| // gogo.h -- Go frontend parsed representation. -*- C++ -*- |
| |
| // Copyright 2009 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| #ifndef GO_GOGO_H |
| #define GO_GOGO_H |
| |
| #include "go-linemap.h" |
| |
| class Traverse; |
| class Statement_inserter; |
| class Type; |
| class Type_equal; |
| class Typed_identifier; |
| class Typed_identifier_list; |
| class Function_type; |
| class Expression; |
| class Expression_list; |
| class Statement; |
| class Temporary_statement; |
| class Block; |
| class Function; |
| class Bindings; |
| class Bindings_snapshot; |
| class Package; |
| class Variable; |
| class Pointer_type; |
| class Struct_type; |
| class Struct_field; |
| class Struct_field_list; |
| class Array_type; |
| class Map_type; |
| class Channel_type; |
| class Interface_type; |
| class Named_type; |
| class Forward_declaration_type; |
| class Named_object; |
| class Label; |
| class Translate_context; |
| class Backend; |
| class Export; |
| class Export_function_body; |
| class Import; |
| class Import_function_body; |
| class Bexpression; |
| class Btype; |
| class Bstatement; |
| class Bblock; |
| class Bvariable; |
| class Blabel; |
| class Bfunction; |
| class Escape_context; |
| class Node; |
| |
| // This file declares the basic classes used to hold the internal |
| // representation of Go which is built by the parser. |
| |
| // The name of some backend object. Backend objects have a |
| // user-visible name and an assembler name. The user visible name |
| // might include arbitrary Unicode characters. The assembler name |
| // will not. |
| |
| class Backend_name |
| { |
| public: |
| Backend_name() |
| : prefix_(NULL), components_(), count_(0), suffix_(), |
| is_asm_name_(false) |
| {} |
| |
| // Set the prefix. Prefixes are always constant strings. |
| void |
| set_prefix(const char* p) |
| { |
| go_assert(this->prefix_ == NULL && !this->is_asm_name_); |
| this->prefix_ = p; |
| } |
| |
| // Set the suffix. |
| void |
| set_suffix(const std::string& s) |
| { |
| go_assert(this->suffix_.empty() && !this->is_asm_name_); |
| this->suffix_ = s; |
| } |
| |
| // Append to the suffix. |
| void |
| append_suffix(const std::string& s) |
| { |
| if (this->is_asm_name_) |
| this->components_[0].append(s); |
| else |
| this->suffix_.append(s); |
| } |
| |
| // Add a component. |
| void |
| add(const std::string& c) |
| { |
| go_assert(this->count_ < Backend_name::max_components |
| && !this->is_asm_name_); |
| this->components_[this->count_] = c; |
| ++this->count_; |
| } |
| |
| // Set an assembler name specified by the user. This overrides both |
| // the user-visible name and the assembler name. No further |
| // encoding is applied. |
| void |
| set_asm_name(const std::string& n) |
| { |
| go_assert(this->prefix_ == NULL |
| && this->count_ == 0 |
| && this->suffix_.empty() |
| && !this->is_asm_name_); |
| this->components_[0] = n; |
| this->is_asm_name_ = true; |
| } |
| |
| // Get the user visible name. |
| std::string |
| name() const; |
| |
| // Get the assembler name. This may be the same as the user visible |
| // name. |
| std::string |
| asm_name() const; |
| |
| // Get an optional assembler name: if it would be the same as the |
| // user visible name, this returns the empty string. |
| std::string |
| optional_asm_name() const; |
| |
| private: |
| // The maximum number of components. |
| static const int max_components = 4; |
| |
| // An optional prefix that does not require encoding. |
| const char *prefix_; |
| // Up to four components. The name will include these components |
| // separated by dots. Each component will be underscore-encoded |
| // (see the long comment near the top of names.cc). |
| std::string components_[Backend_name::max_components]; |
| // Number of components. |
| int count_; |
| // An optional suffix that does not require encoding. |
| std::string suffix_; |
| // True if components_[0] is an assembler name specified by the user. |
| bool is_asm_name_; |
| }; |
| |
| // An initialization function for an imported package. This is a |
| // magic function which initializes variables and runs the "init" |
| // function. |
| |
| class Import_init |
| { |
| public: |
| Import_init(const std::string& package_name, const std::string& init_name, |
