// -*- Mode: C++ -*- // // Copyright (C) 2013 Red Hat, Inc. // // This file is part of the GNU Application Binary Interface Generic // Analysis and Instrumentation Library (libabigail). 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, 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 Lesser Public License for more details. // You should have received a copy of the GNU Lesser General Public // License along with this program; see the file COPYING-LGPLV3. If // not, see . // // Author: Dodji Seketeli /// @file #ifndef __ABG_IR_H__ #define __ABG_IR_H__ #include "abg-fwd.h" #include "abg-hash.h" #include "abg-traverse.h" namespace abigail { /// @brief The source location of a token. /// /// This represents the location of a token coming from a given /// translation unit. This location is actually an abstraction of /// cursor in the table of all the locations of all the tokens of the /// translation unit. That table is managed by the location_manager /// type. class location { unsigned value_; location(unsigned v) : value_(v) { } public: location() : value_(0) { } unsigned get_value() const {return value_;} operator bool() const { return !!value_; } bool operator==(const location other) const {return value_ == other.value_;} bool operator<(const location other) const { return value_ < other.value_; } friend class location_manager; }; /// @brief The entry point to manage locations. /// /// This type keeps a table of all the locations for tokens of a /// given translation unit. class location_manager { struct priv; /// Pimpl. shared_ptr priv_; public: location_manager(); location create_new_location(const std::string& fle, size_t lne, size_t col); void expand_location(const location location, std::string& path, unsigned& line, unsigned& column) const; }; struct ir_node_visitor; /// Convenience typedef for a shared pointer on a @ref /// translation_unit type. typedef shared_ptr translation_unit_sptr; /// Convenience typedef for a vector of @ref translation_unit_sptr. typedef std::vector translation_units; /// Convenience typedef for a shared pointer on a @ref type_base typedef shared_ptr type_base_sptr; /// Convenience typedef for a smart pointer on @ref decl_base. typedef shared_ptr decl_base_sptr; struct ir_traversable_base; /// Convenience typedef for a shared pointer to @ref /// ir_traversable_base. typedef shared_ptr ir_traversable_base_sptr; /// The base of an entity of the intermediate representation that is /// to be traversed. struct ir_traversable_base : public traversable_base { virtual void traverse(ir_node_visitor&); }; // end class ir_traversable_base /// This is the abstraction of the set of relevant artefacts (types, /// variable declarations, functions, templates, etc) bundled together /// into a translation unit. class translation_unit : public traversable_base { struct priv; typedef shared_ptr priv_sptr; priv_sptr priv_; // Forbidden translation_unit(); public: /// Convenience typedef for a shared pointer on a @ref global_scope. typedef shared_ptr global_scope_sptr; public: translation_unit(const std::string& path, char address_size = 0); virtual ~translation_unit(); const std::string& get_path() const; void set_path(const string&); const global_scope_sptr get_global_scope() const; location_manager& get_loc_mgr(); const location_manager& get_loc_mgr() const; bool is_empty() const; char get_address_size() const; void set_address_size(char); bool operator==(const translation_unit&) const; virtual void traverse(ir_node_visitor& v); };//end class translation_unit bool operator==(translation_unit_sptr, translation_unit_sptr); /// The base type of all declarations. class decl_base : public ir_traversable_base { public: /// Facility to hash instances of decl_base. struct hash; /// ELF visibility enum visibility { VISIBILITY_NONE, VISIBILITY_DEFAULT, VISIBILITY_PROTECTED, VISIBILITY_HIDDEN, VISIBILITY_INTERNAL }; /// ELF binding enum binding { BINDING_NONE, BINDING_LOCAL, BINDING_GLOBAL, BINDING_WEAK }; protected: mutable size_t hash_; private: location location_; std::string name_; std::string mangled_name_; scope_decl* context_; visibility visibility_; // Forbidden decl_base(); virtual void set_scope(scope_decl*); public: decl_base(const std::string& name, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT); decl_base(location); decl_base(const decl_base&); virtual bool operator==(const decl_base&) const; virtual void traverse(ir_node_visitor& v); virtual ~decl_base(); size_t get_hash() const; void set_hash(size_t) const; location get_location() const {return location_;} void set_location(const location& l) {location_ = l;} const string& get_name() const {return name_;} virtual string get_pretty_representation() const; void get_qualified_name(string& qualified_name, const string& separator = "::") const; string get_qualified_name(const string& separator = "::") const; void set_name(const string& n) { name_ = n; } const string& get_mangled_name() const {return mangled_name_;} void set_mangled_name(const std::string& m) { mangled_name_ = m; } scope_decl* get_scope() const {return context_;} visibility get_visibility() const {return visibility_;} void set_visibility(visibility v) {visibility_ = v;} friend decl_base_sptr add_decl_to_scope(decl_base_sptr dcl, scope_decl* scpe); friend decl_base_sptr insert_decl_into_scope(decl_base_sptr, vector >::iterator, scope_decl*); friend class class_decl; };// end class decl_base bool operator==(decl_base_sptr, decl_base_sptr); std::ostream& operator<<(std::ostream&, decl_base::visibility); std::ostream& operator<<(std::ostream&, decl_base::binding); /// Convenience typedef for a shared pointer on a @ref scope_decl. typedef shared_ptr scope_decl_sptr; /// A declaration that introduces a scope. class scope_decl : public virtual decl_base { public: /// Convenience typedef for a vector of @ref decl_base_sptr. typedef