cppcheck/externals/simplecpp/simplecpp.cpp

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/*
* simplecpp - A simple and high-fidelity C/C++ preprocessor library
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* Copyright (C) 2016-2022 Daniel Marjamäki.
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*
* This library is free software: you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, either
* version 3 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see <http://www.gnu.org/licenses/>.
*/
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#if defined(_WIN32) || defined(__CYGWIN__) || defined(__MINGW32__)
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#define SIMPLECPP_WINDOWS
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#define NOMINMAX
#endif
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#include "simplecpp.h"
#include <algorithm>
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#include <climits>
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#include <cstring>
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#include <ctime>
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#include <exception>
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#include <fstream>
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#include <iostream>
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#include <limits>
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#include <sstream>
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#include <stack>
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#include <stdexcept>
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#if __cplusplus >= 201103L
#include <unordered_map>
#endif
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#include <utility>
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#ifdef SIMPLECPP_WINDOWS
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#include <windows.h>
#undef ERROR
#undef TRUE
#endif
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#if (__cplusplus < 201103L) && !defined(__APPLE__)
#define nullptr NULL
#endif
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static bool isHex(const std::string &s)
{
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return s.size()>2 && (s.compare(0,2,"0x")==0 || s.compare(0,2,"0X")==0);
}
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static bool isOct(const std::string &s)
{
return s.size()>1 && (s[0]=='0') && (s[1] >= '0') && (s[1] < '8');
}
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// TODO: added an undercore since this conflicts with a function of the same name in utils.h from Cppcheck source when building Cppcheck with MSBuild
static bool isStringLiteral_(const std::string &s)
{
return s.size() > 1 && (s[0]=='\"') && (*s.rbegin()=='\"');
}
// TODO: added an undercore since this conflicts with a function of the same name in utils.h from Cppcheck source when building Cppcheck with MSBuild
static bool isCharLiteral_(const std::string &s)
{
// char literal patterns can include 'a', '\t', '\000', '\xff', 'abcd', and maybe ''
// This only checks for the surrounding '' but doesn't parse the content.
return s.size() > 1 && (s[0]=='\'') && (*s.rbegin()=='\'');
}
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static const simplecpp::TokenString DEFINE("define");
static const simplecpp::TokenString UNDEF("undef");
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static const simplecpp::TokenString INCLUDE("include");
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static const simplecpp::TokenString ERROR("error");
static const simplecpp::TokenString WARNING("warning");
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static const simplecpp::TokenString IF("if");
static const simplecpp::TokenString IFDEF("ifdef");
static const simplecpp::TokenString IFNDEF("ifndef");
static const simplecpp::TokenString DEFINED("defined");
static const simplecpp::TokenString ELSE("else");
static const simplecpp::TokenString ELIF("elif");
static const simplecpp::TokenString ENDIF("endif");
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static const simplecpp::TokenString PRAGMA("pragma");
static const simplecpp::TokenString ONCE("once");
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static const simplecpp::TokenString HAS_INCLUDE("__has_include");
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template<class T> static std::string toString(T t)
{
std::ostringstream ostr;
ostr << t;
return ostr.str();
}
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static long long stringToLL(const std::string &s)
{
long long ret;
const bool hex = isHex(s);
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const bool oct = isOct(s);
std::istringstream istr(hex ? s.substr(2) : oct ? s.substr(1) : s);
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if (hex)
istr >> std::hex;
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else if (oct)
istr >> std::oct;
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istr >> ret;
return ret;
}
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static unsigned long long stringToULL(const std::string &s)
{
unsigned long long ret;
const bool hex = isHex(s);
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const bool oct = isOct(s);
std::istringstream istr(hex ? s.substr(2) : oct ? s.substr(1) : s);
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if (hex)
istr >> std::hex;
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else if (oct)
istr >> std::oct;
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istr >> ret;
return ret;
}
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static bool startsWith(const std::string &str, const std::string &s)
{
return (str.size() >= s.size() && str.compare(0, s.size(), s) == 0);
}
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static bool endsWith(const std::string &s, const std::string &e)
{
return (s.size() >= e.size() && s.compare(s.size() - e.size(), e.size(), e) == 0);
}
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static bool sameline(const simplecpp::Token *tok1, const simplecpp::Token *tok2)
{
return tok1 && tok2 && tok1->location.sameline(tok2->location);
}
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static bool isAlternativeBinaryOp(const simplecpp::Token *tok, const std::string &alt)
{
return (tok->name &&
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tok->str() == alt &&
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tok->previous &&
tok->next &&
(tok->previous->number || tok->previous->name || tok->previous->op == ')') &&
(tok->next->number || tok->next->name || tok->next->op == '('));
}
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static bool isAlternativeUnaryOp(const simplecpp::Token *tok, const std::string &alt)
{
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return ((tok->name && tok->str() == alt) &&
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(!tok->previous || tok->previous->op == '(') &&
(tok->next && (tok->next->name || tok->next->number)));
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}
static std::string replaceAll(std::string s, const std::string& from, const std::string& to)
{
for (size_t pos = s.find(from); pos != std::string::npos; pos = s.find(from, pos + to.size()))
s.replace(pos, from.size(), to);
return s;
}
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const std::string simplecpp::Location::emptyFileName;
void simplecpp::Location::adjust(const std::string &str)
{
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if (strpbrk(str.c_str(), "\r\n") == nullptr) {
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col += str.size();
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return;
}
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for (std::size_t i = 0U; i < str.size(); ++i) {
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col++;
if (str[i] == '\n' || str[i] == '\r') {
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col = 1;
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line++;
if (str[i] == '\r' && (i+1)<str.size() && str[i+1]=='\n')
++i;
}
}
}
bool simplecpp::Token::isOneOf(const char ops[]) const
{
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return (op != '\0') && (std::strchr(ops, op) != nullptr);
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}
bool simplecpp::Token::startsWithOneOf(const char c[]) const
{
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return std::strchr(c, string[0]) != nullptr;
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}
bool simplecpp::Token::endsWithOneOf(const char c[]) const
{
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return std::strchr(c, string[string.size() - 1U]) != nullptr;
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}
void simplecpp::Token::printAll() const
{
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const Token *tok = this;
while (tok->previous)
tok = tok->previous;
for (; tok; tok = tok->next) {
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if (tok->previous) {
std::cout << (sameline(tok, tok->previous) ? ' ' : '\n');
}
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std::cout << tok->str();
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}
std::cout << std::endl;
}
void simplecpp::Token::printOut() const
{
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for (const Token *tok = this; tok; tok = tok->next) {
if (tok != this) {
std::cout << (sameline(tok, tok->previous) ? ' ' : '\n');
}
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std::cout << tok->str();
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}
std::cout << std::endl;
}
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simplecpp::TokenList::TokenList(std::vector<std::string> &filenames) : frontToken(nullptr), backToken(nullptr), files(filenames) {}
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simplecpp::TokenList::TokenList(std::istream &istr, std::vector<std::string> &filenames, const std::string &filename, OutputList *outputList)
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: frontToken(nullptr), backToken(nullptr), files(filenames)
{
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readfile(istr,filename,outputList);
}
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simplecpp::TokenList::TokenList(const TokenList &other) : frontToken(nullptr), backToken(nullptr), files(other.files)
{
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*this = other;
}
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#if __cplusplus >= 201103L
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simplecpp::TokenList::TokenList(TokenList &&other) : TokenList(other)
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{
*this = std::move(other);
}
#endif
simplecpp::TokenList::~TokenList()
{
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clear();
}
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simplecpp::TokenList &simplecpp::TokenList::operator=(const TokenList &other)
{
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if (this != &other) {
clear();
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files = other.files;
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for (const Token *tok = other.cfront(); tok; tok = tok->next)
push_back(new Token(*tok));
sizeOfType = other.sizeOfType;
}
return *this;
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}
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#if __cplusplus >= 201103L
simplecpp::TokenList &simplecpp::TokenList::operator=(TokenList &&other)
{
if (this != &other) {
clear();
frontToken = other.frontToken;
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other.frontToken = nullptr;
backToken = other.backToken;
other.backToken = nullptr;
files = other.files;
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sizeOfType = std::move(other.sizeOfType);
}
return *this;
}
#endif
void simplecpp::TokenList::clear()
{
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backToken = nullptr;
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while (frontToken) {
Token *next = frontToken->next;
delete frontToken;
frontToken = next;
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}
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sizeOfType.clear();
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}
void simplecpp::TokenList::push_back(Token *tok)
{
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if (!frontToken)
frontToken = tok;
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else
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backToken->next = tok;
tok->previous = backToken;
backToken = tok;
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}
void simplecpp::TokenList::dump() const
{
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std::cout << stringify() << std::endl;
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}
std::string simplecpp::TokenList::stringify() const
{
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std::ostringstream ret;
Location loc(files);
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for (const Token *tok = cfront(); tok; tok = tok->next) {
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if (tok->location.line < loc.line || tok->location.fileIndex != loc.fileIndex) {
ret << "\n#line " << tok->location.line << " \"" << tok->location.file() << "\"\n";
loc = tok->location;
}
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while (tok->location.line > loc.line) {
ret << '\n';
loc.line++;
}
if (sameline(tok->previous, tok))
ret << ' ';
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ret << tok->str();
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loc.adjust(tok->str());
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}
return ret.str();
}
static unsigned char readChar(std::istream &istr, unsigned int bom)
{
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unsigned char ch = static_cast<unsigned char>(istr.get());
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// For UTF-16 encoded files the BOM is 0xfeff/0xfffe. If the
// character is non-ASCII character then replace it with 0xff
if (bom == 0xfeff || bom == 0xfffe) {
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const unsigned char ch2 = static_cast<unsigned char>(istr.get());
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const int ch16 = (bom == 0xfeff) ? (ch<<8 | ch2) : (ch2<<8 | ch);
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ch = static_cast<unsigned char>(((ch16 >= 0x80) ? 0xff : ch16));
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}
// Handling of newlines..
if (ch == '\r') {
ch = '\n';
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if (bom == 0 && static_cast<char>(istr.peek()) == '\n')
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(void)istr.get();
else if (bom == 0xfeff || bom == 0xfffe) {
int c1 = istr.get();
int c2 = istr.get();
int ch16 = (bom == 0xfeff) ? (c1<<8 | c2) : (c2<<8 | c1);
if (ch16 != '\n') {
istr.unget();
istr.unget();
}
}
}
return ch;
}
static unsigned char peekChar(std::istream &istr, unsigned int bom)
{
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unsigned char ch = static_cast<unsigned char>(istr.peek());
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// For UTF-16 encoded files the BOM is 0xfeff/0xfffe. If the
// character is non-ASCII character then replace it with 0xff
if (bom == 0xfeff || bom == 0xfffe) {
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(void)istr.get();
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const unsigned char ch2 = static_cast<unsigned char>(istr.peek());
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istr.unget();
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const int ch16 = (bom == 0xfeff) ? (ch<<8 | ch2) : (ch2<<8 | ch);
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ch = static_cast<unsigned char>(((ch16 >= 0x80) ? 0xff : ch16));
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}
// Handling of newlines..
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if (ch == '\r')
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ch = '\n';
return ch;
}
static void ungetChar(std::istream &istr, unsigned int bom)
{
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istr.unget();
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if (bom == 0xfeff || bom == 0xfffe)
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istr.unget();
}
static unsigned short getAndSkipBOM(std::istream &istr)
{
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const int ch1 = istr.peek();
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// The UTF-16 BOM is 0xfffe or 0xfeff.