| int priority) |
| : package_name_(package_name), init_name_(init_name), priority_(priority) |
| { } |
| |
| // The name of the package being imported. |
| const std::string& |
| package_name() const |
| { return this->package_name_; } |
| |
| // The name of the package's init function. |
| const std::string& |
| init_name() const |
| { return this->init_name_; } |
| |
| // Older V1 export data uses a priority scheme to order |
| // initialization functions; functions with a lower priority number |
| // must be run first. This value will be set to -1 for current |
| // generation objects, and will take on a non-negative value only |
| // when importing a V1-vintage object. |
| int |
| priority() const |
| { return this->priority_; } |
| |
| // Reset priority. |
| void |
| set_priority(int new_priority) |
| { this->priority_ = new_priority; } |
| |
| // Record the fact that some other init fcn must be run before this init fcn. |
| void |
| record_precursor_fcn(std::string init_fcn_name) |
| { this->precursor_functions_.insert(init_fcn_name); } |
| |
| // Return the list of precursor fcns for this fcn (must be run before it). |
| const std::set<std::string>& |
| precursors() const |
| { return this->precursor_functions_; } |
| |
| // Whether this is a dummy init, which is used only to record transitive import. |
| bool |
| is_dummy() const |
| { return this->init_name_[0] == '~'; } |
| |
| private: |
| // The name of the package being imported. |
| std::string package_name_; |
| // The name of the package's init function. |
| std::string init_name_; |
| // Names of init functions that must be run before this fcn. |
| std::set<std::string> precursor_functions_; |
| // Priority for this function. See note above on obsolescence. |
| int priority_; |
| }; |
| |
| // For sorting purposes. |
| |
| struct Import_init_lt { |
| bool operator()(const Import_init* i1, const Import_init* i2) const |
| { |
| return i1->init_name() < i2->init_name(); |
| } |
| }; |
| |
| // Set of import init objects. |
| class Import_init_set : public std::set<Import_init*, Import_init_lt> { |
| }; |
| |
| inline bool |
| priority_compare(const Import_init* i1, const Import_init* i2) |
| { |
| if (i1->priority() < i2->priority()) |
| return true; |
| if (i1->priority() > i2->priority()) |
| return false; |
| if (i1->package_name() != i2->package_name()) |
| return i1->package_name() < i2->package_name(); |
| return i1->init_name() < i2->init_name(); |
| } |
| |
| // The holder for the internal representation of the entire |
| // compilation unit. |
| |
| class Gogo |
| { |
| public: |
| // Create the IR, passing in the sizes of the types "int" and |
| // "uintptr" in bits. |
| Gogo(Backend* backend, Linemap *linemap, int int_type_size, int pointer_size); |
| |
| // Get the backend generator. |
| Backend* |
| backend() |
| { return this->backend_; } |
| |
| // Get the Location generator. |
| Linemap* |
| linemap() |
| { return this->linemap_; } |
| |
| // Get the package name. |
| const std::string& |
| package_name() const; |
| |
| // Set the package name. |
| void |
| set_package_name(const std::string&, Location); |
| |
| // Return whether this is the "main" package. |
| bool |
| is_main_package() const; |
| |
| // If necessary, adjust the name to use for a hidden symbol. We add |
| // the package name, so that hidden symbols in different packages do |
| // not collide. |
| std::string |
| pack_hidden_name(const std::string& name, bool is_exported) const |
| { |
| return (is_exported |
| ? name |
| : '.' + this->pkgpath() + '.' + name); |
| } |
| |
| // Unpack a name which may have been hidden. Returns the |
| // user-visible name of the object. |
| static std::string |
| unpack_hidden_name(const std::string& name) |
| { return name[0] != '.' ? name : name.substr(name.rfind('.') + 1); } |
| |
| // Return whether a possibly packed name is hidden. |
| static bool |
| is_hidden_name(const std::string& name) |
| { return name[0] == '.'; } |
| |
| // Return the package path of a hidden name. |
| static std::string |
| hidden_name_pkgpath(const std::string& name) |
| { |
| go_assert(Gogo::is_hidden_name(name)); |
| return name.substr(1, name.rfind('.') - 1); |