std::vector declarations; /// Convenience typedef for a vector of @ref scope_decl_sptr. typedef std::vector scopes; private: declarations members_; scopes member_scopes_; scope_decl(); protected: virtual decl_base_sptr add_member_decl(const decl_base_sptr member); virtual decl_base_sptr insert_member_decl(const decl_base_sptr member, declarations::iterator before); virtual void remove_member_decl(const decl_base_sptr member); public: scope_decl(const std::string& name, location locus, visibility vis = VISIBILITY_DEFAULT) : decl_base(name, locus, /*mangled_name=*/name, vis) {} scope_decl(location l) : decl_base("", l) {} virtual bool operator==(const decl_base&) const; const declarations& get_member_decls() const {return members_;} declarations& get_member_decls() {return members_;} scopes& get_member_scopes() {return member_scopes_;} bool is_empty() const {return get_member_decls().empty();} bool find_iterator_for_member(const decl_base*, declarations::iterator&); bool find_iterator_for_member(const decl_base_sptr, declarations::iterator&); virtual void traverse(ir_node_visitor&); virtual ~scope_decl(); friend decl_base_sptr add_decl_to_scope(decl_base_sptr dcl, scope_decl* scpe); friend decl_base_sptr insert_decl_into_scope(decl_base_sptr decl, scope_decl::declarations::iterator before, scope_decl* scope); friend void remove_decl_from_scope(decl_base_sptr decl); };//end class scope_decl /// Convenience typedef for shared pointer on @ref global_scope. typedef shared_ptr global_scope_sptr; /// This abstracts the global scope of a given translation unit. /// /// Only one instance of this class must be present in a given /// translation_unit. That instance is implicitely created the first /// time translatin_unit::get_global_scope is invoked. class global_scope : public scope_decl { translation_unit* translation_unit_; global_scope(translation_unit *tu) : decl_base("", location()), scope_decl("", location()), translation_unit_(tu) {} public: friend class translation_unit; translation_unit* get_translation_unit() const {return translation_unit_;} virtual ~global_scope(); }; /// An abstraction helper for type declarations class type_base { size_t size_in_bits_; size_t alignment_in_bits_; // Forbid this. type_base(); public: /// A hasher for type_base types. struct hash; /// A hasher for types. It gets the dynamic type of the current /// instance of type and hashes it accordingly. Note that the hashing /// function of this hasher must be updated each time a new kind of /// type is added to the IR. struct dynamic_hash; /// A hasher for shared_ptr that will hash it based on the /// runtime type of the type pointed to. struct shared_ptr_hash; struct cached_hash; type_base(size_t s, size_t a); virtual bool operator==(const type_base&) const; virtual ~type_base(); void set_size_in_bits(size_t); size_t get_size_in_bits() const; void set_alignment_in_bits(size_t); size_t get_alignment_in_bits() const; };//end class type_base /// A predicate for deep equality of instances of /// type_base* struct type_ptr_equal { bool operator()(const type_base* l, const type_base* r) const { if (!!l != !!r) return false; if (l == r) return true; if (l) return *l == *r; return true; } }; /// A predicate for deep equality of instances of /// shared_ptr struct type_shared_ptr_equal { bool operator()(const type_base_sptr l, const type_base_sptr r) const { if (!!l != !!r) return false; if (l.get() == r.get()) return true; if (l) return *l == *r; return true; } }; /// Convenience typedef for a shared pointer on a @ref type_decl. typedef shared_ptr type_decl_sptr; /// A basic type declaration that introduces no scope. class type_decl : public virtual decl_base, public virtual type_base { // Forbidden. type_decl(); public: /// Facility to hash instance of type_decl struct hash; type_decl(const std::string& name, size_t size_in_bits, size_t alignment_in_bits, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT); virtual bool operator==(const type_base&) const; virtual bool operator==(const decl_base&) const; virtual bool operator==(const type_decl&) const; virtual string get_pretty_representation() const; virtual void traverse(ir_node_visitor&); virtual ~type_decl(); };// end class type_decl. /// A type that introduces a scope. class scope_type_decl : public scope_decl, public virtual type_base { scope_type_decl(); public: /// Hasher for instances of scope_type_decl struct hash; scope_type_decl(const std::string& name, size_t size_in_bits, size_t alignment_in_bits, location locus, visibility vis = VISIBILITY_DEFAULT); virtual bool operator==(const decl_base&) const; virtual bool operator==(const type_base&) const; virtual ~scope_type_decl(); }; /// Convenience typedef for a shared pointer on namespace_decl. typedef shared_ptr namespace_decl_sptr; /// The abstraction of a namespace declaration class namespace_decl : public scope_decl { public: namespace_decl(const std::string& name, location locus, visibility vis = VISIBILITY_DEFAULT); virtual bool operator==(const decl_base&) const; virtual void traverse(ir_node_visitor&); virtual ~namespace_decl(); };// end class namespace_decl typedef shared_ptr qualified_type_def_sptr; /// The abstraction of a qualified type. class qualified_type_def : public virtual type_base, public virtual decl_base { char cv_quals_; shared_ptr underlying_type_; // Forbidden. qualified_type_def(); public: /// A Hasher for instances of qualified_type_def struct hash; /// Bit field values representing the cv qualifiers of the /// underlying type. enum CV { CV_NONE = 0, CV_CONST = 1, CV_VOLATILE = 1 << 1, CV_RESTRICT = 1 << 2 }; qualified_type_def(shared_ptr type, CV quals, location locus); virtual bool operator==(const decl_base&) const; virtual bool operator==(const type_base&) const; char get_cv_quals() const; void set_cv_quals(char cv_quals); const shared_ptr& get_underlying_type() const; virtual