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llvm-project/flang/lib/Parser/prescan.h

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//===-- lib/Parser/prescan.h ------------------------------------*- 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
//
//===----------------------------------------------------------------------===//
#ifndef FORTRAN_PARSER_PRESCAN_H_
#define FORTRAN_PARSER_PRESCAN_H_
// Defines a fast Fortran source prescanning phase that implements some
// character-level features of the language that can be inefficient to
// support directly in a backtracking parser. This phase handles Fortran
// line continuation, comment removal, card image margins, padding out
// fixed form character literals on truncated card images, file
// inclusion, and driving the Fortran source preprocessor.
#include "token-sequence.h"
#include "flang/Common/Fortran-features.h"
#include "flang/Parser/characters.h"
#include "flang/Parser/message.h"
#include "flang/Parser/provenance.h"
#include <bitset>
#include <optional>
#include <string>
#include <unordered_set>
namespace Fortran::parser {
class Messages;
class Preprocessor;
class Prescanner {
public:
Prescanner(Messages &, CookedSource &, Preprocessor &,
common::LanguageFeatureControl);
Prescanner(const Prescanner &);
Messages &messages() const { return messages_; }
Prescanner &set_fixedForm(bool yes) {
inFixedForm_ = yes;
return *this;
}
Prescanner &set_encoding(Encoding code) {
encoding_ = code;
return *this;
}
Prescanner &set_fixedFormColumnLimit(int limit) {
fixedFormColumnLimit_ = limit;
return *this;
}
Prescanner &AddCompilerDirectiveSentinel(const std::string &);
void Prescan(ProvenanceRange);
void Statement();
void NextLine();
// Callbacks for use by Preprocessor.
bool IsAtEnd() const { return nextLine_ >= limit_; }
bool IsNextLinePreprocessorDirective() const;
TokenSequence TokenizePreprocessorDirective();
Provenance GetCurrentProvenance() const { return GetProvenance(at_); }
template <typename... A> Message &Say(A &&... a) {
Message &m{messages_.Say(std::forward<A>(a)...)};
std::optional<ProvenanceRange> range{m.GetProvenanceRange(cooked_)};
CHECK(!range || cooked_.IsValid(*range));
return m;
}
private:
struct LineClassification {
enum class Kind {
Comment,
ConditionalCompilationDirective,
IncludeDirective, // #include
DefinitionDirective, // #define & #undef
PreprocessorDirective,
IncludeLine, // Fortran INCLUDE
CompilerDirective,
Source
};
LineClassification(Kind k, std::size_t po = 0, const char *s = nullptr)
: kind{k}, payloadOffset{po}, sentinel{s} {}
LineClassification(LineClassification &&) = default;
Kind kind;
std::size_t payloadOffset; // byte offset of content
const char *sentinel; // if it's a compiler directive
};
void BeginSourceLine(const char *at) {
at_ = at;
column_ = 1;
tabInCurrentLine_ = false;
slashInCurrentLine_ = false;
preventHollerith_ = false;
delimiterNesting_ = 0;
}
void BeginSourceLineAndAdvance() {
BeginSourceLine(nextLine_);
NextLine();
}
Provenance GetProvenance(const char *sourceChar) const {
return startProvenance_ + (sourceChar - start_);
}
ProvenanceRange GetProvenanceRange(
const char *first, const char *afterLast) const {
std::size_t bytes = afterLast - first;
return {startProvenance_ + (first - start_), bytes};
}
void EmitChar(TokenSequence &tokens, char ch) {
tokens.PutNextTokenChar(ch, GetCurrentProvenance());
}
void EmitInsertedChar(TokenSequence &tokens, char ch) {
Provenance provenance{cooked_.allSources().CompilerInsertionProvenance(ch)};
tokens.PutNextTokenChar(ch, provenance);
}
char EmitCharAndAdvance(TokenSequence &tokens, char ch) {
EmitChar(tokens, ch);
NextChar();
return *at_;
}
bool InCompilerDirective() const { return directiveSentinel_ != nullptr; }
bool InFixedFormSource() const {
return inFixedForm_ && !inPreprocessorDirective_ && !InCompilerDirective();
}
bool IsCComment(const char *p) const {