| } |
| |
| // Given a name which may or may not have been hidden, append the |
| // appropriate version of the name to the result string. |
| static void |
| append_possibly_hidden_name(std::string *result, const std::string& name); |
| |
| // Given a name which may or may not have been hidden, return the |
| // name to use in an error message. |
| static std::string |
| message_name(const std::string& name); |
| |
| // Return whether a name is the blank identifier _. |
| static bool |
| is_sink_name(const std::string& name) |
| { |
| return (name[0] == '.' |
| && name[name.length() - 1] == '_' |
| && name[name.length() - 2] == '.') |
| || (name[0] == '_' |
| && name.length() == 1); |
| } |
| |
| // Helper used when adding parameters (including receiver param) to the |
| // bindings of a function. If the specified parameter name is empty or |
| // corresponds to the sink name, param name is replaced with a new unique |
| // name. PNAME is the address of a string containing the parameter variable |
| // name to be checked/updated; TAG is a descriptive tag to be used in |
| // manufacturing the new unique name, and COUNT is the address of a counter |
| // holding the number of params renamed so far with the tag in question. |
| static void |
| rename_if_empty(std::string* pname, const char* tag, unsigned* count); |
| |
| // Convert a pkgpath into a string suitable for a symbol |
| static std::string |
| pkgpath_for_symbol(const std::string& pkgpath); |
| |
| // Compute a hash code for a string, given a seed. |
| static unsigned int |
| hash_string(const std::string&, unsigned int); |
| |
| // Return the package path to use for reflect.Type.PkgPath. |
| const std::string& |
| pkgpath() const; |
| |
| // Return the package path to use for a symbol name. |
| const std::string& |
| pkgpath_symbol() const; |
| |
| // Set the package path from a command line option. |
| void |
| set_pkgpath(const std::string&); |
| |
| // Set the prefix from a command line option. |
| void |
| set_prefix(const std::string&); |
| |
| // Return whether pkgpath was set from a command line option. |
| bool |
| pkgpath_from_option() const |
| { return this->pkgpath_from_option_; } |
| |
| // Return the relative import path as set from the command line. |
| // Returns an empty string if it was not set. |
| const std::string& |
| relative_import_path() const |
| { return this->relative_import_path_; } |
| |
| // Set the relative import path from a command line option. |
| void |
| set_relative_import_path(const std::string& s) |
| { this->relative_import_path_ = s; } |
| |
| // Set the C header file to write. This is used for the runtime |
| // package. |
| void |
| set_c_header(const std::string& s) |
| { this->c_header_ = s; } |
| |
| // Return whether to check for division by zero in binary operations. |
| bool |
| check_divide_by_zero() const |
| { return this->check_divide_by_zero_; } |
| |
| // Set the option to check division by zero from a command line option. |
| void |
| set_check_divide_by_zero(bool b) |
| { this->check_divide_by_zero_ = b; } |
| |
| // Return whether to check for division overflow in binary operations. |
| bool |
| check_divide_overflow() const |
| { return this->check_divide_overflow_; } |
| |
| // Set the option to check division overflow from a command line option. |
| void |
| set_check_divide_overflow(bool b) |
| { this->check_divide_overflow_ = b; } |
| |
| // Return whether we are compiling the runtime package. |
| bool |
| compiling_runtime() const |
| { return this->compiling_runtime_; } |
| |
| // Set whether we are compiling the runtime package. |
| void |
| set_compiling_runtime(bool b) |
| { this->compiling_runtime_ = b; } |
| |
| // Return the level of escape analysis debug information to emit. |
| int |
| debug_escape_level() const |
| { return this->debug_escape_level_; } |
| |
| // Set the level of escape analysis debugging from a command line option. |
| void |
| set_debug_escape_level(int level) |
| { this->debug_escape_level_ = level; } |
| |
| // Return the hash for debug escape analysis. |
| std::string |
| debug_escape_hash() const |
| { return this->debug_escape_hash_; } |
| |
| // Set the hash value for debug escape analysis. |
| void |
