Mercurial > hg > CbC > CbC_gcc
view libstdc++-v3/src/c++11/debug.cc @ 111:04ced10e8804
gcc 7
| author | kono |
|---|---|
| date | Fri, 27 Oct 2017 22:46:09 +0900 |
| parents | |
| children | 84e7813d76e9 |
line wrap: on
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// Debugging mode support code -*- C++ -*- // Copyright (C) 2003-2017 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 3, 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 General Public License for more details. // Under Section 7 of GPL version 3, you are granted additional // permissions described in the GCC Runtime Library Exception, version // 3.1, as published by the Free Software Foundation. // You should have received a copy of the GNU General Public License and // a copy of the GCC Runtime Library Exception along with this program; // see the files COPYING3 and COPYING.RUNTIME respectively. If not, see // <http://www.gnu.org/licenses/>. #include <bits/move.h> #include <bits/stl_iterator_base_types.h> #include <debug/formatter.h> #include <debug/safe_base.h> #include <debug/safe_unordered_base.h> #include <debug/safe_iterator.h> #include <debug/safe_local_iterator.h> #include <debug/vector> #include <cassert> #include <cstdio> #include <cctype> // for std::isspace #include <algorithm> // for std::min #include <cxxabi.h> // for __cxa_demangle #include "mutex_pool.h" using namespace std; namespace { /** Returns different instances of __mutex depending on the passed address * in order to limit contention without breaking current library binary * compatibility. */ __gnu_cxx::__mutex& get_safe_base_mutex(void* address) { // Use arbitrarily __gnu_debug::vector<int> as the container giving // alignment of debug containers. const auto alignbits = __builtin_ctz(alignof(__gnu_debug::vector<int>)); const unsigned char index = (reinterpret_cast<std::size_t>(address) >> alignbits) & __gnu_internal::mask; return __gnu_internal::get_mutex(index); } void swap_its(__gnu_debug::_Safe_sequence_base& __lhs, __gnu_debug::_Safe_iterator_base*& __lhs_its, __gnu_debug::_Safe_sequence_base& __rhs, __gnu_debug::_Safe_iterator_base*& __rhs_its) { swap(__lhs_its, __rhs_its); __gnu_debug::_Safe_iterator_base* __iter; for (__iter = __rhs_its; __iter; __iter = __iter->_M_next) __iter->_M_sequence = &__rhs; for (__iter = __lhs_its; __iter; __iter = __iter->_M_next) __iter->_M_sequence = &__lhs; } void swap_seq_single(__gnu_debug::_Safe_sequence_base& __lhs, __gnu_debug::_Safe_sequence_base& __rhs) { swap(__lhs._M_version, __rhs._M_version); swap_its(__lhs, __lhs._M_iterators, __rhs, __rhs._M_iterators); swap_its(__lhs, __lhs._M_const_iterators, __rhs, __rhs._M_const_iterators); } template<typename _Action> void lock_and_run(__gnu_cxx::__mutex& lhs_mutex, __gnu_cxx::__mutex& rhs_mutex, _Action action) { // We need to lock both sequences to run action. if (&lhs_mutex == &rhs_mutex) { __gnu_cxx::__scoped_lock sentry(lhs_mutex); action(); } else { __gnu_cxx::__scoped_lock sentry1(&lhs_mutex < &rhs_mutex ? lhs_mutex : rhs_mutex); __gnu_cxx::__scoped_lock sentry2(&lhs_mutex < &rhs_mutex ? rhs_mutex : lhs_mutex); action(); } } void swap_seq(__gnu_cxx::__mutex& lhs_mutex, __gnu_debug::_Safe_sequence_base& lhs, __gnu_cxx::__mutex& rhs_mutex, __gnu_debug::_Safe_sequence_base& rhs) { lock_and_run(lhs_mutex, rhs_mutex, [&lhs, &rhs]() { swap_seq_single(lhs, rhs); }); } void swap_ucont_single(__gnu_debug::_Safe_unordered_container_base& __lhs, __gnu_debug::_Safe_unordered_container_base& __rhs) { swap_seq_single(__lhs, __rhs); swap_its(__lhs, __lhs._M_local_iterators, __rhs, __rhs._M_local_iterators); swap_its(__lhs, __lhs._M_const_local_iterators, __rhs, __rhs._M_const_local_iterators); } void