diff options
Diffstat (limited to 'sources/shiboken2/ApiExtractor/parser/rpp/pp-engine-bits.h')
-rw-r--r-- | sources/shiboken2/ApiExtractor/parser/rpp/pp-engine-bits.h | 1300 |
1 files changed, 1300 insertions, 0 deletions
diff --git a/sources/shiboken2/ApiExtractor/parser/rpp/pp-engine-bits.h b/sources/shiboken2/ApiExtractor/parser/rpp/pp-engine-bits.h new file mode 100644 index 000000000..3d8aee029 --- /dev/null +++ b/sources/shiboken2/ApiExtractor/parser/rpp/pp-engine-bits.h @@ -0,0 +1,1300 @@ +/**************************************************************************** +** +** Copyright (C) 2016 The Qt Company Ltd. +** Copyright (C) 2002-2005 Roberto Raggi <roberto@kdevelop.org> +** Contact: https://www.qt.io/licensing/ +** +** This file is part of PySide2. +** +** $QT_BEGIN_LICENSE:GPL-EXCEPT$ +** Commercial License Usage +** Licensees holding valid commercial Qt licenses may use this file in +** accordance with the commercial license agreement provided with the +** Software or, alternatively, in accordance with the terms contained in +** a written agreement between you and The Qt Company. For licensing terms +** and conditions see https://www.qt.io/terms-conditions. For further +** information use the contact form at https://www.qt.io/contact-us. +** +** GNU General Public License Usage +** Alternatively, this file may be used under the terms of the GNU +** General Public License version 3 as published by the Free Software +** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT +** included in the packaging of this file. Please review the following +** information to ensure the GNU General Public License requirements will +** be met: https://www.gnu.org/licenses/gpl-3.0.html. +** +** $QT_END_LICENSE$ +** +****************************************************************************/ + +#ifndef PP_ENGINE_BITS_H +#define PP_ENGINE_BITS_H + +#include "pp.h" +#include <sys/stat.h> +#include <cstdio> +#include <iostream> + +namespace rpp +{ + +inline std::string pp::fix_file_path(std::string const &filename) const +{ +#if defined (PP_OS_WIN) + std::string s = filename; + for (std::string::iterator it = s.begin(); it != s.end(); ++it) { + if (*it == '/') + *it = '\\'; + } + return s; +#else + return filename; +#endif +} + +inline bool pp::is_absolute(std::string const &filename) const +{ +#if defined(PP_OS_WIN) + return filename.length() >= 3 + && filename.at(1) == ':' + && (filename.at(2) == '\\' || filename.at(2) == '/'); +#else + return filename.length() >= 1 + && filename.at(0) == '/'; +#endif +} + +template <typename _OutputIterator> +void pp::file(std::string const &filename, _OutputIterator __result) +{ + FILE *fp = std::fopen(filename.c_str(), "rb"); + if (fp != 0) { + std::string was = env.current_file; + env.current_file = filename; + file(fp, __result); + env.current_file = was; + } + //else + //std::cerr << "** WARNING file ``" << filename << " not found!" << std::endl; +} + +template <typename _OutputIterator> +void pp::file(FILE *fp, _OutputIterator __result) +{ + assert(fp != 0); + +#if defined (HAVE_MMAP) + struct stat st; + fstat(FILENO(fp), &st); + std::size_t size = st.st_size; + char *buffer = 0; + buffer = (char *) ::mmap(0, size, PROT_READ, MAP_SHARED, FILENO(fp), 0); + fclose(fp); + if (!buffer || buffer == (char*) - 1) + return; + this->operator()(buffer, buffer + size, __result); + ::munmap(buffer, size); +#else + std::string buffer; + while (!feof(fp)) { + char tmp[1024]; + int read = (int) fread(tmp, sizeof(char), 1023, fp); + tmp[read] = '\0'; + buffer += tmp; + } + fclose(fp); + this->operator()(buffer.c_str(), buffer.c_str() + buffer.size(), __result); +#endif +} + +template <typename _InputIterator> +bool pp::find_header_protection(_InputIterator __first, _InputIterator __last, std::string *__prot) +{ + int was = env.current_line; + + while (__first != __last) { + if (pp_isspace(*__first)) { + if (*__first == '\n') + ++env.current_line; + + ++__first; + } else if (_PP_internal::comment_p(__first, __last)) { + __first = skip_comment_or_divop(__first, __last); + env.current_line += skip_comment_or_divop.lines; + } else if (*__first == '#') { + __first = skip_blanks(++__first, __last); + env.current_line += skip_blanks.lines; + + if (__first != __last && *__first == 'i') { + _InputIterator __begin = __first; + __first = skip_identifier(__begin, __last); + env.current_line += skip_identifier.lines; + + std::string __directive(__begin, __first); + + if (__directive == "ifndef") { + __first = skip_blanks(__first, __last); + env.current_line += skip_blanks.lines; + + __begin = __first; + __first = skip_identifier(__first, __last); + env.current_line += skip_identifier.lines; + + if (__begin != __first && __first != __last) { + __prot->assign(__begin, __first); + return true; + } + } + } + break; + } else + break; + } + + env.current_line = was; + return false; +} + +inline pp::PP_DIRECTIVE_TYPE pp::find_directive(char const *__directive, std::size_t __size) const +{ + switch (__size) { + case 0: + return PP_UNNAMED_DIRECTIVE; + case 2: + if (__directive[0] == 'i' + && __directive[1] == 'f') + return PP_IF; + break; + + case 4: + if (__directive[0] == 'e' && !strcmp(__directive, "elif")) + return PP_ELIF; + else if (__directive[0] == 'e' && !strcmp(__directive, "else")) + return PP_ELSE; + break; + + case 5: + if (__directive[0] == 'i' && !strcmp(__directive, "ifdef")) + return PP_IFDEF; + else if (__directive[0] == 'u' && !strcmp(__directive, "undef")) + return PP_UNDEF; + else if (__directive[0] == 'e') { + if (!strcmp(__directive, "endif")) + return PP_ENDIF; + else if (!strcmp(__directive, "error")) + return PP_ERROR; + } + break; + + case 6: + if (__directive[0] == 'i' && !strcmp(__directive, "ifndef")) + return PP_IFNDEF; + else if (__directive[0] == 'd' && !strcmp(__directive, "define")) + return PP_DEFINE; + else if (__directive[0] == 'p' && !strcmp(__directive, "pragma")) + return PP_PRAGMA; + break; + + case 7: + if (__directive[0] == 'i' && !strcmp(__directive, "include")) + return PP_INCLUDE; + else if (!strcmp(__directive, "warning")) + return PP_WARNING; + break; + + case 12: + if (__directive[0] == 'i' && !strcmp(__directive, "include_next")) + return PP_INCLUDE_NEXT; + break; + + default: + break; + } + std::cerr << "** WARNING unknown directive '#" << __directive << "' at " << env.current_file << ":" << env.current_line << std::endl; + return PP_UNKNOWN_DIRECTIVE; +} + +inline bool pp::file_isdir(std::string const &__filename) const +{ + struct stat __st; + if (stat(__filename.c_str(), &__st) == 0) +#if defined(PP_OS_WIN) + return (__st.st_mode & _S_IFDIR) == _S_IFDIR; +#else + return (__st.st_mode & S_IFDIR) == S_IFDIR; +#endif + else + return false; +} + +inline bool pp::file_exists(std::string const &__filename) const +{ + struct stat __st; + return stat(__filename.c_str(), &__st) == 0; +} + +inline FILE *pp::find_include_file(std::string const &__input_filename, std::string *__filepath, + INCLUDE_POLICY __include_policy, bool __skip_current_path) const +{ + assert(__filepath != 0); + assert(! __input_filename.empty()); + + __filepath->assign(__input_filename); + + if (is_absolute(*__filepath) && !file_isdir(*__filepath)) + return std::fopen(__filepath->c_str(), "r"); + + if (! env.current_file.empty()) + _PP_internal::extract_file_path(env.current_file, __filepath); + + if (__include_policy == INCLUDE_LOCAL && ! __skip_current_path) { + std::string __tmp(*__filepath); + __tmp += __input_filename; + + if (file_exists(__tmp) && !file_isdir(__tmp)) { + __filepath->append(__input_filename); + return std::fopen(__filepath->c_str(), "r"); + } + } + + std::vector<std::string>::const_iterator it = include_paths.begin(); + + if (__skip_current_path) { + it = std::find(include_paths.begin(), include_paths.end(), *__filepath); + + if (it != include_paths.end()) + ++it; + + else + it = include_paths.begin(); + } + + for (; it != include_paths.end(); ++it) { + if (__skip_current_path && it == include_paths.begin()) + continue; + + __filepath->assign(*it); + __filepath->append(__input_filename); + + if (file_exists(*__filepath) && !file_isdir(*__filepath)) + return std::fopen(__filepath->c_str(), "r"); + +#ifdef Q_OS_MAC + // try in Framework path on Mac, if there is a path in front + // ### what about escaped slashes? + size_t slashPos = __input_filename.find('/'); + if (slashPos != std::string::npos) { + __filepath->assign(*it); + __filepath->append(__input_filename.substr(0, slashPos)); + __filepath->append(".framework/Headers/"); + __filepath->append(__input_filename.substr(slashPos + 1, std::string::npos)); + + if (file_exists(*__filepath) && !file_isdir(*__filepath)) { + return fopen(__filepath->c_str(), "r"); + } + } +#endif // Q_OS_MAC + } + + return 0; +} + +template <typename _InputIterator, typename _OutputIterator> +_InputIterator pp::handle_directive(char const *__directive, std::size_t __size, + _InputIterator __first, _InputIterator __last, _OutputIterator __result) +{ + __first = skip_blanks(__first, __last); + + PP_DIRECTIVE_TYPE d = find_directive(__directive, __size); + switch (d) { + case PP_UNNAMED_DIRECTIVE: + /* There are many boost headers that include the character '#' + * at the beginning of any line and just do nothing else with + * that unnamed directive. Well, as that's not an error so + * we'll just ignore this unnamed directive for now. + */ + ++__last; + return ++__first; + case PP_DEFINE: + if (! skipping()) + return handle_define(__first, __last); + break; + + case PP_INCLUDE: + case PP_INCLUDE_NEXT: + if (! skipping()) + return handle_include(d == PP_INCLUDE_NEXT, __first, __last, __result); + break; + + case PP_UNDEF: + if (! skipping()) + return handle_undef(__first, __last); + break; + + case PP_ELIF: + return handle_elif(__first, __last); + + case PP_ELSE: + return handle_else(__first, __last); + + case PP_ENDIF: + return handle_endif(__first, __last); + + case PP_IF: + return handle_if(__first, __last); + + case PP_IFDEF: + return handle_ifdef(false, __first, __last); + + case PP_IFNDEF: + return handle_ifdef(true, __first, __last); + + default: + break; + } + + return __first; +} + +template <typename _InputIterator, typename _OutputIterator> +_InputIterator pp::handle_include(bool __skip_current_path, _InputIterator __first, _InputIterator __last, + _OutputIterator __result) +{ + if (pp_isalpha(*__first) || *__first == '_') { + pp_macro_expander expand_include(env); + std::string name; + name.reserve(255); + expand_include(__first, __last, std::back_inserter(name)); + std::string::iterator it = skip_blanks(name.begin(), name.end()); + if (it != name.end() && !(*it == '<' || *it == '"')) { + std::cerr << "** WARNING APIExtractor does not support the use " + "of #include directives without passing either " + "\"<path/to/header.h>\" or \"./path/to/header.h\", " + "for example. Invalid use at " << env.current_file + << ":" << env.current_line << "." << std::endl; + return __last; + } + + handle_include(__skip_current_path, it, name.end(), __result); + return __first; + } + + assert(*__first == '<' || *__first == '"'); + int quote = (*__first == '"') ? '"' : '>'; + ++__first; + + _InputIterator end_name = __first; + for (; end_name != __last; ++end_name) { + assert(*end_name != '\n'); + + if (*end_name == quote) + break; + } + + std::string filename(__first, end_name); + +#ifdef PP_OS_WIN + std::replace(filename.begin(), filename.end(), '/', '\\'); +#endif + + std::string filepath; + FILE *fp = find_include_file(filename, &filepath, quote == '>' ? INCLUDE_GLOBAL : INCLUDE_LOCAL, __skip_current_path); + +#if defined (PP_HOOK_ON_FILE_INCLUDED) + PP_HOOK_ON_FILE_INCLUDED(env.current_file, fp ? filepath : filename, fp); +#endif + + if (fp != 0) { + std::string old_file = env.current_file; + env.current_file = filepath; + int __saved_lines = env.current_line; + + env.current_line = 1; + //output_line (env.current_file, 1, __result); + + file(fp, __result); + + // restore the file name and the line position + env.current_file = old_file; + env.current_line = __saved_lines; + + // sync the buffer + _PP_internal::output_line(env.current_file, env.current_line, __result); + } +#ifndef RPP_JAMBI +// else +// std::cerr << "*** WARNING " << filename << ": No such file or directory" << std::endl; +#endif + + return __first; +} + +template <typename _InputIterator, typename _OutputIterator> +void pp::operator()(_InputIterator __first, _InputIterator __last, _OutputIterator __result) +{ +#ifndef PP_NO_SMART_HEADER_PROTECTION + std::string __prot; + __prot.reserve(255); + pp_fast_string __tmp(__prot.c_str(), __prot.size()); + + if (find_header_protection(__first, __last, &__prot) + && env.resolve(&__tmp) != 0) { + // std::cerr << "** DEBUG found header protection:" << __prot << std::endl; + return; + } +#endif + + env.current_line = 1; + char __buffer[512]; + + while (true) { + __first = skip_blanks(__first, __last); + env.current_line += skip_blanks.lines; + + if (__first == __last) + break; + else if (*__first == '#') { + assert(*__first == '#'); + __first = skip_blanks(++__first, __last); + env.current_line += skip_blanks.lines; + + _InputIterator end_id = skip_identifier(__first, __last); + env.current_line += skip_identifier.lines; + std::size_t __size = end_id - __first; + + assert(__size < 512); + char *__cp = __buffer; + std::copy(__first, end_id, __cp); + __cp[__size] = '\0'; + + end_id = skip_blanks(end_id, __last); + __first = skip(end_id, __last); + + int was = env.current_line; + (void) handle_directive(__buffer, __size, end_id, __first, __result); + + if (env.current_line != was) { + env.current_line = was; + _PP_internal::output_line(env.current_file, env.current_line, __result); + } + } else if (*__first == '\n') { + // ### compress the line + *__result++ = *__first++; + ++env.current_line; + } else if (skipping()) + __first = skip(__first, __last); + else { + _PP_internal::output_line(env.current_file, env.current_line, __result); + __first = expand(__first, __last, __result); + env.current_line += expand.lines; + + if (expand.generated_lines) + _PP_internal::output_line(env.current_file, env.current_line, __result); + } + } +} + +inline pp::pp(pp_environment &__env): + env(__env), expand(env) +{ + iflevel = 0; + _M_skipping[iflevel] = 0; + _M_true_test[iflevel] = 0; +} + +inline std::back_insert_iterator<std::vector<std::string> > pp::include_paths_inserter() +{ + return std::back_inserter(include_paths); +} + +inline std::vector<std::string>::iterator pp::include_paths_begin() +{ + return include_paths.begin(); +} + +inline std::vector<std::string>::iterator pp::include_paths_end() +{ + return include_paths.end(); +} + +inline std::vector<std::string>::const_iterator pp::include_paths_begin() const +{ + return include_paths.begin(); +} + +inline std::vector<std::string>::const_iterator pp::include_paths_end() const +{ + return include_paths.end(); +} + +inline void pp::push_include_path(std::string const &__path) +{ + if (__path.empty() || __path [__path.size() - 1] != PATH_SEPARATOR) { + std::string __tmp(__path); + __tmp += PATH_SEPARATOR; + include_paths.push_back(__tmp); + } + + else + include_paths.push_back(__path); +} + +template <typename _InputIterator> +_InputIterator pp::handle_define(_InputIterator __first, _InputIterator __last) +{ + pp_macro macro; +#if defined (PP_WITH_MACRO_POSITION) + macro.file = pp_symbol::get(env.current_file); +#endif + std::string definition; + + __first = skip_blanks(__first, __last); + _InputIterator end_macro_name = skip_identifier(__first, __last); + pp_fast_string