| set_debug_escape_hash(const std::string& s) |
| { this->debug_escape_hash_ = s; } |
| |
| // Return whether to output optimization diagnostics. |
| bool |
| debug_optimization() const |
| { return this->debug_optimization_; } |
| |
| // Set the option to output optimization diagnostics. |
| void |
| set_debug_optimization(bool b) |
| { this->debug_optimization_ = b; } |
| |
| // Dump to stderr for debugging |
| void debug_dump(); |
| |
| // Return the size threshold used to determine whether to issue |
| // a nil-check for a given pointer dereference. A threshold of -1 |
| // implies that all potentially faulting dereference ops should |
| // be nil-checked. A positive threshold of N implies that a deref |
| // of *P where P has size less than N doesn't need a nil check. |
| int64_t |
| nil_check_size_threshold() const |
| { return this->nil_check_size_threshold_; } |
| |
| // Set the nil-check size threshold, as described above. |
| void |
| set_nil_check_size_threshold(int64_t bytes) |
| { this->nil_check_size_threshold_ = bytes; } |
| |
| // Return whether runtime.eqtype calls are needed when comparing |
| // type descriptors. |
| bool |
| need_eqtype() const |
| { return this->need_eqtype_; } |
| |
| // Set if calls to runtime.eqtype are needed. |
| void |
| set_need_eqtype(bool b) |
| { this->need_eqtype_ = b; } |
| |
| // Import a package. FILENAME is the file name argument, LOCAL_NAME |
| // is the local name to give to the package. If LOCAL_NAME is empty |
| // the declarations are added to the global scope. |
| void |
| import_package(const std::string& filename, const std::string& local_name, |
| bool is_local_name_exported, bool must_exist, Location); |
| |
| // Whether we are the global binding level. |
| bool |
| in_global_scope() const; |
| |
| // Look up a name in the current binding contours. |
| Named_object* |
| lookup(const std::string&, Named_object** pfunction) const; |
| |
| // Look up a name in the current block. |
| Named_object* |
| lookup_in_block(const std::string&) const; |
| |
| // Look up a name in the global namespace--the universal scope. |
| Named_object* |
| lookup_global(const char*) const; |
| |
| // Add a new imported package. REAL_NAME is the real name of the |
| // package. ALIAS is the alias of the package; this may be the same |
| // as REAL_NAME. This sets *PADD_TO_GLOBALS if symbols added to |
| // this package should be added to the global namespace; this is |
| // true if the alias is ".". LOCATION is the location of the import |
| // statement. This returns the new package, or NULL on error. |
| Package* |
| add_imported_package(const std::string& real_name, const std::string& alias, |
| bool is_alias_exported, |
| const std::string& pkgpath, |
| const std::string& pkgpath_symbol, |
| Location location, |
| bool* padd_to_globals); |
| |
| // Register a package. This package may or may not be imported. |
| // This returns the Package structure for the package, creating if |
| // it necessary. |
| Package* |
| register_package(const std::string& pkgpath, |
| const std::string& pkgpath_symbol, Location); |
| |
| // Look up a package by pkgpath, and return its pkgpath_symbol. |
| std::string |
| pkgpath_symbol_for_package(const std::string&); |
| |
| // Start compiling a function. ADD_METHOD_TO_TYPE is true if a |
| // method function should be added to the type of its receiver. |
| Named_object* |
| start_function(const std::string& name, Function_type* type, |
| bool add_method_to_type, Location); |
| |
| // Finish compiling a function. |
| void |
| finish_function(Location); |
| |
| // Return the current function. |
| Named_object* |
| current_function() const; |
| |
| // Return the current block. |
| Block* |
| current_block(); |
| |
| // Start a new block. This is not initially associated with a |
| // function. |
| void |
| start_block(Location); |
| |
| // Finish the current block and return it. |
| Block* |
| finish_block(Location); |
| |
| // Declare an erroneous name. This is used to avoid knock-on errors |
| // after a parsing error. |
| Named_object* |
| add_erroneous_name(const std::string& name); |
| |
| // Declare an unknown name. This is used while parsing. The name |
| // must be resolved by the end of the parse. Unknown names are |
