/*============================================================================ CMake - Cross Platform Makefile Generator Copyright 2000-2009 Kitware, Inc., Insight Software Consortium Distributed under the OSI-approved BSD License (the "License"); see accompanying file Copyright.txt for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the License for more information. ============================================================================*/ #include "cmCommandArgumentParserHelper.h" #include "cmSystemTools.h" #include "cmCommandArgumentLexer.h" #include "cmMakefile.h" int cmCommandArgument_yyparse( yyscan_t yyscanner ); // cmCommandArgumentParserHelper::cmCommandArgumentParserHelper() { this->WarnUninitialized = false; this->FileLine = -1; this->FileName = 0; this->RemoveEmpty = true; this->EmptyVariable[0] = 0; strcpy(this->DCURLYVariable, "${"); strcpy(this->RCURLYVariable, "}"); strcpy(this->ATVariable, "@"); strcpy(this->DOLLARVariable, "$"); strcpy(this->LCURLYVariable, "{"); strcpy(this->BSLASHVariable, "\\"); this->NoEscapeMode = false; this->ReplaceAtSyntax = false; } cmCommandArgumentParserHelper::~cmCommandArgumentParserHelper() { this->CleanupParser(); } void cmCommandArgumentParserHelper::SetLineFile(long line, const char* file) { this->FileLine = line; this->FileName = file; } char* cmCommandArgumentParserHelper::AddString(const char* str) { if ( !str || !*str ) { return this->EmptyVariable; } char* stVal = new char[strlen(str)+1]; strcpy(stVal, str); this->Variables.push_back(stVal); return stVal; } char* cmCommandArgumentParserHelper::ExpandSpecialVariable(const char* key, const char* var) { if ( !key ) { return this->ExpandVariable(var); } if(!var) { return this->EmptyVariable; } if ( strcmp(key, "ENV") == 0 ) { char *ptr = getenv(var); if (ptr) { if (this->EscapeQuotes) { return this->AddString(cmSystemTools::EscapeQuotes(ptr).c_str()); } else { return ptr; } } return this->EmptyVariable; } if ( strcmp(key, "CACHE") == 0 ) { if(const char* c = this->Makefile->GetCacheManager()->GetCacheValue(var)) { if(this->EscapeQuotes) { return this->AddString(cmSystemTools::EscapeQuotes(c).c_str()); } else { return this->AddString(c); } } return this->EmptyVariable; } cmOStringStream e; e << "Syntax $" << key << "{} is not supported. " << "Only ${}, $ENV{}, and $CACHE{} are allowed."; this->SetError(e.str()); return 0; } char* cmCommandArgumentParserHelper::ExpandVariable(const char* var) { if(!var) { return 0; } if(this->FileLine >= 0 && strcmp(var, "CMAKE_CURRENT_LIST_LINE") == 0) { cmOStringStream ostr; ostr << this->FileLine; return this->AddString(ostr.str().c_str()); } const char* value = this->Makefile->GetDefinition(var); if(!value && !this->RemoveEmpty) { // check to see if we need to print a warning // if strict mode is on and the variable has // not been "cleared"/initialized with a set(foo ) call if(this->WarnUninitialized && !this->Makefile->VariableInitialized(var)) { cmOStringStream msg; msg << this->FileName << ":" << this->FileLine << ":" << " warning: uninitialized variable \'" << var << "\'"; cmSystemTools::Message(msg.str().c_str()); } return 0; } if (this->EscapeQuotes && value) { return this->AddString(cmSystemTools::EscapeQuotes(value).c_str()); } return this->AddString(value); } char* cmCommandArgumentParserHelper::ExpandVariableForAt(const char* var) { if(this->ReplaceAtSyntax) { // try to expand the variable char* ret = this->ExpandVariable(var); // if the return was 0 and we want to replace empty strings // then return an empty string if(!ret && this->RemoveEmpty) { return this->AddString(ret); } // if the ret was not 