Driver/PrintPreprocessedOutput.cpp - llvm-project/clang - Git at Google

 //===--- PrintPreprocessedOutput.cpp - Implement the -E mode --------------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file was developed by Chris Lattner and is distributed under
 // the University of Illinois Open Source License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This code simply runs the preprocessor on the input file and prints out the
 // result.  This is the traditional behavior of the -E option.
 //
 //===----------------------------------------------------------------------===//

 #include "clang.h"
 #include "clang/Lex/Preprocessor.h"
 #include "clang/Lex/Pragma.h"
 #include "clang/Basic/SourceManager.h"
 #include "llvm/Support/CommandLine.h"
 #include "llvm/ADT/StringExtras.h"
 #include "llvm/Config/config.h"
 #include <cstdio>
 using namespace llvm;
 using namespace clang;

 //===----------------------------------------------------------------------===//
 // Simple buffered I/O
 //===----------------------------------------------------------------------===//
 //
 // Empirically, iostream is over 30% slower than stdio for this workload, and
 // stdio itself isn't very well suited.  The problem with stdio is use of
 // putchar_unlocked.  We have many newline characters that need to be emitted,
 // but stdio needs to do extra checks to handle line buffering mode.  These
 // extra checks make putchar_unlocked fall off its inlined code path, hitting
 // slow system code.  In practice, using 'write' directly makes 'clang -E -P'
 // about 10% faster than using the stdio path on darwin.

 #ifdef HAVE_UNISTD_H
 #include <unistd.h>
 #else
 #define USE_STDIO 1
 #endif

 static char *OutBufStart = 0, *OutBufEnd, *OutBufCur;

 /// InitOutputBuffer - Initialize our output buffer.
 ///
 static void InitOutputBuffer() {
 #ifndef USE_STDIO
   OutBufStart = new char[64*1024];
   OutBufEnd = OutBufStart+64*1024;
   OutBufCur = OutBufStart;
 #endif
 }

 /// FlushBuffer - Write the accumulated bytes to the output stream.
 ///
 static void FlushBuffer() {
 #ifndef USE_STDIO
   write(STDOUT_FILENO, OutBufStart, OutBufCur-OutBufStart);
   OutBufCur = OutBufStart;
 #endif
 }

 /// CleanupOutputBuffer - Finish up output.
 ///
 static void CleanupOutputBuffer() {
 #ifndef USE_STDIO
   FlushBuffer();
   delete [] OutBufStart;
 #endif
 }

 static void OutputChar(char c) {
 #ifdef USE_STDIO
   putchar_unlocked(c);
 #else
   if (OutBufCur >= OutBufEnd)
     FlushBuffer();
   *OutBufCur++ = c;
 #endif
 }

 static void OutputString(const char *Ptr, unsigned Size) {
 #ifdef USE_STDIO
   fwrite(Ptr, Size, 1, stdout);
 #else
   if (OutBufCur+Size >= OutBufEnd)
     FlushBuffer();
   memcpy(OutBufCur, Ptr, Size);
   OutBufCur += Size;
 #endif
 }


 //===----------------------------------------------------------------------===//
 // Preprocessed token printer
 //===----------------------------------------------------------------------===//

 static cl::opt<bool>
 DisableLineMarkers("P", cl::desc("Disable linemarker output in -E mode"));

 static unsigned EModeCurLine;
 static std::string EModeCurFilename;
 static Preprocessor *EModePP;
 static bool EmodeEmittedTokensOnThisLine;
 static DirectoryLookup::DirType EmodeFileType =DirectoryLookup::NormalHeaderDir;

 /// MoveToLine - Move the output to the source line specified by the location
 /// object.  We can do this by emitting some number of \n's, or be emitting a
 /// #line directive.
 static void MoveToLine(SourceLocation Loc) {
   if (DisableLineMarkers) {
     if (EmodeEmittedTokensOnThisLine) {
       OutputChar('\n');
       EmodeEmittedTokensOnThisLine = false;
     }
     return;
   }

   unsigned LineNo = EModePP->getSourceManager().getLineNumber(Loc);

   // If this line is "close enough" to the original line, just print newlines,
   // otherwise print a #line directive.
   if (LineNo-EModeCurLine < 8) {
     unsigned CurLine = EModeCurLine;
     for (; CurLine != LineNo; ++CurLine)
       OutputChar('\n');
     EModeCurLine = CurLine;
   } else {
     if (EmodeEmittedTokensOnThisLine) {
       OutputChar('\n');
       EmodeEmittedTokensOnThisLine = false;
     }

