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[/] [open8_urisc/] [trunk/] [gnu/] [binutils/] [gold/] [cref.cc] - Rev 53
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// cref.cc -- cross reference for gold // Copyright 2008, 2010 Free Software Foundation, Inc. // Written by Ian Lance Taylor <iant@google.com>. // This file is part of gold. // This program 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 of the License, or // (at your option) any later version. // This program 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. // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, // MA 02110-1301, USA. #include "gold.h" #include <cerrno> #include <cstdio> #include <cstring> #include <map> #include <string> #include <vector> #include "object.h" #include "archive.h" #include "symtab.h" #include "cref.h" namespace gold { // Class Cref_inputs. This is used to hold the list of input files // for cross referencing. class Cref_inputs { public: Cref_inputs() : objects_(), archives_(), current_(&this->objects_) { } // Add an input object file. void add_object(Object* object); // Start adding an archive. We support nested archives for future // flexibility. void add_archive_start(Archive*); // Finish adding an archive. void add_archive_stop(Archive*); // Report symbol counts. void print_symbol_counts(const Symbol_table*, FILE*) const; // Print a cross reference table. void print_cref(const Symbol_table*, FILE*) const; private: // A list of input objects. typedef std::vector<Object*> Objects; // Information we record for an archive. struct Archive_info { // Archive name. std::string name; // List of objects included from the archive. Objects* objects; // Number of archive members. size_t member_count; }; // A mapping from the name of an archive to the list of objects in // that archive. typedef std::map<std::string, Archive_info> Archives; // For --cref, we build a cross reference table which maps from // symbols to lists of objects. The symbols are sorted // alphabetically. class Cref_table_compare { public: bool operator()(const Symbol*, const Symbol*) const; }; typedef std::map<const Symbol*, Objects*, Cref_table_compare> Cref_table; // Report symbol counts for a list of Objects. void print_objects_symbol_counts(const Symbol_table*, FILE*, const Objects*) const; // Report symbol counts for an object. void print_object_symbol_counts(const Symbol_table*, FILE*, const Object*) const; // Gather cross reference information. void gather_cref(const Objects*, Cref_table*) const; // List of input objects. Objects objects_; // List of input archives. This is a mapping from the archive file // name to the list of objects. Archives archives_; // The list to which we are currently adding objects. Objects* current_; }; // Add an object. void Cref_inputs::add_object(Object* object) { this->current_->push_back(object); } // Start adding an archive. void Cref_inputs::add_archive_start(Archive* archive) { gold_assert(this->current_ == &this->objects_); if (this->archives_.find(archive->name()) == this->archives_.end()) { Archive_info* pai = &this->archives_[archive->name()]; pai->name = archive->filename(); pai->objects = new Objects(); pai->member_count = archive->count_members(); } this->current_ = this->archives_[archive->name()].objects; } // Stop adding an archive. void Cref_inputs::add_archive_stop(Archive*) { gold_assert(this->current_ != &this->objects_); this->current_ = &this->objects_; } // Report symbol counts for an object. void Cref_inputs::print_object_symbol_counts(const Symbol_table* symtab, FILE* f, const Object* object) const { size_t defined, used; object->get_global_symbol_counts(symtab, &defined, &used); fprintf(f, "symbols %s %zu %zu\n", object->name().c_str(), defined, used); } // Report symbol counts for a list of inputs. void Cref_inputs::print_objects_symbol_counts(const Symbol_table* symtab, FILE* f, const Objects* objects) const { for (Objects::const_iterator p = objects->begin(); p != objects->end(); ++p) this->print_object_symbol_counts(symtab, f, *p); } // Print symbol counts. This implements --print-symbol-counts. This // is intended to be easily read by a program. This outputs a series // of lines. There are two different types of lines. // The first is "symbols FILENAME DEFINED USED". FILENAME is the name // of an object file included in the link; for an archive, this will // be ARCHIVEFILENAME(MEMBERNAME). DEFINED is the number of symbols // which the object file defines. USED is the number of symbols which // are used in the final output; this is the number of symbols which // appear in the final output table as having been defined by this // object. These numbers will be different when