if (ch1 >= 0xfe) {
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unsigned short bom = (static_cast<unsigned char>(istr.get()) << 8);
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if (istr.peek() >= 0xfe)
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return bom | static_cast<unsigned char>(istr.get());
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istr.unget();
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return 0;
}
// Skip UTF-8 BOM 0xefbbbf
if (ch1 == 0xef) {
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(void)istr.get();
if (istr.get() == 0xbb && istr.peek() == 0xbf) {
(void)istr.get();
} else {
istr.unget();
istr.unget();
}
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}
return 0;
}
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static bool isNameChar(unsigned char ch)
{
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return std::isalnum(ch) || ch == '_' || ch == '$';
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}
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static std::string escapeString(const std::string &str)
{
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std::ostringstream ostr;
ostr << '\"';
for (std::size_t i = 1U; i < str.size() - 1; ++i) {
char c = str[i];
if (c == '\\' || c == '\"' || c == '\'')
ostr << '\\';
ostr << c;
}
ostr << '\"';
return ostr.str();
}
static void portabilityBackslash(simplecpp::OutputList *outputList, const std::vector<std::string> &files, const simplecpp::Location &location)
{
if (!outputList)
return;
simplecpp::Output err(files);
err.type = simplecpp::Output::PORTABILITY_BACKSLASH;
err.location = location;
err.msg = "Combination 'backslash space newline' is not portable.";
outputList->push_back(err);
}
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static bool isStringLiteralPrefix(const std::string &str)
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{
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return str == "u" || str == "U" || str == "L" || str == "u8" ||
str == "R" || str == "uR" || str == "UR" || str == "LR" || str == "u8R";
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}
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void simplecpp::TokenList::lineDirective(unsigned int fileIndex, unsigned int line, Location *location)
{
if (fileIndex != location->fileIndex || line >= location->line) {
location->fileIndex = fileIndex;
location->line = line;
return;
}
if (line + 2 >= location->line) {
location->line = line;
while (cback()->op != '#')
deleteToken(back());
deleteToken(back());
return;
}
}
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static const std::string COMMENT_END("*/");
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void simplecpp::TokenList::readfile(std::istream &istr, const std::string &filename, OutputList *outputList)
{
std::stack<simplecpp::Location> loc;
unsigned int multiline = 0U;
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const Token *oldLastToken = nullptr;
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const unsigned short bom = getAndSkipBOM(istr);
Location location(files);
location.fileIndex = fileIndex(filename);
location.line = 1U;
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location.col = 1U;
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while (istr.good()) {
unsigned char ch = readChar(istr,bom);
if (!istr.good())
break;
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if (ch < ' ' && ch != '\t' && ch != '\n' && ch != '\r')
ch = ' ';
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if (ch >= 0x80) {
if (outputList) {
simplecpp::Output err(files);
err.type = simplecpp::Output::UNHANDLED_CHAR_ERROR;
err.location = location;
std::ostringstream s;
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s << static_cast<int>(ch);
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err.msg = "The code contains unhandled character(s) (character code=" + s.str() + "). Neither unicode nor extended ascii is supported.";
outputList->push_back(err);
}
clear();
return;
}
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if (ch == '\n') {
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if (cback() && cback()->op == '\\') {
if (location.col > cback()->location.col + 1U)
portabilityBackslash(outputList, files, cback()->location);
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++multiline;
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deleteToken(back());
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} else {
location.line += multiline + 1;
multiline = 0U;
}
if (!multiline)
location.col = 1;
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if (oldLastToken != cback()) {
oldLastToken = cback();
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if (!isLastLinePreprocessor())
continue;
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const std::string lastline(lastLine());
if (lastline == "# file %str%") {
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const Token *strtok = cback();
while (strtok->comment)
strtok = strtok->previous;
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loc.push(location);
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location.fileIndex = fileIndex(strtok->str().substr(1U, strtok->str().size() - 2U));
2016-07-20 12:21:00 +02:00
location.line = 1U;
} else if (lastline == "# line %num%") {
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const Token *numtok = cback();
while (numtok->comment)
numtok = numtok->previous;
lineDirective(location.fileIndex, std::atol(numtok->str().c_str()), &location);
2019-05-03 18:49:48 +02:00
} else if (lastline == "# %num% %str%" || lastline == "# line %num% %str%") {
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const Token *strtok = cback();
while (strtok->comment)
strtok = strtok->previous;
const Token *numtok = strtok->previous;
while (numtok->comment)
numtok = numtok->previous;
lineDirective(fileIndex(replaceAll(strtok->str().substr(1U, strtok->str().size() - 2U),"\\\\","\\")),
std::atol(numtok->str().c_str()), &location);
2016-07-20 12:21:00 +02:00
}
// #endfile
else if (lastline == "# endfile" && !loc.empty()) {
location = loc.top();
loc.pop();
}
}
continue;
}
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if (std::isspace(ch)) {
location.col++;
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continue;
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}
2016-07-20 12:21:00 +02:00
TokenString currentToken;
2018-02-14 22:14:42 +01:00
if (cback() && cback()->location.line == location.line && cback()->previous && cback()->previous->op == '#' && (lastLine() == "# error" || lastLine() == "# warning")) {
2019-02-06 16:26:59 +01:00
char prev = ' ';
while (istr.good() && (prev == '\\' || (ch != '\r' && ch != '\n'))) {
2018-02-11 15:48:37 +01:00
currentToken += ch;
2019-02-06 16:26:59 +01:00
prev = ch;
2018-02-11 15:48:37 +01:00
ch = readChar(istr, bom);
}
2019-03-10 08:47:27 +01:00
ungetChar(istr, bom);
2018-02-11 15:48:37 +01:00
push_back(new Token(currentToken, location));
2019-02-06 16:26:59 +01:00
location.adjust(currentToken);
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continue;
}
2016-07-20 12:21:00 +02:00
// number or name
2016-07-29 13:05:35 +02:00
if (isNameChar(ch)) {
2017-09-08 23:20:39 +02:00
const bool num = std::isdigit(ch);
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while (istr.good() && isNameChar(ch)) {
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currentToken += ch;
ch = readChar(istr,bom);
2017-09-08 23:20:39 +02:00
if (num && ch=='\'' && isNameChar(peekChar(istr,bom)))
ch = readChar(istr,bom);
2016-07-20 12:21:00 +02:00
}
2016-07-28 09:26:23 +02:00
ungetChar(istr,bom);
2016-07-20 12:21:00 +02:00
}
// comment
else if (ch == '/' && peekChar(istr,bom) == '/') {
while (istr.good() && ch != '\r' && ch != '\n') {
currentToken += ch;
ch = readChar(istr, bom);
}
const std::string::size_type pos = currentToken.find_last_not_of(" \t");
if (pos < currentToken.size() - 1U && currentToken[pos] == '\\')
portabilityBackslash(outputList, files, location);
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if (currentToken[currentToken.size() - 1U] == '\\') {
2016-07-30 10:37:55 +02:00
++multiline;
2021-02-21 19:13:16 +01:00
currentToken.erase(currentToken.size() - 1U);
2016-07-20 12:21:00 +02:00
} else {
2019-03-10 08:47:27 +01:00
ungetChar(istr, bom);
2016-07-20 12:21:00 +02:00
}
}
// comment
else if (ch == '/' && peekChar(istr,bom) == '*') {
currentToken = "/*";
(void)readChar(istr,bom);
ch = readChar(istr,bom);
while (istr.good()) {
currentToken += ch;
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if (currentToken.size() >= 4U && endsWith(currentToken, COMMENT_END))
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break;
ch = readChar(istr,bom);
}
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// multiline..
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std::string::size_type pos = 0;
while ((pos = currentToken.find("\\\n",pos)) != std::string::npos) {
currentToken.erase(pos,2);
++multiline;
}
if (multiline || startsWith(lastLine(10),"# ")) {
pos = 0;
while ((pos = currentToken.find('\n',pos)) != std::string::npos) {
currentToken.erase(pos,1);
++multiline;
}
}
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}
// string / char literal
else if (ch == '\"' || ch == '\'') {
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std::string prefix;
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if (cback() && cback()->name && isStringLiteralPrefix(cback()->str()) &&
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((cback()->location.col + cback()->str().size()) == location.col) &&
(cback()->location.line == location.line)) {
2019-03-11 18:18:00 +01:00
prefix = cback()->str();
}
// C++11 raw string literal
if (ch == '\"' && !prefix.empty() && *cback()->str().rbegin() == 'R') {
2016-07-28 09:26:23 +02:00
std::string delim;
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currentToken = ch;
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prefix.resize(prefix.size() - 1);
2019-03-11 18:18:00 +01:00
ch = readChar(istr,bom);
while (istr.good() && ch != '(' && ch != '\n') {
delim += ch;
2016-07-28 09:26:23 +02:00
ch = readChar(istr,bom);
2019-03-11 18:18:00 +01:00
}
if (!istr.good() || ch == '\n') {
if (outputList) {
Output err(files);
err.type = Output::SYNTAX_ERROR;
err.location = location;
err.msg = "Invalid newline in raw string delimiter.";
outputList->push_back(err);
2019-03-10 08:47:27 +01:00
}
2019-03-11 18:18:00 +01:00
return;
2016-07-28 09:26:23 +02:00
}
2019-03-11 18:18:00 +01:00
const std::string endOfRawString(')' + delim + currentToken);
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while (istr.good() && !(endsWith(currentToken, endOfRawString) && currentToken.size() > 1))
2016-07-28 09:26:23 +02:00
currentToken += readChar(istr,bom);
2019-03-11 18:18:00 +01:00
if (!endsWith(currentToken, endOfRawString)) {
if (outputList) {
Output err(files);
err.type = Output::SYNTAX_ERROR;
err.location = location;
err.msg = "Raw string missing terminating delimiter.";
outputList->push_back(err);
}
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return;
2019-03-11 18:18:00 +01:00
}
2016-07-28 09:26:23 +02:00
currentToken.erase(currentToken.size() - endOfRawString.size(), endOfRawString.size() - 1U);
2019-03-11 18:18:00 +01:00
currentToken = escapeString(currentToken);
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currentToken.insert(0, prefix);
back()->setstr(currentToken);
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location.adjust(currentToken);
if (currentToken.find_first_of("\r\n") == std::string::npos)
location.col += 2 + 2 * delim.size();
else
location.col += 1 + delim.size();
2019-03-11 18:18:00 +01:00
2016-07-28 09:26:23 +02:00
continue;
}
2019-03-10 08:47:27 +01:00
currentToken = readUntil(istr,location,ch,ch,outputList,bom);
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if (currentToken.size() < 2U)
2019-03-11 18:18:00 +01:00
// Error is reported by readUntil()
2016-07-20 12:21:00 +02:00
return;
2017-05-28 15:23:15 +02:00
std::string s = currentToken;
std::string::size_type pos;
2018-02-14 22:14:42 +01:00
int newlines = 0;
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while ((pos = s.find_first_of("\r\n")) != std::string::npos) {
s.erase(pos,1);
2018-02-14 22:14:42 +01:00
newlines++;
2017-05-28 15:23:15 +02:00
}
2019-03-11 18:18:00 +01:00
if (prefix.empty())
push_back(new Token(s, location)); // push string without newlines
else
back()->setstr(prefix + s);
2017-05-28 15:23:15 +02:00
2018-02-14 22:14:42 +01:00
if (newlines > 0 && lastLine().compare(0,9,"# define ") == 0) {
multiline += newlines;
location.adjust(s);
} else {
location.adjust(currentToken);
}
2017-05-28 15:23:15 +02:00
continue;
2016-07-20 12:21:00 +02:00
}
else {
currentToken += ch;
}
if (currentToken == "<" && lastLine() == "# include") {
2019-03-10 08:47:27 +01:00
currentToken = readUntil(istr, location, '<', '>', outputList, bom);
2016-07-20 12:21:00 +02:00
if (currentToken.size() < 2U)
return;
}
push_back(new Token(currentToken, location));
if (multiline)
location.col += currentToken.size();
else
location.adjust(currentToken);
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}
combineOperators();
}
void simplecpp::TokenList::constFold()
{
2016-07-29 08:46:38 +02:00
while (cfront()) {
2016-07-20 12:21:00 +02:00
// goto last '('
2016-07-29 08:46:38 +02:00
Token *tok = back();
2016-07-20 12:21:00 +02:00
while (tok && tok->op != '(')
tok = tok->previous;
// no '(', goto first token
if (!tok)
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tok = front();
2016-07-20 12:21:00 +02:00
// Constant fold expression
constFoldUnaryNotPosNeg(tok);
constFoldMulDivRem(tok);
constFoldAddSub(tok);
2017-09-08 23:20:39 +02:00
constFoldShift(tok);
2016-07-20 12:21:00 +02:00
constFoldComparison(tok);
constFoldBitwise(tok);
constFoldLogicalOp(tok);
constFoldQuestionOp(&tok);
// If there is no '(' we are done with the constant folding
if (tok->op != '(')
break;
if (!tok->next || !tok->next->next || tok->next->next->op != ')')
break;
tok = tok->next;
deleteToken(tok->previous);
deleteToken(tok->next);
}
}
2017-05-26 16:45:07 +02:00
static bool isFloatSuffix(const simplecpp::Token *tok)
{
2018-05-14 13:00:22 +02:00
if (!tok || tok->str().size() != 1U)
2017-05-18 21:40:47 +02:00
return false;
2018-05-14 13:00:22 +02:00
const char c = std::tolower(tok->str()[0]);
2017-05-26 16:45:07 +02:00
return c == 'f' || c == 'l';
2017-05-18 21:40:47 +02:00
}
void simplecpp::TokenList::combineOperators()
{
2018-04-01 09:06:13 +02:00
std::stack<bool> executableScope;
executableScope.push(false);
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for (Token *tok = front(); tok; tok = tok->next) {
2018-04-01 09:06:13 +02:00
if (tok->op == '{') {
if (executableScope.top()) {
executableScope.push(true);
continue;
}
const Token *prev = tok->previous;
while (prev && prev->isOneOf(";{}()"))
prev = prev->previous;
executableScope.push(prev && prev->op == ')');
continue;
}
if (tok->op == '}') {
if (executableScope.size() > 1)
executableScope.pop();
continue;
}
2016-07-20 12:21:00 +02:00
if (tok->op == '.') {
// ellipsis ...
if (tok->next && tok->next->op == '.' && tok->next->location.col == (tok->location.col + 1) &&
tok->next->next && tok->next->next->op == '.' && tok->next->next->location.col == (tok->location.col + 2)) {
tok->setstr("...");
deleteToken(tok->next);
deleteToken(tok->next);
2017-05-18 21:40:47 +02:00
continue;
}
2016-07-20 12:21:00 +02:00
// float literals..
if (tok->previous && tok->previous->number) {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->previous->str() + '.');
2016-07-20 12:21:00 +02:00
deleteToken(tok->previous);
2019-11-16 18:29:01 +01:00
if (isFloatSuffix(tok->next) || (tok->next && tok->next->startsWithOneOf("AaBbCcDdEeFfPp"))) {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
}
}
if (tok->next && tok->next->number) {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
}
}
// match: [0-9.]+E [+-] [0-9]+
2018-05-14 13:00:22 +02:00
const char lastChar = tok->str()[tok->str().size() - 1];
2019-10-26 17:30:04 +02:00
if (tok->number && !isOct(tok->str()) &&
((!isHex(tok->str()) && (lastChar == 'E' || lastChar == 'e')) ||
(isHex(tok->str()) && (lastChar == 'P' || lastChar == 'p'))) &&
tok->next && tok->next->isOneOf("+-") && tok->next->next && tok->next->next->number) {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + tok->next->op + tok->next->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
deleteToken(tok->next);
}
if (tok->op == '\0' || !tok->next || tok->next->op == '\0')
continue;
2016-08-11 19:00:35 +02:00
if (!sameline(tok,tok->next))
continue;
if (tok->location.col + 1U != tok->next->location.col)
continue;
2016-07-20 12:21:00 +02:00
if (tok->next->op == '=' && tok->isOneOf("=!<>+-*/%&|^")) {
2018-04-01 09:06:13 +02:00
if (tok->op == '&' && !executableScope.top()) {
// don't combine &= if it is a anonymous reference parameter with default value:
// void f(x&=2)
int indentlevel = 0;
const Token *start = tok;
while (indentlevel >= 0 && start) {
if (start->op == ')')
++indentlevel;
else if (start->op == '(')
--indentlevel;
else if (start->isOneOf(";{}"))
break;
start = start->previous;
}
if (indentlevel == -1 && start) {
const Token *ftok = start;
bool isFuncDecl = ftok->name;
while (isFuncDecl) {
2018-05-14 13:00:22 +02:00
if (!start->name && start->str() != "::" && start->op != '*' && start->op != '&')
2018-04-01 09:06:13 +02:00
isFuncDecl = false;
if (!start->previous)
break;
if (start->previous->isOneOf(";{}:"))
break;
start = start->previous;
}
isFuncDecl &= start != ftok && start->name;
if (isFuncDecl) {
// TODO: we could loop through the parameters here and check if they are correct.