     EModeCurLine = LineNo;

     OutputChar('#');
     OutputChar(' ');
     std::string Num = utostr_32(LineNo);
     OutputString(&Num[0], Num.size());
     OutputChar(' ');
     OutputString(&EModeCurFilename[0], EModeCurFilename.size());

     if (EmodeFileType == DirectoryLookup::SystemHeaderDir)
       OutputString(" 3", 2);
     else if (EmodeFileType == DirectoryLookup::ExternCSystemHeaderDir)
       OutputString(" 3 4", 4);
     OutputChar('\n');
   }
 }

 /// HandleFileChange - Whenever the preprocessor enters or exits a #include file
 /// it invokes this handler.  Update our conception of the current
 static void HandleFileChange(SourceLocation Loc,
                              Preprocessor::FileChangeReason Reason,
                              DirectoryLookup::DirType FileType) {
   if (DisableLineMarkers) return;

   // Unless we are exiting a #include, make sure to skip ahead to the line the
   // #include directive was at.
   SourceManager &SourceMgr = EModePP->getSourceManager();
   if (Reason == Preprocessor::EnterFile) {
     MoveToLine(SourceMgr.getIncludeLoc(Loc.getFileID()));
   } else if (Reason == Preprocessor::SystemHeaderPragma) {
     MoveToLine(Loc);

     // TODO GCC emits the # directive for this directive on the line AFTER the
     // directive and emits a bunch of spaces that aren't needed.  Emulate this
     // strange behavior.
   }

   EModeCurLine = SourceMgr.getLineNumber(Loc);
   EModeCurFilename = Lexer::Stringify(SourceMgr.getSourceName(Loc));
   EmodeFileType = FileType;

   if (EmodeEmittedTokensOnThisLine) {
     OutputChar('\n');
     EmodeEmittedTokensOnThisLine = false;
   }

   if (DisableLineMarkers) return;

   OutputChar('#');
   OutputChar(' ');
   std::string Num = utostr_32(EModeCurLine);
   OutputString(&Num[0], Num.size());
   OutputChar(' ');
   OutputString(&EModeCurFilename[0], EModeCurFilename.size());

   switch (Reason) {
   case Preprocessor::EnterFile:
     OutputString(" 1", 2);
     break;
   case Preprocessor::ExitFile:
     OutputString(" 2", 2);
     break;
   case Preprocessor::SystemHeaderPragma: break;
   case Preprocessor::RenameFile: break;
   }

   if (FileType == DirectoryLookup::SystemHeaderDir)
     OutputString(" 3", 2);
   else if (FileType == DirectoryLookup::ExternCSystemHeaderDir)
     OutputString(" 3 4", 4);

   OutputChar('\n');
 }

 /// HandleIdent - Handle #ident directives when read by the preprocessor.
 ///
 static void HandleIdent(SourceLocation Loc, const std::string &Val) {
   MoveToLine(Loc);

   OutputString("#ident ", strlen("#ident "));
   OutputString(&Val[0], Val.size());
   EmodeEmittedTokensOnThisLine = true;
 }

 /// HandleFirstTokOnLine - When emitting a preprocessed file in -E mode, this
 /// is called for the first token on each new line.
 static void HandleFirstTokOnLine(LexerToken &Tok, Preprocessor &PP) {
   // Figure out what line we went to and insert the appropriate number of
   // newline characters.
   MoveToLine(Tok.getLocation());

   // Print out space characters so that the first token on a line is
   // indented for easy reading.
   unsigned ColNo =
     PP.getSourceManager().getColumnNumber(Tok.getLocation());

   // This hack prevents stuff like:
   // #define HASH #
   // HASH define foo bar
   // From having the # character end up at column 1, which makes it so it
   // is not handled as a #define next time through the preprocessor if in
   // -fpreprocessed mode.
   if (ColNo <= 1 && Tok.getKind() == tok::hash)
     OutputChar(' ');