swap_ucont(__gnu_cxx::__mutex& lhs_mutex, __gnu_debug::_Safe_unordered_container_base& lhs, __gnu_cxx::__mutex& rhs_mutex, __gnu_debug::_Safe_unordered_container_base& rhs) { lock_and_run(lhs_mutex, rhs_mutex, [&lhs, &rhs]() { swap_ucont_single(lhs, rhs); }); } void detach_all(__gnu_debug::_Safe_iterator_base* __iter) { for (; __iter;) { __gnu_debug::_Safe_iterator_base* __old = __iter; __iter = __iter->_M_next; __old->_M_reset(); } } } // anonymous namespace namespace __gnu_debug { const char* const _S_debug_messages[] = { // General Checks "function requires a valid iterator range [%1.name;, %2.name;)", "attempt to insert into container with a singular iterator", "attempt to insert into container with an iterator" " from a different container", "attempt to erase from container with a %2.state; iterator", "attempt to erase from container with an iterator" " from a different container", "attempt to subscript container with out-of-bounds index %2;," " but container only holds %3; elements", "attempt to access an element in an empty container", "elements in iterator range [%1.name;, %2.name;)" " are not partitioned by the value %3;", "elements in iterator range [%1.name;, %2.name;)" " are not partitioned by the predicate %3; and value %4;", "elements in iterator range [%1.name;, %2.name;) are not sorted", "elements in iterator range [%1.name;, %2.name;)" " are not sorted according to the predicate %3;", "elements in iterator range [%1.name;, %2.name;) do not form a heap", "elements in iterator range [%1.name;, %2.name;)" " do not form a heap with respect to the predicate %3;", // std::bitset checks "attempt to write through a singular bitset reference", "attempt to read from a singular bitset reference", "attempt to flip a singular bitset reference", // std::list checks "attempt to splice a list into itself", "attempt to splice lists with unequal allocators", "attempt to splice elements referenced by a %1.state; iterator", "attempt to splice an iterator from a different container", "splice destination %1.name;" " occurs within source range [%2.name;, %3.name;)", // iterator checks "attempt to initialize an iterator that will immediately become singular", "attempt to copy-construct an iterator from a singular iterator", "attempt to construct a constant iterator" " from a singular mutable iterator", "attempt to copy from a singular iterator", "attempt to dereference a %1.state; iterator", "attempt to increment a %1.state; iterator", "attempt to decrement a %1.state; iterator", "attempt to subscript a %1.state; iterator %2; step from" " its current position, which falls outside its dereferenceable range", "attempt to advance a %1.state; iterator %2; steps," " which falls outside its valid range", "attempt to retreat a %1.state; iterator %2; steps," " which falls outside its valid range", "attempt to compare a %1.state; iterator to a %2.state; iterator", "attempt to compare iterators from different sequences", "attempt to order a %1.state; iterator to a %2.state; iterator", "attempt to order iterators from different sequences", "attempt to compute the difference between a %1.state;" " iterator to a %2.state; iterator", "attempt to compute the different between two iterators" " from different sequences", // istream_iterator "attempt to dereference an end-of-stream istream_iterator", "attempt to increment an end-of-stream istream_iterator", // ostream_iterator "attempt to output via an ostream_iterator with no associated stream", // istreambuf_iterator "attempt to dereference an end-of-stream