const *macro_name = pp_symbol::get(__first, end_macro_name); + __first = end_macro_name; + + if (__first != __last && *__first == '(') { + macro.function_like = true; + macro.formals.reserve(5); + + __first = skip_blanks(++__first, __last); // skip '(' + _InputIterator arg_end = skip_identifier(__first, __last); + if (__first != arg_end) + macro.formals.push_back(pp_symbol::get(__first, arg_end)); + + __first = skip_blanks(arg_end, __last); + + if (*__first == '.') { + macro.variadics = true; + while (*__first == '.') + ++__first; + } + + while (__first != __last && *__first == ',') { + __first = skip_blanks(++__first, __last); + + arg_end = skip_identifier(__first, __last); + if (__first != arg_end) + macro.formals.push_back(pp_symbol::get(__first, arg_end)); + + __first = skip_blanks(arg_end, __last); + + if (*__first == '.') { + macro.variadics = true; + while (*__first == '.') + ++__first; + } + } + + assert(*__first == ')'); + ++__first; + } + + __first = skip_blanks(__first, __last); + + /* Note: Sometimes one can include a path between brackets (for + * e.g., when defining a macro or so) so that we cannot simply + * ignore that. The in_path variable will handle this situation. + */ + bool in_path = false; + while (__first != __last && *__first != '\n') { + if ((*__first == '<' || *__first == '"') && + (*(__first + 1) != '*' && *(__first + 1) != '/')) { + in_path = true; + goto skip_path; + } + + if (in_path) { + if (*__first == '>' || *__first == '"') { + in_path = false; + goto skip_path; + } else if (*__first == ',' || *__first == ' ' || *__first == '\\') { + in_path = false; + continue; + } + } + + if (*__first == '/') { + if (*(__first + 1) != '*' && *(__first + 1) != '/') { + in_path = true; + goto skip_path; + } else { + __first = skip_comment_or_divop(__first, __last); + env.current_line += skip_comment_or_divop.lines; + if (__first == __last) + break; + } + } + + if (*__first == '\\') { + _InputIterator __begin = __first; + __begin = skip_blanks(++__begin, __last); + + if (__begin != __last && *__begin == '\n') { + ++macro.lines; + __first = skip_blanks(++__begin, __last); + definition += ' '; + continue; + } + } + +skip_path: + definition += *__first++; + } + + macro.definition = pp_symbol::get(definition); + env.bind(macro_name, macro); + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::skip(_InputIterator __first, _InputIterator __last) +{ + pp_skip_string_literal skip_string_literal; + pp_skip_char_literal skip_char_literal; + + while (__first != __last && *__first != '\n') { + if (*__first == '/') { + __first = skip_comment_or_divop(__first, __last); + env.current_line += skip_comment_or_divop.lines; + } else if (*__first == '"') { + __first = skip_string_literal(__first, __last); + env.current_line += skip_string_literal.lines; + } else if (*__first == '\'') { + __first = skip_char_literal(__first, __last); + env.current_line += skip_char_literal.lines; + } else if (*__first == '\\') { + __first = skip_blanks(++__first, __last); + env.current_line += skip_blanks.lines; + + if (__first != __last && *__first == '\n') { + ++__first; + ++env.current_line; + } + } else + ++__first; + } + + return __first; +} + +inline bool pp::test_if_level() +{ + bool result = !_M_skipping[iflevel++]; + _M_skipping[iflevel] = _M_skipping[iflevel - 1]; + _M_true_test[iflevel] = false; + return result; +} + +inline int pp::skipping() const +{ + return _M_skipping[iflevel]; +} + +template <typename _InputIterator> +_InputIterator pp::eval_primary(_InputIterator __first, _InputIterator __last, Value *result) +{ + bool expect_paren = false; + int token; + __first = next_token(__first, __last, &token); + + switch (token) { + case TOKEN_NUMBER: + result->set_long(token_value); + break; + + case TOKEN_UNUMBER: + result->set_ulong(token_uvalue); + break; + + case TOKEN_DEFINED: + __first = next_token(__first, __last, &token); + + if (token == '(') { + expect_paren = true; + __first = next_token(__first, __last, &token); + } + + if (token != TOKEN_IDENTIFIER) { + std::cerr << "** WARNING expected ``identifier'' found:" << char(token) << std::endl; + result->set_long(0); + break; + } + + result->set_long(env.resolve(token_text->c_str(), token_text->size()) != 0); + + next_token(__first, __last, &token); // skip '(' + + if (expect_paren) { + _InputIterator next = next_token(__first, __last, &token); + if (token != ')') + std::cerr << "** WARNING expected ``)''" << std::endl; + else + __first = next; + } + break; + + case TOKEN_IDENTIFIER: + result->set_long(0); + break; + + case '-': + __first = eval_primary(__first, __last, result); + result->set_long(- result->l); + return __first; + + case '+': + __first = eval_primary(__first, __last, result); + return __first; + + case '!': + __first = eval_primary(__first, __last, result); + result->set_long(result->is_zero()); + return __first; + + case '(': + __first = eval_constant_expression(__first, __last, result); + next_token(__first, __last, &token); + + if (token != ')') { + std::cerr << "** WARNING expected ``)'' = " << token << " (at " + << env.current_file << ":" << env.current_line + << ")." << std::endl; + } else { + __first = next_token(__first, __last, &token); + } + break; + + default: + result->set_long(0); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_multiplicative(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_primary(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == '*' || token == '/' || token == '%') { + Value value; + __first = eval_primary(next, __last, &value); + + if (token == '*') + result->op_mult(value); + else if (token == '/') { + if (value.is_zero()) { + std::cerr << "** WARNING division by zero" << std::endl; + result->set_long(0); + } else + result->op_div(value); + } else { + if (value.is_zero()) { + std::cerr << "** WARNING division by zero" << std::endl; + result->set_long(0); + } else + result->op_mod(value); + } + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_additive(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_multiplicative(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == '+' || token == '-') { + Value value; + __first = eval_multiplicative(next, __last, &value); + + if (token == '+') + result->op_add(value); + else + result->op_sub(value); + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_shift(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_additive(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == TOKEN_LT_LT || token == TOKEN_GT_GT) { + Value value; + __first = eval_additive(next, __last, &value); + + if (token == TOKEN_LT_LT) + result->op_lhs(value); + else + result->op_rhs(value); + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_relational(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_shift(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == '<' + || token == '>' + || token == TOKEN_LT_EQ + || token == TOKEN_GT_EQ) { + Value value; + __first = eval_shift(next, __last, &value); + + switch (token) { + default: + assert(0); + break; + + case '<': + result->op_lt(value); + break; + + case '>': + result->op_gt(value); + break; + + case TOKEN_LT_EQ: + result->op_le(value); + break; + + case TOKEN_GT_EQ: + result->op_ge(value); + break; + } + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_equality(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_relational(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == TOKEN_EQ_EQ || token == TOKEN_NOT_EQ) { + Value value; + __first = eval_relational(next, __last, &value); + + if (token == TOKEN_EQ_EQ) + result->op_eq(value); + else + result->op_ne(value); + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_and(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_equality(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == '&') { + Value