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llvm-mirror/tools/llvm-rc/ResourceScriptToken.cpp
Chandler Carruth ae65e281f3 Update the file headers across all of the LLVM projects in the monorepo
to reflect the new license.

We understand that people may be surprised that we're moving the header
entirely to discuss the new license. We checked this carefully with the
Foundation's lawyer and we believe this is the correct approach.

Essentially, all code in the project is now made available by the LLVM
project under our new license, so you will see that the license headers
include that license only. Some of our contributors have contributed
code under our old license, and accordingly, we have retained a copy of
our old license notice in the top-level files in each project and
repository.

llvm-svn: 351636
2019-01-19 08:50:56 +00:00

367 lines
10 KiB
C++

//===-- ResourceScriptToken.cpp ---------------------------------*- 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 implements an interface defined in ResourceScriptToken.h.
// In particular, it defines an .rc script tokenizer.
//
//===---------------------------------------------------------------------===//
#include "ResourceScriptToken.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cassert>
#include <cctype>
#include <cstdlib>
#include <utility>
using namespace llvm;
using Kind = RCToken::Kind;
// Checks if Representation is a correct description of an RC integer.
// It should be a 32-bit unsigned integer, either decimal, octal (0[0-7]+),
// or hexadecimal (0x[0-9a-f]+). It might be followed by a single 'L'
// character (that is the difference between our representation and
// StringRef's one). If Representation is correct, 'true' is returned and
// the return value is put back in Num.
static bool rcGetAsInteger(StringRef Representation, uint32_t &Num) {
size_t Length = Representation.size();
if (Length == 0)
return false;
// Strip the last 'L' if unnecessary.
if (std::toupper(Representation.back()) == 'L')
Representation = Representation.drop_back(1);
return !Representation.getAsInteger<uint32_t>(0, Num);
}
RCToken::RCToken(RCToken::Kind RCTokenKind, StringRef Value)
: TokenKind(RCTokenKind), TokenValue(Value) {}
uint32_t RCToken::intValue() const {
assert(TokenKind == Kind::Int);
// We assume that the token already is a correct integer (checked by
// rcGetAsInteger).
uint32_t Result;
bool IsSuccess = rcGetAsInteger(TokenValue, Result);
assert(IsSuccess);
(void)IsSuccess; // Silence the compiler warning when -DNDEBUG flag is on.
return Result;
}
bool RCToken::isLongInt() const {
return TokenKind == Kind::Int && std::toupper(TokenValue.back()) == 'L';
}
StringRef RCToken::value() const { return TokenValue; }
Kind RCToken::kind() const { return TokenKind; }
bool RCToken::isBinaryOp() const {
switch (TokenKind) {
case Kind::Plus:
case Kind::Minus:
case Kind::Pipe:
case Kind::Amp:
return true;
default:
return false;
}
}
static Error getStringError(const Twine &message) {
return make_error<StringError>("Error parsing file: " + message,
inconvertibleErrorCode());
}
namespace {
class Tokenizer {
public:
Tokenizer(StringRef Input) : Data(Input), DataLength(Input.size()) {}
Expected<std::vector<RCToken>> run();
private:
// All 'advancing' methods return boolean values; if they're equal to false,
// the stream has ended or failed.
bool advance(size_t Amount = 1);
bool skipWhitespaces();
// Consumes a token. If any problem occurred, a non-empty Error is returned.
Error consumeToken(const Kind TokenKind);
// Check if tokenizer is about to read FollowingChars.
bool willNowRead(StringRef FollowingChars) const;
// Check if tokenizer can start reading an identifier at current position.
// The original tool did non specify the rules to determine what is a correct
// identifier. We assume they should follow the C convention:
// [a-zA-Z_][a-zA-Z0-9_]*.
bool canStartIdentifier() const;
// Check if tokenizer can continue reading an identifier.
bool canContinueIdentifier() const;
// Check if tokenizer can start reading an integer.
// A correct integer always starts with a 0-9 digit,
// can contain characters 0-9A-Fa-f (digits),
// Ll (marking the integer is 32-bit), Xx (marking the representation
// is hexadecimal). As some kind of separator should come after the
// integer, we can consume the integer until a non-alphanumeric
// character.
bool canStartInt() const;
bool canContinueInt() const;
bool canStartString() const;
// Check if tokenizer can start reading a single line comment (e.g. a comment
// that begins with '//')
bool canStartLineComment() const;
// Check if tokenizer can start or finish reading a block comment (e.g. a
// comment that begins with '/*' and ends with '*/')
bool canStartBlockComment() const;
// Throw away all remaining characters on the current line.
void skipCurrentLine();
bool streamEof() const;
// Classify the token that is about to be read from the current position.
Kind classifyCurrentToken() const;
// Process the Kind::Identifier token - check if it is
// an identifier describing a block start or end.
void processIdentifier(RCToken &token) const;
StringRef Data;
size_t DataLength, Pos;