continue;
}
}
}
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + "=");
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
} else if ((tok->op == '|' || tok->op == '&') && tok->op == tok->next->op) {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
} else if (tok->op == ':' && tok->next->op == ':') {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
} else if (tok->op == '-' && tok->next->op == '>') {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
} else if ((tok->op == '<' || tok->op == '>') && tok->op == tok->next->op) {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
2019-09-25 20:19:26 +02:00
if (tok->next && tok->next->op == '=' && tok->next->next && tok->next->next->op != '=') {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
}
} else if ((tok->op == '+' || tok->op == '-') && tok->op == tok->next->op) {
if (tok->location.col + 1U != tok->next->location.col)
continue;
if (tok->previous && tok->previous->number)
continue;
if (tok->next->next && tok->next->next->number)
continue;
2018-05-14 13:00:22 +02:00
tok->setstr(tok->str() + tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
}
}
}
2018-01-13 18:08:23 +01:00
static const std::string COMPL("compl");
static const std::string NOT("not");
void simplecpp::TokenList::constFoldUnaryNotPosNeg(simplecpp::Token *tok)
{
2016-07-20 12:21:00 +02:00
for (; tok && tok->op != ')'; tok = tok->next) {
2016-07-31 20:48:55 +02:00
// "not" might be !
if (isAlternativeUnaryOp(tok, NOT))
tok->op = '!';
2018-01-13 18:08:23 +01:00
// "compl" might be ~
else if (isAlternativeUnaryOp(tok, COMPL))
tok->op = '~';
2016-07-31 20:48:55 +02:00
2016-07-20 12:21:00 +02:00
if (tok->op == '!' && tok->next && tok->next->number) {
2018-05-14 13:00:22 +02:00
tok->setstr(tok->next->str() == "0" ? "1" : "0");
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
2018-01-13 18:08:23 +01:00
} else if (tok->op == '~' && tok->next && tok->next->number) {
2018-05-14 13:00:22 +02:00
tok->setstr(toString(~stringToLL(tok->next->str())));
2018-01-13 18:08:23 +01:00
deleteToken(tok->next);
} else {
2016-07-20 12:21:00 +02:00
if (tok->previous && (tok->previous->number || tok->previous->name))
continue;
if (!tok->next || !tok->next->number)
continue;
switch (tok->op) {
case '+':
2018-05-14 13:00:22 +02:00
tok->setstr(tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
break;
case '-':
2018-05-14 13:00:22 +02:00
tok->setstr(tok->op + tok->next->str());
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
break;
}
}
}
}
void simplecpp::TokenList::constFoldMulDivRem(Token *tok)
{
2016-07-20 12:21:00 +02:00
for (; tok && tok->op != ')'; tok = tok->next) {
if (!tok->previous || !tok->previous->number)
continue;
if (!tok->next || !tok->next->number)
continue;
long long result;
if (tok->op == '*')
2018-05-14 13:00:22 +02:00
result = (stringToLL(tok->previous->str()) * stringToLL(tok->next->str()));
2016-07-20 12:21:00 +02:00
else if (tok->op == '/' || tok->op == '%') {
2018-05-14 13:00:22 +02:00
long long rhs = stringToLL(tok->next->str());
2016-07-20 12:21:00 +02:00
if (rhs == 0)
throw std::overflow_error("division/modulo by zero");
2018-05-14 13:00:22 +02:00
long long lhs = stringToLL(tok->previous->str());
2016-07-20 20:40:16 +02:00
if (rhs == -1 && lhs == std::numeric_limits<long long>::min())
throw std::overflow_error("division overflow");
2016-07-20 12:21:00 +02:00
if (tok->op == '/')
2016-07-20 20:40:16 +02:00
result = (lhs / rhs);
2016-07-20 12:21:00 +02:00
else
2016-07-20 20:40:16 +02:00
result = (lhs % rhs);
} else
2016-07-20 12:21:00 +02:00
continue;
tok = tok->previous;
2016-07-20 20:03:27 +02:00
tok->setstr(toString(result));
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
deleteToken(tok->next);
}
}
void simplecpp::TokenList::constFoldAddSub(Token *tok)
{
2016-07-20 12:21:00 +02:00
for (; tok && tok->op != ')'; tok = tok->next) {
if (!tok->previous || !tok->previous->number)
continue;
if (!tok->next || !tok->next->number)
continue;
long long result;
if (tok->op == '+')
2018-05-14 13:00:22 +02:00
result = stringToLL(tok->previous->str()) + stringToLL(tok->next->str());
2016-07-20 12:21:00 +02:00
else if (tok->op == '-')
2018-05-14 13:00:22 +02:00
result = stringToLL(tok->previous->str()) - stringToLL(tok->next->str());
2016-07-20 12:21:00 +02:00
else
continue;
tok = tok->previous;
2016-07-20 20:03:27 +02:00
tok->setstr(toString(result));
2016-07-20 12:21:00 +02:00
deleteToken(tok->next);
deleteToken(tok->next);
}
}
2017-09-08 23:20:39 +02:00
void simplecpp::TokenList::constFoldShift(Token *tok)
{
for (; tok && tok->op != ')'; tok = tok->next) {
if (!tok->previous || !tok->previous->number)
continue;
if (!tok->next || !tok->next->number)
continue;
long long result;
2018-05-14 13:00:22 +02:00
if (tok->str() == "<<")
result = stringToLL(tok->previous->str()) << stringToLL(tok->next->str());
else if (tok->str() == ">>")
result = stringToLL(tok->previous->str()) >> stringToLL(tok->next->str());
2017-09-08 23:20:39 +02:00
else
continue;
tok = tok->previous;
tok->setstr(toString(result));
deleteToken(tok->next);
deleteToken(tok->next);
}
}
static const std::string NOTEQ("not_eq");
void simplecpp::TokenList::constFoldComparison(Token *tok)
{
2016-07-20 12:21:00 +02:00
for (; tok && tok->op != ')'; tok = tok->next) {
2016-07-31 20:48:55 +02:00
if (isAlternativeBinaryOp(tok,NOTEQ))
tok->setstr("!=");
2016-07-20 12:21:00 +02:00
if (!tok->startsWithOneOf("<>=!"))
continue;
if (!tok->previous || !tok->previous->number)
continue;
if (!tok->next || !tok->next->number)
continue;
int result;
2018-05-14 13:00:22 +02:00
if (tok->str() == "==")
result = (stringToLL(tok->previous->str()) == stringToLL(tok->next->str()));
else if (tok->str() == "!=")
result = (stringToLL(tok->previous->str()) != stringToLL(tok->next->str()));
else if (tok->str() == ">")
result = (stringToLL(tok->previous->str()) > stringToLL(tok->next->str()));
else if (tok->str() == ">=")
result = (stringToLL(tok->previous->str()) >= stringToLL(tok->next->str()));
else if (tok->str() == "<")
result = (stringToLL(tok->previous->str()) < stringToLL(tok->next->str()));
else if (tok->str() == "<=")
result = (stringToLL(tok->previous->str()) <= stringToLL(tok->next->str()));
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else
continue;
tok = tok->previous;
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tok->setstr(toString(result));
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deleteToken(tok->next);
deleteToken(tok->next);
}
}
static const std::string BITAND("bitand");
static const std::string BITOR("bitor");
static const std::string XOR("xor");
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void simplecpp::TokenList::constFoldBitwise(Token *tok)
{
Token * const tok1 = tok;
for (const char *op = "&^|"; *op; op++) {
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const std::string* alternativeOp;
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if (*op == '&')
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alternativeOp = &BITAND;
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else if (*op == '|')
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alternativeOp = &BITOR;
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else
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alternativeOp = &XOR;
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for (tok = tok1; tok && tok->op != ')'; tok = tok->next) {
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if (tok->op != *op && !isAlternativeBinaryOp(tok, *alternativeOp))
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continue;
if (!tok->previous || !tok->previous->number)
continue;
if (!tok->next || !tok->next->number)
continue;
long long result;
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if (*op == '&')
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result = (stringToLL(tok->previous->str()) & stringToLL(tok->next->str()));
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else if (*op == '^')
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result = (stringToLL(tok->previous->str()) ^ stringToLL(tok->next->str()));
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else /*if (*op == '|')*/
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result = (stringToLL(tok->previous->str()) | stringToLL(tok->next->str()));
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tok = tok->previous;
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tok->setstr(toString(result));
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deleteToken(tok->next);
deleteToken(tok->next);
}
}
}
static const std::string AND("and");
static const std::string OR("or");
void simplecpp::TokenList::constFoldLogicalOp(Token *tok)
{
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for (; tok && tok->op != ')'; tok = tok->next) {
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if (tok->name) {
if (isAlternativeBinaryOp(tok,AND))
tok->setstr("&&");
else if (isAlternativeBinaryOp(tok,OR))
tok->setstr("||");
}
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if (tok->str() != "&&" && tok->str() != "||")
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continue;
if (!tok->previous || !tok->previous->number)
continue;
if (!tok->next || !tok->next->number)
continue;
int result;
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if (tok->str() == "||")
result = (stringToLL(tok->previous->str()) || stringToLL(tok->next->str()));
else /*if (tok->str() == "&&")*/
result = (stringToLL(tok->previous->str()) && stringToLL(tok->next->str()));
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tok = tok->previous;
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tok->setstr(toString(result));
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deleteToken(tok->next);
deleteToken(tok->next);
}
}
void simplecpp::TokenList::constFoldQuestionOp(Token **tok1)
{
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bool gotoTok1 = false;
for (Token *tok = *tok1; tok && tok->op != ')'; tok = gotoTok1 ? *tok1 : tok->next) {
gotoTok1 = false;
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if (tok->str() != "?")
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continue;
if (!tok->previous || !tok->next || !tok->next->next)
throw std::runtime_error("invalid expression");
if (!tok->previous->number)
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continue;
if (tok->next->next->op != ':')
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continue;
Token * const condTok = tok->previous;
Token * const trueTok = tok->next;
Token * const falseTok = trueTok->next->next;
if (!falseTok)
throw std::runtime_error("invalid expression");
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if (condTok == *tok1)
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*tok1 = (condTok->str() != "0" ? trueTok : falseTok);
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deleteToken(condTok->next); // ?
deleteToken(trueTok->next); // :
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deleteToken(condTok->str() == "0" ? trueTok : falseTok);
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deleteToken(condTok);
gotoTok1 = true;
}
}
void simplecpp::TokenList::removeComments()
{
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Token *tok = frontToken;
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while (tok) {
Token *tok1 = tok;
tok = tok->next;
if (tok1->comment)
deleteToken(tok1);
}
}
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std::string simplecpp::TokenList::readUntil(std::istream &istr, const Location &location, const char start, const char end, OutputList *outputList, unsigned int bom)
{
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std::string ret;
ret += start;
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bool backslash = false;
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char ch = 0;
while (ch != end && ch != '\r' && ch != '\n' && istr.good()) {
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ch = readChar(istr, bom);
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if (backslash && ch == '\n') {
ch = 0;
backslash = false;
continue;
}
backslash = false;
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ret += ch;
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if (ch == '\\') {
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bool update_ch = false;
char next = 0;
do {
next = readChar(istr, bom);
if (next == '\r' || next == '\n') {
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ret.erase(ret.size()-1U);
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backslash = (next == '\r');
update_ch = false;
} else if (next == '\\')
update_ch = !update_ch;
ret += next;
} while (next == '\\');
if (update_ch)
ch = next;
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}
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}
if (!istr.good() || ch != end) {
clear();
if (outputList) {
Output err(files);
err.type = Output::SYNTAX_ERROR;
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err.location = location;
err.msg = std::string("No pair for character (") + start + "). Can't process file. File is either invalid or unicode, which is currently not supported.";
outputList->push_back(err);
}
return "";
}
return ret;
}
std::string simplecpp::TokenList::lastLine(int maxsize) const
{
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std::string ret;
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int count = 0;
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for (const Token *tok = cback(); ; tok = tok->previous) {
if (!sameline(tok, cback())) {
break;
}
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if (tok->comment)
continue;
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if (++count > maxsize)
return "";
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if (!ret.empty())
ret.insert(0, 1, ' ');
if (tok->str()[0] == '\"')
ret.insert(0, "%str%");
else if (tok->number)
ret.insert(0, "%num%");
else
ret.insert(0, tok->str());
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}
return ret;
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}
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bool simplecpp::TokenList::isLastLinePreprocessor(int maxsize) const
{
const Token* prevTok = nullptr;
int count = 0;
for (const Token *tok = cback(); ; tok = tok->previous) {
if (!sameline(tok, cback()))
break;
if (tok->comment)
continue;
if (++count > maxsize)
return false;
prevTok = tok;
}
return prevTok && prevTok->str()[0] == '#';
}
unsigned int simplecpp::TokenList::fileIndex(const std::string &filename)
{
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for (unsigned int i = 0; i < files.size(); ++i) {
if (files[i] == filename)
return i;
}
files.push_back(filename);
return files.size() - 1U;
}
namespace simplecpp {
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class Macro;
#if __cplusplus >= 201103L
using MacroMap = std::unordered_map<TokenString,Macro>;
#else
typedef std::map<TokenString,Macro> MacroMap;
#endif
class Macro {
public:
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explicit Macro(std::vector<std::string> &f) : nameTokDef(nullptr), variadic(false), valueToken(nullptr), endToken(nullptr), files(f), tokenListDefine(f), valueDefinedInCode_(false) {}
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Macro(const Token *tok, std::vector<std::string> &f) : nameTokDef(nullptr), files(f), tokenListDefine(f), valueDefinedInCode_(true) {
if (sameline(tok->previous, tok))
throw std::runtime_error("bad macro syntax");
if (tok->op != '#')
throw std::runtime_error("bad macro syntax");
const Token * const hashtok = tok;
tok = tok->next;
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if (!tok || tok->str() != DEFINE)
throw std::runtime_error("bad macro syntax");
tok = tok->next;
if (!tok || !tok->name || !sameline(hashtok,tok))
throw std::runtime_error("bad macro syntax");
if (!parseDefine(tok))
throw std::runtime_error("bad macro syntax");
}
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Macro(const std::string &name, const std::string &value, std::vector<std::string> &f) : nameTokDef(nullptr), files(f), tokenListDefine(f), valueDefinedInCode_(false) {
const std::string def(name + ' ' + value);
std::istringstream istr(def);
tokenListDefine.readfile(istr);
if (!parseDefine(tokenListDefine.cfront()))
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throw std::runtime_error("bad macro syntax. macroname=" + name + " value=" + value);
}
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Macro(const Macro &other) : nameTokDef(nullptr), files(other.files), tokenListDefine(other.files), valueDefinedInCode_(other.valueDefinedInCode_) {
*this = other;
}
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Macro &operator=(const Macro &other) {
if (this != &other) {
files = other.files;
valueDefinedInCode_ = other.valueDefinedInCode_;
if (other.tokenListDefine.empty())
parseDefine(other.nameTokDef);
else {
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tokenListDefine = other.tokenListDefine;
parseDefine(tokenListDefine.cfront());
}
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}
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return *this;
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}
bool valueDefinedInCode() const {
return valueDefinedInCode_;
}
/**
* Expand macro. This will recursively expand inner macros.