istreambuf_iterator" " (this is a GNU extension)", "attempt to increment an end-of-stream istreambuf_iterator", // std::forward_list "attempt to insert into container after an end iterator", "attempt to erase from container after a %2.state; iterator not followed" " by a dereferenceable one", "function requires a valid iterator range (%2.name;, %3.name;)" ", \"%2.name;\" shall be before and not equal to \"%3.name;\"", // std::unordered_container::local_iterator "attempt to compare local iterators from different unordered container" " buckets", "function requires a non-empty iterator range [%1.name;, %2.name;)", "attempt to self move assign", "attempt to access container with out-of-bounds bucket index %2;," " container only holds %3; buckets", "load factor shall be positive", "allocators must be equal", "attempt to insert with an iterator range [%1.name;, %2.name;) from this" " container", "comparison doesn't meet irreflexive requirements, assert(!(a < a))" }; void _Safe_sequence_base:: _M_detach_all() { __gnu_cxx::__scoped_lock sentry(_M_get_mutex()); detach_all(_M_iterators); _M_iterators = 0; detach_all(_M_const_iterators); _M_const_iterators = 0; } void _Safe_sequence_base:: _M_detach_singular() { __gnu_cxx::__scoped_lock sentry(_M_get_mutex()); for (_Safe_iterator_base* __iter = _M_iterators; __iter;) { _Safe_iterator_base* __old = __iter; __iter = __iter->_M_next; if (__old->_M_singular()) __old->_M_detach_single(); } for (_Safe_iterator_base* __iter2 = _M_const_iterators; __iter2;) { _Safe_iterator_base* __old = __iter2; __iter2 = __iter2->_M_next; if (__old->_M_singular()) __old->_M_detach_single(); } } void _Safe_sequence_base:: _M_revalidate_singular() { __gnu_cxx::__scoped_lock sentry(_M_get_mutex()); for (_Safe_iterator_base* __iter = _M_iterators; __iter; __iter = __iter->_M_next) __iter->_M_version = _M_version; for (_Safe_iterator_base* __iter2 = _M_const_iterators; __iter2; __iter2 = __iter2->_M_next) __iter2->_M_version = _M_version; } void _Safe_sequence_base:: _M_swap(_Safe_sequence_base& __x) noexcept { swap_seq(_M_get_mutex(), *this, __x._M_get_mutex(), __x); } __gnu_cxx::__mutex& _Safe_sequence_base:: _M_get_mutex() throw () { return get_safe_base_mutex(this); } void _Safe_sequence_base:: _M_attach(_Safe_iterator_base* __it, bool __constant) { __gnu_cxx::__scoped_lock sentry(_M_get_mutex()); _M_attach_single(__it, __constant); } void _Safe_sequence_base:: _M_attach_single(_Safe_iterator_base* __it, bool __constant) throw () { _Safe_iterator_base*& __its = __constant ? _M_const_iterators : _M_iterators; __it->_M_next = __its; if (__it->_M_next) __it->_M_next->_M_prior = __it; __its = __it; } void _Safe_sequence_base:: _M_detach(_Safe_iterator_base* __it) { // Remove __it from this sequence's list __gnu_cxx::__scoped_lock sentry(_M_get_mutex()); _M_detach_single(__it); } void _Safe_sequence_base:: _M_detach_single(_Safe_iterator_base* __it) throw () { // Remove __it from this sequence's list __it->_M_unlink(); if (_M_const_iterators == __it) _M_const_iterators = __it->_M_next; if (_M_iterators == __it) _M_iterators = __it->_M_next; } void _Safe_iterator_base:: _M_attach(_Safe_sequence_base* __seq, bool __constant) { _M_detach(); // Attach to the new sequence (if there is one) if (__seq) { _M_sequence = __seq; _M_version = _M_sequence->_M_version; _M_sequence->_M_attach(this, __constant); } } void _Safe_iterator_base:: _M_attach_single(_Safe_sequence_base* __seq, bool __constant) throw () { _M_detach_single(); // Attach to the new sequence (if there is one) if (__seq) { _M_sequence = __seq; _M_version = _M_sequence->_M_version; _M_sequence->_M_attach_single(this, __constant); } } void _Safe_iterator_base:: _M_detach() { if (_M_sequence) _M_sequence->_M_detach(this); _M_reset(); } void _Safe_iterator_base:: _M_detach_single() throw () { if (_M_sequence) _M_sequence->_M_detach_single(this); _M_reset(); } void _Safe_iterator_base:: _M_reset() throw () { _M_sequence = 0; _M_version = 0; _M_prior = 0; _M_next = 0; } bool _Safe_iterator_base:: _M_singular() const throw () { return !