value; + __first = eval_equality(next, __last, &value); + result->op_bit_and(value); + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_xor(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_and(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == '^') { + Value value; + __first = eval_and(next, __last, &value); + result->op_bit_xor(value); + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_or(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_xor(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == '|') { + Value value; + __first = eval_xor(next, __last, &value); + result->op_bit_or(value); + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_logical_and(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_or(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == TOKEN_AND_AND) { + Value value; + __first = eval_or(next, __last, &value); + result->op_and(value); + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_logical_or(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_logical_and(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + while (token == TOKEN_OR_OR) { + Value value; + __first = eval_logical_and(next, __last, &value); + result->op_or(value); + next = next_token(__first, __last, &token); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_constant_expression(_InputIterator __first, _InputIterator __last, Value *result) +{ + __first = eval_logical_or(__first, __last, result); + + int token; + _InputIterator next = next_token(__first, __last, &token); + + if (token == '?') { + Value left_value; + __first = eval_constant_expression(next, __last, &left_value); + __first = skip_blanks(__first, __last); + + __first = next_token(__first, __last, &token); + if (token == ':') { + Value right_value; + __first = eval_constant_expression(__first, __last, &right_value); + + *result = !result->is_zero() ? left_value : right_value; + } else { + std::cerr << "** WARNING expected ``:'' = " << int (token) << std::endl; + *result = left_value; + } + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::eval_expression(_InputIterator __first, _InputIterator __last, Value *result) +{ + return __first = eval_constant_expression(skip_blanks(__first, __last), __last, result); +} + +template <typename _InputIterator> +_InputIterator pp::handle_if(_InputIterator __first, _InputIterator __last) +{ + if (test_if_level()) { + pp_macro_expander expand_condition(env); + std::string condition; + condition.reserve(255); + expand_condition(skip_blanks(__first, __last), __last, std::back_inserter(condition)); + + Value result; + result.set_long(0); + eval_expression(condition.c_str(), condition.c_str() + condition.size(), &result); + + _M_true_test[iflevel] = !result.is_zero(); + _M_skipping[iflevel] = result.is_zero(); + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::handle_else(_InputIterator __first, _InputIterator /*__last*/) +{ + if (iflevel == 0 && !skipping()) { + std::cerr << "** WARNING #else without #if" << std::endl; + } else if (iflevel > 0 && _M_skipping[iflevel - 1]) { + _M_skipping[iflevel] = true; + } else { + _M_skipping[iflevel] = _M_true_test[iflevel]; + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::handle_elif(_InputIterator __first, _InputIterator __last) +{ + assert(iflevel > 0); + + if (iflevel == 0 && !skipping()) { + std::cerr << "** WARNING #else without #if" << std::endl; + } else if (!_M_true_test[iflevel] && !