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* @param output destination tokenlist
* @param rawtok macro token
* @param macros list of macros
* @param inputFiles the input files
* @return token after macro
* @throw Can throw wrongNumberOfParameters or invalidHashHash
*/
const Token * expand(TokenList * const output,
const Token * rawtok,
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const MacroMap &macros,
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std::vector<std::string> &inputFiles) const {
std::set<TokenString> expandedmacros;
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TokenList output2(inputFiles);
if (functionLike() && rawtok->next && rawtok->next->op == '(') {
// Copy macro call to a new tokenlist with no linebreaks
const Token * const rawtok1 = rawtok;
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TokenList rawtokens2(inputFiles);
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rawtokens2.push_back(new Token(rawtok->str(), rawtok1->location));
rawtok = rawtok->next;
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rawtokens2.push_back(new Token(rawtok->str(), rawtok1->location));
rawtok = rawtok->next;
int par = 1;
while (rawtok && par > 0) {
if (rawtok->op == '(')
++par;
else if (rawtok->op == ')')
--par;
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else if (rawtok->op == '#' && !sameline(rawtok->previous, rawtok))
throw Error(rawtok->location, "it is invalid to use a preprocessor directive as macro parameter");
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rawtokens2.push_back(new Token(rawtok->str(), rawtok1->location));
rawtok = rawtok->next;
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}
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bool first = true;
if (valueToken && valueToken->str() == rawtok1->str())
first = false;
if (expand(&output2, rawtok1->location, rawtokens2.cfront(), macros, expandedmacros, first))
rawtok = rawtok1->next;
} else {
rawtok = expand(&output2, rawtok->location, rawtok, macros, expandedmacros);
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}
while (output2.cback() && rawtok) {
unsigned int par = 0;
Token* macro2tok = output2.back();
while (macro2tok) {
if (macro2tok->op == '(') {
if (par==0)
break;
--par;
} else if (macro2tok->op == ')')
++par;
macro2tok = macro2tok->previous;
}
if (macro2tok) { // macro2tok->op == '('
macro2tok = macro2tok->previous;
expandedmacros.insert(name());
} else if (rawtok->op == '(')
macro2tok = output2.back();
if (!macro2tok || !macro2tok->name)
break;
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if (output2.cfront() != output2.cback() && macro2tok->str() == this->name())
break;
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const MacroMap::const_iterator macro = macros.find(macro2tok->str());
if (macro == macros.end() || !macro->second.functionLike())
break;
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TokenList rawtokens2(inputFiles);
const Location loc(macro2tok->location);
while (macro2tok) {
Token *next = macro2tok->next;
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rawtokens2.push_back(new Token(macro2tok->str(), loc));
output2.deleteToken(macro2tok);
macro2tok = next;
}
par = (rawtokens2.cfront() != rawtokens2.cback()) ? 1U : 0U;
const Token *rawtok2 = rawtok;
for (; rawtok2; rawtok2 = rawtok2->next) {
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rawtokens2.push_back(new Token(rawtok2->str(), loc));
if (rawtok2->op == '(')
++par;
else if (rawtok2->op == ')') {
if (par <= 1U)
break;
--par;
}
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}
if (!rawtok2 || par != 1U)
break;
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if (macro->second.expand(&output2, rawtok->location, rawtokens2.cfront(), macros, expandedmacros) != nullptr)
break;
rawtok = rawtok2->next;
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}
output->takeTokens(output2);
return rawtok;
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}
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/** macro name */
const TokenString &name() const {
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return nameTokDef->str();
}
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/** location for macro definition */
const Location &defineLocation() const {
return nameTokDef->location;
}
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/** how has this macro been used so far */
const std::list<Location> &usage() const {
return usageList;
}
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/** is this a function like macro */
bool functionLike() const {
return nameTokDef->next &&
nameTokDef->next->op == '(' &&
sameline(nameTokDef, nameTokDef->next) &&
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nameTokDef->next->location.col == nameTokDef->location.col + nameTokDef->str().size();
}
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/** base class for errors */
struct Error {
Error(const Location &loc, const std::string &s) : location(loc), what(s) {}
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const Location location;
const std::string what;
};
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/** Struct that is thrown when macro is expanded with wrong number of parameters */
struct wrongNumberOfParameters : public Error {
wrongNumberOfParameters(const Location &loc, const std::string &macroName) : Error(loc, "Wrong number of parameters for macro \'" + macroName + "\'.") {}
};
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/** Struct that is thrown when there is invalid ## usage */
struct invalidHashHash : public Error {
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static inline std::string format(const std::string &macroName, const std::string &message) {
return "Invalid ## usage when expanding \'" + macroName + "\': " + message;
}
invalidHashHash(const Location &loc, const std::string &macroName, const std::string &message)
: Error(loc, format(macroName, message)) { }
static inline invalidHashHash unexpectedToken(const Location &loc, const std::string &macroName, const Token *tokenA) {
return invalidHashHash(loc, macroName, "Unexpected token '"+ tokenA->str()+"'");
}
static inline invalidHashHash cannotCombine(const Location &loc, const std::string &macroName, const Token *tokenA, const Token *tokenB) {
return invalidHashHash(loc, macroName, "Pasting '"+ tokenA->str()+ "' and '"+ tokenB->str() + "' yields an invalid token.");
}
static inline invalidHashHash unexpectedNewline(const Location &loc, const std::string &macroName) {
return invalidHashHash(loc, macroName, "Unexpected newline");
}
};
private:
/** Create new token where Token::macro is set for replaced tokens */
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Token *newMacroToken(const TokenString &str, const Location &loc, bool replaced, const Token *expandedFromToken=nullptr) const {
Token *tok = new Token(str,loc);
if (replaced)
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tok->macro = nameTokDef->str();
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if (expandedFromToken)
tok->setExpandedFrom(expandedFromToken, this);
return tok;
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}
bool parseDefine(const Token *nametoken) {
nameTokDef = nametoken;
variadic = false;
if (!nameTokDef) {
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valueToken = endToken = nullptr;
args.clear();
return false;
}
// function like macro..
if (functionLike()) {
args.clear();
const Token *argtok = nameTokDef->next->next;
while (sameline(nametoken, argtok) && argtok->op != ')') {
if (argtok->str() == "..." &&
argtok->next && argtok->next->op == ')') {
variadic = true;
if (!argtok->previous->name)
args.push_back("__VA_ARGS__");
argtok = argtok->next; // goto ')'
break;
}
if (argtok->op != ',')
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args.push_back(argtok->str());
argtok = argtok->next;
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}
if (!sameline(nametoken, argtok)) {
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endToken = argtok ? argtok->previous : argtok;
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valueToken = nullptr;
return false;
}
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valueToken = argtok ? argtok->next : nullptr;
} else {
args.clear();
valueToken = nameTokDef->next;
}
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if (!sameline(valueToken, nameTokDef))
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valueToken = nullptr;
endToken = valueToken;
while (sameline(endToken, nameTokDef))
endToken = endToken->next;
return true;
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}
unsigned int getArgNum(const TokenString &str) const {
unsigned int par = 0;
while (par < args.size()) {
if (str == args[par])
return par;
par++;
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}
return ~0U;
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}
std::vector<const Token *> getMacroParameters(const Token *nameTokInst, bool calledInDefine) const {
if (!nameTokInst->next || nameTokInst->next->op != '(' || !functionLike())
return std::vector<const Token *>();
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std::vector<const Token *> parametertokens;
parametertokens.push_back(nameTokInst->next);
unsigned int par = 0U;
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for (const Token *tok = nameTokInst->next->next; calledInDefine ? sameline(tok, nameTokInst) : (tok != nullptr); tok = tok->next) {
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if (tok->op == '(')
++par;
else if (tok->op == ')') {
if (par == 0U) {
parametertokens.push_back(tok);
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break;
}
--par;
} else if (par == 0U && tok->op == ',' && (!variadic || parametertokens.size() < args.size()))
parametertokens.push_back(tok);
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}
return parametertokens;
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}
const Token *appendTokens(TokenList *tokens,
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const Location &rawloc,
const Token * const lpar,
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const MacroMap &macros,
const std::set<TokenString> &expandedmacros,
const std::vector<const Token*> &parametertokens) const {
if (!lpar || lpar->op != '(')
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return nullptr;
unsigned int par = 0;
const Token *tok = lpar;
while (sameline(lpar, tok)) {
if (tok->op == '#' && sameline(tok,tok->next) && tok->next->op == '#' && sameline(tok,tok->next->next)) {
// A##B => AB
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tok = expandHashHash(tokens, rawloc, tok, macros, expandedmacros, parametertokens);
} else if (tok->op == '#' && sameline(tok, tok->next) && tok->next->op != '#') {
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tok = expandHash(tokens, rawloc, tok, macros, expandedmacros, parametertokens);
} else {
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if (!expandArg(tokens, tok, rawloc, macros, expandedmacros, parametertokens)) {
bool expanded = false;
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const MacroMap::const_iterator it = macros.find(tok->str());
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if (it != macros.end() && expandedmacros.find(tok->str()) == expandedmacros.end()) {
const Macro &m = it->second;
if (!m.functionLike()) {
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m.expand(tokens, rawloc, tok, macros, expandedmacros);
expanded = true;
}
}
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if (!expanded) {
tokens->push_back(new Token(*tok));
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if (tok->macro.empty() && (par > 0 || tok->str() != "("))
tokens->back()->macro = name();
}
}
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if (tok->op == '(')
++par;
else if (tok->op == ')') {
--par;
if (par == 0U)
break;
}
tok = tok->next;
}
}
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for (Token *tok2 = tokens->front(); tok2; tok2 = tok2->next)
tok2->location = lpar->location;
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return sameline(lpar,tok) ? tok : nullptr;
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}
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const Token * expand(TokenList * const output, const Location &loc, const Token * const nameTokInst, const MacroMap &macros, std::set<TokenString> expandedmacros, bool first=false) const {
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if (!first)
expandedmacros.insert(nameTokInst->str());
usageList.push_back(loc);
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if (nameTokInst->str() == "__FILE__") {
output->push_back(new Token('\"'+loc.file()+'\"', loc));
return nameTokInst->next;
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}
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if (nameTokInst->str() == "__LINE__") {
output->push_back(new Token(toString(loc.line), loc));
return nameTokInst->next;
}
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if (nameTokInst->str() == "__COUNTER__") {
output->push_back(new Token(toString(usageList.size()-1U), loc));
return nameTokInst->next;
}
const bool calledInDefine = (loc.fileIndex != nameTokInst->location.fileIndex ||
loc.line < nameTokInst->location.line);
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std::vector<const Token*> parametertokens1(getMacroParameters(nameTokInst, calledInDefine));
if (functionLike()) {
// No arguments => not macro expansion
if (nameTokInst->next && nameTokInst->next->op != '(') {
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output->push_back(new Token(nameTokInst->str(), loc));
return nameTokInst->next;
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}
// Parse macro-call
if (variadic) {
if (parametertokens1.size() < args.size()) {
throw wrongNumberOfParameters(nameTokInst->location, name());
}
} else {
if (parametertokens1.size() != args.size() + (args.empty() ? 2U : 1U))
throw wrongNumberOfParameters(nameTokInst->location, name());
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}
}
// If macro call uses __COUNTER__ then expand that first
TokenList tokensparams(files);
std::vector<const Token *> parametertokens2;
if (!parametertokens1.empty()) {
bool counter = false;
for (const Token *tok = parametertokens1[0]; tok != parametertokens1.back(); tok = tok->next) {
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if (tok->str() == "__COUNTER__") {
counter = true;
break;
}
}
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const MacroMap::const_iterator m = macros.find("__COUNTER__");
if (!counter || m == macros.end())
parametertokens2.swap(parametertokens1);
else {
const Macro &counterMacro = m->second;
unsigned int par = 0;
for (const Token *tok = parametertokens1[0]; tok && par < parametertokens1.size(); tok = tok->next) {
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if (tok->str() == "__COUNTER__") {
tokensparams.push_back(new Token(toString(counterMacro.usageList.size()), tok->location));
counterMacro.usageList.push_back(tok->location);
} else {
tokensparams.push_back(new Token(*tok));
if (tok == parametertokens1[par]) {
parametertokens2.push_back(tokensparams.cback());
par++;
}
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}
}
}
}
Token * const output_end_1 = output->back();
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// expand
for (const Token *tok = valueToken; tok != endToken;) {
if (tok->op != '#') {
// A##B => AB
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if (sameline(tok, tok->next) && tok->next && tok->next->op == '#' && tok->next->next && tok->next->next->op == '#') {
if (!sameline(tok, tok->next->next->next))
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throw invalidHashHash::unexpectedNewline(tok->location, name());
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TokenList new_output(files);
if (!expandArg(&new_output, tok, parametertokens2))
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output->push_back(newMacroToken(tok->str(), loc, isReplaced(expandedmacros), tok));
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else if (new_output.empty()) // placemarker token
output->push_back(newMacroToken("", loc, isReplaced(expandedmacros)));
else
for (const Token *tok2 = new_output.cfront(); tok2; tok2 = tok2->next)
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output->push_back(newMacroToken(tok2->str(), loc, isReplaced(expandedmacros), tok2));
tok = tok->next;
} else {
tok = expandToken(output, loc, tok, macros, expandedmacros, parametertokens2);
}
continue;
}
int numberOfHash = 1;
const Token *hashToken = tok->next;
while (sameline(tok,hashToken) && hashToken->op == '#') {
hashToken = hashToken->next;
++numberOfHash;
}
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if (numberOfHash == 4 && tok->next->location.col + 1 == tok->next->next->location.col) {
// # ## # => ##
output->push_back(newMacroToken("##", loc, isReplaced(expandedmacros)));
tok = hashToken;
continue;
}
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if (numberOfHash >= 2 && tok->location.col + 1 < tok->next->location.col) {
output->push_back(new Token(*tok));
tok = tok->next;
continue;
}
tok = tok->next;
if (tok == endToken) {
output->push_back(new Token(*tok->previous));
break;
}
if (tok->op == '#') {
// A##B => AB
tok = expandHashHash(output, loc, tok->previous, macros, expandedmacros, parametertokens2);
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} else {
// #123 => "123"
tok = expandHash(output, loc, tok->previous, macros, expandedmacros, parametertokens2);
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}
}
if (!functionLike()) {
for (Token *tok = output_end_1 ? output_end_1->next : output->front(); tok; tok = tok->next) {
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tok->macro = nameTokInst->str();
}
}
if (!parametertokens1.empty())
parametertokens1.swap(parametertokens2);
return functionLike() ? parametertokens2.back()->next : nameTokInst->next;
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}
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const Token *recursiveExpandToken(TokenList *output, TokenList &temp, const Location &loc, const Token *tok, const MacroMap &macros, const std::set<TokenString> &expandedmacros, const std::vector<const Token*> &parametertokens) const {
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if (!(temp.cback() && temp.cback()->name && tok->next && tok->next->op == '(')) {
output->takeTokens(temp);
return tok->next;
}
if (!sameline(tok, tok->next)) {
output->takeTokens(temp);
return tok->next;
}
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const MacroMap::const_iterator it = macros.find(temp.cback()->str());
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if (it == macros.end() || expandedmacros.find(temp.cback()->str()) != expandedmacros.end()) {
output->takeTokens(temp);
return tok->next;
}
const Macro &calledMacro = it->second;
if (!calledMacro.functionLike()) {
output->takeTokens(temp);
return tok->next;
}
TokenList temp2(files);
temp2.push_back(new Token(temp.cback()->str(), tok->location));
const Token *tok2 = appendTokens(&temp2, loc, tok->next, macros, expandedmacros, parametertokens);
if (!tok2)
return tok->next;
output->takeTokens(temp);
output->deleteToken(output->back());
calledMacro.expand(output, loc, temp2.cfront(), macros, expandedmacros);
return tok2->next;
}
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const Token *expandToken(TokenList *output, const Location &loc, const Token *tok, const MacroMap &macros, const std::set<TokenString> &expandedmacros, const std::vector<const Token*> &parametertokens) const {
// Not name..
if (!tok->name) {
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output->push_back(newMacroToken(tok->str(), loc, true, tok));
return tok->next;
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}
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// Macro parameter..