_M_sequence || _M_version != _M_sequence->_M_version; } bool _Safe_iterator_base:: _M_can_compare(const _Safe_iterator_base& __x) const throw () { return (!_M_singular() && !__x._M_singular() && _M_sequence == __x._M_sequence); } __gnu_cxx::__mutex& _Safe_iterator_base:: _M_get_mutex() throw () { return _M_sequence->_M_get_mutex(); } _Safe_unordered_container_base* _Safe_local_iterator_base:: _M_get_container() const noexcept { return static_cast<_Safe_unordered_container_base*>(_M_sequence); } void _Safe_local_iterator_base:: _M_attach(_Safe_sequence_base* __cont, bool __constant) { _M_detach(); // Attach to the new container (if there is one) if (__cont) { _M_sequence = __cont; _M_version = _M_sequence->_M_version; _M_get_container()->_M_attach_local(this, __constant); } } void _Safe_local_iterator_base:: _M_attach_single(_Safe_sequence_base* __cont, bool __constant) throw () { _M_detach_single(); // Attach to the new container (if there is one) if (__cont) { _M_sequence = __cont; _M_version = _M_sequence->_M_version; _M_get_container()->_M_attach_local_single(this, __constant); } } void _Safe_local_iterator_base:: _M_detach() { if (_M_sequence) _M_get_container()->_M_detach_local(this); _M_reset(); } void _Safe_local_iterator_base:: _M_detach_single() throw () { if (_M_sequence) _M_get_container()->_M_detach_local_single(this); _M_reset(); } void _Safe_unordered_container_base:: _M_detach_all() { __gnu_cxx::__scoped_lock sentry(_M_get_mutex()); detach_all(_M_iterators); _M_iterators = 0; detach_all(_M_const_iterators); _M_const_iterators = 0; detach_all(_M_local_iterators); _M_local_iterators = 0; detach_all(_M_const_local_iterators); _M_const_local_iterators = 0; } void _Safe_unordered_container_base:: _M_swap(_Safe_unordered_container_base& __x) noexcept { swap_ucont(_M_get_mutex(), *this, __x._M_get_mutex(), __x); } void _Safe_unordered_container_base:: _M_attach_local(_Safe_iterator_base* __it, bool __constant) { __gnu_cxx::__scoped_lock sentry(_M_get_mutex()); _M_attach_local_single(__it, __constant); } void _Safe_unordered_container_base:: _M_attach_local_single(_Safe_iterator_base* __it, bool __constant) throw () { _Safe_iterator_base*& __its = __constant ? _M_const_local_iterators : _M_local_iterators; __it->_M_next = __its; if (__it->_M_next) __it->_M_next->_M_prior = __it; __its = __it; } void _Safe_unordered_container_base:: _M_detach_local(_Safe_iterator_base* __it) { // Remove __it from this container's list __gnu_cxx::__scoped_lock sentry(_M_get_mutex()); _M_detach_local_single(__it); } void _Safe_unordered_container_base:: _M_detach_local_single(_Safe_iterator_base* __it) throw () { // Remove __it from this container's list __it->_M_unlink(); if (_M_const_local_iterators == __it) _M_const_local_iterators = __it->_M_next; if (_M_local_iterators == __it) _M_local_iterators = __it->_M_next; } } namespace { using _Error_formatter = __gnu_debug::_Error_formatter; using _Parameter = __gnu_debug::_Error_formatter::_Parameter; void get_max_length(std::size_t& max_length) { const char* nptr = std::getenv("GLIBCXX_DEBUG_MESSAGE_LENGTH"); if (nptr) { char* endptr; const unsigned long ret = std::strtoul(nptr, &endptr, 