVars.find(Var);
if (pLineFind!=m_CommandLineVars.end())
{
((mhmakefileparser*)this)->m_UsedEnvVars.insert(Var);
if (Cache)
((mhmakefileparser*)this)->m_Variables[Var]=pLineFind->second;
return pLineFind->second;
}
const char *pEnv=getenv(Var.c_str());
if (!pEnv)
{
return g_EmptyString;
}
((mhmakefileparser*)this)->m_UsedEnvVars.insert(Var);
if (Cache)
((mhmakefileparser*)this)->m_Variables[Var]=pEnv;
return pEnv;
}
///////////////////////////////////////////////////////////////////////////////
// Creates the variable USER_ENVVARS to be saved in the autodeps file
//
void mhmakefileparser::CreateUSED_ENVVARS()
{
set::const_iterator It=m_UsedEnvVars.begin();
set::const_iterator ItEnd=m_UsedEnvVars.end();
string Val;
while (It!=ItEnd)
{
Val+=*It;
Val+=";";
It++;
}
m_Variables[USED_ENVVARS]=Val;
}