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865845db70
TableGen has a limited preprocessor, which only really supports easier. llvm-svn: 360670
374 lines
14 KiB
C++
374 lines
14 KiB
C++
//===- TGLexer.h - Lexer for TableGen Files ---------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This class represents the Lexer for tablegen files.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_LIB_TABLEGEN_TGLEXER_H
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#define LLVM_LIB_TABLEGEN_TGLEXER_H
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/ADT/StringSet.h"
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#include "llvm/Support/DataTypes.h"
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#include "llvm/Support/SMLoc.h"
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#include <cassert>
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#include <map>
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#include <memory>
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#include <string>
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namespace llvm {
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class SourceMgr;
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class SMLoc;
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class Twine;
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namespace tgtok {
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enum TokKind {
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// Markers
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Eof, Error,
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// Tokens with no info.
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minus, plus, // - +
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l_square, r_square, // [ ]
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l_brace, r_brace, // { }
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l_paren, r_paren, // ( )
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less, greater, // < >
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colon, semi, // : ;
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comma, period, // , .
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equal, question, // = ?
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paste, // #
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// Keywords.
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Bit, Bits, Class, Code, Dag, Def, Foreach, Defm, Field, In, Int, Let, List,
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MultiClass, String, Defset,
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// !keywords.
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XConcat, XADD, XMUL, XAND, XOR, XSRA, XSRL, XSHL, XListConcat, XListSplat,
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XStrConcat, XCast, XSubst, XForEach, XFoldl, XHead, XTail, XSize, XEmpty,
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XIf, XCond, XEq, XIsA, XDag, XNe, XLe, XLt, XGe, XGt,
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// Integer value.
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IntVal,
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// Binary constant. Note that these are sized according to the number of
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// bits given.
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BinaryIntVal,
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// String valued tokens.
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Id, StrVal, VarName, CodeFragment,
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// Preprocessing tokens for internal usage by the lexer.
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// They are never returned as a result of Lex().
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Ifdef, Ifndef, Else, Endif, Define
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};
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}
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/// TGLexer - TableGen Lexer class.
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class TGLexer {
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SourceMgr &SrcMgr;
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const char *CurPtr;
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StringRef CurBuf;
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// Information about the current token.
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const char *TokStart;
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tgtok::TokKind CurCode;
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std::string CurStrVal; // This is valid for ID, STRVAL, VARNAME, CODEFRAGMENT
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int64_t CurIntVal; // This is valid for INTVAL.
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/// CurBuffer - This is the current buffer index we're lexing from as managed
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/// by the SourceMgr object.
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unsigned CurBuffer;
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public:
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typedef std::map<std::string, SMLoc> DependenciesMapTy;
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private:
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/// Dependencies - This is the list of all included files.
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DependenciesMapTy Dependencies;
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public:
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TGLexer(SourceMgr &SrcMgr, ArrayRef<std::string> Macros);
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tgtok::TokKind Lex() {
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return CurCode = LexToken(CurPtr == CurBuf.begin());
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}
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const DependenciesMapTy &getDependencies() const {
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return Dependencies;
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}
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tgtok::TokKind getCode() const { return CurCode; }
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const std::string &getCurStrVal() const {
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assert((CurCode == tgtok::Id || CurCode == tgtok::StrVal ||
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CurCode == tgtok::VarName || CurCode == tgtok::CodeFragment) &&
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"This token doesn't have a string value");
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return CurStrVal;
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}
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int64_t getCurIntVal() const {
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assert(CurCode == tgtok::IntVal && "This token isn't an integer");
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return CurIntVal;
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}
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std::pair<int64_t, unsigned> getCurBinaryIntVal() const {
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assert(CurCode == tgtok::BinaryIntVal &&
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"This token isn't a binary integer");
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return std::make_pair(CurIntVal, (CurPtr - TokStart)-2);
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}
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SMLoc getLoc() const;
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private:
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/// LexToken - Read the next token and return its code.
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tgtok::TokKind LexToken(bool FileOrLineStart = false);
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tgtok::TokKind ReturnError(SMLoc Loc, const Twine &Msg);
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tgtok::TokKind ReturnError(const char *Loc, const Twine &Msg);
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int getNextChar();
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int peekNextChar(int Index) const;
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void SkipBCPLComment();
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bool SkipCComment();
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tgtok::TokKind LexIdentifier();
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bool LexInclude();
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tgtok::TokKind LexString();
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tgtok::TokKind LexVarName();
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tgtok::TokKind LexNumber();
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tgtok::TokKind LexBracket();
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tgtok::TokKind LexExclaim();
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// Process EOF encountered in LexToken().
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// If EOF is met in an include file, then the method will update
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// CurPtr, CurBuf and preprocessing include stack, and return true.
