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Run the `clang-format.bash` script to update our C and C++ code to a new include order `.clang-format`. Use `clang-format` version 6.0.
434 lines
13 KiB
C++
434 lines
13 KiB
C++
/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
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file Copyright.txt or https://cmake.org/licensing for details. */
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#include <cassert>
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#include <cstdio>
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#include <set>
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#include <stack>
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#include <string>
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#include <utility>
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#include <vector>
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#include "cmFortranParser.h"
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#include "cmStringAlgorithms.h"
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#include "cmSystemTools.h"
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bool cmFortranParser_s::FindIncludeFile(const char* dir,
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const char* includeName,
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std::string& fileName)
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{
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// If the file is a full path, include it directly.
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if (cmSystemTools::FileIsFullPath(includeName)) {
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fileName = includeName;
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return cmSystemTools::FileExists(fileName, true);
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}
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// Check for the file in the directory containing the including
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// file.
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std::string fullName = cmStrCat(dir, '/', includeName);
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if (cmSystemTools::FileExists(fullName, true)) {
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fileName = fullName;
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return true;
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}
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// Search the include path for the file.
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for (std::string const& i : this->IncludePath) {
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fullName = cmStrCat(i, '/', includeName);
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if (cmSystemTools::FileExists(fullName, true)) {
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fileName = fullName;
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return true;
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}
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}
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return false;
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}
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cmFortranParser_s::cmFortranParser_s(cmFortranCompiler fc,
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std::vector<std::string> includes,
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std::set<std::string> defines,
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cmFortranSourceInfo& info)
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: Compiler(std::move(fc))
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, IncludePath(std::move(includes))
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, PPDefinitions(std::move(defines))
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, Info(info)
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{
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this->InInterface = false;
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this->InPPFalseBranch = 0;
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// Initialize the lexical scanner.
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cmFortran_yylex_init(&this->Scanner);
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cmFortran_yyset_extra(this, this->Scanner);
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// Create a dummy buffer that is never read but is the fallback
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// buffer when the last file is popped off the stack.
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YY_BUFFER_STATE buffer =
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cmFortran_yy_create_buffer(nullptr, 4, this->Scanner);
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cmFortran_yy_switch_to_buffer(buffer, this->Scanner);
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}
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cmFortranParser_s::~cmFortranParser_s()
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{
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cmFortran_yylex_destroy(this->Scanner);
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}
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std::string cmFortranParser_s::ModName(std::string const& mod_name) const
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{
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return mod_name + ".mod";
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}
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std::string cmFortranParser_s::SModName(std::string const& mod_name,
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std::string const& sub_name) const
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{
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std::string const& SModExt =
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this->Compiler.SModExt.empty() ? ".mod" : this->Compiler.SModExt;
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// An empty separator means that the compiler does not use a prefix.
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if (this->Compiler.SModSep.empty()) {
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return sub_name + SModExt;
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}
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return mod_name + this->Compiler.SModSep + sub_name + SModExt;
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}
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bool cmFortranParser_FilePush(cmFortranParser* parser, const char* fname)
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{
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// Open the new file and push it onto the stack. Save the old
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// buffer with it on the stack.
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if (FILE* file = cmsys::SystemTools::Fopen(fname, "rb")) {
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YY_BUFFER_STATE current = cmFortranLexer_GetCurrentBuffer(parser->Scanner);
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std::string dir = cmSystemTools::GetParentDirectory(fname);
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cmFortranFile f(file, current, dir);
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YY_BUFFER_STATE buffer =
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cmFortran_yy_create_buffer(nullptr, 16384, parser->Scanner);
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cmFortran_yy_switch_to_buffer(buffer, parser->Scanner);
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parser->FileStack.push(f);
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return true;
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}
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return false;
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}
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bool cmFortranParser_FilePop(cmFortranParser* parser)
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{
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// Pop one file off the stack and close it. Switch the lexer back
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// to the next one on the stack.
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if (parser->FileStack.empty()) {
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return false;
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}
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cmFortranFile f = parser->FileStack.top();
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parser->FileStack.pop();
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fclose(f.File);
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YY_BUFFER_STATE current = cmFortranLexer_GetCurrentBuffer(parser->Scanner);
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cmFortran_yy_delete_buffer(current, parser->Scanner);
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cmFortran_yy_switch_to_buffer(f.Buffer, parser->Scanner);
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return true;
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}
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int cmFortranParser_Input(cmFortranParser* parser, char* buffer,
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size_t bufferSize)
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{
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// Read from the file on top of the stack. If the stack is empty,
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// the end of the translation unit has been reached.