| // always added at the package level. |
| Named_object* |
| add_unknown_name(const std::string& name, Location); |
| |
| // Declare a function. |
| Named_object* |
| declare_function(const std::string&, Function_type*, Location); |
| |
| // Declare a function at the package level. This is used for |
| // functions generated for a type. |
| Named_object* |
| declare_package_function(const std::string&, Function_type*, Location); |
| |
| // Add a function declaration to the list of functions we may want |
| // to inline. |
| void |
| add_imported_inlinable_function(Named_object*); |
| |
| // Add a function to the list of functions that we do want to |
| // inline. |
| void |
| add_imported_inline_function(Named_object* no) |
| { this->imported_inline_functions_.push_back(no); } |
| |
| // Add a label. |
| Label* |
| add_label_definition(const std::string&, Location); |
| |
| // Add a label reference. ISSUE_GOTO_ERRORS is true if we should |
| // report errors for a goto from the current location to the label |
| // location. |
| Label* |
| add_label_reference(const std::string&, Location, |
| bool issue_goto_errors); |
| |
| // An analysis set is a list of functions paired with a boolean that indicates |
| // whether the list of functions are recursive. |
| typedef std::pair<std::vector<Named_object*>, bool> Analysis_set; |
| |
| // Add a GROUP of possibly RECURSIVE functions to the Analysis_set for this |
| // package. |
| void |
| add_analysis_set(const std::vector<Named_object*>& group, bool recursive) |
| { this->analysis_sets_.push_back(std::make_pair(group, recursive)); } |
| |
| // Return a snapshot of the current binding state. |
| Bindings_snapshot* |
| bindings_snapshot(Location); |
| |
| // Add a statement to the current block. |
| void |
| add_statement(Statement*); |
| |
| // Add a block to the current block. |
| void |
| add_block(Block*, Location); |
| |
| // Add a constant. |
| Named_object* |
| add_constant(const Typed_identifier&, Expression*, int iota_value); |
| |
| // Add a type. |
| void |
| add_type(const std::string&, Type*, Location); |
| |
| // Add a named type. This is used for builtin types, and to add an |
| // imported type to the global scope. |
| void |
| add_named_type(Named_type*); |
| |
| // Declare a type. |
| Named_object* |
| declare_type(const std::string&, Location); |
| |
| // Declare a type at the package level. This is used when the |
| // parser sees an unknown name where a type name is required. |
| Named_object* |
| declare_package_type(const std::string&, Location); |
| |
| // Define a type which was already declared. |
| void |
| define_type(Named_object*, Named_type*); |
| |
| // Add a variable. |
| Named_object* |
| add_variable(const std::string&, Variable*); |
| |
| // Add a sink--a reference to the blank identifier _. |
| Named_object* |
| add_sink(); |
| |
| // Add a type which needs to be verified. This is used for sink |
| // types, just to give appropriate error messages. |
| void |
| add_type_to_verify(Type* type); |
| |
| // Add a named object to the current namespace. This is used for |
| // import . "package". |
| void |
| add_dot_import_object(Named_object*); |
| |
| // Add an identifier to the list of names seen in the file block. |
| void |
| add_file_block_name(const std::string& name, Location location) |
| { this->file_block_names_[name] = location; } |
| |
| // Add a linkname, from the go:linkname compiler directive. This |
| // changes the externally visible name of GO_NAME to be EXT_NAME. |
| // If EXT_NAME is the empty string, GO_NAME is unchanged, but the |
| // symbol is made publicly visible. |
| void |
| add_linkname(const std::string& go_name, bool is_exported, |
| const std::string& ext_name, Location location); |
| |
| // Mark all local variables in current bindings as used. This is |
| // used when there is a parse error to avoid useless errors. |
| void |
| mark_locals_used(); |
| |
| // Note that we've seen an interface type. This is used to build |
| // all required interface method tables. |
| void |
| record_interface_type(Interface_type*); |
| |
| // Note that we need an initialization function. |
| void |
| set_need_init_fn() |
| { this->need_init_fn_ = true; } |