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// If EOF is met in the top-level file, then the method will
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// update and check the preprocessing include stack, and return false.
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bool processEOF();
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// *** Structures and methods for preprocessing support ***
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// A set of macro names that are defined either via command line or
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// by using:
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// #define NAME
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StringSet<> DefinedMacros;
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// Each of #ifdef and #else directives has a descriptor associated
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// with it.
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//
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// An ordered list of preprocessing controls defined by #ifdef/#else
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// directives that are in effect currently is called preprocessing
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// control stack. It is represented as a vector of PreprocessorControlDesc's.
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//
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// The control stack is updated according to the following rules:
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//
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// For each #ifdef we add an element to the control stack.
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// For each #else we replace the top element with a descriptor
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// with an inverted IsDefined value.
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// For each #endif we pop the top element from the control stack.
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//
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// When CurPtr reaches the current buffer's end, the control stack
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// must be empty, i.e. #ifdef and the corresponding #endif
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// must be located in the same file.
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struct PreprocessorControlDesc {
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// Either tgtok::Ifdef or tgtok::Else.
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tgtok::TokKind Kind;
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// True, if the condition for this directive is true, false - otherwise.
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// Examples:
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// #ifdef NAME : true, if NAME is defined, false - otherwise.
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// ...
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// #else : false, if NAME is defined, true - otherwise.
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bool IsDefined;
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// Pointer into CurBuf to the beginning of the preprocessing directive
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// word, e.g.:
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// #ifdef NAME
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// ^ - SrcPos
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SMLoc SrcPos;
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};
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// We want to disallow code like this:
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// file1.td:
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// #define NAME
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// #ifdef NAME
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// include "file2.td"
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// EOF
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// file2.td:
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// #endif
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// EOF
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//
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// To do this, we clear the preprocessing control stack on entry
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// to each of the included file. PrepIncludeStack is used to store
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// preprocessing control stacks for the current file and all its
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// parent files. The back() element is the preprocessing control
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// stack for the current file.
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std::vector<std::unique_ptr<std::vector<PreprocessorControlDesc>>>
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PrepIncludeStack;
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// Validate that the current preprocessing control stack is empty,
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// since we are about to exit a file, and pop the include stack.
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//
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// If IncludeStackMustBeEmpty is true, the include stack must be empty
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// after the popping, otherwise, the include stack must not be empty
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// after the popping. Basically, the include stack must be empty
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// only if we exit the "top-level" file (i.e. finish lexing).
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//
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// The method returns false, if the current preprocessing control stack
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// is not empty (e.g. there is an unterminated #ifdef/#else),
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// true - otherwise.
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bool prepExitInclude(bool IncludeStackMustBeEmpty);
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// Look ahead for a preprocessing directive starting from CurPtr. The caller
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// must only call this method, if *(CurPtr - 1) is '#'. If the method matches
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// a preprocessing directive word followed by a whitespace, then it returns
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// one of the internal token kinds, i.e. Ifdef, Else, Endif, Define.
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//
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// CurPtr is not adjusted by this method.
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tgtok::TokKind prepIsDirective() const;
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// Given a preprocessing token kind, adjusts CurPtr to the end
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// of the preprocessing directive word. Returns true, unless
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// an unsupported token kind is passed in.
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//
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// We use look-ahead prepIsDirective() and prepEatPreprocessorDirective()
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// to avoid adjusting CurPtr before we are sure that '#' is followed
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// by a preprocessing directive. If it is not, then we fall back to
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// tgtok::paste interpretation of '#'.
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bool prepEatPreprocessorDirective(tgtok::TokKind Kind);
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// The main "exit" point from the token parsing to preprocessor.
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//
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// The method is called for CurPtr, when prepIsDirective() returns
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// true. The first parameter matches the result of prepIsDirective(),
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// denoting the actual preprocessor directive to be processed.
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//
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// If the preprocessing directive disables the tokens processing, e.g.:
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// #ifdef NAME // NAME is undefined
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// then lexPreprocessor() enters the lines-skipping mode.
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// In this mode, it does not parse any tokens, because the code under
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// the #ifdef may not even be a correct tablegen code. The preprocessor
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// looks for lines containing other preprocessing directives, which
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// may be prepended with whitespaces and C-style comments. If the line
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// does not contain a preprocessing directive, it is skipped completely.
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// Otherwise, the preprocessing directive is processed by recursively
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// calling lexPreprocessor(). The processing of the encountered
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// preprocessing directives includes updating preprocessing control stack
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// and adding new macros into DefinedMacros set.
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//
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// The second parameter controls whether lexPreprocessor() is called from
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// LexToken() (true) or recursively from lexPreprocessor() (false).