0); if (*nptr != '\0' && *endptr == '\0') max_length = ret; } } struct PrintContext { PrintContext() : _M_max_length(78), _M_column(1), _M_first_line(true), _M_wordwrap(false) { get_max_length(_M_max_length); } std::size_t _M_max_length; enum { _M_indent = 4 } ; std::size_t _M_column; bool _M_first_line; bool _M_wordwrap; }; template<size_t Length> void print_literal(PrintContext& ctx, const char(&word)[Length]) { print_word(ctx, word, Length - 1); } void print_word(PrintContext& ctx, const char* word, std::ptrdiff_t count = -1) { size_t length = count >= 0 ? count : __builtin_strlen(word); if (length == 0) return; // Consider first '\n' at begining cause it impacts column. if (word[0] == '\n') { fprintf(stderr, "\n"); ctx._M_column = 1; ++word; --length; if (length == 0) return; } size_t visual_length = isspace(word[length - 1]) ? length - 1 : length; if (visual_length == 0 || !ctx._M_wordwrap || (ctx._M_column + visual_length < ctx._M_max_length) || (visual_length >= ctx._M_max_length && ctx._M_column == 1)) { // If this isn't the first line, indent if (ctx._M_column == 1 && !ctx._M_first_line) { char spacing[ctx._M_indent + 1]; for (int i = 0; i < ctx._M_indent; ++i) spacing[i] = ' '; spacing[ctx._M_indent] = '\0'; fprintf(stderr, "%s", spacing); ctx._M_column += ctx._M_indent; } int written = fprintf(stderr, "%s", word); if (word[length - 1] == '\n') { ctx._M_first_line = false; ctx._M_column = 1; } else ctx._M_column += written; } else { print_literal(ctx, "\n"); print_word(ctx, word, count); } } template<size_t Length> void print_type(PrintContext& ctx, const type_info* info, const char(&unknown_name)[Length]) { if (!info) print_literal(ctx, unknown_name); else { int status; char* demangled_name = __cxxabiv1::__cxa_demangle(info->name(), NULL, NULL, &status); print_word(ctx, status == 0 ? demangled_name : info->name()); free(demangled_name); } } bool print_field(PrintContext& ctx, const char* name, const _Parameter::_Type& type) { if (__builtin_strcmp(name, "name") == 0) { assert(type._M_name); print_word(ctx, type._M_name); } else if (__builtin_strcmp(name, "type") == 0) print_type(ctx, type._M_type, "<unknown type>"); else return false; return true; } bool print_field(PrintContext& ctx, const char* name, const _Parameter::_Instance& inst) { const _Parameter::_Type& type = inst; if (print_field(ctx, name, type)) { } else if (__builtin_strcmp(name, "address") == 0) { char buf[64]; int ret = __builtin_sprintf(buf, "%p", inst._M_address); print_word(ctx, buf, ret); } else return false; return true; } void print_field(PrintContext& ctx, const _Parameter& param, const char* name) { assert(param._M_kind != _Parameter::__unused_param); const int bufsize = 64; char buf[bufsize]; const auto& variant = param._M_variant; switch (param._M_kind) { case _Parameter::__iterator: { const auto& iterator = variant._M_iterator; if (print_field(ctx, name, iterator)) { } else if (__builtin_strcmp(name, "constness") == 0) { static const char* constness_names[_Error_formatter::__last_constness] = { "<unknown>", "constant", "mutable" }; print_word(ctx, constness_names[iterator._M_constness]); } else if (__builtin_strcmp(name, "state") == 0) { static const char* state_names[_Error_formatter::__last_state] = { "<unknown>", "singular", "dereferenceable (start-of-sequence)", "dereferenceable", "past-the-end", "before-begin" }; print_word(ctx, state_names[iterator._M_state]); } else if (__builtin_strcmp(name, "sequence") == 0) { assert(iterator._M_sequence); int written = __builtin_sprintf(buf, "%p", iterator._M_sequence); print_word(ctx, buf, written); } else if (__builtin_strcmp(name, "seq_type") == 