| |
| // Return whether the current file imported the unsafe package. |
| bool |
| current_file_imported_unsafe() const |
| { return this->current_file_imported_unsafe_; } |
| |
| // Clear out all names in file scope. This is called when we start |
| // parsing a new file. |
| void |
| clear_file_scope(); |
| |
| // Record that VAR1 must be initialized after VAR2. This is used |
| // when VAR2 does not appear in VAR1's INIT or PREINIT. |
| void |
| record_var_depends_on(Variable* var1, Named_object* var2) |
| { |
| go_assert(this->var_deps_.find(var1) == this->var_deps_.end()); |
| this->var_deps_[var1] = var2; |
| } |
| |
| // Return the variable that VAR depends on, or NULL if none. |
| Named_object* |
| var_depends_on(Variable* var) const |
| { |
| Var_deps::const_iterator p = this->var_deps_.find(var); |
| return p != this->var_deps_.end() ? p->second : NULL; |
| } |
| |
| // Queue up a type-specific hash function to be written out. This |
| // is used when a type-specific hash function is needed when not at |
| // top level. |
| void |
| queue_hash_function(Type* type, int64_t size, Backend_name*, |
| Function_type* hash_fntype); |
| |
| // Queue up a type-specific equal function to be written out. This |
| // is used when a type-specific equal function is needed when not at |
| // top level. |
| void |
| queue_equal_function(Type* type, Named_type* name, int64_t size, |
| Backend_name*, Function_type* equal_fntype); |
| |
| // Write out queued specific type functions. |
| void |
| write_specific_type_functions(); |
| |
| // Whether we are done writing out specific type functions. |
| bool |
| specific_type_functions_are_written() const |
| { return this->specific_type_functions_are_written_; } |
| |
| // Add a pointer that needs to be added to the list of objects |
| // traversed by the garbage collector. This should be an expression |
| // of pointer type that points to static storage. It's not |
| // necessary to add global variables to this list, just global |
| // variable initializers that would otherwise not be seen. |
| void |
| add_gc_root(Expression* expr) |
| { |
| this->set_need_init_fn(); |
| this->gc_roots_.push_back(expr); |
| } |
| |
| // Add a type to the descriptor list. |
| void |
| add_type_descriptor(Type* type) |
| { this->type_descriptors_.push_back(type); } |
| |
| // Traverse the tree. See the Traverse class. |
| void |
| traverse(Traverse*); |
| |
| // Define the predeclared global names. |
| void |
| define_global_names(); |
| |
| // Verify and complete all types. |
| void |
| verify_types(); |
| |
| // Lower the parse tree. |
| void |
| lower_parse_tree(); |
| |
| // Lower all the statements in a block. |
| void |
| lower_block(Named_object* function, Block*); |
| |
| // Lower an expression. |
| void |
| lower_expression(Named_object* function, Statement_inserter*, Expression**); |
| |
| // Lower a constant. |
| void |
| lower_constant(Named_object*); |
| |
| // Flatten all the statements in a block. |
| void |
| flatten_block(Named_object* function, Block*); |
| |
| // Flatten an expression. |
| void |
| flatten_expression(Named_object* function, Statement_inserter*, Expression**); |
| |
| // Create all necessary function descriptors. |
| void |
| create_function_descriptors(); |
| |
| // Finalize the method lists and build stub methods for named types. |
| void |
| finalize_methods(); |
| |
| // Finalize the method list for one type. |
| void |
| finalize_methods_for_type(Type*); |
| |
| // Work out the types to use for unspecified variables and |
| // constants. |
| void |
| determine_types(); |
| |
| // Type check the program. |
| void |
| check_types(); |
| |
| // Check the types in a single block. This is used for complicated |
| // go statements. |
| void |
| check_types_in_block(Block*); |
| |
| // Check for return statements. |
| void |
| check_return_statements(); |
| |
| // Remove deadcode. |
| void |
| remove_deadcode(); |
| |
| // Make implicit type conversions explicit. |
| void |
| add_conversions(); |
| |
| // Make implicit type conversions explicit in a block. |
| void |
| add_conversions_in_block(Block*); |
| |
| // Analyze the program flow for escape information. |
| void |
| analyze_escape(); |
| |
