llvm-project/mlir/lib/Parser/Lexer.cpp

400 lines
11 KiB
C++

//===- Lexer.cpp - MLIR Lexer Implementation ------------------------------===//
//
// 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 implements the lexer for the MLIR textual form.
//
//===----------------------------------------------------------------------===//
#include "Lexer.h"
#include "mlir/IR/Diagnostics.h"
#include "mlir/IR/Identifier.h"
#include "mlir/IR/Location.h"
#include "mlir/IR/MLIRContext.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/StringSwitch.h"
#include "llvm/Support/SourceMgr.h"
using namespace mlir;
using llvm::SMLoc;
using llvm::SourceMgr;
// Returns true if 'c' is an allowable punctuation character: [$._-]
// Returns false otherwise.
static bool isPunct(char c) {
return c == '$' || c == '.' || c == '_' || c == '-';
}
Lexer::Lexer(const llvm::SourceMgr &sourceMgr, MLIRContext *context)
: sourceMgr(sourceMgr), context(context) {
auto bufferID = sourceMgr.getMainFileID();
curBuffer = sourceMgr.getMemoryBuffer(bufferID)->getBuffer();
curPtr = curBuffer.begin();
}
/// Encode the specified source location information into an attribute for
/// attachment to the IR.
Location Lexer::getEncodedSourceLocation(llvm::SMLoc loc) {
auto &sourceMgr = getSourceMgr();
unsigned mainFileID = sourceMgr.getMainFileID();
auto lineAndColumn = sourceMgr.getLineAndColumn(loc, mainFileID);
auto *buffer = sourceMgr.getMemoryBuffer(mainFileID);
return FileLineColLoc::get(context, buffer->getBufferIdentifier(),
lineAndColumn.first, lineAndColumn.second);
}
/// emitError - Emit an error message and return an Token::error token.
Token Lexer::emitError(const char *loc, const Twine &message) {
mlir::emitError(getEncodedSourceLocation(SMLoc::getFromPointer(loc)),
message);
return formToken(Token::error, loc);
}
Token Lexer::lexToken() {
while (true) {
const char *tokStart = curPtr;
switch (*curPtr++) {
default:
// Handle bare identifiers.
if (isalpha(curPtr[-1]))
return lexBareIdentifierOrKeyword(tokStart);
// Unknown character, emit an error.
return emitError(tokStart, "unexpected character");
case ' ':
case '\t':
case '\n':
case '\r':
// Handle whitespace.
continue;
case '_':
// Handle bare identifiers.
return lexBareIdentifierOrKeyword(tokStart);
case 0:
// This may either be a nul character in the source file or may be the EOF
// marker that llvm::MemoryBuffer guarantees will be there.
if (curPtr - 1 == curBuffer.end())
return formToken(Token::eof, tokStart);
continue;
case ':':
return formToken(Token::colon, tokStart);
case ',':
return formToken(Token::comma, tokStart);
case '.':
return lexEllipsis(tokStart);
case '(':
return formToken(Token::l_paren, tokStart);
case ')':
return formToken(Token::r_paren, tokStart);
case '{':
return formToken(Token::l_brace, tokStart);
case '}':
return formToken(Token::r_brace, tokStart);
case '[':
return formToken(Token::l_square, tokStart);
case ']':
return formToken(Token::r_square, tokStart);
case '<':
return formToken(Token::less, tokStart);
case '>':
return formToken(Token::greater, tokStart);
case '=':
return formToken(Token::equal, tokStart);
case '+':
return formToken(Token::plus, tokStart);
case '*':
return formToken(Token::star, tokStart);
case '-':
if (*curPtr == '>') {
++curPtr;
return formToken(Token::arrow, tokStart);
}
return formToken(Token::minus, tokStart);
case '?':
return formToken(Token::question, tokStart);
case '/':
if (*curPtr == '/') {
skipComment();
continue;
}
return emitError(tokStart, "unexpected character");
case '@':
return lexAtIdentifier(tokStart);
case '!':
LLVM_FALLTHROUGH;
case '^':
LLVM_FALLTHROUGH;
case '#':
LLVM_FALLTHROUGH;
case '%':
return lexPrefixedIdentifier(tokStart);
case '"':
return lexString(tokStart);
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
case '8':
case '9':
return lexNumber(tokStart);
}
}
}
/// Lex an '@foo' identifier.