};
void Tokenizer::skipCurrentLine() {
Pos = Data.find_first_of("\r\n", Pos);
Pos = Data.find_first_not_of("\r\n", Pos);
if (Pos == StringRef::npos)
Pos = DataLength;
}
Expected<std::vector<RCToken>> Tokenizer::run() {
Pos = 0;
std::vector<RCToken> Result;
// Consume an optional UTF-8 Byte Order Mark.
if (willNowRead("\xef\xbb\xbf"))
advance(3);
while (!streamEof()) {
if (!skipWhitespaces())
break;
Kind TokenKind = classifyCurrentToken();
if (TokenKind == Kind::Invalid)
return getStringError("Invalid token found at position " + Twine(Pos));
const size_t TokenStart = Pos;
if (Error TokenError = consumeToken(TokenKind))
return std::move(TokenError);
// Comments are just deleted, don't bother saving them.
if (TokenKind == Kind::LineComment || TokenKind == Kind::StartComment)
continue;
RCToken Token(TokenKind, Data.take_front(Pos).drop_front(TokenStart));
if (TokenKind == Kind::Identifier) {
processIdentifier(Token);
} else if (TokenKind == Kind::Int) {
uint32_t TokenInt;
if (!rcGetAsInteger(Token.value(), TokenInt)) {
// The integer has incorrect format or cannot be represented in
// a 32-bit integer.
return getStringError("Integer invalid or too large: " +
Token.value().str());
}
}
Result.push_back(Token);
}
return Result;
}
bool Tokenizer::advance(size_t Amount) {
Pos += Amount;
return !streamEof();
}
bool Tokenizer::skipWhitespaces() {
while (!streamEof() && std::isspace(Data[Pos]))
advance();
return !streamEof();
}
Error Tokenizer::consumeToken(const Kind TokenKind) {
switch (TokenKind) {
// One-character token consumption.
#define TOKEN(Name)
#define SHORT_TOKEN(Name, Ch) case Kind::Name:
#include "ResourceScriptTokenList.def"
advance();
return Error::success();
case Kind::LineComment:
advance(2);
skipCurrentLine();
return Error::success();
case Kind::StartComment: {
advance(2);
auto EndPos = Data.find("*/", Pos);
if (EndPos == StringRef::npos)
return getStringError(
"Unclosed multi-line comment beginning at position " + Twine(Pos));
advance(EndPos - Pos);
advance(2);
return Error::success();
}
case Kind::Identifier:
while (!streamEof() && canContinueIdentifier())
advance();
return Error::success();
case Kind::Int:
while (!streamEof() && canContinueInt())
advance();
return Error::success();
case Kind::String:
// Consume the preceding 'L', if there is any.
if (std::toupper(Data[Pos]) == 'L')
advance();
// Consume the double-quote.
advance();
// Consume the characters until the end of the file, line or string.
while (true) {
if (streamEof()) {
return getStringError("Unterminated string literal.");
} else if (Data[Pos] == '"') {
// Consume the ending double-quote.
advance();
// However, if another '"' follows this double-quote, the string didn't
// end and we just included '"' into the string.
if (!willNowRead("\""))
return Error::success();
} else if (Data[Pos] == '\n') {
return getStringError("String literal not terminated in the line.");
}
advance();
}
case Kind::Invalid:
assert(false && "Cannot consume an invalid token.");
}
llvm_unreachable("Unknown RCToken::Kind");
}
bool Tokenizer::willNowRead(StringRef FollowingChars) const {
return Data.drop_front(Pos).startswith(FollowingChars);
}
bool Tokenizer::canStartIdentifier() const {
assert(!streamEof());
const char CurChar = Data[Pos];
return std::isalpha(CurChar) || CurChar == '_' || CurChar == '.';
}
bool Tokenizer::canContinueIdentifier() const {
assert(!streamEof());
const char CurChar = Data[Pos];
return std::isalnum(CurChar) || CurChar == '_' || CurChar == '.' ||
CurChar == '/' || CurChar == '\\';
}
bool Tokenizer::canStartInt() const {
assert(!streamEof());
return std::isdigit(Data[Pos]);
}
bool Tokenizer::canStartBlockComment() const {
assert(!streamEof());
return Data.drop_front(Pos).startswith("/*");
}
bool Tokenizer::canStartLineComment() const {
assert(!streamEof());
return Data.drop_front(Pos).startswith("//");
}
bool Tokenizer::canContinueInt() const {
assert(!streamEof());
return std::isalnum(Data[Pos]);
}
bool Tokenizer::canStartString() const {
return willNowRead("\"") || willNowRead("L\"") || willNowRead("l\"");
}
bool Tokenizer::streamEof() const { return Pos == DataLength; }
Kind Tokenizer::classifyCurrentToken() const {
if (canStartBlockComment())
return Kind::StartComment;
if (canStartLineComment())
return Kind::LineComment;
if (canStartInt())
return Kind::Int;
if (canStartString())
return Kind::String;
// BEGIN and END are at this point of lexing recognized as identifiers.
if (canStartIdentifier())
return Kind::Identifier;
const char CurChar = Data[Pos];
switch (CurChar) {
// One-character token classification.
#define TOKEN(Name)
#define SHORT_TOKEN(Name, Ch) \
case Ch: \
return Kind::Name;
#include "ResourceScriptTokenList.def"
default:
return Kind::Invalid;
}
}
void Tokenizer::processIdentifier(RCToken &Token) const {
assert(Token.kind() == Kind::Identifier);
StringRef Name = Token.value();
if (Name.equals_lower("begin"))
Token = RCToken(Kind::BlockBegin, Name);
else if (Name.equals_lower("end"))
Token = RCToken(Kind::BlockEnd, Name);
}
} // anonymous namespace
namespace llvm {
Expected<std::vector<RCToken>> tokenizeRC(StringRef Input) {
return Tokenizer(Input).run();
}
} // namespace llvm