| // Discover the groups of possibly recursive functions in this package. |
| void |
| discover_analysis_sets(); |
| |
| // Build a connectivity graph between the objects in each analyzed function. |
| void |
| assign_connectivity(Escape_context*, Named_object*); |
| |
| // Traverse the objects in the connecitivty graph from the sink, adjusting the |
| // escape levels of each object. |
| void |
| propagate_escape(Escape_context*, Node*); |
| |
| // Add notes about the escape level of a function's input and output |
| // parameters for exporting and importing top level functions. |
| void |
| tag_function(Escape_context*, Named_object*); |
| |
| // Reclaim memory of escape analysis Nodes. |
| void |
| reclaim_escape_nodes(); |
| |
| // Do all exports. |
| void |
| do_exports(); |
| |
| // Add an import control function for an imported package to the |
| // list. |
| void |
| add_import_init_fn(const std::string& package_name, |
| const std::string& init_name, int prio); |
| |
| // Return the Import_init for a given init name. |
| Import_init* |
| lookup_init(const std::string& init_name); |
| |
| // Turn short-cut operators (&&, ||) into explicit if statements. |
| void |
| remove_shortcuts(); |
| |
| // Turn short-cut operators into explicit if statements in a block. |
| void |
| remove_shortcuts_in_block(Block*); |
| |
| // Use temporary variables to force order of evaluation. |
| void |
| order_evaluations(); |
| |
| // Order evaluations in a block. |
| void |
| order_block(Block*); |
| |
| // Add write barriers as needed. |
| void |
| add_write_barriers(); |
| |
| // Return whether an assignment that sets LHS to RHS needs a write |
| // barrier. |
| bool |
| assign_needs_write_barrier(Expression* lhs, |
| Unordered_set(const Named_object*)*); |
| |
| // Return whether EXPR is the address of a variable that can be set |
| // without a write barrier. That is, if this returns true, then an |
| // assignment to *EXPR does not require a write barrier. |
| bool |
| is_nonwb_pointer(Expression* expr, Unordered_set(const Named_object*)*); |
| |
| // Return an assignment that sets LHS to RHS using a write barrier. |
| // This returns an if statement that checks whether write barriers |
| // are enabled. If not, it does LHS = RHS, otherwise it calls the |
| // appropriate write barrier function. |
| Statement* |
| assign_with_write_barrier(Function*, Block*, Statement_inserter*, |
| Expression* lhs, Expression* rhs, Location); |
| |
| // Return a statement that tests whether write barriers are enabled |
| // and executes either the efficient code (WITHOUT) or the write |
| // barrier function call (WITH), depending. |
| Statement* |
| check_write_barrier(Block*, Statement* without, Statement* with); |
| |
| // Flatten parse tree. |
| void |
| flatten(); |
| |
| // Build thunks for functions which call recover. |
| void |
| build_recover_thunks(); |
| |
| // Simplify statements which might use thunks: go and defer |
| // statements. |
| void |
| simplify_thunk_statements(); |
| |
| // Dump AST if -fgo-dump-ast is set. |
| void |
| dump_ast(const char* basename); |
| |
| // Dump Call Graph if -fgo-dump-calls is set. |
| void |
| dump_call_graph(const char* basename); |
| |
| // Dump Connection Graphs if -fgo-dump-connections is set. |
| void |
| dump_connection_graphs(const char* basename); |
| |
| // Convert named types to the backend representation. |
| void |
| convert_named_types(); |
| |
| // Convert named types in a list of bindings. |
| void |
| convert_named_types_in_bindings(Bindings*); |
| |
| // True if named types have been converted to the backend |
| // representation. |
| bool |
| named_types_are_converted() const |
| { return this->named_types_are_converted_; } |
| |
| // Give an error if the initialization of VAR depends on itself. |
| void |
| check_self_dep(Named_object*); |
| |
| // Write out the global values. |
| void |
| write_globals(); |
| |
| // Build required interface method tables. |
| void |
| build_interface_method_tables(); |
| |
| // Return an expression which allocates memory to hold values of type TYPE. |
| Expression* |
| allocate_memory(Type *type, Location); |
| |
| // Get the backend name to use for an exported function, a method, |