void traverse(ir_node_visitor& v); virtual ~qualified_type_def(); }; // end class qualified_type_def. qualified_type_def::CV operator|(qualified_type_def::CV, qualified_type_def::CV); std::ostream& operator<<(std::ostream&, qualified_type_def::CV); /// Convenience typedef for a shared pointer on a @ref pointer_type_def typedef shared_ptr pointer_type_def_sptr; /// The abstraction of a pointer type. class pointer_type_def : public virtual type_base, public virtual decl_base { shared_ptr pointed_to_type_; // Forbidden. pointer_type_def(); public: /// A hasher for instances of pointer_type_def struct hash; pointer_type_def(shared_ptr& pointed_to_type, size_t size_in_bits, size_t alignment_in_bits, location locus); virtual bool operator==(const decl_base&) const; virtual bool operator==(const type_base&) const; const shared_ptr& get_pointed_to_type() const; virtual void traverse(ir_node_visitor& v); virtual ~pointer_type_def(); }; // end class pointer_type_def /// Convenience typedef for a shared pointer on a @ref reference_type_def typedef shared_ptr reference_type_def_sptr; /// Abstracts a reference type. class reference_type_def : public virtual type_base, public virtual decl_base { shared_ptr pointed_to_type_; bool is_lvalue_; // Forbidden. reference_type_def(); public: /// Hasher for intances of reference_type_def. struct hash; reference_type_def(const type_base_sptr pointed_to_type, bool lvalue, size_t size_in_bits, size_t alignment_in_bits, location locus); virtual bool operator==(const decl_base&) const; virtual bool operator==(const type_base&) const; const shared_ptr& get_pointed_to_type() const; bool is_lvalue() const; virtual void traverse(ir_node_visitor& v); virtual ~reference_type_def(); }; // end class reference_type_def /// Convenience typedef for shared pointer on enum_type_decl. typedef shared_ptr enum_type_decl_sptr; /// Abstracts a declaration for an enum type. class enum_type_decl : public virtual type_base, public virtual decl_base { public: /// A hasher for an enum_type_decl. struct hash; /// Enumerator Datum. class enumerator { string name_; size_t value_; public: enumerator() : value_(0) {} enumerator(const string& name, size_t value) : name_(name), value_(value) { } bool operator==(const enumerator& other) const { return (get_name() == other.get_name() && get_value() == other.get_value()); } const string& get_name() const {return name_;} const string get_qualified_name(const enum_type_decl_sptr enum_type) const {return enum_type->get_qualified_name() + "::" + get_name();} void set_name(const string& n) {name_ = n;} size_t get_value() const {return value_;} void set_value(size_t v) {value_=v;} }; /// Convenience typedef for a list of @ref enumerator. typedef std::vector enumerators; private: type_base_sptr underlying_type_; enumerators enumerators_; // Forbidden enum_type_decl(); public: /// Constructor of an enum type declaration. /// /// @param name the name of the enum /// /// @param locus the locus at which the enum appears in the source /// code. /// /// @param underlying_type the underlying type of the enum /// /// @param enumerators a list of enumerators for this enum. enum_type_decl(const string& name, location locus, type_base_sptr underlying_type, enumerators& enms, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT) : type_base(underlying_type->get_size_in_bits(), underlying_type->get_alignment_in_bits()), decl_base(name, locus, mangled_name, vis), underlying_type_(underlying_type), enumerators_(enms) {} type_base_sptr get_underlying_type() const; const enumerators& get_enumerators() const; virtual string get_pretty_representation() const; virtual bool operator==(const decl_base&) const; virtual bool operator==(const type_base&) const; virtual void traverse(ir_node_visitor& v); virtual ~enum_type_decl(); }; // end class enum_type_decl /// Convenience typedef for a shared pointer on a @ref typedef_decl. typedef shared_ptr typedef_decl_sptr; /// The abstraction of a typedef declaration. class typedef_decl : public virtual type_base, public virtual decl_base { shared_ptr underlying_type_; // Forbidden typedef_decl(); public: /// Hasher for the typedef_decl type. struct hash; typedef_decl(const string& name, const shared_ptr underlying_type, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT); virtual bool operator==(const decl_base&) const; virtual bool operator==(const type_base&) const; virtual string get_pretty_representation() const; const shared_ptr& get_underlying_type() const; virtual void traverse(ir_node_visitor&); virtual ~typedef_decl(); };// end class typedef_decl /// Convenience typedef for a shared pointer on a @ref var_decl typedef shared_ptr var_decl_sptr; /// Abstracts a variable declaration. class var_decl : public virtual decl_base { shared_ptr type_; binding binding_; // Forbidden var_decl(); public: /// Hasher for a var_decl type. struct hash; var_decl(const std::string& name, shared_ptr type, location locus, const std::string& mangled_name, visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_NONE); virtual bool operator==(const decl_base&) const; shared_ptr get_type() const {return type_;} binding get_binding() const {return binding_;} void set_binding(binding b) {binding_ = b;} virtual string get_pretty_representation() const; virtual void traverse(ir_node_visitor& v); virtual ~var_decl(); }; // end class var_decl /// Convenience typedef for a shared pointer on a @ref function_decl typedef shared_ptr function_decl_sptr; /// Abstraction for a function declaration. class function_decl : public virtual decl_base { protected: shared_ptr type_; private: bool declared_inline_; decl_base::binding binding_; public: /// Hasher for function_decl struct hash; class parameter; /// Convenience typedef for a shared pointer on a @ref /// function_decl::parameter typedef shared_ptr parameter_sptr; /// Convenience