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//
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// If ReturnNextLiveToken is true, the method returns the next
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// LEX token following the current directive or following the end
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// of the disabled preprocessing region corresponding to this directive.
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// If ReturnNextLiveToken is false, the method returns the first parameter,
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// unless there were errors encountered in the disabled preprocessing
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// region - in this case, it returns tgtok::Error.
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tgtok::TokKind lexPreprocessor(tgtok::TokKind Kind,
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bool ReturnNextLiveToken = true);
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// Worker method for lexPreprocessor() to skip lines after some
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// preprocessing directive up to the buffer end or to the directive
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// that re-enables token processing. The method returns true
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// upon processing the next directive that re-enables tokens
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// processing. False is returned if an error was encountered.
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//
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// Note that prepSkipRegion() calls lexPreprocessor() to process
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// encountered preprocessing directives. In this case, the second
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// parameter to lexPreprocessor() is set to false. Being passed
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// false ReturnNextLiveToken, lexPreprocessor() must never call
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// prepSkipRegion(). We assert this by passing ReturnNextLiveToken
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// to prepSkipRegion() and checking that it is never set to false.
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bool prepSkipRegion(bool MustNeverBeFalse);
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// Lex name of the macro after either #ifdef or #define. We could have used
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// LexIdentifier(), but it has special handling of "include" word, which
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// could result in awkward diagnostic errors. Consider:
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// ----
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// #ifdef include
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// class ...
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// ----
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// LexIdentifier() will engage LexInclude(), which will complain about
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// missing file with name "class". Instead, prepLexMacroName() will treat
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// "include" as a normal macro name.
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//
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// On entry, CurPtr points to the end of a preprocessing directive word.
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// The method allows for whitespaces between the preprocessing directive
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// and the macro name. The allowed whitespaces are ' ' and '\t'.
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//
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// If the first non-whitespace symbol after the preprocessing directive
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// is a valid start symbol for an identifier (i.e. [a-zA-Z_]), then
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// the method updates TokStart to the position of the first non-whitespace
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// symbol, sets CurPtr to the position of the macro name's last symbol,
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// and returns a string reference to the macro name. Otherwise,
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// TokStart is set to the first non-whitespace symbol after the preprocessing
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// directive, and the method returns an empty string reference.
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//
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// In all cases, TokStart may be used to point to the word following
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// the preprocessing directive.
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StringRef prepLexMacroName();
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// Skip any whitespaces starting from CurPtr. The method is used
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// only in the lines-skipping mode to find the first non-whitespace
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// symbol after or at CurPtr. Allowed whitespaces are ' ', '\t', '\n'
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// and '\r'. The method skips C-style comments as well, because
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// it is used to find the beginning of the preprocessing directive.
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// If we do not handle C-style comments the following code would
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// result in incorrect detection of a preprocessing directive:
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// /*
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// #ifdef NAME
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// */
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// As long as we skip C-style comments, the following code is correctly
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// recognized as a preprocessing directive:
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// /* first line comment
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// second line comment */ #ifdef NAME
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//
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// The method returns true upon reaching the first non-whitespace symbol
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// or EOF, CurPtr is set to point to this symbol. The method returns false,
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// if an error occured during skipping of a C-style comment.
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bool prepSkipLineBegin();
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// Skip any whitespaces or comments after a preprocessing directive.
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// The method returns true upon reaching either end of the line
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// or end of the file. If there is a multiline C-style comment
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// after the preprocessing directive, the method skips
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// the comment, so the final CurPtr may point to one of the next lines.
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// The method returns false, if an error occured during skipping
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// C- or C++-style comment, or a non-whitespace symbol appears
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// after the preprocessing directive.
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//
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// The method maybe called both during lines-skipping and tokens
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// processing. It actually verifies that only whitespaces or/and
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// comments follow a preprocessing directive.
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//
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// After the execution of this mehod, CurPtr points either to new line
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// symbol, buffer end or non-whitespace symbol following the preprocesing
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// directive.
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bool prepSkipDirectiveEnd();
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// Skip all symbols to the end of the line/file.
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// The method adjusts CurPtr, so that it points to either new line
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// symbol in the current line or the buffer end.
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void prepSkipToLineEnd();
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// Return true, if the current preprocessor control stack is such that
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// we should allow lexer to process the next token, false - otherwise.
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//
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// In particular, the method returns true, if all the #ifdef/#else
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// controls on the stack have their IsDefined member set to true.
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bool prepIsProcessingEnabled();
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// Report an error, if we reach EOF with non-empty preprocessing control
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// stack. This means there is no matching #endif for the previous
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// #ifdef/#else.
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void prepReportPreprocessorStackError();
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};
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} // end namespace llvm
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#endif
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