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llvm-mirror/lib/TableGen/TGLexer.h
Paul C. Anagnostopoulos 545a4d4a19 [TableGen] Add the !find bang operator
!find searches a source string for a target string and returns the position.

Differential Revision: https://reviews.llvm.org/D101318
2021-04-28 09:51:00 -04:00

382 lines
15 KiB
C++

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