typedef for a vector of @ref parameter_sptr typedef std::vector parameters; /// Abtraction for the parameter of a function. class parameter { shared_ptr type_; unsigned index_; bool variadic_marker_; std::string name_; location location_; bool artificial_; public: /// Hasher for an instance of function::parameter struct hash; parameter(const shared_ptr type, unsigned index, const std::string& name, location loc, bool variadic_marker = false) : type_(type), index_(index), variadic_marker_ (variadic_marker), name_(name), location_(loc), artificial_(false) {} parameter(const shared_ptr type, const std::string& name, location loc, bool variadic_marker = false, bool is_artificial = false) : type_(type), index_(0), variadic_marker_ (variadic_marker), name_(name), location_(loc), artificial_(is_artificial) {} parameter(const shared_ptr type, unsigned index = 0, bool variadic_marker = false) : type_(type), index_(index), variadic_marker_ (variadic_marker), artificial_(false) {} const shared_ptr get_type()const {return type_;} const shared_ptr get_type() {return type_;} unsigned get_index() const {return index_;} void set_index(unsigned i) {index_ = i;} const std::string& get_name() const {return name_;} location get_location() const {return location_;} /// Test if the parameter is artificial. /// /// Being artificial means the parameter was not explicitely /// mentionned in the source code, but was rather artificially /// created by the compiler. /// /// @return true if the parameter is artificial, false otherwise. bool get_artificial() const {return artificial_;} /// Getter for the artificial-ness of the parameter. /// /// Being artificial means the parameter was not explicitely /// mentionned in the source code, but was rather artificially /// created by the compiler. /// /// @param f set to true if the parameter is artificial. void set_artificial(bool f) {artificial_ = f;} bool operator==(const parameter& o) const { if ((get_variadic_marker() != o.get_variadic_marker()) || (get_index() != o.get_index()) || (!!get_type() != !!o.get_type()) || (get_type() && (*get_type() != *o.get_type()))) return false; return true; } bool get_variadic_marker() const {return variadic_marker_;} }; function_decl(const std::string& name, const std::vector& parms, shared_ptr return_type, size_t fptr_size_in_bits, size_t fptr_align_in_bits, bool declared_inline, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_GLOBAL); function_decl(const std::string& name, shared_ptr function_type, bool declared_inline, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_GLOBAL) : decl_base(name, locus, mangled_name, vis), type_(function_type), declared_inline_(declared_inline), binding_(bind) {} function_decl(const std::string& name, shared_ptr fn_type, bool declared_inline, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_GLOBAL); virtual string get_pretty_representation() const; const std::vector& get_parameters() const; void append_parameter(parameter_sptr parm); void append_parameters(std::vector& parms); const shared_ptr get_type() const; const shared_ptr get_return_type() const; void set_type(shared_ptr fn_type) {type_ = fn_type; } bool is_declared_inline() const {return declared_inline_;} binding get_binding() const {return binding_;} virtual bool operator==(const decl_base& o) const; /// Return true iff the function takes a variable number of /// parameters. /// /// @return true if the function taks a variable number /// of parameters. bool is_variadic() const { return (!get_parameters().empty() && get_parameters().back()->get_variadic_marker()); } virtual void traverse(ir_node_visitor&); virtual ~function_decl(); }; /// Convenience typedef for a shared pointer on a @ref function_type typedef shared_ptr function_type_sptr; /// Abstraction of a function type. class function_type : public virtual type_base { public: /// Hasher for an instance of function_type struct hash; /// Convenience typedef for a shared pointer on a @ref /// function_decl::parameter typedef shared_ptr parameter_sptr; /// Convenience typedef for a vector of @ref parameter_sptr typedef std::vector parameters; private: function_type(); shared_ptr return_type_; protected: parameters parms_; public: /// The most straightforward constructor for the the function_type /// class. /// /// @param return_type the return type of the function type. /// /// @param parms the list of parameters of the function type. /// Stricto sensu, we just need a list of types; we are using a list /// of parameters (where each parameter also carries the name of the /// parameter and its source location) to try and provide better /// diagnostics whenever it makes sense. If it appears that this /// wasts too many resources, we can fall back to taking just a /// vector of types here. /// /// @param size_in_bits the size of this type, in bits. /// /// @param alignment_in_bits the alignment of this type, in bits. /// /// @param size_in_bits the size of this type. function_type(shared_ptr return_type, const parameters& parms, size_t size_in_bits, size_t alignment_in_bits) : type_base(size_in_bits, alignment_in_bits), return_type_(return_type), parms_(parms) {} /// A constructor for a function_type that takes no parameters. /// /// @param return_type the return type of this function_type. /// /// @param size_in_bits the size of this type, in bits. /// /// @param alignment_in_bits the alignment of this type, in bits. function_type(shared_ptr return_type, size_t size_in_bits, size_t alignment_in_bits) : type_base(size_in_bits, alignment_in_bits), return_type_(return_type) {} /// A constructor for a function_type that takes no parameter and /// that has no return_type yet. These missing parts can (and must) /// be added later. /// /// @param size_in_bits the size of this type, in bits. /// /// @param alignment_in_bits the alignment of this type, in