weak symbols are // used, and they will be different for dynamic objects. // The second is "archives FILENAME MEMBERS USED". FILENAME is the // name of an archive file included in the link. MEMBERS is the // number of members of the archive. USED is the number of archive // members included in the link. void Cref_inputs::print_symbol_counts(const Symbol_table* symtab, FILE* f) const { this->print_objects_symbol_counts(symtab, f, &this->objects_); for (Archives::const_iterator p = this->archives_.begin(); p != this->archives_.end(); ++p) { fprintf(f, "archive %s %zu %zu\n", p->second.name.c_str(), p->second.member_count, p->second.objects->size()); this->print_objects_symbol_counts(symtab, f, p->second.objects); } } // Sort symbols for the cross reference table. bool Cref_inputs::Cref_table_compare::operator()(const Symbol* s1, const Symbol* s2) const { int i = strcmp(s1->name(), s2->name()); if (i != 0) return i < 0; if (s1->version() == NULL) { if (s2->version() != NULL) return true; } else if (s2->version() == NULL) return false; else { i = strcmp(s1->version(), s2->version()); if (i != 0) return i < 0; } // We should never have two different symbols with the same name and // version. if (s1 == s2) return false; gold_unreachable(); } // Gather cross reference information from a list of inputs. void Cref_inputs::gather_cref(const Objects* objects, Cref_table* table) const { for (Objects::const_iterator po = objects->begin(); po != objects->end(); ++po) { const Object::Symbols* symbols = (*po)->get_global_symbols(); if (symbols == NULL) continue; for (Object::Symbols::const_iterator ps = symbols->begin(); ps != symbols->end(); ++ps) { const Symbol* sym = *ps; if (sym == NULL) continue; Objects* const onull = NULL; std::pair<Cref_table::iterator, bool> ins = table->insert(std::make_pair(sym, onull)); Cref_table::iterator pc = ins.first; if (ins.second) pc->second = new Objects(); if (sym->source() == Symbol::FROM_OBJECT && sym->object() == *po && sym->is_defined()) pc->second->insert(pc->second->begin(), *po); else pc->second->push_back(*po); } } } // The column where the file name starts in a cross reference table. static const size_t filecol = 50; // Print a cross reference table. void Cref_inputs::print_cref(const Symbol_table*, FILE* f) const { Cref_table table; this->gather_cref(&this->objects_, &table); for (Archives::const_iterator p = this->archives_.begin(); p != this->archives_.end(); ++p) this->gather_cref(p->second.objects, &table); for (Cref_table::const_iterator pc = table.begin(); pc != table.end(); ++pc) { // If all the objects are dynamic, skip this symbol. const Symbol* sym = pc->first; const Objects* objects = pc->second; Objects::const_iterator po; for (po = objects->begin(); po != objects->end(); ++po) if (!(*po)->is_dynamic()) break; if (po == objects->end()) continue; std::string s = sym->demangled_name(); if (sym->version() != NULL) { s += '@'; if (sym->is_default()) s += '@'; s += sym->version(); } fputs(s.c_str(), f); size_t len = s.length(); for (po = objects->begin(); po != objects->end(); ++po) { int n = len < filecol ? filecol - len : 1; fprintf(f, "%*c%s\n", n, ' ', (*po)->name().c_str()); len = 0; } } } // Class Cref. // Make sure the Cref_inputs object has been created. void Cref::need_inputs() { if (this->inputs_ == NULL) this->inputs_ = new Cref_inputs(); } // Add an input object file. void Cref::add_object(Object* object) { this->need_inputs(); this->inputs_->add_object(object); } // Start adding an archive. void Cref::add_archive_start(Archive* archive) { this->need_inputs(); this->inputs_->add_archive_start(archive); } // Stop adding an archive. void Cref::add_archive_stop(Archive* archive) { this->inputs_->add_archive_stop(archive); } // Print symbol counts. void Cref::print_symbol_counts(const Symbol_table* symtab) const { if (parameters->options().user_set_print_symbol_counts() && this->inputs_ != NULL) { FILE* f; if (strcmp(parameters->options().print_symbol_counts(), "-") == 0) f = stdout; else { f = fopen(parameters->options().print_symbol_counts(), "w"); if (f == NULL) gold_error(_("cannot open symbol count file %s: %s"), parameters->options().print_symbol_counts(), strerror(errno)); } if (f != NULL) this->inputs_->print_symbol_counts(symtab, f); } } // Print a cross reference table. void Cref::print_cref(const Symbol_table* symtab, FILE* f) const { fprintf(f, _("\nCross Reference Table\n\n")); const char* msg = _("Symbol"); int len = filecol - strlen(msg); fprintf(f, "%s%*c%s\n", msg, len, ' ', _("File")); if (parameters->options().cref() && this->inputs_ != NULL) this->inputs_->print_cref(symtab, f); } } // End namespace gold.
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