{
TokenList temp(files);
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if (expandArg(&temp, tok, loc, macros, expandedmacros, parametertokens))
return recursiveExpandToken(output, temp, loc, tok, macros, expandedmacros, parametertokens);
}
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// Macro..
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const MacroMap::const_iterator it = macros.find(tok->str());
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if (it != macros.end() && expandedmacros.find(tok->str()) == expandedmacros.end()) {
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std::set<std::string> expandedmacros2(expandedmacros);
expandedmacros2.insert(tok->str());
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const Macro &calledMacro = it->second;
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if (!calledMacro.functionLike()) {
TokenList temp(files);
calledMacro.expand(&temp, loc, tok, macros, expandedmacros);
return recursiveExpandToken(output, temp, loc, tok, macros, expandedmacros2, parametertokens);
}
if (!sameline(tok, tok->next) || tok->next->op != '(') {
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output->push_back(newMacroToken(tok->str(), loc, true, tok));
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return tok->next;
}
TokenList tokens(files);
tokens.push_back(new Token(*tok));
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const Token *tok2 = appendTokens(&tokens, loc, tok->next, macros, expandedmacros, parametertokens);
if (!tok2) {
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output->push_back(newMacroToken(tok->str(), loc, true, tok));
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return tok->next;
}
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TokenList temp(files);
calledMacro.expand(&temp, loc, tokens.cfront(), macros, expandedmacros);
return recursiveExpandToken(output, temp, loc, tok2, macros, expandedmacros2, parametertokens);
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}
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else if (tok->str() == DEFINED) {
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const Token *tok2 = tok->next;
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const Token *tok3 = tok2 ? tok2->next : nullptr;
const Token *tok4 = tok3 ? tok3->next : nullptr;
const Token *defToken = nullptr;
const Token *lastToken = nullptr;
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if (sameline(tok, tok4) && tok2->op == '(' && tok3->name && tok4->op == ')') {
defToken = tok3;
lastToken = tok4;
} else if (sameline(tok,tok2) && tok2->name) {
defToken = lastToken = tok2;
}
if (defToken) {
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std::string macroName = defToken->str();
if (defToken->next && defToken->next->op == '#' && defToken->next->next && defToken->next->next->op == '#' && defToken->next->next->next && defToken->next->next->next->name && sameline(defToken,defToken->next->next->next)) {
TokenList temp(files);
if (expandArg(&temp, defToken, parametertokens))
macroName = temp.cback()->str();
if (expandArg(&temp, defToken->next->next->next, parametertokens))
macroName += temp.cback()->str();
else
macroName += defToken->next->next->next->str();
lastToken = defToken->next->next->next;
}
const bool def = (macros.find(macroName) != macros.end());
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output->push_back(newMacroToken(def ? "1" : "0", loc, true));
return lastToken->next;
}
}
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output->push_back(newMacroToken(tok->str(), loc, true, tok));
return tok->next;
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}
bool expandArg(TokenList *output, const Token *tok, const std::vector<const Token*> &parametertokens) const {
if (!tok->name)
return false;
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const unsigned int argnr = getArgNum(tok->str());
if (argnr >= args.size())
return false;
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// empty variadic parameter
if (variadic && argnr + 1U >= parametertokens.size())
return true;
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for (const Token *partok = parametertokens[argnr]->next; partok != parametertokens[argnr + 1U]; partok = partok->next)
output->push_back(new Token(*partok));
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return true;
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}
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bool expandArg(TokenList *output, const Token *tok, const Location &loc, const MacroMap &macros, const std::set<TokenString> &expandedmacros, const std::vector<const Token*> &parametertokens) const {
if (!tok->name)
return false;
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const unsigned int argnr = getArgNum(tok->str());
if (argnr >= args.size())
return false;
if (variadic && argnr + 1U >= parametertokens.size()) // empty variadic parameter
return true;
for (const Token *partok = parametertokens[argnr]->next; partok != parametertokens[argnr + 1U];) {
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const MacroMap::const_iterator it = macros.find(partok->str());
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if (it != macros.end() && !partok->isExpandedFrom(&it->second) && (partok->str() == name() || expandedmacros.find(partok->str()) == expandedmacros.end()))
partok = it->second.expand(output, loc, partok, macros, expandedmacros);
else {
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output->push_back(newMacroToken(partok->str(), loc, isReplaced(expandedmacros), partok));
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output->back()->macro = partok->macro;
partok = partok->next;
}
}
return true;
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}
/**
* Expand #X => "X"
* @param output destination tokenlist
* @param loc location for expanded token
* @param tok The # token
* @param macros all macros
* @param expandedmacros set with expanded macros, with this macro
* @param parametertokens parameters given when expanding this macro
* @return token after the X
*/
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const Token *expandHash(TokenList *output, const Location &loc, const Token *tok, const MacroMap &macros, const std::set<TokenString> &expandedmacros, const std::vector<const Token*> &parametertokens) const {
TokenList tokenListHash(files);
tok = expandToken(&tokenListHash, loc, tok->next, macros, expandedmacros, parametertokens);
std::ostringstream ostr;
ostr << '\"';
for (const Token *hashtok = tokenListHash.cfront(); hashtok; hashtok = hashtok->next)
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ostr << hashtok->str();
ostr << '\"';
output->push_back(newMacroToken(escapeString(ostr.str()), loc, isReplaced(expandedmacros)));
return tok;
}
/**
* Expand A##B => AB
* The A should already be expanded. Call this when you reach the first # token
* @param output destination tokenlist
* @param loc location for expanded token
* @param tok first # token
* @param macros all macros
* @param expandedmacros set with expanded macros, with this macro
* @param parametertokens parameters given when expanding this macro
* @return token after B
*/
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const Token *expandHashHash(TokenList *output, const Location &loc, const Token *tok, const MacroMap &macros, const std::set<TokenString> &expandedmacros, const std::vector<const Token*> &parametertokens) const {
Token *A = output->back();
if (!A)
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throw invalidHashHash(tok->location, name(), "Missing first argument");
if (!sameline(tok, tok->next) || !sameline(tok, tok->next->next))
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throw invalidHashHash::unexpectedNewline(tok->location, name());
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bool canBeConcatenatedWithEqual = A->isOneOf("+-*/%&|^") || A->str() == "<<" || A->str() == ">>";
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bool canBeConcatenatedStringOrChar = isStringLiteral_(A->str()) || isCharLiteral_(A->str());
if (!A->name && !A->number && A->op != ',' && !A->str().empty() && !canBeConcatenatedWithEqual && !canBeConcatenatedStringOrChar)
throw invalidHashHash::unexpectedToken(tok->location, name(), A);
Token *B = tok->next->next;
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if (!B->name && !B->number && B->op && !B->isOneOf("#="))
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throw invalidHashHash::unexpectedToken(tok->location, name(), B);
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if ((canBeConcatenatedWithEqual && B->op != '=') ||
(!canBeConcatenatedWithEqual && B->op == '='))
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throw invalidHashHash::cannotCombine(tok->location, name(), A, B);
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// Superficial check; more in-depth would in theory be possible _after_ expandArg
if (canBeConcatenatedStringOrChar && (B->number || !B->name))
throw invalidHashHash::cannotCombine(tok->location, name(), A, B);
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TokenList tokensB(files);
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const Token *nextTok = B->next;
if (canBeConcatenatedStringOrChar) {
// It seems clearer to handle this case separately even though the code is similar-ish, but we don't want to merge here.
// TODO The question is whether the ## or varargs may still apply, and how to provoke?
if (expandArg(&tokensB, B, parametertokens)) {
for (Token *b = tokensB.front(); b; b = b->next)
b->location = loc;
} else {
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tokensB.push_back(new Token(*B));
tokensB.back()->location = loc;
}
output->takeTokens(tokensB);
} else {
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std::string strAB;
const bool varargs = variadic && args.size() >= 1U && B->str() == args[args.size()-1U];
if (expandArg(&tokensB, B, parametertokens)) {
if (tokensB.empty())
strAB = A->str();
else if (varargs && A->op == ',') {
strAB = ",";
} else {
strAB = A->str() + tokensB.cfront()->str();
tokensB.deleteToken(tokensB.front());
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}
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} else {
strAB = A->str() + B->str();
}
if (varargs && tokensB.empty() && tok->previous->str() == ",")
output->deleteToken(A);
else if (strAB != "," && macros.find(strAB) == macros.end()) {
A->setstr(strAB);
for (Token *b = tokensB.front(); b; b = b->next)
b->location = loc;
output->takeTokens(tokensB);
} else if (nextTok->op == '#' && nextTok->next->op == '#') {
TokenList output2(files);
output2.push_back(new Token(strAB, tok->location));
nextTok = expandHashHash(&output2, loc, nextTok, macros, expandedmacros, parametertokens);
output->deleteToken(A);
output->takeTokens(output2);
} else {
output->deleteToken(A);
TokenList tokens(files);
tokens.push_back(new Token(strAB, tok->location));
// for function like macros, push the (...)
if (tokensB.empty() && sameline(B,B->next) && B->next->op=='(') {
const MacroMap::const_iterator it = macros.find(strAB);
if (it != macros.end() && expandedmacros.find(strAB) == expandedmacros.end() && it->second.functionLike()) {
const Token *tok2 = appendTokens(&tokens, loc, B->next, macros, expandedmacros, parametertokens);
if (tok2)
nextTok = tok2->next;
}
}
expandToken(output, loc, tokens.cfront(), macros, expandedmacros, parametertokens);
for (Token *b = tokensB.front(); b; b = b->next)
b->location = loc;
output->takeTokens(tokensB);
}
}
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return nextTok;
}
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static bool isReplaced(const std::set<std::string> &expandedmacros) {
// return true if size > 1
std::set<std::string>::const_iterator it = expandedmacros.begin();
if (it == expandedmacros.end())
return false;
++it;
return (it != expandedmacros.end());
}
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/** name token in definition */
const Token *nameTokDef;
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/** arguments for macro */
std::vector<TokenString> args;
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/** is macro variadic? */
bool variadic;
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/** first token in replacement string */
const Token *valueToken;
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/** token after replacement string */
const Token *endToken;
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/** files */
std::vector<std::string> &files;
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/** this is used for -D where the definition is not seen anywhere in code */
TokenList tokenListDefine;
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/** usage of this macro */
mutable std::list<Location> usageList;
/** was the value of this macro actually defined in the code? */
bool valueDefinedInCode_;
};
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}
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namespace simplecpp {
std::string convertCygwinToWindowsPath(const std::string &cygwinPath)
{
std::string windowsPath;
std::string::size_type pos = 0;
if (cygwinPath.size() >= 11 && startsWith(cygwinPath, "/cygdrive/")) {
unsigned char driveLetter = cygwinPath[10];
if (std::isalpha(driveLetter)) {
if (cygwinPath.size() == 11) {
windowsPath = toupper(driveLetter);
windowsPath += ":\\"; // volume root directory
pos = 11;
} else if (cygwinPath[11] == '/') {
windowsPath = toupper(driveLetter);
windowsPath += ":";
pos = 11;
}
}
}
for (; pos < cygwinPath.size(); ++pos) {
unsigned char c = cygwinPath[pos];
if (c == '/')
c = '\\';
windowsPath += c;
}
return windowsPath;
}
}
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#ifdef SIMPLECPP_WINDOWS
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class ScopedLock {
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public:
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explicit ScopedLock(CRITICAL_SECTION& criticalSection)
: m_criticalSection(criticalSection) {
EnterCriticalSection(&m_criticalSection);
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}
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~ScopedLock() {
LeaveCriticalSection(&m_criticalSection);
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}
private:
ScopedLock& operator=(const ScopedLock&);
ScopedLock(const ScopedLock&);
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CRITICAL_SECTION& m_criticalSection;
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};
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class RealFileNameMap {
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public:
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RealFileNameMap() {
InitializeCriticalSection(&m_criticalSection);
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}
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~RealFileNameMap() {
DeleteCriticalSection(&m_criticalSection);
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}
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bool getCacheEntry(const std::string& path, std::string* returnPath) {
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ScopedLock lock(m_criticalSection);
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std::map<std::string, std::string>::iterator it = m_fileMap.find(path);
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if (it != m_fileMap.end()) {
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*returnPath = it->second;
return true;
}
return false;
}
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void addToCache(const std::string& path, const std::string& actualPath) {
ScopedLock lock(m_criticalSection);
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m_fileMap[path] = actualPath;
}
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private:
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std::map<std::string, std::string> m_fileMap;
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CRITICAL_SECTION m_criticalSection;
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};
static RealFileNameMap realFileNameMap;
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static bool realFileName(const std::string &f, std::string *result)
{
// are there alpha characters in last subpath?
