/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include #include #include #include #include #include #include #include "cmFortranParser.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" bool cmFortranParser_s::FindIncludeFile(const char* dir, const char* includeName, std::string& fileName) { // If the file is a full path, include it directly. if (cmSystemTools::FileIsFullPath(includeName)) { fileName = includeName; return cmSystemTools::FileExists(fileName, true); } // Check for the file in the directory containing the including // file. std::string fullName = cmStrCat(dir, '/', includeName); if (cmSystemTools::FileExists(fullName, true)) { fileName = fullName; return true; } // Search the include path for the file. for (std::string const& i : this->IncludePath) { fullName = cmStrCat(i, '/', includeName); if (cmSystemTools::FileExists(fullName, true)) { fileName = fullName; return true; } } return false; } cmFortranParser_s::cmFortranParser_s(cmFortranCompiler fc, std::vector includes, std::set defines, cmFortranSourceInfo& info) : Compiler(std::move(fc)) , IncludePath(std::move(includes)) , PPDefinitions(std::move(defines)) , Info(info) { this->InInterface = false; this->InPPFalseBranch = 0; // Initialize the lexical scanner. cmFortran_yylex_init(&this->Scanner); cmFortran_yyset_extra(this, this->Scanner); // Create a dummy buffer that is never read but is the fallback // buffer when the last file is popped off the stack. YY_BUFFER_STATE buffer = cmFortran_yy_create_buffer(nullptr, 4, this->Scanner); cmFortran_yy_switch_to_buffer(buffer, this->Scanner); } cmFortranParser_s::~cmFortranParser_s() { cmFortran_yylex_destroy(this->Scanner); } std::string cmFortranParser_s::ModName(std::string const& mod_name) const { return mod_name + ".mod"; } std::string cmFortranParser_s::SModName(std::string const& mod_name, std::string const& sub_name) const { std::string const& SModExt = this->Compiler.SModExt.empty() ? ".mod" : this->Compiler.SModExt; // An empty separator means that the compiler does not use a prefix. if (this->Compiler.SModSep.empty()) { return sub_name + SModExt; } return mod_name + this->Compiler.SModSep + sub_name + SModExt; } bool cmFortranParser_FilePush(cmFortranParser* parser, const char* fname) { // Open the new file and push it onto the stack. Save the old // buffer with it on the stack. if (FILE* file = cmsys::SystemTools::Fopen(fname, "rb")) { YY_BUFFER_STATE current = cmFortranLexer_GetCurrentBuffer(parser->Scanner); std::string dir = cmSystemTools::GetParentDirectory(fname); cmFortranFile f(file, current, dir); YY_BUFFER_STATE buffer = cmFortran_yy_create_buffer(nullptr, 16384, parser->Scanner); cmFortran_yy_switch_to_buffer(buffer, parser->Scanner); parser->FileStack.push(f); return true; } return false; } bool cmFortranParser_FilePop(cmFortranParser* parser) { // Pop one file off the stack and close it. Switch the lexer back // to the next one on the stack. if (parser->FileStack.empty()) { return false; } cmFortranFile f = parser->FileStack.top(); parser->FileStack.pop(); fclose(f.File); YY_BUFFER_STATE current = cmFortranLexer_GetCurrentBuffer(parser->Scanner); cmFortran_yy_delete_buffer(current, parser->Scanner); cmFortran_yy_switch_to_buffer(f.Buffer, parser->Scanner); return true; } int cmFortranParser_Input(cmFortranParser* parser, char* buffer, size_t bufferSize) { // Read from the file on top of the stack. If the stack is empty, // the end of the translation unit has been reached. if (!parser->FileStack.empty()) { cmFortranFile& ff = parser->FileStack.top(); FILE* file = ff.File; size_t n = fread(buffer, 1, bufferSize, file); if (n > 0) { ff.LastCharWasNewline = buffer[n - 1] == '\n'; } else if (!ff.LastCharWasNewline) { // The file ended without a newline. Inject one so // that the file always ends in an end-of-statement. buffer[0] = '\n'; n = 1; ff.LastCharWasNewline = true; } return static_cast(n); } return 