///
/// symbol-ref-id ::= `@` (bare-id | string-literal)
///
Token Lexer::lexAtIdentifier(const char *tokStart) {
char cur = *curPtr++;
// Try to parse a string literal, if present.
if (cur == '"') {
Token stringIdentifier = lexString(curPtr);
if (stringIdentifier.is(Token::error))
return stringIdentifier;
return formToken(Token::at_identifier, tokStart);
}
// Otherwise, these always start with a letter or underscore.
if (!isalpha(cur) && cur != '_')
return emitError(curPtr - 1,
"@ identifier expected to start with letter or '_'");
while (isalpha(*curPtr) || isdigit(*curPtr) || *curPtr == '_' ||
*curPtr == '$' || *curPtr == '.')
++curPtr;
return formToken(Token::at_identifier, tokStart);
}
/// Lex a bare identifier or keyword that starts with a letter.
///
/// bare-id ::= (letter|[_]) (letter|digit|[_$.])*
/// integer-type ::= `[su]?i[1-9][0-9]*`
///
Token Lexer::lexBareIdentifierOrKeyword(const char *tokStart) {
// Match the rest of the identifier regex: [0-9a-zA-Z_.$]*
while (isalpha(*curPtr) || isdigit(*curPtr) || *curPtr == '_' ||
*curPtr == '$' || *curPtr == '.')
++curPtr;
// Check to see if this identifier is a keyword.
StringRef spelling(tokStart, curPtr - tokStart);
auto isAllDigit = [](StringRef str) {
return llvm::all_of(str, [](char c) { return llvm::isDigit(c); });
};
// Check for i123, si456, ui789.
if ((spelling.size() > 1 && tokStart[0] == 'i' &&
isAllDigit(spelling.drop_front())) ||
((spelling.size() > 2 && tokStart[1] == 'i' &&
(tokStart[0] == 's' || tokStart[0] == 'u')) &&
isAllDigit(spelling.drop_front(2))))
return Token(Token::inttype, spelling);
Token::Kind kind = StringSwitch<Token::Kind>(spelling)
#define TOK_KEYWORD(SPELLING) .Case(#SPELLING, Token::kw_##SPELLING)
#include "TokenKinds.def"
.Default(Token::bare_identifier);
return Token(kind, spelling);
}
/// Skip a comment line, starting with a '//'.
///
/// TODO: add a regex for comments here and to the spec.
///
void Lexer::skipComment() {
// Advance over the second '/' in a '//' comment.
assert(*curPtr == '/');
++curPtr;
while (true) {
switch (*curPtr++) {
case '\n':
case '\r':
// Newline is end of comment.
return;
case 0:
// If this is the end of the buffer, end the comment.
if (curPtr - 1 == curBuffer.end()) {
--curPtr;
return;
}
LLVM_FALLTHROUGH;
default:
// Skip over other characters.
break;
}
}
}
/// Lex an ellipsis.
///
/// ellipsis ::= '...'
///
Token Lexer::lexEllipsis(const char *tokStart) {
assert(curPtr[-1] == '.');
if (curPtr == curBuffer.end() || *curPtr != '.' || *(curPtr + 1) != '.')
return emitError(curPtr, "expected three consecutive dots for an ellipsis");
curPtr += 2;
return formToken(Token::ellipsis, tokStart);
}
/// Lex a number literal.
///
/// integer-literal ::= digit+ | `0x` hex_digit+
/// float-literal ::= [-+]?[0-9]+[.][0-9]*([eE][-+]?[0-9]+)?