bool alpha = false;
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for (std::string::size_type pos = 1; pos <= f.size(); ++pos) {
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unsigned char c = f[f.size() - pos];
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if (c == '/' || c == '\\')
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break;
if (std::isalpha(c)) {
alpha = true;
break;
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}
}
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// do not convert this path if there are no alpha characters (either pointless or cause wrong results for . and ..)
if (!alpha)
return false;
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// Lookup filename or foldername on file system
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if (!realFileNameMap.getCacheEntry(f, result)) {
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WIN32_FIND_DATAA FindFileData;
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#ifdef __CYGWIN__
std::string fConverted = simplecpp::convertCygwinToWindowsPath(f);
HANDLE hFind = FindFirstFileExA(fConverted.c_str(), FindExInfoBasic, &FindFileData, FindExSearchNameMatch, NULL, 0);
#else
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HANDLE hFind = FindFirstFileExA(f.c_str(), FindExInfoBasic, &FindFileData, FindExSearchNameMatch, NULL, 0);
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#endif
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if (INVALID_HANDLE_VALUE == hFind)
return false;
*result = FindFileData.cFileName;
realFileNameMap.addToCache(f, *result);
FindClose(hFind);
}
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return true;
}
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static RealFileNameMap realFilePathMap;
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/** Change case in given path to match filesystem */
static std::string realFilename(const std::string &f)
{
std::string ret;
ret.reserve(f.size()); // this will be the final size
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if (realFilePathMap.getCacheEntry(f, &ret))
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return ret;
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// Current subpath
std::string subpath;
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for (std::string::size_type pos = 0; pos < f.size(); ++pos) {
unsigned char c = f[pos];
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// Separator.. add subpath and separator
if (c == '/' || c == '\\') {
// if subpath is empty just add separator
if (subpath.empty()) {
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ret += c;
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continue;
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}
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bool isDriveSpecification =
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(pos == 2 && subpath.size() == 2 && std::isalpha(subpath[0]) && subpath[1] == ':');
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// Append real filename (proper case)
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std::string f2;
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if (!isDriveSpecification && realFileName(f.substr(0, pos), &f2))
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ret += f2;
else
ret += subpath;
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subpath.clear();
// Append separator
ret += c;
} else {
subpath += c;
}
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}
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if (!subpath.empty()) {
std::string f2;
if (realFileName(f,&f2))
ret += f2;
else
ret += subpath;
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}
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realFilePathMap.addToCache(f, ret);
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return ret;
}
static bool isAbsolutePath(const std::string &path)
{
if (path.length() >= 3 && path[0] > 0 && std::isalpha(path[0]) && path[1] == ':' && (path[2] == '\\' || path[2] == '/'))
return true;
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return path.length() > 1U && (path[0] == '/' || path[0] == '\\');
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}
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#else
#define realFilename(f) f
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static bool isAbsolutePath(const std::string &path)
{
return path.length() > 1U && path[0] == '/';
}
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#endif
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namespace simplecpp {
/**
* perform path simplifications for . and ..
*/
std::string simplifyPath(std::string path)
{
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if (path.empty())
return path;
std::string::size_type pos;
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// replace backslash separators
std::replace(path.begin(), path.end(), '\\', '/');
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const bool unc(path.compare(0,2,"//") == 0);
// replace "//" with "/"
pos = 0;
while ((pos = path.find("//",pos)) != std::string::npos) {
path.erase(pos,1);
}
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// remove "./"
pos = 0;
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while ((pos = path.find("./",pos)) != std::string::npos) {
if (pos == 0 || path[pos - 1U] == '/')
path.erase(pos,2);
else
pos += 2;
}
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// remove trailing dot if path ends with "/."
if (endsWith(path,"/."))
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path.erase(path.size()-1);
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// simplify ".."
pos = 1; // don't simplify ".." if path starts with that
while ((pos = path.find("/..", pos)) != std::string::npos) {
// not end of path, then string must be "/../"
if (pos + 3 < path.size() && path[pos + 3] != '/') {
++pos;
continue;
}
// get previous subpath
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std::string::size_type pos1 = path.rfind('/', pos - 1U);
if (pos1 == std::string::npos) {
pos1 = 0;
} else {
pos1 += 1U;
}
const std::string previousSubPath = path.substr(pos1, pos - pos1);
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if (previousSubPath == "..") {
// don't simplify
++pos;
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} else {
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// remove previous subpath and ".."
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path.erase(pos1, pos - pos1 + 4);
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if (path.empty())
path = ".";
// update pos
pos = (pos1 == 0) ? 1 : (pos1 - 1);
}
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}
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// Remove trailing '/'?
//if (path.size() > 1 && endsWith(path, "/"))
// path.erase(path.size()-1);
if (unc)
path = '/' + path;
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return path.find_first_of("*?") == std::string::npos ? realFilename(path) : path;
}
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}
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/** Evaluate sizeof(type) */
static void simplifySizeof(simplecpp::TokenList &expr, const std::map<std::string, std::size_t> &sizeOfType)
{
for (simplecpp::Token *tok = expr.front(); tok; tok = tok->next) {
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if (tok->str() != "sizeof")
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continue;
simplecpp::Token *tok1 = tok->next;
if (!tok1) {
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throw std::runtime_error("missing sizeof argument");
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}
simplecpp::Token *tok2 = tok1->next;
if (!tok2) {
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throw std::runtime_error("missing sizeof argument");
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}
if (tok1->op == '(') {
tok1 = tok1->next;
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while (tok2->op != ')') {
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tok2 = tok2->next;
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if (!tok2) {
throw std::runtime_error("invalid sizeof expression");
}
}
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}
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std::string type;
for (simplecpp::Token *typeToken = tok1; typeToken != tok2; typeToken = typeToken->next) {
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if ((typeToken->str() == "unsigned" || typeToken->str() == "signed") && typeToken->next->name)
continue;
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if (typeToken->str() == "*" && type.find('*') != std::string::npos)
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continue;
if (!type.empty())
type += ' ';
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type += typeToken->str();
}
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const std::map<std::string, std::size_t>::const_iterator it = sizeOfType.find(type);
if (it != sizeOfType.end())
tok->setstr(toString(it->second));
else
continue;
tok2 = tok2->next;
while (tok->next != tok2)
expr.deleteToken(tok->next);
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}
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}
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static const char * const altopData[] = {"and","or","bitand","bitor","compl","not","not_eq","xor"};
static const std::set<std::string> altop(&altopData[0], &altopData[8]);
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static void simplifyName(simplecpp::TokenList &expr)
{
for (simplecpp::Token *tok = expr.front(); tok; tok = tok->next) {
if (tok->name) {
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if (altop.find(tok->str()) != altop.end()) {
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bool alt;
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if (tok->str() == "not" || tok->str() == "compl") {
alt = isAlternativeUnaryOp(tok,tok->str());
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} else {
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alt = isAlternativeBinaryOp(tok,tok->str());
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}
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if (alt)
continue;
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}
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tok->setstr("0");
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}
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}
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}
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/*
* Reads at least minlen and at most maxlen digits (inc. prefix) in base base
* from s starting at position pos and converts them to a
* unsigned long long value, updating pos to point to the first
* unused element of s.
* Returns ULLONG_MAX if the result is not representable and
* throws if the above requirements were not possible to satisfy.
*/
static unsigned long long stringToULLbounded(
const std::string& s,
std::size_t& pos,
int base = 0,
std::ptrdiff_t minlen = 1,
std::size_t maxlen = std::string::npos
)
{
std::string sub = s.substr(pos, maxlen);
const char* start = sub.c_str();
char* end;
unsigned long long value = std::strtoull(start, &end, base);
pos += end - start;
if (end - start < minlen)
throw std::runtime_error("expected digit");
return value;
}
/* Converts character literal (including prefix, but not ud-suffix)
* to long long value.
*
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* Assumes ASCII-compatible single-byte encoded str for narrow literals
* and UTF-8 otherwise.
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*
* For target assumes
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* - execution character set encoding matching str
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* - UTF-32 execution wide-character set encoding
* - requirements for __STDC_UTF_16__, __STDC_UTF_32__ and __STDC_ISO_10646__ satisfied
* - char16_t is 16bit wide
* - char32_t is 32bit wide
* - wchar_t is 32bit wide and unsigned
* - matching char signedness to host
* - matching sizeof(int) to host
*
* For host assumes
* - ASCII-compatible execution character set
*
* For host and target assumes
* - CHAR_BIT == 8
* - two's complement
*
* Implements multi-character narrow literals according to GCC's behavior,
* except multi code unit universal character names are not supported.
* Multi-character wide literals are not supported.
* Limited support of universal character names for non-UTF-8 execution character set encodings.
*/
long long simplecpp::characterLiteralToLL(const std::string& str)
{
// default is wide/utf32
bool narrow = false;
bool utf8 = false;
bool utf16 = false;
std::size_t pos;
if (str.size() >= 1 && str[0] == '\'') {
narrow = true;
pos = 1;
} else if (str.size() >= 2 && str[0] == 'u' && str[1] == '\'') {
utf16 = true;
pos = 2;
} else if (str.size() >= 3 && str[0] == 'u' && str[1] == '8' && str[2] == '\'') {
utf8 = true;
pos = 3;
} else if (str.size() >= 2 && (str[0] == 'L' || str[0] == 'U') && str[1] == '\'') {
pos = 2;
} else
throw std::runtime_error("expected a character literal");
unsigned long long multivalue = 0;
std::size_t nbytes = 0;
while (pos + 1 < str.size()) {
if (str[pos] == '\'' || str[pos] == '\n')
throw std::runtime_error("raw single quotes and newlines not allowed in character literals");
if (nbytes >= 1 && !narrow)
throw std::runtime_error("multiple characters only supported in narrow character literals");
unsigned long long value;
if (str[pos] == '\\') {
pos++;
char escape = str[pos++];
if (pos >= str.size())
throw std::runtime_error("unexpected end of character literal");
switch (escape) {
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// obscure GCC extensions
case '%':
case '(':
case '[':
case '{':
// standard escape sequences
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case '\'':
case '"':
case '?':
case '\\':
value = static_cast<unsigned char>(escape);
break;
case 'a':
value = static_cast<unsigned char>('\a');
break;
case 'b':
value = static_cast<unsigned char>('\b');
break;
case 'f':
value = static_cast<unsigned char>('\f');
break;
case 'n':
value = static_cast<unsigned char>('\n');
break;
case 'r':
value = static_cast<unsigned char>('\r');
break;
case 't':
value = static_cast<unsigned char>('\t');
break;
case 'v':
value = static_cast<unsigned char>('\v');
break;
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// GCC extension for ESC character
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case 'e':
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case 'E':
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value = static_cast<unsigned char>('\x1b');
break;
case '0':
case '1':
case '2':
case '3':
case '4':
case '5':
case '6':
case '7':
// octal escape sequences consist of 1 to 3 digits
value = stringToULLbounded(str, --pos, 8, 1, 3);
break;
case 'x':
// hexadecimal escape sequences consist of at least 1 digit
value = stringToULLbounded(str, pos, 16);
break;
case 'u':
case 'U': {
// universal character names have exactly 4 or 8 digits
std::size_t ndigits = (escape == 'u' ? 4 : 8);
value = stringToULLbounded(str, pos, 16, ndigits, ndigits);
// UTF-8 encodes code points above 0x7f in multiple code units
// code points above 0x10ffff are not allowed
if (((narrow || utf8) && value > 0x7f) || (utf16 && value > 0xffff) || value > 0x10ffff)
throw std::runtime_error("code point too large");
if (value >= 0xd800 && value <= 0xdfff)
throw std::runtime_error("surrogate code points not allowed in universal character names");
break;
}
default:
throw std::runtime_error("invalid escape sequence");
}
} else {
value = static_cast<unsigned char>(str[pos++]);
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if (!narrow && value >= 0x80) {
// Assuming this is a UTF-8 encoded code point.
// This decoder may not completely validate the input.
// Noncharacters are neither rejected nor replaced.
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int additional_bytes;
if (value >= 0xf5) // higher values would result in code points above 0x10ffff
throw std::runtime_error("assumed UTF-8 encoded source, but sequence is invalid");
else if (value >= 0xf0)
additional_bytes = 3;
else if (value >= 0xe0)
additional_bytes = 2;
else if (value >= 0xc2) // 0xc0 and 0xc1 are always overlong 2-bytes encodings
additional_bytes = 1;
else
throw std::runtime_error("assumed UTF-8 encoded source, but sequence is invalid");
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value &= (1 << (6 - additional_bytes)) - 1;
while (additional_bytes--) {
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if (pos + 1 >= str.size())
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throw std::runtime_error("assumed UTF-8 encoded source, but character literal ends unexpectedly");
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unsigned char c = str[pos++];
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if (((c >> 6) != 2) // ensure c has form 0xb10xxxxxx
|| (!value && additional_bytes == 1 && c < 0xa0) // overlong 3-bytes encoding
|| (!value && additional_bytes == 2 && c < 0x90)) // overlong 4-bytes encoding
throw std::runtime_error("assumed UTF-8 encoded source, but sequence is invalid");
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value = (value << 6) | (c & ((1 << 7) - 1));
}
if (value >= 0xd800 && value <= 0xdfff)
throw std::runtime_error("assumed UTF-8 encoded source, but sequence is invalid");
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if ((utf8 && value > 0x7f) || (utf16 && value > 0xffff) || value > 0x10ffff)
throw std::runtime_error("code point too large");
}
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}
if (((narrow || utf8) && value > std::numeric_limits<unsigned char>::max()) || (utf16 && value >> 16) || value >> 32)
throw std::runtime_error("numeric escape sequence too large");
multivalue <<= CHAR_BIT;
multivalue |= value;
nbytes++;
}
if (pos + 1 != str.size() || str[pos] != '\'')
throw std::runtime_error("missing closing quote in character literal");
if (!nbytes)
throw std::runtime_error("empty character literal");
// ordinary narrow character literal's value is determined by (possibly signed) char
if (narrow && nbytes == 1)
return static_cast<char>(multivalue);
// while multi-character literal's value is determined by (signed) int
if (narrow)
return static_cast<int>(multivalue);
// All other cases are unsigned. Since long long is at least 64bit wide,
// while the literals at most 32bit wide, the conversion preserves all values.