0; } void cmFortranParser_StringStart(cmFortranParser* parser) { parser->TokenString.clear(); } const char* cmFortranParser_StringEnd(cmFortranParser* parser) { return parser->TokenString.c_str(); } void cmFortranParser_StringAppend(cmFortranParser* parser, char c) { parser->TokenString += c; } void cmFortranParser_SetInInterface(cmFortranParser* parser, bool in) { if (parser->InPPFalseBranch) { return; } parser->InInterface = in; } bool cmFortranParser_GetInInterface(cmFortranParser* parser) { return parser->InInterface; } void cmFortranParser_SetOldStartcond(cmFortranParser* parser, int arg) { parser->OldStartcond = arg; } int cmFortranParser_GetOldStartcond(cmFortranParser* parser) { return parser->OldStartcond; } void cmFortranParser_Error(cmFortranParser* parser, const char* msg) { parser->Error = msg ? msg : "unknown error"; } void cmFortranParser_RuleUse(cmFortranParser* parser, const char* module_name) { if (parser->InPPFalseBranch) { return; } // syntax: "use module_name" // requires: "module_name.mod" std::string const& mod_name = cmSystemTools::LowerCase(module_name); parser->Info.Requires.insert(parser->ModName(mod_name)); } void cmFortranParser_RuleUseIntrinsic(cmFortranParser* parser, const char* module_name) { if (parser->InPPFalseBranch) { return; } // syntax: "use, intrinsic:: module_name" // requires: "module_name.mod" std::string const& mod_name = cmSystemTools::LowerCase(module_name); parser->Info.Intrinsics.insert(parser->ModName(mod_name)); } void cmFortranParser_RuleLineDirective(cmFortranParser* parser, const char* filename) { // This is a #line directive naming a file encountered during preprocessing. std::string included = filename; // Skip #line directives referencing non-files like // "" or "". if (included.empty() || included[0] == '<') { return; } // Fix windows file path separators since our lexer does not // process escape sequences in string literals. cmSystemTools::ReplaceString(included, "\\\\", "\\"); cmSystemTools::ConvertToUnixSlashes(included); // Save the named file as included in the source. if (cmSystemTools::FileExists(included, true)) { parser->Info.Includes.insert(included); } } void cmFortranParser_RuleInclude(cmFortranParser* parser, const char* name) { if (parser->InPPFalseBranch) { return; } // If processing an include statement there must be an open file. assert(!parser->FileStack.empty()); // Get the directory containing the source in which the include // statement appears. This is always the first search location for // Fortran include files. std::string dir = parser->FileStack.top().Directory; // Find the included file. If it cannot be found just ignore the // problem because either the source will not compile or the user // does not care about depending on this included source. std::string fullName; if (parser->FindIncludeFile(dir.c_str(), name, fullName)) { // Found the included file. Save it in the set of included files. parser->Info.Includes.insert(fullName); // Parse it immediately to translate the source inline. cmFortranParser_FilePush(parser, fullName.c_str()); } } void cmFortranParser_RuleModule(cmFortranParser* parser, const char* module_name) { if (parser->InPPFalseBranch) { return; } if (!parser->InInterface) { // syntax: "module module_name" // provides: "module_name.mod" std::string const& mod_name = cmSystemTools::LowerCase(module_name); parser->Info.Provides.insert(parser->ModName(mod_name)); } } void cmFortranParser_RuleSubmodule(cmFortranParser* parser, const char* module_name, const char* submodule_name) { if (parser->InPPFalseBranch) { return; } // syntax: "submodule (module_name) submodule_name" // requires: "module_name.mod" // provides: "module_name@submodule_name.smod" // // FIXME: Some compilers split the submodule part of a module into a // separate "module_name.smod" file. Whether it is generated or // not depends on conditions more subtle than we