llvm-project/clang-tools-extra/pseudo/include/clang-pseudo/Grammar.h

183 lines
6.8 KiB
C++

//===--- Grammar.h - grammar used by clang pseudoparser ---------*- 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 file defines base structures for parsing & modeling a grammar for a
// programming language:
//
// # This is a fake C++ BNF grammar
// _ := translation-unit
// translation-unit := declaration-seq_opt
// declaration-seq := declaration
// declaration-seq := declaration-seq declaration
//
// A grammar formally describes a language, and it is constructed by a set of
// production rules. A rule is of BNF form (AAA := BBB CCC). A symbol is either
// nonterminal or terminal, identified by a SymbolID.
//
// Notions about the BNF grammar:
// - "_" is the start symbol of the augmented grammar;
// - single-line comment is supported, starting with a #
// - A rule describes how a nonterminal (left side of :=) is constructed, and
// it is *per line* in the grammar file
// - Terminals (also called tokens) correspond to the clang::TokenKind; they
// are written in the grammar like "IDENTIFIER", "USING", "+"
// - Nonterminals are specified with "lower-case" names in the grammar; they
// shouldn't be nullable (has an empty sequence)
// - optional symbols are supported (specified with a _opt suffix), and they
// will be eliminated during the grammar parsing stage
//
//===----------------------------------------------------------------------===//
#ifndef CLANG_PSEUDO_GRAMMAR_H
#define CLANG_PSEUDO_GRAMMAR_H
#include "clang/Basic/TokenKinds.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/DenseSet.h"
#include "llvm/ADT/StringRef.h"
#include <cstdint>
#include <vector>
namespace clang {
namespace pseudo {
// A SymbolID uniquely identifies a terminal/nonterminal symbol in a grammar.
// nonterminal IDs are indexes into a table of nonterminal symbols.
// Terminal IDs correspond to the clang TokenKind enum.
using SymbolID = uint16_t;
// SymbolID is only 12 bits wide.
// There are maximum 2^11 terminals (aka tokens) and 2^11 nonterminals.
static constexpr uint16_t SymbolBits = 12;
static constexpr uint16_t NumTerminals = tok::NUM_TOKENS;
// SymbolIDs with the top bit set are tokens/terminals.
static constexpr SymbolID TokenFlag = 1 << (SymbolBits - 1);
inline bool isToken(SymbolID ID) { return ID & TokenFlag; }
inline bool isNonterminal(SymbolID ID) { return !isToken(ID); }
// The terminals are always the clang tok::TokenKind (not all are used).
inline tok::TokenKind symbolToToken(SymbolID SID) {
assert(isToken(SID));
SID &= ~TokenFlag;
assert(SID < NumTerminals);
return static_cast<tok::TokenKind>(SID);
}
inline SymbolID tokenSymbol(tok::TokenKind TK) {
return TokenFlag | static_cast<SymbolID>(TK);
}
// A RuleID uniquely identifies a production rule in a grammar.
// It is an index into a table of rules.
using RuleID = uint16_t;
// There are maximum 2^12 rules.
static constexpr unsigned RuleBits = 12;
// Represent a production rule in the grammar, e.g.
// expression := a b c
// ^Target ^Sequence
struct Rule {
Rule(SymbolID Target, llvm::ArrayRef<SymbolID> Seq);
// We occupy 4 bits for the sequence, in theory, it can be at most 2^4 tokens
// long, however, we're stricter in order to reduce the size, we limit the max
// length to 9 (this is the longest sequence in cxx grammar).
static constexpr unsigned SizeBits = 4;
static constexpr unsigned MaxElements = 9;
static_assert(MaxElements <= (1 << SizeBits), "Exceeds the maximum limit");
static_assert(SizeBits + SymbolBits <= 16,
"Must be able to store symbol ID + size efficiently");
// 16 bits for target symbol and size of sequence:
// SymbolID : 12 | Size : 4
SymbolID Target : SymbolBits;
uint8_t Size : SizeBits; // Size of the Sequence
SymbolID Sequence[MaxElements];
llvm::ArrayRef<SymbolID> seq() const {
return llvm::ArrayRef<SymbolID>(Sequence, Size);
}
friend bool operator==(const Rule &L, const Rule &R) {
return L.Target == R.Target && L.seq() == R.seq();
}
};
struct GrammarTable;
// Grammar that describes a programming language, e.g. C++. It represents the
// contents of the specified grammar.
// It is a building block for constructing a table-based parser.
class Grammar {
public:
explicit Grammar(std::unique_ptr<GrammarTable>);
// Parses grammar from a BNF file.
// Diagnostics emitted during parsing are stored in Diags.
static std::unique_ptr<Grammar> parseBNF(llvm::StringRef BNF,
std::vector<std::string> &Diags);
// Returns the SymbolID of the start symbol '_'.
SymbolID startSymbol() const { return StartSymbol; };
// Returns all rules of the given nonterminal symbol.
llvm::ArrayRef<Rule> rulesFor(SymbolID SID) const;
const Rule &lookupRule(RuleID RID) const;
// Gets symbol (terminal or nonterminal) name.
// Terminals have names like "," (kw_comma) or "OPERATOR" (kw_operator).
llvm::StringRef symbolName(SymbolID) const;
// Dumps the whole grammar.
std::string dump() const;
// Dumps a particular rule.
std::string dumpRule(RuleID) const;
// Dumps all rules of the given nonterminal symbol.
std::string dumpRules(SymbolID) const;
const GrammarTable &table() const { return *T; }
private:
std::unique_ptr<GrammarTable> T;
// The start symbol '_' of the augmented grammar.
SymbolID StartSymbol;
};
// For each nonterminal X, computes the set of terminals that begin strings
// derived from X. (Known as FIRST sets in grammar-based parsers).
std::vector<llvm::DenseSet<SymbolID>> firstSets(const Grammar &);
// For each nonterminal X, computes the set of terminals that could immediately
// follow X. (Known as FOLLOW sets in grammar-based parsers).
std::vector<llvm::DenseSet<SymbolID>> followSets(const Grammar &);
// Storage for the underlying data of the Grammar.
// It can be constructed dynamically (from compiling BNF file) or statically
// (a compiled data-source).
struct GrammarTable {
GrammarTable();
struct Nonterminal {
std::string Name;
// Corresponding rules that construct the nonterminal, it is a [Start, End)
// index range of the Rules table.
struct {
RuleID Start;
RuleID End;
} RuleRange;
};
// The rules are sorted (and thus grouped) by target symbol.
// RuleID is the index of the vector.
std::vector<Rule> Rules;
// A table of terminals (aka tokens). It corresponds to the clang::Token.
// clang::tok::TokenKind is the index of the table.
llvm::ArrayRef<std::string> Terminals;
// A table of nonterminals, sorted by name.
// SymbolID is the index of the table.
std::vector<Nonterminal> Nonterminals;
};
} // namespace pseudo
} // namespace clang
#endif // CLANG_PSEUDO_GRAMMAR_H