return multivalue;
}
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static void simplifyNumbers(simplecpp::TokenList &expr)
{
for (simplecpp::Token *tok = expr.front(); tok; tok = tok->next) {
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if (tok->str().size() == 1U)
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continue;
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if (tok->str().compare(0,2,"0x") == 0)
tok->setstr(toString(stringToULL(tok->str())));
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else if (!tok->number && tok->str().find('\'') != tok->str().npos)
tok->setstr(toString(simplecpp::characterLiteralToLL(tok->str())));
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}
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}
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static long long evaluate(simplecpp::TokenList &expr, const std::map<std::string, std::size_t> &sizeOfType)
{
simplifySizeof(expr, sizeOfType);
simplifyName(expr);
simplifyNumbers(expr);
expr.constFold();
// TODO: handle invalid expressions
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return expr.cfront() && expr.cfront() == expr.cback() && expr.cfront()->number ? stringToLL(expr.cfront()->str()) : 0LL;
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}
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static const simplecpp::Token *gotoNextLine(const simplecpp::Token *tok)
{
const unsigned int line = tok->location.line;
const unsigned int file = tok->location.fileIndex;
while (tok && tok->location.line == line && tok->location.fileIndex == file)
tok = tok->next;
return tok;
}
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#ifdef SIMPLECPP_WINDOWS
class NonExistingFilesCache {
public:
NonExistingFilesCache() {
InitializeCriticalSection(&m_criticalSection);
}
~NonExistingFilesCache() {
DeleteCriticalSection(&m_criticalSection);
}
bool contains(const std::string& path) {
ScopedLock lock(m_criticalSection);
return (m_pathSet.find(path) != m_pathSet.end());
}
void add(const std::string& path) {
ScopedLock lock(m_criticalSection);
m_pathSet.insert(path);
}
private:
std::set<std::string> m_pathSet;
CRITICAL_SECTION m_criticalSection;
};
static NonExistingFilesCache nonExistingFilesCache;
#endif
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static std::string openHeader(std::ifstream &f, const std::string &path)
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{
#ifdef SIMPLECPP_WINDOWS
std::string simplePath = simplecpp::simplifyPath(path);
if (nonExistingFilesCache.contains(simplePath))
return ""; // file is known not to exist, skip expensive file open call
f.open(simplePath.c_str());
if (f.is_open())
return simplePath;
else {
nonExistingFilesCache.add(simplePath);
return "";
}
#else
f.open(path.c_str());
return f.is_open() ? simplecpp::simplifyPath(path) : "";
#endif
}
static std::string getRelativeFileName(const std::string &sourcefile, const std::string &header)
{
if (sourcefile.find_first_of("\\/") != std::string::npos)
return simplecpp::simplifyPath(sourcefile.substr(0, sourcefile.find_last_of("\\/") + 1U) + header);
return simplecpp::simplifyPath(header);
}
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static std::string openHeaderRelative(std::ifstream &f, const std::string &sourcefile, const std::string &header)
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{
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return openHeader(f, getRelativeFileName(sourcefile, header));
}
static std::string getIncludePathFileName(const std::string &includePath, const std::string &header)
{
std::string path = includePath;
if (!path.empty() && path[path.size()-1U]!='/' && path[path.size()-1U]!='\\')
path += '/';
return path + header;
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}
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static std::string openHeaderIncludePath(std::ifstream &f, const simplecpp::DUI &dui, const std::string &header)
{
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for (std::list<std::string>::const_iterator it = dui.includePaths.begin(); it != dui.includePaths.end(); ++it) {
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std::string simplePath = openHeader(f, getIncludePathFileName(*it, header));
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if (!simplePath.empty())
return simplePath;
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}
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return "";
}
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static std::string openHeader(std::ifstream &f, const simplecpp::DUI &dui, const std::string &sourcefile, const std::string &header, bool systemheader)
{
if (isAbsolutePath(header))
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return openHeader(f, header);
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std::string ret;
if (systemheader) {
ret = openHeaderIncludePath(f, dui, header);
return ret.empty() ? openHeaderRelative(f, sourcefile, header) : ret;
}
ret = openHeaderRelative(f, sourcefile, header);
return ret.empty() ? openHeaderIncludePath(f, dui, header) : ret;
}
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static std::string getFileName(const std::map<std::string, simplecpp::TokenList *> &filedata, const std::string &sourcefile, const std::string &header, const simplecpp::DUI &dui, bool systemheader)
{
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if (filedata.empty()) {
return "";
}
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if (isAbsolutePath(header)) {
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return (filedata.find(header) != filedata.end()) ? simplecpp::simplifyPath(header) : "";
}
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const std::string relativeFilename = getRelativeFileName(sourcefile, header);
if (!systemheader && filedata.find(relativeFilename) != filedata.end())
return relativeFilename;
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for (std::list<std::string>::const_iterator it = dui.includePaths.begin(); it != dui.includePaths.end(); ++it) {
std::string s = simplecpp::simplifyPath(getIncludePathFileName(*it, header));
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if (filedata.find(s) != filedata.end())
return s;
}
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if (filedata.find(relativeFilename) != filedata.end())
return relativeFilename;
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return "";
}
static bool hasFile(const std::map<std::string, simplecpp::TokenList *> &filedata, const std::string &sourcefile, const std::string &header, const simplecpp::DUI &dui, bool systemheader)
{
return !getFileName(filedata, sourcefile, header, dui, systemheader).empty();
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}
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std::map<std::string, simplecpp::TokenList*> simplecpp::load(const simplecpp::TokenList &rawtokens, std::vector<std::string> &fileNumbers, const simplecpp::DUI &dui, simplecpp::OutputList *outputList)
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{
std::map<std::string, simplecpp::TokenList*> ret;
std::list<const Token *> filelist;
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// -include files
for (std::list<std::string>::const_iterator it = dui.includes.begin(); it != dui.includes.end(); ++it) {
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const std::string &filename = realFilename(*it);
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if (ret.find(filename) != ret.end())
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continue;
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std::ifstream fin(filename.c_str());
if (!fin.is_open()) {
if (outputList) {
simplecpp::Output err(fileNumbers);
err.type = simplecpp::Output::EXPLICIT_INCLUDE_NOT_FOUND;
err.location = Location(fileNumbers);
err.msg = "Can not open include file '" + filename + "' that is explicitly included.";
outputList->push_back(err);
}
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continue;
}
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TokenList *tokenlist = new TokenList(fin, fileNumbers, filename, outputList);
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if (!tokenlist->front()) {
delete tokenlist;
continue;
}
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ret[filename] = tokenlist;
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filelist.push_back(tokenlist->front());
}
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for (const Token *rawtok = rawtokens.cfront(); rawtok || !filelist.empty(); rawtok = rawtok ? rawtok->next : nullptr) {
if (rawtok == nullptr) {
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rawtok = filelist.back();
filelist.pop_back();
}
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if (rawtok->op != '#' || sameline(rawtok->previousSkipComments(), rawtok))
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continue;
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rawtok = rawtok->nextSkipComments();
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if (!rawtok || rawtok->str() != INCLUDE)
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continue;
const std::string &sourcefile = rawtok->location.file();
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const Token *htok = rawtok->nextSkipComments();
if (!sameline(rawtok, htok))
continue;
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bool systemheader = (htok->str()[0] == '<');
const std::string header(realFilename(htok->str().substr(1U, htok->str().size() - 2U)));
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if (hasFile(ret, sourcefile, header, dui, systemheader))
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continue;
std::ifstream f;
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const std::string header2 = openHeader(f,dui,sourcefile,header,systemheader);
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if (!f.is_open())
continue;
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TokenList *tokens = new TokenList(f, fileNumbers, header2, outputList);
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ret[header2] = tokens;
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if (tokens->front())
filelist.push_back(tokens->front());
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}
return ret;
}
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static bool preprocessToken(simplecpp::TokenList &output, const simplecpp::Token **tok1, simplecpp::MacroMap &macros, std::vector<std::string> &files, simplecpp::OutputList *outputList)
{
const simplecpp::Token *tok = *tok1;
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const simplecpp::MacroMap::const_iterator it = macros.find(tok->str());
if (it != macros.end()) {
simplecpp::TokenList value(files);
try {
*tok1 = it->second.expand(&value, tok, macros, files);
} catch (simplecpp::Macro::Error &err) {
if (outputList) {
simplecpp::Output out(files);
out.type = simplecpp::Output::SYNTAX_ERROR;
out.location = err.location;
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out.msg = "failed to expand \'" + tok->str() + "\', " + err.what;
outputList->push_back(out);
}
return false;
}
output.takeTokens(value);
} else {
if (!tok->comment)
output.push_back(new simplecpp::Token(*tok));
*tok1 = tok->next;
}
return true;
}
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static void getLocaltime(struct tm &ltime) {
time_t t;
time(&t);
#ifndef _WIN32
localtime_r(&t, &ltime);
#else
localtime_s(&ltime, &t);
#endif
}
static std::string getDateDefine(struct tm *timep) {
char buf[] = "??? ?? ????";
strftime(buf, sizeof(buf), "%b %d %Y", timep);
return std::string("\"").append(buf).append("\"");
}
static std::string getTimeDefine(struct tm *timep) {
char buf[] = "??:??:??";
strftime(buf, sizeof(buf), "%T", timep);
return std::string("\"").append(buf).append("\"");
}
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void simplecpp::preprocess(simplecpp::TokenList &output, const simplecpp::TokenList &rawtokens, std::vector<std::string> &files, std::map<std::string, simplecpp::TokenList *> &filedata, const simplecpp::DUI &dui, simplecpp::OutputList *outputList, std::list<simplecpp::MacroUsage> *macroUsage, std::list<simplecpp::IfCond> *ifCond)
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{
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std::map<std::string, std::size_t> sizeOfType(rawtokens.sizeOfType);
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sizeOfType.insert(std::make_pair("char", sizeof(char)));
sizeOfType.insert(std::make_pair("short", sizeof(short)));
sizeOfType.insert(std::make_pair("short int", sizeOfType["short"]));
sizeOfType.insert(std::make_pair("int", sizeof(int)));
sizeOfType.insert(std::make_pair("long", sizeof(long)));
sizeOfType.insert(std::make_pair("long int", sizeOfType["long"]));
sizeOfType.insert(std::make_pair("long long", sizeof(long long)));
sizeOfType.insert(std::make_pair("float", sizeof(float)));
sizeOfType.insert(std::make_pair("double", sizeof(double)));
sizeOfType.insert(std::make_pair("long double", sizeof(long double)));
sizeOfType.insert(std::make_pair("char *", sizeof(char *)));
sizeOfType.insert(std::make_pair("short *", sizeof(short *)));
sizeOfType.insert(std::make_pair("short int *", sizeOfType["short *"]));
sizeOfType.insert(std::make_pair("int *", sizeof(int *)));
sizeOfType.insert(std::make_pair("long *", sizeof(long *)));
sizeOfType.insert(std::make_pair("long int *", sizeOfType["long *"]));
sizeOfType.insert(std::make_pair("long long *", sizeof(long long *)));
sizeOfType.insert(std::make_pair("float *", sizeof(float *)));
sizeOfType.insert(std::make_pair("double *", sizeof(double *)));
sizeOfType.insert(std::make_pair("long double *", sizeof(long double *)));
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const bool hasInclude = (dui.std.size() == 5 && dui.std.compare(0,3,"c++") == 0 && dui.std >= "c++17");
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MacroMap macros;
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for (std::list<std::string>::const_iterator it = dui.defines.begin(); it != dui.defines.end(); ++it) {
const std::string &macrostr = *it;
const std::string::size_type eq = macrostr.find('=');
const std::string::size_type par = macrostr.find('(');
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const std::string macroname = macrostr.substr(0, std::min(eq,par));
if (dui.undefined.find(macroname) != dui.undefined.end())
continue;
const std::string lhs(macrostr.substr(0,eq));
const std::string rhs(eq==std::string::npos ? std::string("1") : macrostr.substr(eq+1));
const Macro macro(lhs, rhs, files);
macros.insert(std::pair<TokenString,Macro>(macro.name(), macro));
}
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macros.insert(std::make_pair("__FILE__", Macro("__FILE__", "__FILE__", files)));
macros.insert(std::make_pair("__LINE__", Macro("__LINE__", "__LINE__", files)));
macros.insert(std::make_pair("__COUNTER__", Macro("__COUNTER__", "__COUNTER__", files)));
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struct tm ltime = {};
getLocaltime(ltime);
macros.insert(std::make_pair("__DATE__", Macro("__DATE__", getDateDefine(&ltime), files)));
macros.insert(std::make_pair("__TIME__", Macro("__TIME__", getTimeDefine(&ltime), files)));
if (!dui.std.empty()) {
std::string std_def = simplecpp::getCStdString(dui.std);
if (!std_def.empty()) {
macros.insert(std::make_pair("__STDC_VERSION__", Macro("__STDC_VERSION__", std_def, files)));
} else {
std_def = simplecpp::getCppStdString(dui.std);
if (!std_def.empty())
macros.insert(std::make_pair("__cplusplus", Macro("__cplusplus", std_def, files)));
}
}
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// TRUE => code in current #if block should be kept
// ELSE_IS_TRUE => code in current #if block should be dropped. the code in the #else should be kept.