   // Otherwise, indent the appropriate number of spaces.
   for (; ColNo > 1; --ColNo)
     OutputChar(' ');
 }

 namespace {
 struct UnknownPragmaHandler : public PragmaHandler {
   const char *Prefix;
   UnknownPragmaHandler(const char *prefix) : PragmaHandler(0), Prefix(prefix) {}
   virtual void HandlePragma(Preprocessor &PP, LexerToken &PragmaTok) {
     // Figure out what line we went to and insert the appropriate number of
     // newline characters.
     MoveToLine(PragmaTok.getLocation());
     OutputString(Prefix, strlen(Prefix));

     // Read and print all of the pragma tokens.
     while (PragmaTok.getKind() != tok::eom) {
       if (PragmaTok.hasLeadingSpace())
         OutputChar(' ');
       std::string TokSpell = PP.getSpelling(PragmaTok);
       OutputString(&TokSpell[0], TokSpell.size());
       PP.LexUnexpandedToken(PragmaTok);
     }
     OutputChar('\n');
   }
 };
 } // end anonymous namespace

 /// DoPrintPreprocessedInput - This implements -E mode.
 ///
 void clang::DoPrintPreprocessedInput(Preprocessor &PP) {
   InitOutputBuffer();

   LexerToken Tok;
   char Buffer[256];
   EModeCurLine = 0;
   EModeCurFilename = "\"<uninit>\"";
   PP.setFileChangeHandler(HandleFileChange);
   PP.setIdentHandler(HandleIdent);
   EModePP = &PP;
   EmodeEmittedTokensOnThisLine = false;

   PP.AddPragmaHandler(0, new UnknownPragmaHandler("#pragma"));
   PP.AddPragmaHandler("GCC", new UnknownPragmaHandler("#pragma GCC"));
   do {
     PP.Lex(Tok);

     // If this token is at the start of a line, emit newlines if needed.
     if (Tok.isAtStartOfLine()) {
       HandleFirstTokOnLine(Tok, PP);
     } else if (Tok.hasLeadingSpace()) {
       OutputChar(' ');
     }

     if (Tok.getLength() < 256) {
       const char *TokPtr = Buffer;
       unsigned Len = PP.getSpelling(Tok, TokPtr);
       OutputString(TokPtr, Len);
     } else {
       std::string S = PP.getSpelling(Tok);
       OutputString(&S[0], S.size());
     }
     EmodeEmittedTokensOnThisLine = true;
   } while (Tok.getKind() != tok::eof);
   OutputChar('\n');

   CleanupOutputBuffer();
 }
	//===--- PrintPreprocessedOutput.cpp - Implement the -E mode --------------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file was developed by Chris Lattner and is distributed under
	// the University of Illinois Open Source License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This code simply runs the preprocessor on the input file and prints out the
	// result. This is the traditional behavior of the -E option.
	//
	//===----------------------------------------------------------------------===//

	#include "clang.h"
	#include "clang/Lex/Preprocessor.h"
	#include "clang/Lex/Pragma.h"
	#include "clang/Basic/SourceManager.h"
	#include "llvm/Support/CommandLine.h"
	#include "llvm/ADT/StringExtras.h"
	#include "llvm/Config/config.h"
	#include <cstdio>
	using namespace llvm;
	using namespace clang;

	//===----------------------------------------------------------------------===//
	// Simple buffered I/O
	//===----------------------------------------------------------------------===//
	//
	// Empirically, iostream is over 30% slower than stdio for this workload, and
	// stdio itself isn't very well suited. The problem with stdio is use of
	// putchar_unlocked. We have many newline characters that need to be emitted,
	// but stdio needs to do extra checks to handle line buffering mode. These
	// extra checks make putchar_unlocked fall off its inlined code path, hitting
	// slow system code. In practice, using 'write' directly makes 'clang -E -P'
	// about 10% faster than using the stdio path on darwin.

	#ifdef HAVE_UNISTD_H
	#include <unistd.h>
	#else
	#define USE_STDIO 1
	#endif

	static char OutBufStart = 0, OutBufEnd, *OutBufCur;

	/// InitOutputBuffer - Initialize our output buffer.
	///
	static void InitOutputBuffer() {
	#ifndef USE_STDIO
	OutBufStart = new char[64*1024];
	OutBufEnd = OutBufStart+64*1024;
	OutBufCur = OutBufStart;
	#endif
	}

	/// FlushBuffer - Write the accumulated bytes to the output stream.
	///
	static void FlushBuffer() {
	#ifndef USE_STDIO
	write(STDOUT_FILENO, OutBufStart, OutBufCur-OutBufStart);
	OutBufCur = OutBufStart;
	#endif
	}