0) print_type(ctx, iterator._M_seq_type, "<unknown seq_type>"); else assert(false); } break; case _Parameter::__sequence: if (!print_field(ctx, name, variant._M_sequence)) assert(false); break; case _Parameter::__integer: if (__builtin_strcmp(name, "name") == 0) { assert(variant._M_integer._M_name); print_word(ctx, variant._M_integer._M_name); } else assert(false); break; case _Parameter::__string: if (__builtin_strcmp(name, "name") == 0) { assert(variant._M_string._M_name); print_word(ctx, variant._M_string._M_name); } else assert(false); break; case _Parameter::__instance: if (!print_field(ctx, name, variant._M_instance)) assert(false); break; case _Parameter::__iterator_value_type: if (!print_field(ctx, name, variant._M_iterator_value_type)) assert(false); break; default: assert(false); break; } } void print_description(PrintContext& ctx, const _Parameter::_Type& type) { if (type._M_name) { print_literal(ctx, "\""); print_word(ctx, type._M_name); print_literal(ctx, "\""); } print_literal(ctx, " {\n"); if (type._M_type) { print_literal(ctx, " type = "); print_type(ctx, type._M_type, "<unknown type>"); print_literal(ctx, ";\n"); } } void print_description(PrintContext& ctx, const _Parameter::_Instance& inst) { const int bufsize = 64; char buf[bufsize]; if (inst._M_name) { print_literal(ctx, "\""); print_word(ctx, inst._M_name); print_literal(ctx, "\" "); } int written = __builtin_sprintf(buf, "@ 0x%p {\n", inst._M_address); print_word(ctx, buf, written); if (inst._M_type) { print_literal(ctx, " type = "); print_type(ctx, inst._M_type, "<unknown type>"); } } void print_description(PrintContext& ctx, const _Parameter& param) { const int bufsize = 128; char buf[bufsize]; const auto& variant = param._M_variant; switch (param._M_kind) { case _Parameter::__iterator: { const auto& ite = variant._M_iterator; print_literal(ctx, "iterator "); print_description(ctx, ite); if (ite._M_type) { if (ite._M_constness != _Error_formatter::__unknown_constness) { print_literal(ctx, " ("); print_field(ctx, param, "constness"); print_literal(ctx, " iterator)"); } print_literal(ctx, ";\n"); } if (ite._M_state != _Error_formatter::__unknown_state) { print_literal(ctx, " state = "); print_field(ctx, param, "state"); print_literal(ctx, ";\n"); } if (ite._M_sequence) { print_literal(ctx, " references sequence "); if (ite._M_seq_type) { print_literal(ctx, "with type '"); print_field(ctx, param, "seq_type"); print_literal(ctx, "' "); } int written = __builtin_sprintf(buf, "@ 0x%p\n", ite._M_sequence); print_word(ctx, buf, written); } print_literal(ctx, "}\n"); } break; case _Parameter::__sequence: print_literal(ctx, "sequence "); print_description(ctx, variant._M_sequence); if (variant._M_sequence._M_type) print_literal(ctx, ";\n"); print_literal(ctx, "}\n"); break; case _Parameter::__instance: print_literal(ctx, "instance "); print_description(ctx, variant._M_instance); if (variant._M_instance._M_type) print_literal(ctx, ";\n"); print_literal(ctx, "}\n"); break; case _Parameter::__iterator_value_type: print_literal(ctx, "iterator::value_type "); print_description(ctx, variant._M_iterator_value_type); print_literal(ctx, "}\n"); break; default: break; } } void print_string(PrintContext& ctx, const char* string, const _Parameter* parameters, std::size_t num_parameters) { const char* start = string; const int bufsize = 128; char buf[bufsize]; int bufindex = 0; while (*start) { if (isspace(*start)) { buf[bufindex++] = *start++; buf[bufindex] = '\0'; print_word(ctx, buf, bufindex); bufindex = 0; continue; } if (*start != '%') { // Normal char. buf[bufindex++] = *start++; continue; } if (*++start == '%') { // Escaped '%' buf[bufindex++] = *start++; continue; } // We are on a parameter property reference, we need to flush buffer // first. if (bufindex != 0) { buf[bufindex] = '\0'; print_word(ctx, buf, bufindex); bufindex = 0; } // Get the parameter number assert(*start >= '1' && *start <= '9'); size_t param_index = *start - '0' - 1; assert(param_index < num_parameters); const auto& param = parameters[param_index]; // '.' separates the parameter number from the field // name, if there is one. ++start; if (*start != '.') { assert(*start == ';'); ++start; if (param._M_kind == _Parameter::__integer) { int written = __builtin_sprintf(buf, "%ld", param._M_variant._M_integer._M_value); print_word(ctx, buf, written); } else if (param._M_kind == _Parameter::__string) print_string(ctx, param._M_variant._M_string._M_value, parameters, num_parameters); continue; } // Extract the field name we want const int max_field_len = 16; char field[max_field_len]; int field_idx = 0; ++start; while (*start != ';') { assert(*start); assert(field_idx < max_field_len - 1); field[field_idx++] = *start++; } ++start; field[field_idx] = '\0'; print_field(ctx, param, field); } // Might need to flush. if (bufindex) { buf[bufindex] = '\0'; print_word(ctx, buf, bufindex); } } } namespace __gnu_debug { _Error_formatter& _Error_formatter::_M_message(_Debug_msg_id __id) const throw () { return const_cast<_Error_formatter*>(this) ->_M_message(_S_debug_messages[__id]); } void _Error_formatter::_M_error() const { // Emit file & line number information bool go_to_next_line = false; PrintContext ctx; if (_M_file) { print_word(ctx, _M_file); print_literal(ctx, ":"); go_to_next_line = true; } if (_M_line > 0) { char buf[64]; int written = __builtin_sprintf(buf, "%u:", _M_line); print_word(ctx, buf, written); go_to_next_line = true; } if (go_to_next_line) print_literal(ctx, "\n"); if (ctx._M_max_length) ctx._M_wordwrap = true; print_literal(ctx, "Error: "); // Print the error message assert(_M_text); print_string(ctx, _M_text, _M_parameters, _M_num_parameters); print_literal(ctx, ".\n"); // Emit descriptions of the objects involved in the operation ctx._M_first_line = true; ctx._M_wordwrap = false; bool has_header = false; for (unsigned int i = 0; i < _M_num_parameters; ++i) { switch (_M_parameters[i]._M_kind) { case _Parameter::__iterator: case _Parameter::__sequence: case _Parameter::__instance: case _Parameter::__iterator_value_type: if (!has_header) { print_literal(ctx, "\nObjects involved in the operation:\n"); has_header = true; } print_description(ctx, _M_parameters[i]); break; default: break; } } abort(); } #if !_GLIBCXX_INLINE_VERSION // Deprecated methods kept for backward compatibility. void _Error_formatter::_Parameter::_M_print_field( const _Error_formatter*, const char*) const { } void _Error_formatter::_Parameter::_M_print_description(const _Error_formatter*) const { } template<typename _Tp> void _Error_formatter::_M_format_word(char*, int, const char*, _Tp) const throw () { } void _Error_formatter::_M_print_word(const char*) const { } void _Error_formatter::_M_print_string(const char*) const { } void _Error_formatter::_M_get_max_length() const throw () { } // Instantiations. template void _Error_formatter::_M_format_word(char*, int, const char*, const void*) const; template void _Error_formatter::_M_format_word(char*, int, const char*, long) const; template void _Error_formatter::_M_format_word(char*, int, const char*, std::size_t) const; template void _Error_formatter::_M_format_word(char*, int, const char*, const char*) const; #endif } // namespace __gnu_debug