return p[0] == '/' && p[1] == '*' &&
(inPreprocessorDirective_ ||
(!inCharLiteral_ &&
features_.IsEnabled(
common::LanguageFeature::ClassicCComments)));
}
void LabelField(TokenSequence &, int outCol = 1);
void SkipToEndOfLine();
bool MustSkipToEndOfLine() const;
void NextChar();
void SkipCComments();
void SkipSpaces();
static const char *SkipWhiteSpace(const char *);
const char *SkipWhiteSpaceAndCComments(const char *) const;
const char *SkipCComment(const char *) const;
bool NextToken(TokenSequence &);
bool ExponentAndKind(TokenSequence &);
void QuotedCharacterLiteral(TokenSequence &, const char *start);
void Hollerith(TokenSequence &, int count, const char *start);
bool PadOutCharacterLiteral(TokenSequence &);
bool SkipCommentLine(bool afterAmpersand);
bool IsFixedFormCommentLine(const char *) const;
const char *IsFreeFormComment(const char *) const;
std::optional<std::size_t> IsIncludeLine(const char *) const;
void FortranInclude(const char *quote);
const char *IsPreprocessorDirectiveLine(const char *) const;
const char *FixedFormContinuationLine(bool mightNeedSpace);
const char *FreeFormContinuationLine(bool ampersand);
bool FixedFormContinuation(bool mightNeedSpace);
bool FreeFormContinuation();
bool Continuation(bool mightNeedFixedFormSpace);
std::optional<LineClassification> IsFixedFormCompilerDirectiveLine(
const char *) const;
std::optional<LineClassification> IsFreeFormCompilerDirectiveLine(
const char *) const;
const char *IsCompilerDirectiveSentinel(const char *) const;
LineClassification ClassifyLine(const char *) const;
void SourceFormChange(std::string &&);
Messages &messages_;
CookedSource &cooked_;
Preprocessor &preprocessor_;
common::LanguageFeatureControl features_;
bool inFixedForm_{false};
int fixedFormColumnLimit_{72};
Encoding encoding_{Encoding::UTF_8};
int delimiterNesting_{0};
int prescannerNesting_{0};
Provenance startProvenance_;
const char *start_{nullptr}; // beginning of current source file content
const char *limit_{nullptr}; // first address after end of current source
const char *nextLine_{nullptr}; // next line to process; <= limit_
const char *directiveSentinel_{nullptr}; // current compiler directive
// This data members are state for processing the source line containing
// "at_", which goes to up to the newline character before "nextLine_".
const char *at_{nullptr}; // next character to process; < nextLine_
int column_{1}; // card image column position of next character
bool tabInCurrentLine_{false};
bool slashInCurrentLine_{false};
bool preventHollerith_{false};
bool inCharLiteral_{false};
bool inPreprocessorDirective_{false};
// In some edge cases of compiler directive continuation lines, it
// is necessary to treat the line break as a space character by
// setting this flag, which is cleared by EmitChar().
bool insertASpace_{false};
// When a free form continuation marker (&) appears at the end of a line
// before a INCLUDE or #include, we delete it and omit the newline, so
// that the first line of the included file is truly a continuation of
// the line before. Also used when the & appears at the end of the last
// line in an include file.
bool omitNewline_{false};
bool skipLeadingAmpersand_{false};
const Provenance spaceProvenance_{
cooked_.allSources().CompilerInsertionProvenance(' ')};
const Provenance backslashProvenance_{
cooked_.allSources().CompilerInsertionProvenance('\\')};
const ProvenanceRange sixSpaceProvenance_{
cooked_.allSources().AddCompilerInsertion(" "s)};
// To avoid probing the set of active compiler directive sentinel strings
// on every comment line, they're checked first with a cheap Bloom filter.
static const int prime1{1019}, prime2{1021};
std::bitset<prime2> compilerDirectiveBloomFilter_; // 128 bytes
std::unordered_set<std::string> compilerDirectiveSentinels_;
};
} // namespace Fortran::parser
#endif // FORTRAN_PARSER_PRESCAN_H_
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