	/// CleanupOutputBuffer - Finish up output.
	///
	static void CleanupOutputBuffer() {
	#ifndef USE_STDIO
	FlushBuffer();
	delete [] OutBufStart;
	#endif
	}

	static void OutputChar(char c) {
	#ifdef USE_STDIO
	putchar_unlocked(c);
	#else
	if (OutBufCur >= OutBufEnd)
	FlushBuffer();
	*OutBufCur++ = c;
	#endif
	}

	static void OutputString(const char *Ptr, unsigned Size) {
	#ifdef USE_STDIO
	fwrite(Ptr, Size, 1, stdout);
	#else
	if (OutBufCur+Size >= OutBufEnd)
	FlushBuffer();
	memcpy(OutBufCur, Ptr, Size);
	OutBufCur += Size;
	#endif
	}


	//===----------------------------------------------------------------------===//
	// Preprocessed token printer
	//===----------------------------------------------------------------------===//

	static cl::opt<bool>
	DisableLineMarkers("P", cl::desc("Disable linemarker output in -E mode"));

	static unsigned EModeCurLine;
	static std::string EModeCurFilename;
	static Preprocessor *EModePP;
	static bool EmodeEmittedTokensOnThisLine;
	static DirectoryLookup::DirType EmodeFileType =DirectoryLookup::NormalHeaderDir;

	/// MoveToLine - Move the output to the source line specified by the location
	/// object. We can do this by emitting some number of \n's, or be emitting a
	/// #line directive.
	static void MoveToLine(SourceLocation Loc) {
	if (DisableLineMarkers) {
	if (EmodeEmittedTokensOnThisLine) {
	OutputChar('\n');
	EmodeEmittedTokensOnThisLine = false;
	}
	return;
	}

	unsigned LineNo = EModePP->getSourceManager().getLineNumber(Loc);

	// If this line is "close enough" to the original line, just print newlines,
	// otherwise print a #line directive.
	if (LineNo-EModeCurLine < 8) {
	unsigned CurLine = EModeCurLine;
	for (; CurLine != LineNo; ++CurLine)
	OutputChar('\n');
	EModeCurLine = CurLine;
	} else {
	if (EmodeEmittedTokensOnThisLine) {
	OutputChar('\n');
	EmodeEmittedTokensOnThisLine = false;
	}

	EModeCurLine = LineNo;

	OutputChar('#');
	OutputChar(' ');
	std::string Num = utostr_32(LineNo);
	OutputString(&Num[0], Num.size());
	OutputChar(' ');
	OutputString(&EModeCurFilename[0], EModeCurFilename.size());

	if (EmodeFileType == DirectoryLookup::SystemHeaderDir)
	OutputString(" 3", 2);
	else if (EmodeFileType == DirectoryLookup::ExternCSystemHeaderDir)
	OutputString(" 3 4", 4);
	OutputChar('\n');
	}
	}

	/// HandleFileChange - Whenever the preprocessor enters or exits a #include file
	/// it invokes this handler. Update our conception of the current
	static void HandleFileChange(SourceLocation Loc,
	Preprocessor::FileChangeReason Reason,
	DirectoryLookup::DirType FileType) {
	if (DisableLineMarkers) return;

	// Unless we are exiting a #include, make sure to skip ahead to the line the
	// #include directive was at.
	SourceManager &SourceMgr = EModePP->getSourceManager();
	if (Reason == Preprocessor::EnterFile) {
	MoveToLine(SourceMgr.getIncludeLoc(Loc.getFileID()));
	} else if (Reason == Preprocessor::SystemHeaderPragma) {
	MoveToLine(Loc);

	// TODO GCC emits the # directive for this directive on the line AFTER the
	// directive and emits a bunch of spaces that aren't needed. Emulate this
	// strange behavior.
	}

	EModeCurLine = SourceMgr.getLineNumber(Loc);
	EModeCurFilename = Lexer::Stringify(SourceMgr.getSourceName(Loc));
	EmodeFileType = FileType;

	if (EmodeEmittedTokensOnThisLine) {
	OutputChar('\n');
	EmodeEmittedTokensOnThisLine = false;
	}

	if (DisableLineMarkers) return;