_M_skipping[iflevel - 1]) { + Value result; + __first = eval_expression(__first, __last, &result); + _M_true_test[iflevel] = !result.is_zero(); + _M_skipping[iflevel] = result.is_zero(); + } else { + _M_skipping[iflevel] = true; + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::handle_endif(_InputIterator __first, _InputIterator /*__last*/) +{ + if (iflevel == 0 && !skipping()) { + std::cerr << "** WARNING #endif without #if" << std::endl; + } else { + _M_skipping[iflevel] = 0; + _M_true_test[iflevel] = 0; + + --iflevel; + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::handle_ifdef(bool check_undefined, _InputIterator __first, _InputIterator __last) +{ + if (test_if_level()) { + _InputIterator end_macro_name = skip_identifier(__first, __last); + + std::size_t __size; +#if defined(__SUNPRO_CC) + std::distance(__first, end_macro_name, __size); +#else + __size = std::distance(__first, end_macro_name); +#endif + assert(__size < 256); + + char __buffer [256]; + std::copy(__first, end_macro_name, __buffer); + + bool value = env.resolve(__buffer, __size) != 0; + + __first = end_macro_name; + + if (check_undefined) + value = !value; + + _M_true_test[iflevel] = value; + _M_skipping[iflevel] = !value; + } + + return __first; +} + +template <typename _InputIterator> +_InputIterator pp::handle_undef(_InputIterator __first, _InputIterator __last) +{ + __first = skip_blanks(__first, __last); + _InputIterator end_macro_name = skip_identifier(__first, __last); + assert(end_macro_name != __first); + + std::size_t __size; +#if defined(__SUNPRO_CC) + std::distance(__first, end_macro_name, __size); +#else + __size = std::distance(__first, end_macro_name); +#endif + + assert(__size < 256); + + char __buffer [256]; + std::copy(__first, end_macro_name, __buffer); + + pp_fast_string const __tmp(__buffer, __size); + env.unbind(&__tmp); + + __first = end_macro_name; + + return __first; +} + +template <typename _InputIterator> +char pp::peek_char(_InputIterator __first, _InputIterator __last) +{ + if (__first == __last) + return 0; + + return *++__first; +} + +template <typename _InputIterator> +_InputIterator pp::next_token(_InputIterator __first, _InputIterator __last, int *kind) +{ + __first = skip_blanks(__first, __last); + + if (__first == __last) { + *kind = 0; + return __first; + } + + char ch = *__first; + char ch2 = peek_char(__first, __last); + + switch (ch) { + case '/': + if (ch2 == '/' || ch2 == '*') { + __first = skip_comment_or_divop(__first, __last); + return next_token(__first, __last, kind); + } + ++__first; + *kind = '/'; + break; + + case '<': + ++__first; + if (ch2 == '<') { + ++__first; + *kind = TOKEN_LT_LT; + } else if (ch2 == '=') { + ++__first; + *kind = TOKEN_LT_EQ; + } else + *kind = '<'; + + return __first; + + case '>': + ++__first; + if (ch2 == '>') { + ++__first; + *kind = TOKEN_GT_GT; + } else if (ch2 == '=') { + ++__first; + *kind = TOKEN_GT_EQ; + } else + *kind = '>'; + + return __first; + + case '!': + ++__first; + if (ch2 == '=') { + ++__first; + *kind = TOKEN_NOT_EQ; + } else + *kind = '!'; + + return __first; + + case '=': + ++__first; + if (ch2 == '=') { + ++__first; + *kind = TOKEN_EQ_EQ; + } else + *kind = '='; + + return __first; + + case '|': + ++__first; + if (ch2 == '|') { + ++__first; + *kind = TOKEN_OR_OR; + } else + *kind = '|'; + + return __first; + + case '&': + ++__first; + if (ch2 == '&') { + ++__first; + *kind = TOKEN_AND_AND; + } else + *kind = '&'; + + return __first; + + default: + if (pp_isalpha(ch) || ch == '_') { + _InputIterator end = skip_identifier(__first, __last); + _M_current_text.assign(__first, end); + + token_text = &_M_current_text; + __first = end; + + if (*token_text == "defined") + *kind = TOKEN_DEFINED; + else + *kind = TOKEN_IDENTIFIER; + } else if (pp_isdigit(ch)) { + _InputIterator end = skip_number(__first, __last); + std::string __str(__first, __last); + char ch = __str [__str.size() - 1]; + if (ch == 'u' || ch == 'U') { + token_uvalue = strtoul(__str.c_str(), 0, 0); + *kind = TOKEN_UNUMBER; + } else { + token_value = strtol(__str.c_str(), 0, 0); + *kind = TOKEN_NUMBER; + } + __first = end; + } else + *kind = *__first++; + } + + return __first; +} + +} // namespace rpp + +#endif // PP_ENGINE_BITS_H + +// kate: space-indent on; indent-width 2; replace-tabs on; |