currently detect. // For now we depend directly on "module_name.mod". std::string const& mod_name = cmSystemTools::LowerCase(module_name); std::string const& sub_name = cmSystemTools::LowerCase(submodule_name); parser->Info.Requires.insert(parser->ModName(mod_name)); parser->Info.Provides.insert(parser->SModName(mod_name, sub_name)); } void cmFortranParser_RuleSubmoduleNested(cmFortranParser* parser, const char* module_name, const char* submodule_name, const char* nested_submodule_name) { if (parser->InPPFalseBranch) { return; } // syntax: "submodule (module_name:submodule_name) nested_submodule_name" // requires: "module_name@submodule_name.smod" // provides: "module_name@nested_submodule_name.smod" std::string const& mod_name = cmSystemTools::LowerCase(module_name); std::string const& sub_name = cmSystemTools::LowerCase(submodule_name); std::string const& nest_name = cmSystemTools::LowerCase(nested_submodule_name); parser->Info.Requires.insert(parser->SModName(mod_name, sub_name)); parser->Info.Provides.insert(parser->SModName(mod_name, nest_name)); } void cmFortranParser_RuleDefine(cmFortranParser* parser, const char* macro) { if (!parser->InPPFalseBranch) { parser->PPDefinitions.insert(macro); } } void cmFortranParser_RuleUndef(cmFortranParser* parser, const char* macro) { if (!parser->InPPFalseBranch) { std::set::iterator match; match = parser->PPDefinitions.find(macro); if (match != parser->PPDefinitions.end()) { parser->PPDefinitions.erase(match); } } } void cmFortranParser_RuleIfdef(cmFortranParser* parser, const char* macro) { // A new PP branch has been opened parser->SkipToEnd.push(false); if (parser->InPPFalseBranch) { parser->InPPFalseBranch++; } else if (parser->PPDefinitions.find(macro) == parser->PPDefinitions.end()) { parser->InPPFalseBranch = 1; } else { parser->SkipToEnd.top() = true; } } void cmFortranParser_RuleIfndef(cmFortranParser* parser, const char* macro) { // A new PP branch has been opened parser->SkipToEnd.push(false); if (parser->InPPFalseBranch) { parser->InPPFalseBranch++; } else if (parser->PPDefinitions.find(macro) != parser->PPDefinitions.end()) { parser->InPPFalseBranch = 1; } else { // ignore other branches parser->SkipToEnd.top() = true; } } void cmFortranParser_RuleIf(cmFortranParser* parser) { /* Note: The current parser is _not_ able to get statements like * #if 0 * #if 1 * #if MYSMBOL * #if defined(MYSYMBOL) * #if defined(MYSYMBOL) && ... * right. The same for #elif. Thus in * #if SYMBOL_1 * .. * #elif SYMBOL_2 * ... * ... * #elif SYMBOL_N * .. * #else * .. * #endif * _all_ N+1 branches are considered. If you got something like this * #if defined(MYSYMBOL) * #if !defined(MYSYMBOL) * use * #ifdef MYSYMBOL * #ifndef MYSYMBOL * instead. */ // A new PP branch has been opened // Never skip! See note above. parser->SkipToEnd.push(false); } void cmFortranParser_RuleElif(cmFortranParser* parser) { /* Note: There are parser limitations. See the note at * cmFortranParser_RuleIf(..) */ // Always taken unless an #ifdef or #ifndef-branch has been taken // already. If the second condition isn't meet already // (parser->InPPFalseBranch == 0) correct it. if (!parser->SkipToEnd.empty() && parser->SkipToEnd.top() && !parser->InPPFalseBranch) { parser->InPPFalseBranch = 1; } } void cmFortranParser_RuleElse(cmFortranParser* parser) { // if the parent branch is false do nothing! if (parser->InPPFalseBranch > 1) { return; } // parser->InPPFalseBranch is either 0 or 1. We change it depending on // parser->SkipToEnd.top() if (!parser->SkipToEnd.empty() && parser->SkipToEnd.top()) { parser->InPPFalseBranch = 1; } else { parser->InPPFalseBranch = 0; } } void cmFortranParser_RuleEndif(cmFortranParser* parser) { if (!parser->SkipToEnd.empty()) { parser->SkipToEnd.pop(); } // #endif doesn't know if there was a "#else" in before, so it // always decreases InPPFalseBranch if (parser->InPPFalseBranch) { parser->InPPFalseBranch--; } }