	OutputChar('#');
	OutputChar(' ');
	std::string Num = utostr_32(EModeCurLine);
	OutputString(&Num[0], Num.size());
	OutputChar(' ');
	OutputString(&EModeCurFilename[0], EModeCurFilename.size());

	switch (Reason) {
	case Preprocessor::EnterFile:
	OutputString(" 1", 2);
	break;
	case Preprocessor::ExitFile:
	OutputString(" 2", 2);
	break;
	case Preprocessor::SystemHeaderPragma: break;
	case Preprocessor::RenameFile: break;
	}

	if (FileType == DirectoryLookup::SystemHeaderDir)
	OutputString(" 3", 2);
	else if (FileType == DirectoryLookup::ExternCSystemHeaderDir)
	OutputString(" 3 4", 4);

	OutputChar('\n');
	}

	/// HandleIdent - Handle #ident directives when read by the preprocessor.
	///
	static void HandleIdent(SourceLocation Loc, const std::string &Val) {
	MoveToLine(Loc);

	OutputString("#ident ", strlen("#ident "));
	OutputString(&Val[0], Val.size());
	EmodeEmittedTokensOnThisLine = true;
	}

	/// HandleFirstTokOnLine - When emitting a preprocessed file in -E mode, this
	/// is called for the first token on each new line.
	static void HandleFirstTokOnLine(LexerToken &Tok, Preprocessor &PP) {
	// Figure out what line we went to and insert the appropriate number of
	// newline characters.
	MoveToLine(Tok.getLocation());

	// Print out space characters so that the first token on a line is
	// indented for easy reading.
	unsigned ColNo =
	PP.getSourceManager().getColumnNumber(Tok.getLocation());

	// This hack prevents stuff like:
	// #define HASH #
	// HASH define foo bar
	// From having the # character end up at column 1, which makes it so it
	// is not handled as a #define next time through the preprocessor if in
	// -fpreprocessed mode.
	if (ColNo <= 1 && Tok.getKind() == tok::hash)
	OutputChar(' ');

	// Otherwise, indent the appropriate number of spaces.
	for (; ColNo > 1; --ColNo)
	OutputChar(' ');
	}

	namespace {
	struct UnknownPragmaHandler : public PragmaHandler {
	const char *Prefix;
	UnknownPragmaHandler(const char *prefix) : PragmaHandler(0), Prefix(prefix) {}
	virtual void HandlePragma(Preprocessor &PP, LexerToken &PragmaTok) {
	// Figure out what line we went to and insert the appropriate number of
	// newline characters.
	MoveToLine(PragmaTok.getLocation());
	OutputString(Prefix, strlen(Prefix));

	// Read and print all of the pragma tokens.
	while (PragmaTok.getKind() != tok::eom) {
	if (PragmaTok.hasLeadingSpace())
	OutputChar(' ');
	std::string TokSpell = PP.getSpelling(PragmaTok);
	OutputString(&TokSpell[0], TokSpell.size());
	PP.LexUnexpandedToken(PragmaTok);
	}
	OutputChar('\n');
	}
	};
	} // end anonymous namespace

	/// DoPrintPreprocessedInput - This implements -E mode.
	///
	void clang::DoPrintPreprocessedInput(Preprocessor &PP) {
	InitOutputBuffer();

	LexerToken Tok;
	char Buffer[256];
	EModeCurLine = 0;
	EModeCurFilename = "\"<uninit>\"";
	PP.setFileChangeHandler(HandleFileChange);
	PP.setIdentHandler(HandleIdent);
	EModePP = &PP;
	EmodeEmittedTokensOnThisLine = false;

	PP.AddPragmaHandler(0, new UnknownPragmaHandler("#pragma"));
	PP.AddPragmaHandler("GCC", new UnknownPragmaHandler("#pragma GCC"));
	do {
	PP.Lex(Tok);

	// If this token is at the start of a line, emit newlines if needed.
	if (Tok.isAtStartOfLine()) {
	HandleFirstTokOnLine(Tok, PP);
	} else if (Tok.hasLeadingSpace()) {
	OutputChar(' ');
	}

	if (Tok.getLength() < 256) {
	const char *TokPtr = Buffer;
	unsigned Len = PP.getSpelling(Tok, TokPtr);
	OutputString(TokPtr, Len);
	} else {
	std::string S = PP.getSpelling(Tok);
	OutputString(&S[0], S.size());
	}
	EmodeEmittedTokensOnThisLine = true;
	} while (Tok.getKind() != tok::eof);
	OutputChar('\n');

	CleanupOutputBuffer();
	}