bits. function_type(size_t size_in_bits, size_t alignment_in_bits) : type_base(size_in_bits, alignment_in_bits) {} const shared_ptr get_return_type() const {return return_type_;} void set_return_type(shared_ptr t) {return_type_ = t;} const parameters& get_parameters() const {return parms_;} parameters& get_parameters() {return parms_;} void set_parameters(const parameters &p) {parms_ = p;} void append_parameter(parameter_sptr parm) { parm->set_index(parms_.size()); parms_.push_back(parm); } bool is_variadic() const {return !parms_.empty() && parms_.back()->get_variadic_marker();} virtual bool operator==(const type_base&) const; virtual ~function_type(); };//end class function_type /// Convenience typedef for shared pointer to @ref method_type. typedef shared_ptr method_type_sptr; /// Abstracts the type of a class member function. class method_type : public function_type { shared_ptr class_type_; method_type(); public: /// Hasher for intances of method_type struct hash; method_type(shared_ptr return_type, shared_ptr class_type, const std::vector >& parms, size_t size_in_bits, size_t alignment_in_bits); method_type(shared_ptr return_type, shared_ptr class_type, const std::vector >& parms, size_t size_in_bits, size_t alignment_in_bits); method_type(shared_ptr class_type, size_t size_in_bits, size_t alignment_in_bits); method_type(size_t size_in_bits, size_t alignment_in_bits); shared_ptr get_class_type() const {return class_type_;} void set_class_type(shared_ptr t); virtual ~method_type(); };// end class method_type. /// The base class of templates. class template_decl { // XXX std::list > parms_; public: /// Hasher. struct hash; template_decl() {} void add_template_parameter(shared_ptr p) {parms_.push_back(p);} const std::list >& get_template_parameters() const {return parms_;} virtual bool operator==(const template_decl& o) const; virtual ~template_decl(); };//end class template_decl /// Base class for a template parameter. Client code should use the /// more specialized type_template_parameter, /// non_type_template_parameter and template_template_parameter below. class template_parameter { unsigned index_; // Forbidden template_parameter(); public: /// Hashers. struct hash; struct dynamic_hash; struct shared_ptr_hash; template_parameter(unsigned index) : index_(index) {} virtual bool operator==(const template_parameter&) const; unsigned get_index() const {return index_;} virtual ~template_parameter(); };//end class template_parameter /// Abstracts a type template parameter. class type_tparameter : public template_parameter, public virtual type_decl { // Forbidden type_tparameter(); public: /// Hasher. struct hash; type_tparameter(unsigned index, const std::string& name, location locus) : decl_base(name, locus), type_base(0, 0), type_decl(name, 0, 0, locus), template_parameter(index) {} virtual bool operator==(const type_base&) const; virtual bool operator==(const template_parameter&) const; virtual bool operator==(const type_tparameter&) const; virtual ~type_tparameter(); };// end class type_tparameter. /// Abstracts non type template parameters. class non_type_tparameter : public template_parameter, public virtual decl_base { shared_ptr type_; // Forbidden non_type_tparameter(); public: /// Hasher. struct hash; non_type_tparameter(unsigned index, const std::string& name, shared_ptr type, location locus) : decl_base(name, locus, ""), template_parameter(index), type_(type) {} virtual bool operator==(const decl_base&) const; virtual bool operator==(const template_parameter&) const; shared_ptr get_type() const {return type_;} virtual ~non_type_tparameter(); };// end class non_type_tparameter /// Abstracts a template template parameter. class template_tparameter : public type_tparameter, public template_decl { // Forbidden template_tparameter(); public: /// A hasher for instances of template_tparameter struct hash; template_tparameter(unsigned index, const std::string& name, location locus) : decl_base(name, locus), type_base(0, 0), type_decl(name, 0, 0, locus, name, VISIBILITY_DEFAULT), type_tparameter(index, name, locus) {} virtual bool operator==(const type_base&) const; virtual bool operator==(const template_parameter&) const; virtual bool operator==(const template_decl&) const; virtual ~template_tparameter(); }; /// This abstracts a composition of types based on template type /// parameters. The result of the composition is a type that can be /// referred to by a template non-type parameter. Instances of this /// type can appear at the same level as template parameters, in the /// scope of a template_decl. class type_composition : public template_parameter, public virtual decl_base { shared_ptr type_; type_composition(); public: type_composition(unsigned index, shared_ptr composed_type); shared_ptr get_composed_type() const {return type_;} void set_composed_type(shared_ptr t) {type_ = t;} virtual ~type_composition(); }; /// Convenience typedef for a shared pointer on a @ref function_tdecl typedef shared_ptr function_tdecl_sptr; /// Abstract a function template declaration. class function_tdecl : public template_decl, public scope_decl { shared_ptr pattern_; binding binding_; // Forbidden function_tdecl(); public: /// Hash functor for function templates. struct hash; struct shared_ptr_hash; function_tdecl(location locus, visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_NONE) : decl_base("", locus, "", vis), scope_decl("", locus), binding_(bind) {} function_tdecl(shared_ptr pattern, location locus, visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_NONE) : decl_base(pattern->get_name(), locus, pattern->get_name(), vis), scope_decl(pattern->get_name(), locus), binding_(bind) {set_pattern(pattern);} virtual bool operator==(const decl_base&) const; virtual bool operator==(const template_decl&) const; void set_pattern(shared_ptr p) { pattern_ = p; add_decl_to_scope(p, this); set_name(p->get_name()); } shared_ptr get_pattern() const {return pattern_;} binding get_binding() const {return binding_;} virtual void traverse(ir_node_visitor& v); virtual ~function_tdecl(); }; // end class function_tdecl. /// Convenience typedef for a shared pointer on a @ref class_tdecl typedef shared_ptr class_tdecl_sptr; /// Abstract a class template. class class_tdecl : public template_decl, public scope_decl { shared_ptr pattern_; // Forbidden class_tdecl(); public: /// Hashers. struct hash; struct shared_ptr_hash; class_tdecl(location locus, visibility vis = VISIBILITY_DEFAULT) : decl_base("", locus, "", vis), scope_decl("", locus) {} class_tdecl(shared_ptr pattern, location locus, visibility vis = VISIBILITY_DEFAULT); virtual bool operator==(const decl_base&) const; virtual bool operator==(const template_decl&) const; virtual bool operator==(const class_tdecl&) const; void set_pattern(shared_ptr p); shared_ptr get_pattern() const {return pattern_;} virtual void traverse(ir_node_visitor& v); virtual ~class_tdecl(); };// end class class_tdecl /// Convenience typedef for a shared pointer on a @ref class_decl typedef shared_ptr class_decl_sptr; /// Abstracts a class declaration. class class_decl : public scope_type_decl { // Forbidden class_decl(); public: /// Hasher. struct hash; /// Language access specifier. enum access_specifier { no_access, private_access, protected_access, public_access }; /// Forward declarations. class member_base; class member_type; class base_spec; class data_member; class method_decl; class member_function; class member_function_template; class member_class_template; /// Convenience typedef /// @{ typedef shared_ptr base_spec_sptr; typedef std::vector base_specs; typedef shared_ptr member_type_sptr; typedef std::vector member_types; typedef shared_ptr data_member_sptr; typedef std::vector data_members; typedef shared_ptr member_function_sptr; typedef std::vector member_functions; typedef shared_ptr member_function_template_sptr; typedef std::vector member_function_templates; typedef shared_ptr member_class_template_sptr; typedef std::vector member_class_templates; /// @} private: mutable bool hashing_started_; class_decl_sptr declaration_; bool is_declaration_only_; class_decl_sptr definition_of_declaration_; base_specs bases_; member_types member_types_; data_members data_members_; member_functions member_functions_; member_function_templates member_function_templates_; member_class_templates member_class_templates_; protected: virtual decl_base_sptr add_member_decl(decl_base_sptr); virtual decl_base_sptr insert_member_decl(decl_base_sptr member, declarations::iterator before); virtual void remove_member_decl(decl_base_sptr); public: class_decl(const std::string& name, size_t size_in_bits, size_t align_in_bits, location locus, visibility vis, base_specs& bases, member_types& mbrs, data_members& data_mbrs, member_functions& member_fns); class_decl(const std::string& name, size_t size_in_bits, size_t align_in_bits, location locus, visibility vis); class_decl(const std::string& name, bool is_declaration_only = true); bool hashing_started() const {return hashing_started_;} void hashing_started(bool b) const {hashing_started_ = b;} virtual string get_pretty_representation() const; bool is_declaration_only() const {return is_declaration_only_;} void set_definition_of_declaration(class_decl_sptr); class_decl_sptr get_definition_of_declaration() const; void set_earlier_declaration(class_decl_sptr declaration); void set_earlier_declaration(type_base_sptr declaration); class_decl_sptr get_earlier_declaration() const {return declaration_;} void add_base_specifier(shared_ptr b) {bases_.push_back(b);} const base_specs& get_base_specifiers() const {return bases_;} void insert_member_type(member_type_sptr t, declarations::iterator before); void add_member_type(member_type_sptr t); member_type_sptr add_member_type(type_base_sptr t, access_specifier a); void remove_member_type(type_base_sptr t); const member_types& get_member_types() const {return member_types_;} void add_data_member(data_member_sptr m); void add_data_member(var_decl_sptr v, access_specifier a, bool is_laid_out, bool is_static, size_t offset_in_bits); const data_members& get_data_members() const {return data_members_;} void add_member_function(member_function_sptr m); void add_member_function(function_decl_sptr f, access_specifier a, size_t vtable_offset, bool is_static, bool is_ctor, bool is_dtor, bool is_const); const member_functions& get_member_functions() const {return member_functions_;} size_t get_num_virtual_functions() const; void add_member_function_template(shared_ptr); const member_function_templates& get_member_function_templates() const {return member_function_templates_;} void add_member_class_template(shared_ptr m); const member_class_templates& get_member_class_templates() const {return member_class_templates_;} bool has_no_base_nor_member() const; virtual bool operator==(const decl_base&) const; virtual bool operator==(const type_base&) const; bool operator==(const class_decl&) const; virtual void traverse(ir_node_visitor& v); virtual ~class_decl(); };// end class class_decl std::ostream& operator<<(std::ostream&, class_decl::access_specifier); bool operator==(class_decl_sptr l, class_decl_sptr r); /// The base class for member types, data members and member /// functions. Its purpose is mainly to carry the access specifier /// (and possibly other properties that might be shared by all class /// members) for the member. class class_decl::member_base { protected: enum access_specifier access_; bool is_static_; private: // Forbidden member_base(); public: /// Hasher. struct hash; member_base(access_specifier a, bool is_static = false) : access_(a), is_static_(is_static) {} access_specifier get_access_specifier() const {return access_;} bool is_static() const {return is_static_;} virtual bool operator==(const member_base& o) const; };// end class class_decl::member_base /// Abstracts a member type declaration. class class_decl::member_type : public member_base, public virtual decl_base, public virtual type_base { type_base_sptr type_; //Forbidden member_type(); public: // Hasher. struct hash; member_type(shared_ptr t, access_specifier access); virtual void set_scope(scope_decl*); virtual bool operator==(const decl_base&) const; virtual bool operator==(const member_base&) const; virtual bool operator==(const type_base&) const; virtual string get_pretty_representation() const; void set_access_specifier(access_specifier); type_base_sptr get_underlying_type() const; bool operator==(const member_type&) const; };// end class member_type bool operator==(class_decl::member_type_sptr l, class_decl::member_type_sptr r); /// Abstraction of a base specifier in a class declaration. class class_decl::base_spec : public member_base { shared_ptr base_class_; long offset_in_bits_; bool is_virtual_; // Forbidden base_spec(); public: /// Hasher. struct hash; base_spec(shared_ptr base, access_specifier a, long offset_in_bits = -1, bool is_virtual = false); base_spec(shared_ptr base, access_specifier a, long offset_in_bits = -1, bool is_virtual = false); const shared_ptr get_base_class() const {return base_class_;} bool get_is_virtual() const {return is_virtual_;} long get_offset_in_bits() const {return offset_in_bits_;} virtual bool operator==(const member_base&) const; };// end class class_decl::base_spec bool operator==(class_decl::base_spec_sptr l, class_decl::base_spec_sptr r); /// Abstract a data member declaration in a class declaration. class class_decl::data_member : public var_decl, public member_base { bool is_laid_out_; size_t offset_in_bits_; // Forbidden data_member(); public: /// Hasher. struct hash; /// Constructor for instances of class_decl::data_member. /// /// @param data_member the variable to be used as data member. /// /// @param access the access specifier for the data member. /// /// @param is_laid_out set to true if the data member has been laid out. /// /// @param is_static set ot true if the data member is static. /// /// @param offset_in_bits the offset of the data member, expressed in bits. data_member(shared_ptr data_member, access_specifier access, bool is_laid_out, bool is_static, size_t offset_in_bits) : decl_base(data_member->get_name(), data_member->get_location(), data_member->get_mangled_name(), data_member->get_visibility()), var_decl(data_member->get_name(), data_member->get_type(), data_member->get_location(), data_member->get_mangled_name(), data_member->get_visibility(), data_member->get_binding()), member_base(access, is_static), is_laid_out_(is_laid_out), offset_in_bits_(offset_in_bits) {} /// Constructor for instances of class_decl::data_member. /// /// @param name the name of the data member. /// /// @param type the type of the data member. /// /// @param access the access specifier for the data member. /// /// @param locus the source location of the data member. /// /// @param mangled_name the mangled name of the data member, or an /// empty string if not applicable. /// /// @param vis the visibility of the data member. /// /// @param bind the binding of the data member. /// /// @param is_laid_out set to true if the data member has been laid out. /// /// @param is_static set ot true if the data member is static. /// /// @param offset_in_bits the offset of the data member, expressed in bits. data_member(const std::string& name, shared_ptr& type, access_specifier access, location locus, const std::string& mangled_name, visibility vis, binding bind, bool is_laid_out, bool is_static, size_t offset_in_bits) : decl_base(name, locus, mangled_name, vis), var_decl(name, type, locus, mangled_name, vis, bind), member_base(access, is_static), is_laid_out_(is_laid_out), offset_in_bits_(offset_in_bits) {} bool is_laid_out() const {return is_laid_out_;} size_t get_offset_in_bits() const {return offset_in_bits_;} virtual bool operator==(const decl_base& other) const; /// This implements the traversable_base::traverse pure virtual /// function. /// /// @param v the visitor used on the current instance. virtual void traverse(ir_node_visitor&); virtual ~data_member(); };// end class class_decl::data_member bool operator==(class_decl::data_member_sptr l, class_decl::data_member_sptr r); /// Abstraction of the declaration of a method. This is an /// implementation detail for class_decl::member_function. class class_decl::method_decl : public function_decl { method_decl(); public: method_decl(const std::string& name, const std::vector& parms, shared_ptr return_type, shared_ptr class_type, size_t ftype_size_in_bits, size_t ftype_align_in_bits, bool declared_inline, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_GLOBAL); method_decl(const std::string& name, shared_ptr type, bool declared_inline, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_GLOBAL); method_decl(const std::string& name, shared_ptr type, bool declared_inline, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_GLOBAL); method_decl(const std::string& name, shared_ptr type, bool declared_inline, location locus, const std::string& mangled_name = "", visibility vis = VISIBILITY_DEFAULT, binding bind = BINDING_GLOBAL); /// @return the type of the current instance of the /// class_decl::method_decl. const shared_ptr get_type() const; void set_type(shared_ptr fn_type) { function_decl::set_type(fn_type); } virtual ~method_decl(); };// end class class_decl::method_decl /// Abstracts a member function declaration in a class declaration. class class_decl::member_function : public method_decl, public member_base { size_t vtable_offset_in_bits_; bool is_constructor_; bool is_destructor_; bool is_const_; // Forbidden member_function(); public: /// Hasher. struct hash; member_function(const std::string& name, std::vector parms, shared_ptr return_type, shared_ptr class_type, size_t ftype_size_in_bits, size_t ftype_align_in_bits, access_specifier access, bool declared_inline, location locus, const std::string& mangled_name, visibility vis, binding bind, size_t vtable_offset_in_bits, bool is_static, bool is_constructor, bool is_destructor, bool is_const) : decl_base(name, locus, name, vis), method_decl(name, parms, return_type, class_type, ftype_size_in_bits, ftype_align_in_bits, declared_inline, locus, mangled_name, vis, bind), member_base(access, is_static), vtable_offset_in_bits_(vtable_offset_in_bits), is_constructor_(is_constructor), is_destructor_(is_destructor), is_const_(is_const) { } member_function(shared_ptr fn, access_specifier access, size_t vtable_offset_in_bits, bool is_static, bool is_constructor, bool is_destructor, bool is_const) : decl_base(fn->get_name(), fn->get_location(), fn->get_mangled_name(), fn->get_visibility()), method_decl(fn->get_name(), fn->get_type(), fn->is_declared_inline(), fn->get_location(), fn->get_mangled_name(), fn->get_visibility(), fn->get_binding()), member_base(access, is_static), vtable_offset_in_bits_(vtable_offset_in_bits), is_constructor_(is_constructor), is_destructor_(is_destructor), is_const_(is_const) {} member_function(shared_ptr fn, access_specifier access, size_t vtable_offset_in_bits, bool is_static, bool is_constructor, bool is_destructor, bool is_const); size_t get_vtable_offset() const {return vtable_offset_in_bits_;} bool is_constructor() const {return is_constructor_;} bool is_destructor() const {return is_destructor_;} bool is_const() const {return is_const_;} virtual bool operator==(const decl_base&) const; virtual bool operator==(const member_base&) const; bool operator==(const member_function&) const; virtual void traverse(ir_node_visitor& v); };// class_decl::member_function bool operator==(class_decl::member_function_sptr l, class_decl::member_function_sptr r); /// Abstract a member function template. class class_decl::member_function_template : public member_base, public virtual traversable_base { bool is_constructor_; bool is_const_; shared_ptr fn_tmpl_; // Forbiden member_function_template(); public: /// Hasher. struct hash; member_function_template(function_tdecl_sptr f, access_specifier access, bool is_static, bool is_constructor, bool is_const) : member_base(access, is_static), is_constructor_(is_constructor), is_const_(is_const), fn_tmpl_(f) {} bool is_constructor() const {return is_constructor_;} bool is_const() const {return is_const_;} operator const function_tdecl& () const {return *fn_tmpl_;} function_tdecl_sptr as_function_tdecl() const {return fn_tmpl_;} virtual bool operator==(const member_base& o) const; virtual void traverse(ir_node_visitor&); };// end class class_decl::member_function_template bool operator==(class_decl::member_function_template_sptr l, class_decl::member_function_template_sptr r); /// Abstracts a member class template template class class_decl::member_class_template : public member_base, public virtual traversable_base { shared_ptr class_tmpl_; // Forbidden member_class_template(); public: /// Hasher. struct hash; member_class_template(shared_ptr c, access_specifier access, bool is_static) : member_base(access, is_static), class_tmpl_(c) {} operator const class_tdecl& () const { return *class_tmpl_; } shared_ptr as_class_tdecl() const {return class_tmpl_;} virtual bool operator==(const member_base& o) const; virtual bool operator==(const member_class_template&) const; virtual void traverse(ir_node_visitor& v); };// end class class_decl::member_class_template bool operator==(class_decl::member_class_template_sptr l, class_decl::member_class_template_sptr r); // Forward declarations for select nested hashers. struct type_base::shared_ptr_hash { size_t operator()(const shared_ptr t) const; }; struct type_base::dynamic_hash { size_t operator()(const type_base* t) const; }; /// A hasher that manages the cache the computed hash and re-use it if /// it is available. struct type_base::cached_hash { size_t operator() (const type_base* t) const; size_t operator() (const type_base_sptr t) const; }; struct function_tdecl::hash { size_t operator()(const function_tdecl& t) const; }; struct function_tdecl::shared_ptr_hash { size_t operator()(const shared_ptr f) const; }; struct class_tdecl::hash { size_t operator()(const class_tdecl& t) const; }; struct class_tdecl::shared_ptr_hash { size_t operator()(const shared_ptr t) const; }; /// The base class for the visitor type hierarchy used for traversing /// a translation unit. /// /// Client code willing to get notified for a certain kind of node /// during the IR traversal might want to define a visitor class that /// inherit ir_node_visitor, overload the ir_node_visitor::visit /// method of its choice, and provide and implementation for it. That /// new visitor class would then be passed to e.g, /// translation_unit::traverse or to the traverse method of any type /// where the traversal is supposed to start from. struct ir_node_visitor : public node_visitor_base { virtual void visit(scope_decl*); virtual void visit(type_decl*); virtual void visit(namespace_decl*); virtual void visit(qualified_type_def*); virtual void visit(pointer_type_def*); virtual void visit(reference_type_def*); virtual void visit(enum_type_decl*); virtual void visit(typedef_decl*); virtual void visit(var_decl*); virtual void visit(function_decl*); virtual void visit(function_tdecl*); virtual void visit(class_tdecl*); virtual void visit(class_decl*); virtual void visit(class_decl::data_member*); virtual void visit(class_decl::member_function*); virtual void visit(class_decl::member_function_template*); virtual void visit(class_decl::member_class_template*); }; } // end namespace abigail #endif // __ABG_IR_H__