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if (!parser->FileStack.empty()) {
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cmFortranFile& ff = parser->FileStack.top();
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FILE* file = ff.File;
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size_t n = fread(buffer, 1, bufferSize, file);
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if (n > 0) {
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ff.LastCharWasNewline = buffer[n - 1] == '\n';
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} else if (!ff.LastCharWasNewline) {
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// The file ended without a newline. Inject one so
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// that the file always ends in an end-of-statement.
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buffer[0] = '\n';
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n = 1;
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ff.LastCharWasNewline = true;
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}
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return static_cast<int>(n);
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}
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return 0;
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}
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void cmFortranParser_StringStart(cmFortranParser* parser)
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{
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parser->TokenString.clear();
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}
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const char* cmFortranParser_StringEnd(cmFortranParser* parser)
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{
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return parser->TokenString.c_str();
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}
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void cmFortranParser_StringAppend(cmFortranParser* parser, char c)
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{
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parser->TokenString += c;
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}
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void cmFortranParser_SetInInterface(cmFortranParser* parser, bool in)
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{
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if (parser->InPPFalseBranch) {
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return;
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}
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parser->InInterface = in;
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}
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bool cmFortranParser_GetInInterface(cmFortranParser* parser)
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{
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return parser->InInterface;
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}
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void cmFortranParser_SetOldStartcond(cmFortranParser* parser, int arg)
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{
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parser->OldStartcond = arg;
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}
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int cmFortranParser_GetOldStartcond(cmFortranParser* parser)
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{
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return parser->OldStartcond;
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}
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void cmFortranParser_Error(cmFortranParser* parser, const char* msg)
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{
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parser->Error = msg ? msg : "unknown error";
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}
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void cmFortranParser_RuleUse(cmFortranParser* parser, const char* module_name)
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{
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if (parser->InPPFalseBranch) {
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return;
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}
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// syntax: "use module_name"
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// requires: "module_name.mod"
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std::string const& mod_name = cmSystemTools::LowerCase(module_name);
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parser->Info.Requires.insert(parser->ModName(mod_name));
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}
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void cmFortranParser_RuleLineDirective(cmFortranParser* parser,
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const char* filename)
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{
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// This is a #line directive naming a file encountered during preprocessing.
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std::string included = filename;
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// Skip #line directives referencing non-files like
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// "<built-in>" or "<command-line>".
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if (included.empty() || included[0] == '<') {
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return;
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}
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// Fix windows file path separators since our lexer does not
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// process escape sequences in string literals.
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cmSystemTools::ReplaceString(included, "\\\\", "\\");
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cmSystemTools::ConvertToUnixSlashes(included);
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// Save the named file as included in the source.
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if (cmSystemTools::FileExists(included, true)) {
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parser->Info.Includes.insert(included);
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}
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}
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void cmFortranParser_RuleInclude(cmFortranParser* parser, const char* name)
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{
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if (parser->InPPFalseBranch) {
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return;
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}
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// If processing an include statement there must be an open file.
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assert(!parser->FileStack.empty());
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// Get the directory containing the source in which the include
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// statement appears. This is always the first search location for
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// Fortran include files.
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std::string dir = parser->FileStack.top().Directory;
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// Find the included file. If it cannot be found just ignore the
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// problem because either the source will not compile or the user
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// does not care about depending on this included source.
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std::string fullName;
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if (parser->FindIncludeFile(dir.c_str(), name, fullName)) {
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// Found the included file. Save it in the set of included files.
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parser->Info.Includes.insert(fullName);
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// Parse it immediately to translate the source inline.
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cmFortranParser_FilePush(parser, fullName.c_str());
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}
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}
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void cmFortranParser_RuleModule(cmFortranParser* parser,
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const char* module_name)
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{
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if (parser->InPPFalseBranch) {
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return;
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}
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if (!parser->InInterface) {
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// syntax: "module module_name"
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// provides: "module_name.mod"
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std::string const& mod_name = cmSystemTools::LowerCase(module_name);
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parser->Info.Provides.insert(parser->ModName(mod_name));
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}
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}
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void cmFortranParser_RuleSubmodule(cmFortranParser* parser,
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const char* module_name,
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const char* submodule_name)
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{
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if (parser->InPPFalseBranch) {
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return;
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}
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// syntax: "submodule (module_name) submodule_name"
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// requires: "module_name.mod"
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// provides: "module_name@submodule_name.smod"
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//
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// FIXME: Some compilers split the submodule part of a module into a
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// separate "module_name.smod" file. Whether it is generated or
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// not depends on conditions more subtle than we currently detect.
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// For now we depend directly on "module_name.mod".