// ALWAYS_FALSE => drop all code in #if and #else
enum IfState { TRUE, ELSE_IS_TRUE, ALWAYS_FALSE };
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std::stack<int> ifstates;
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ifstates.push(TRUE);
std::stack<const Token *> includetokenstack;
std::set<std::string> pragmaOnce;
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includetokenstack.push(rawtokens.cfront());
for (std::list<std::string>::const_iterator it = dui.includes.begin(); it != dui.includes.end(); ++it) {
const std::map<std::string, TokenList*>::const_iterator f = filedata.find(*it);
if (f != filedata.end())
includetokenstack.push(f->second->cfront());
}
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std::map<std::string, std::list<Location> > maybeUsedMacros;
for (const Token *rawtok = nullptr; rawtok || !includetokenstack.empty();) {
if (rawtok == nullptr) {
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rawtok = includetokenstack.top();
includetokenstack.pop();
continue;
}
if (rawtok->op == '#' && !sameline(rawtok->previous, rawtok)) {
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if (!sameline(rawtok, rawtok->next)) {
rawtok = rawtok->next;
continue;
}
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rawtok = rawtok->next;
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if (!rawtok->name) {
rawtok = gotoNextLine(rawtok);
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continue;
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}
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if (ifstates.size() <= 1U && (rawtok->str() == ELIF || rawtok->str() == ELSE || rawtok->str() == ENDIF)) {
if (outputList) {
simplecpp::Output err(files);
err.type = Output::SYNTAX_ERROR;
err.location = rawtok->location;
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err.msg = "#" + rawtok->str() + " without #if";
outputList->push_back(err);
}
output.clear();
return;
}
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if (ifstates.top() == TRUE && (rawtok->str() == ERROR || rawtok->str() == WARNING)) {
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if (outputList) {
simplecpp::Output err(rawtok->location.files);
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err.type = rawtok->str() == ERROR ? Output::ERROR : Output::WARNING;
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err.location = rawtok->location;
for (const Token *tok = rawtok->next; tok && sameline(rawtok,tok); tok = tok->next) {
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if (!err.msg.empty() && isNameChar(tok->str()[0]))
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err.msg += ' ';
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err.msg += tok->str();
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}
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err.msg = '#' + rawtok->str() + ' ' + err.msg;
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outputList->push_back(err);
}
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if (rawtok->str() == ERROR) {
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output.clear();
return;
}
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}
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if (rawtok->str() == DEFINE) {
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if (ifstates.top() != TRUE)
continue;
try {
const Macro &macro = Macro(rawtok->previous, files);
if (dui.undefined.find(macro.name()) == dui.undefined.end()) {
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MacroMap::iterator it = macros.find(macro.name());
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if (it == macros.end())
macros.insert(std::pair<TokenString, Macro>(macro.name(), macro));
else
it->second = macro;
}
} catch (const std::runtime_error &) {
if (outputList) {
simplecpp::Output err(files);
err.type = Output::SYNTAX_ERROR;
err.location = rawtok->location;
err.msg = "Failed to parse #define";
outputList->push_back(err);
}
output.clear();
return;
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}
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} else if (ifstates.top() == TRUE && rawtok->str() == INCLUDE) {
TokenList inc1(files);
for (const Token *inctok = rawtok->next; sameline(rawtok,inctok); inctok = inctok->next) {
if (!inctok->comment)
inc1.push_back(new Token(*inctok));
}
TokenList inc2(files);
if (!inc1.empty() && inc1.cfront()->name) {
const Token *inctok = inc1.cfront();
if (!preprocessToken(inc2, &inctok, macros, files, outputList)) {
output.clear();
return;
}
} else {
inc2.takeTokens(inc1);
}
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if (!inc2.empty() && inc2.cfront()->op == '<' && inc2.cback()->op == '>') {
TokenString hdr;
// TODO: Sometimes spaces must be added in the string
// Somehow preprocessToken etc must be told that the location should be source location not destination location
for (const Token *tok = inc2.cfront(); tok; tok = tok->next) {
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hdr += tok->str();
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}
inc2.clear();
inc2.push_back(new Token(hdr, inc1.cfront()->location));
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inc2.front()->op = '<';
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}
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if (inc2.empty() || inc2.cfront()->str().size() <= 2U) {
if (outputList) {
simplecpp::Output err(files);
err.type = Output::SYNTAX_ERROR;
err.location = rawtok->location;
err.msg = "No header in #include";
outputList->push_back(err);
}
output.clear();
return;
}
const Token *inctok = inc2.cfront();
const bool systemheader = (inctok->op == '<');
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const std::string header(realFilename(inctok->str().substr(1U, inctok->str().size() - 2U)));
std::string header2 = getFileName(filedata, rawtok->location.file(), header, dui, systemheader);
if (header2.empty()) {
// try to load file..
std::ifstream f;
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header2 = openHeader(f, dui, rawtok->location.file(), header, systemheader);
if (f.is_open()) {
TokenList *tokens = new TokenList(f, files, header2, outputList);
filedata[header2] = tokens;
}
}
if (header2.empty()) {
if (outputList) {
simplecpp::Output out(files);
out.type = Output::MISSING_HEADER;
out.location = rawtok->location;
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out.msg = "Header not found: " + inctok->str();
outputList->push_back(out);
}
} else if (includetokenstack.size() >= 400) {
if (outputList) {
simplecpp::Output out(files);
out.type = Output::INCLUDE_NESTED_TOO_DEEPLY;
out.location = rawtok->location;
out.msg = "#include nested too deeply";
outputList->push_back(out);
}
} else if (pragmaOnce.find(header2) == pragmaOnce.end()) {
includetokenstack.push(gotoNextLine(rawtok));
const TokenList *includetokens = filedata.find(header2)->second;
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rawtok = includetokens ? includetokens->cfront() : nullptr;
continue;
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}
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} else if (rawtok->str() == IF || rawtok->str() == IFDEF || rawtok->str() == IFNDEF || rawtok->str() == ELIF) {
if (!sameline(rawtok,rawtok->next)) {
if (outputList) {
simplecpp::Output out(files);
out.type = Output::SYNTAX_ERROR;
out.location = rawtok->location;
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out.msg = "Syntax error in #" + rawtok->str();
outputList->push_back(out);
}
output.clear();
return;
}
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bool conditionIsTrue;
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if (ifstates.top() == ALWAYS_FALSE || (ifstates.top() == ELSE_IS_TRUE && rawtok->str() != ELIF))
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conditionIsTrue = false;
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else if (rawtok->str() == IFDEF) {
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conditionIsTrue = (macros.find(rawtok->next->str()) != macros.end() || (hasInclude && rawtok->next->str() == HAS_INCLUDE));
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maybeUsedMacros[rawtok->next->str()].push_back(rawtok->next->location);
} else if (rawtok->str() == IFNDEF) {
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conditionIsTrue = (macros.find(rawtok->next->str()) == macros.end() && !(hasInclude && rawtok->next->str() == HAS_INCLUDE));
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maybeUsedMacros[rawtok->next->str()].push_back(rawtok->next->location);
} else { /*if (rawtok->str() == IF || rawtok->str() == ELIF)*/
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TokenList expr(files);
for (const Token *tok = rawtok->next; tok && tok->location.sameline(rawtok->location); tok = tok->next) {
if (!tok->name) {
expr.push_back(new Token(*tok));
continue;
}
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if (tok->str() == DEFINED) {
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tok = tok->next;
const bool par = (tok && tok->op == '(');
if (par)
tok = tok->next;
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maybeUsedMacros[rawtok->next->str()].push_back(rawtok->next->location);
if (tok) {
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if (macros.find(tok->str()) != macros.end())
expr.push_back(new Token("1", tok->location));
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else if (hasInclude && tok->str() == HAS_INCLUDE)
expr.push_back(new Token("1", tok->location));
else
expr.push_back(new Token("0", tok->location));
}
if (par)
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tok = tok ? tok->next : nullptr;
if (!tok || !sameline(rawtok,tok) || (par && tok->op != ')')) {
if (outputList) {
Output out(rawtok->location.files);
out.type = Output::SYNTAX_ERROR;
out.location = rawtok->location;
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out.msg = "failed to evaluate " + std::string(rawtok->str() == IF ? "#if" : "#elif") + " condition";
outputList->push_back(out);
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}
output.clear();
return;
}
continue;
}
if (hasInclude && tok->str() == HAS_INCLUDE) {
tok = tok->next;
const bool par = (tok && tok->op == '(');
if (par)
tok = tok->next;
if (tok) {
const std::string &sourcefile = rawtok->location.file();
const bool systemheader = (tok->str()[0] == '<');
const std::string header(realFilename(tok->str().substr(1U, tok->str().size() - 2U)));
std::ifstream f;
const std::string header2 = openHeader(f,dui,sourcefile,header,systemheader);
expr.push_back(new Token(header2.empty() ? "0" : "1", tok->location));
}
if (par)
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tok = tok ? tok->next : nullptr;
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if (!tok || !sameline(rawtok,tok) || (par && tok->op != ')')) {
if (outputList) {
Output out(rawtok->location.files);
out.type = Output::SYNTAX_ERROR;
out.location = rawtok->location;
out.msg = "failed to evaluate " + std::string(rawtok->str() == IF ? "#if" : "#elif") + " condition";
outputList->push_back(out);
}
output.clear();
return;
}
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continue;
}
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maybeUsedMacros[rawtok->next->str()].push_back(rawtok->next->location);
const Token *tmp = tok;
if (!preprocessToken(expr, &tmp, macros, files, outputList)) {
output.clear();
return;
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}
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if (!tmp)
break;
tok = tmp->previous;
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}
try {
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if (ifCond) {
std::string E;
for (const simplecpp::Token *tok = expr.cfront(); tok; tok = tok->next)
E += (E.empty() ? "" : " ") + tok->str();
const long long result = evaluate(expr, sizeOfType);
conditionIsTrue = (result != 0);
ifCond->push_back(IfCond(rawtok->location, E, result));
} else {
const long long result = evaluate(expr, sizeOfType);
conditionIsTrue = (result != 0);
}
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} catch (const std::exception &e) {
if (outputList) {
Output out(rawtok->location.files);
out.type = Output::SYNTAX_ERROR;
out.location = rawtok->location;
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out.msg = "failed to evaluate " + std::string(rawtok->str() == IF ? "#if" : "#elif") + " condition";
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if (e.what() && *e.what())
out.msg += std::string(", ") + e.what();
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outputList->push_back(out);
}
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output.clear();
return;
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}
}
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if (rawtok->str() != ELIF) {
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// push a new ifstate..
if (ifstates.top() != TRUE)
ifstates.push(ALWAYS_FALSE);
else
ifstates.push(conditionIsTrue ? TRUE : ELSE_IS_TRUE);
} else if (ifstates.top() == TRUE) {
ifstates.top() = ALWAYS_FALSE;
} else if (ifstates.top() == ELSE_IS_TRUE && conditionIsTrue) {
ifstates.top() = TRUE;
}
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} else if (rawtok->str() == ELSE) {
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ifstates.top() = (ifstates.top() == ELSE_IS_TRUE) ? TRUE : ALWAYS_FALSE;
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} else if (rawtok->str() == ENDIF) {
ifstates.pop();
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} else if (rawtok->str() == UNDEF) {
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if (ifstates.top() == TRUE) {
const Token *tok = rawtok->next;
while (sameline(rawtok,tok) && tok->comment)
tok = tok->next;
if (sameline(rawtok, tok))
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macros.erase(tok->str());
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}
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} else if (ifstates.top() == TRUE && rawtok->str() == PRAGMA && rawtok->next && rawtok->next->str() == ONCE && sameline(rawtok,rawtok->next)) {
pragmaOnce.insert(rawtok->location.file());
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}
rawtok = gotoNextLine(rawtok);
continue;
}
if (ifstates.top() != TRUE) {
// drop code
rawtok = gotoNextLine(rawtok);
continue;
}
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bool hash=false, hashhash=false;
if (rawtok->op == '#' && sameline(rawtok,rawtok->next)) {
if (rawtok->next->op != '#') {
hash = true;
rawtok = rawtok->next; // skip '#'
} else if (sameline(rawtok,rawtok->next->next)) {
hashhash = true;
rawtok = rawtok->next->next; // skip '#' '#'
}
}
const Location loc(rawtok->location);
TokenList tokens(files);
if (!preprocessToken(tokens, &rawtok, macros, files, outputList)) {
output.clear();
return;
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}
if (hash || hashhash) {
std::string s;
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for (const Token *hashtok = tokens.cfront(); hashtok; hashtok = hashtok->next)
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s += hashtok->str();
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if (hash)
output.push_back(new Token('\"' + s + '\"', loc));
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else if (output.back())
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output.back()->setstr(output.cback()->str() + s);
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else
output.push_back(new Token(s, loc));
} else {
output.takeTokens(tokens);
}
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}
if (macroUsage) {
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for (simplecpp::MacroMap::const_iterator macroIt = macros.begin(); macroIt != macros.end(); ++macroIt) {
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const Macro &macro = macroIt->second;
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std::list<Location> usage = macro.usage();
const std::list<Location>& temp = maybeUsedMacros[macro.name()];
usage.insert(usage.end(), temp.begin(), temp.end());
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for (std::list<Location>::const_iterator usageIt = usage.begin(); usageIt != usage.end(); ++usageIt) {
MacroUsage mu(usageIt->files, macro.valueDefinedInCode());
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mu.macroName = macro.name();
mu.macroLocation = macro.defineLocation();
mu.useLocation = *usageIt;
macroUsage->push_back(mu);
}
}
}
}
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void simplecpp::cleanup(std::map<std::string, TokenList*> &filedata)
{
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for (std::map<std::string, TokenList*>::iterator it = filedata.begin(); it != filedata.end(); ++it)
delete it->second;
filedata.clear();
}
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std::string simplecpp::getCStdString(const std::string &std)
{
if (std == "c90" || std == "c89" || std == "iso9899:1990" || std == "iso9899:199409" || std == "gnu90" || std == "gnu89") {
// __STDC_VERSION__ is not set for C90 although the macro was added in the 1994 amendments
return "";
}
if (std == "c99" || std == "c9x" || std == "iso9899:1999" || std == "iso9899:199x" || std == "gnu99"|| std == "gnu9x")
return "199901L";
if (std == "c11" || std == "c1x" || std == "iso9899:2011" || std == "gnu11" || std == "gnu1x")
return "201112L";
if (std == "c17" || std == "c18" || std == "iso9899:2017" || std == "iso9899:2018" || std == "gnu17"|| std == "gnu18")
return "201710L";
if (std == "c2x" || std == "gnu2x") {
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// Clang 11, 12, 13 return "201710L" - correct in 14
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return "202000L";
}
return "";
}
std::string simplecpp::getCppStdString(const std::string &std)
{
if (std == "c++98" || std == "c++03" || std == "gnu++98" || std == "gnu++03")
return "199711L";
if (std == "c++11" || std == "gnu++11" || std == "c++0x" || std == "gnu++0x")
return "201103L";
if (std == "c++14" || std == "c++1y" || std == "gnu++14" || std == "gnu++1y")
return "201402L";
if (std == "c++17" || std == "c++1z" || std == "gnu++17" || std == "gnu++1z")
return "201703L";
if (std == "c++20" || std == "c++2a" || std == "gnu++20" || std == "gnu++2a") {
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// GCC 10 returns "201703L" - correct in 11+
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return "202002L";
}
if (std == "c++23" || std == "c++2b" || std == "gnu++23" || std == "gnu++2b") {
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// supported by GCC 11+ and Clang 12+
// Clang 12, 13, 14 do not support "c++23" and "gnu++23"
return "202100L";
}
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return "";
}
#if (__cplusplus < 201103L) && !defined(__APPLE__)
#undef nullptr
#endif