///
Token Lexer::lexNumber(const char *tokStart) {
assert(isdigit(curPtr[-1]));
// Handle the hexadecimal case.
if (curPtr[-1] == '0' && *curPtr == 'x') {
// If we see stuff like 0xi32, this is a literal `0` followed by an
// identifier `xi32`, stop after `0`.
if (!isxdigit(curPtr[1]))
return formToken(Token::integer, tokStart);
curPtr += 2;
while (isxdigit(*curPtr))
++curPtr;
return formToken(Token::integer, tokStart);
}
// Handle the normal decimal case.
while (isdigit(*curPtr))
++curPtr;
if (*curPtr != '.')
return formToken(Token::integer, tokStart);
++curPtr;
// Skip over [0-9]*([eE][-+]?[0-9]+)?
while (isdigit(*curPtr))
++curPtr;
if (*curPtr == 'e' || *curPtr == 'E') {
if (isdigit(static_cast<unsigned char>(curPtr[1])) ||
((curPtr[1] == '-' || curPtr[1] == '+') &&
isdigit(static_cast<unsigned char>(curPtr[2])))) {
curPtr += 2;
while (isdigit(*curPtr))
++curPtr;
}
}
return formToken(Token::floatliteral, tokStart);
}
/// Lex an identifier that starts with a prefix followed by suffix-id.
///
/// attribute-id ::= `#` suffix-id
/// ssa-id ::= '%' suffix-id
/// block-id ::= '^' suffix-id
/// type-id ::= '!' suffix-id
/// suffix-id ::= digit+ | (letter|id-punct) (letter|id-punct|digit)*
/// id-punct ::= `$` | `.` | `_` | `-`
///
Token Lexer::lexPrefixedIdentifier(const char *tokStart) {
Token::Kind kind;
StringRef errorKind;
switch (*tokStart) {
case '#':
kind = Token::hash_identifier;
errorKind = "invalid attribute name";
break;
case '%':
kind = Token::percent_identifier;
errorKind = "invalid SSA name";
break;
case '^':
kind = Token::caret_identifier;
errorKind = "invalid block name";
break;
case '!':
kind = Token::exclamation_identifier;
errorKind = "invalid type identifier";
break;
default:
llvm_unreachable("invalid caller");
}
// Parse suffix-id.
if (isdigit(*curPtr)) {
// If suffix-id starts with a digit, the rest must be digits.
while (isdigit(*curPtr)) {
++curPtr;
}
} else if (isalpha(*curPtr) || isPunct(*curPtr)) {
do {
++curPtr;
} while (isalpha(*curPtr) || isdigit(*curPtr) || isPunct(*curPtr));
} else {
return emitError(curPtr - 1, errorKind);
}
return formToken(kind, tokStart);
}
/// Lex a string literal.
///
/// string-literal ::= '"' [^"\n\f\v\r]* '"'
///
/// TODO: define escaping rules.
Token Lexer::lexString(const char *tokStart) {
assert(curPtr[-1] == '"');
while (true) {
switch (*curPtr++) {
case '"':
return formToken(Token::string, tokStart);
case 0:
// If this is a random nul character in the middle of a string, just
// include it. If it is the end of file, then it is an error.
if (curPtr - 1 != curBuffer.end())
continue;
LLVM_FALLTHROUGH;
case '\n':
case '\v':
case '\f':
return emitError(curPtr - 1, "expected '\"' in string literal");
case '\\':
// Handle explicitly a few escapes.
if (*curPtr == '"' || *curPtr == '\\' || *curPtr == 'n' || *curPtr == 't')
++curPtr;
else if (llvm::isHexDigit(*curPtr) && llvm::isHexDigit(curPtr[1]))
// Support \xx for two hex digits.
curPtr += 2;
else
return emitError(curPtr - 1, "unknown escape in string literal");
continue;
default:
continue;
}
}
}