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std::string const& mod_name = cmSystemTools::LowerCase(module_name);
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std::string const& sub_name = cmSystemTools::LowerCase(submodule_name);
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parser->Info.Requires.insert(parser->ModName(mod_name));
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parser->Info.Provides.insert(parser->SModName(mod_name, sub_name));
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}
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void cmFortranParser_RuleSubmoduleNested(cmFortranParser* parser,
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const char* module_name,
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const char* submodule_name,
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const char* nested_submodule_name)
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{
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if (parser->InPPFalseBranch) {
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return;
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}
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// syntax: "submodule (module_name:submodule_name) nested_submodule_name"
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// requires: "module_name@submodule_name.smod"
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// provides: "module_name@nested_submodule_name.smod"
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std::string const& mod_name = cmSystemTools::LowerCase(module_name);
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std::string const& sub_name = cmSystemTools::LowerCase(submodule_name);
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std::string const& nest_name =
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cmSystemTools::LowerCase(nested_submodule_name);
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parser->Info.Requires.insert(parser->SModName(mod_name, sub_name));
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parser->Info.Provides.insert(parser->SModName(mod_name, nest_name));
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}
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void cmFortranParser_RuleDefine(cmFortranParser* parser, const char* macro)
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{
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if (!parser->InPPFalseBranch) {
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parser->PPDefinitions.insert(macro);
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}
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}
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void cmFortranParser_RuleUndef(cmFortranParser* parser, const char* macro)
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{
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if (!parser->InPPFalseBranch) {
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std::set<std::string>::iterator match;
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match = parser->PPDefinitions.find(macro);
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if (match != parser->PPDefinitions.end()) {
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parser->PPDefinitions.erase(match);
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}
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}
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}
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void cmFortranParser_RuleIfdef(cmFortranParser* parser, const char* macro)
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{
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// A new PP branch has been opened
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parser->SkipToEnd.push(false);
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if (parser->InPPFalseBranch) {
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parser->InPPFalseBranch++;
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} else if (parser->PPDefinitions.find(macro) ==
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parser->PPDefinitions.end()) {
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parser->InPPFalseBranch = 1;
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} else {
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parser->SkipToEnd.top() = true;
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}
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}
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void cmFortranParser_RuleIfndef(cmFortranParser* parser, const char* macro)
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{
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// A new PP branch has been opened
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parser->SkipToEnd.push(false);
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if (parser->InPPFalseBranch) {
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parser->InPPFalseBranch++;
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} else if (parser->PPDefinitions.find(macro) !=
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parser->PPDefinitions.end()) {
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parser->InPPFalseBranch = 1;
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} else {
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// ignore other branches
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parser->SkipToEnd.top() = true;
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}
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}
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void cmFortranParser_RuleIf(cmFortranParser* parser)
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{
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/* Note: The current parser is _not_ able to get statements like
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* #if 0
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* #if 1
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* #if MYSMBOL
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* #if defined(MYSYMBOL)
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* #if defined(MYSYMBOL) && ...
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* right. The same for #elif. Thus in
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* #if SYMBOL_1
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* ..
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* #elif SYMBOL_2
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* ...
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* ...
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* #elif SYMBOL_N
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* ..
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* #else
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* ..
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* #endif
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* _all_ N+1 branches are considered. If you got something like this
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* #if defined(MYSYMBOL)
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* #if !defined(MYSYMBOL)
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* use
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* #ifdef MYSYMBOL
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* #ifndef MYSYMBOL
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* instead.
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*/
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// A new PP branch has been opened
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// Never skip! See note above.
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parser->SkipToEnd.push(false);
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}
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void cmFortranParser_RuleElif(cmFortranParser* parser)
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{
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/* Note: There are parser limitations. See the note at
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* cmFortranParser_RuleIf(..)
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*/
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// Always taken unless an #ifdef or #ifndef-branch has been taken
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// already. If the second condition isn't meet already
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// (parser->InPPFalseBranch == 0) correct it.
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if (!parser->SkipToEnd.empty() && parser->SkipToEnd.top() &&
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!parser->InPPFalseBranch) {
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parser->InPPFalseBranch = 1;
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}
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}
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void cmFortranParser_RuleElse(cmFortranParser* parser)
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{
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// if the parent branch is false do nothing!
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if (parser->InPPFalseBranch > 1) {
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return;
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}
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// parser->InPPFalseBranch is either 0 or 1. We change it depending on
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// parser->SkipToEnd.top()
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if (!parser->SkipToEnd.empty() && parser->SkipToEnd.top()) {
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parser->InPPFalseBranch = 1;
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} else {
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parser->InPPFalseBranch = 0;
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}
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}
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void cmFortranParser_RuleEndif(cmFortranParser* parser)
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{
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if (!parser->SkipToEnd.empty()) {
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parser->SkipToEnd.pop();
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}
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// #endif doesn't know if there was a "#else" in before, so it
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// always decreases InPPFalseBranch
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if (parser->InPPFalseBranch) {
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parser->InPPFalseBranch--;
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}
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}
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