0, then return it if(ret) { return ret; } } // at this point we want to put it back because of one of these cases: // - this->ReplaceAtSyntax is false // - this->ReplaceAtSyntax is true, but this->RemoveEmpty is false, // and the variable was not defined std::string ref = "@"; ref += var; ref += "@"; return this->AddString(ref.c_str()); } char* cmCommandArgumentParserHelper::CombineUnions(char* in1, char* in2) { if ( !in1 ) { return in2; } else if ( !in2 ) { return in1; } size_t len = strlen(in1) + strlen(in2) + 1; char* out = new char [ len ]; strcpy(out, in1); strcat(out, in2); this->Variables.push_back(out); return out; } void cmCommandArgumentParserHelper::AllocateParserType (cmCommandArgumentParserHelper::ParserType* pt,const char* str, int len) { pt->str = 0; if ( len == 0 ) { len = static_cast(strlen(str)); } if ( len == 0 ) { return; } pt->str = new char[ len + 1 ]; strncpy(pt->str, str, len); pt->str[len] = 0; this->Variables.push_back(pt->str); } bool cmCommandArgumentParserHelper::HandleEscapeSymbol (cmCommandArgumentParserHelper::ParserType* pt, char symbol) { switch ( symbol ) { case '\\': case '"': case ' ': case '#': case '(': case ')': case '$': case '@': case '^': this->AllocateParserType(pt, &symbol, 1); break; case ';': this->AllocateParserType(pt, "\\;", 2); break; case 't': this->AllocateParserType(pt, "\t", 1); break; case 'n': this->AllocateParserType(pt, "\n", 1); break; case 'r': this->AllocateParserType(pt, "\r", 1); break; case '0': this->AllocateParserType(pt, "\0", 1); break; default: { cmOStringStream e; e << "Invalid escape sequence \\" << symbol; this->SetError(e.str()); } return false; } return true; } void cmCommandArgument_SetupEscapes(yyscan_t yyscanner, bool noEscapes); int cmCommandArgumentParserHelper::ParseString(const char* str, int verb) { if ( !str) { return 0; } this->Verbose = verb; this->InputBuffer = str; this->InputBufferPos = 0; this->CurrentLine = 0; this->Result = ""; yyscan_t yyscanner; cmCommandArgument_yylex_init(&yyscanner); cmCommandArgument_yyset_extra(this, yyscanner); cmCommandArgument_SetupEscapes(yyscanner, this->NoEscapeMode); int res = cmCommandArgument_yyparse(yyscanner); cmCommandArgument_yylex_destroy(yyscanner); if ( res != 0 ) { return 0; } this->CleanupParser(); if ( Verbose ) { std::cerr << "Expanding [" << str << "] produced: [" << this->Result.c_str() << "]" << std::endl; } return 1; } void cmCommandArgumentParserHelper::CleanupParser() { std::vector::iterator sit; for ( sit = this->Variables.begin(); sit != this->Variables.end(); ++ sit ) { delete [] *sit; } this->Variables.erase(this->Variables.begin(), this->Variables.end()); } int cmCommandArgumentParserHelper::LexInput(char* buf, int maxlen) { if ( maxlen < 1 ) { return 0; } if ( this->InputBufferPos < this->InputBuffer.size() ) { buf[0] = this->InputBuffer[ this->InputBufferPos++ ]; if ( buf[0] == '\n' ) { this->CurrentLine ++; } return(1); } else { buf[0] = '\n'; return( 0 ); } } void cmCommandArgumentParserHelper::Error(const char* str) { unsigned long pos = static_cast(this->InputBufferPos); cmOStringStream ostr; ostr << str << " (" << pos << ")"; this->SetError(ostr.str()); } void cmCommandArgumentParserHelper::SetMakefile(const cmMakefile* mf) { this->Makefile = mf; this->WarnUninitialized = mf->GetCMakeInstance()->GetWarnUninitialized(); } void cmCommandArgumentParserHelper::SetResult(const char* value) { if ( !value ) { this->Result = ""; return; } this->Result = value; } void cmCommandArgumentParserHelper::SetError(std::string const& msg) { // Keep only the first error. if(this->ErrorString.empty()) { this->ErrorString = msg; } }