| // or a function/method declaration. |
| void |
| function_backend_name(const std::string& go_name, const Package*, |
| const Type* receiver, Backend_name*); |
| |
| // Return the name to use for a function descriptor. |
| void |
| function_descriptor_backend_name(Named_object*, Backend_name*); |
| |
| // Return the name to use for a generated stub method. |
| std::string |
| stub_method_name(const Package*, const std::string& method_name); |
| |
| // Get the backend name of the hash function for TYPE. |
| void |
| hash_function_name(const Type*, Backend_name*); |
| |
| // Get the backend name of the equal function for TYPE. |
| void |
| equal_function_name(const Type*, const Named_type*, Backend_name*); |
| |
| // Get the backend name to use for a global variable. |
| void |
| global_var_backend_name(const std::string& go_name, const Package*, |
| Backend_name*); |
| |
| // Return a name to use for an error case. This should only be used |
| // after reporting an error, and is used to avoid useless knockon |
| // errors. |
| static std::string |
| erroneous_name(); |
| |
| // Return whether the name indicates an error. |
| static bool |
| is_erroneous_name(const std::string&); |
| |
| // Return a name to use for a thunk function. A thunk function is |
| // one we create during the compilation, for a go statement or a |
| // defer statement or a method expression. |
| std::string |
| thunk_name(); |
| |
| // Return whether an object is a thunk. |
| static bool |
| is_thunk(const Named_object*); |
| |
| // Return the name to use for an init function. |
| std::string |
| init_function_name(); |
| |
| // Return the name to use for a nested function. |
| std::string |
| nested_function_name(Named_object* enclosing); |
| |
| // Return the name to use for a sink funciton. |
| std::string |
| sink_function_name(); |
| |
| // Return the name to use for an (erroneous) redefined function. |
| std::string |
| redefined_function_name(); |
| |
| // Return the name for use for a recover thunk. |
| std::string |
| recover_thunk_name(const std::string& name, const Type* rtype); |
| |
| // Return the name to use for the GC root variable. |
| std::string |
| gc_root_name(); |
| |
| // Return the name to use for a composite literal or string |
| // initializer. |
| std::string |
| initializer_name(); |
| |
| // Return the name of the variable used to represent the zero value |
| // of a map. |
| std::string |
| map_zero_value_name(); |
| |
| // Get the name of the magic initialization function. |
| const std::string& |
| get_init_fn_name(); |
| |
| // Return the name for a dummy init function, which is not a real |
| // function but only for tracking transitive import. |
| std::string |
| dummy_init_fn_name(); |
| |
| // Return the package path symbol from an init function name, which |
| // can be a real init function or a dummy one. |
| std::string |
| pkgpath_symbol_from_init_fn_name(std::string); |
| |
| // Get the backend name for a type descriptor symbol. |
| void |
| type_descriptor_backend_name(const Type*, Named_type*, Backend_name*); |
| |
| // Return the name of the type descriptor list symbol of a package. |
| // The argument is an encoded pkgpath, as with pkgpath_symbol. |
| std::string |
| type_descriptor_list_symbol(const std::string&); |
| |
| // Return the name of the list of all type descriptor lists. |
| std::string |
| typelists_symbol(); |
| |
| // Return the assembler name for the GC symbol for a type. |
| std::string |
| gc_symbol_name(Type*); |
| |
| // Return the assembler name for a ptrmask variable. |
| std::string |
| ptrmask_symbol_name(const std::string& ptrmask_sym_name); |
| |
| // Return the name to use for an interface method table. |
| std::string |
| interface_method_table_name(Interface_type*, Type*, bool is_pointer); |
| |
| // If NAME is a special name used as a Go identifier, return the |
| // position within the string where the special part of the name |
| // occurs. |
| static size_t |
| special_name_pos(const std::string& name); |
| |
| private: |
| // During parsing, we keep a stack of functions. Each function on |
| // the stack is one that we are currently parsing. For each |
| // function, we keep track of the current stack of blocks. |
| struct Open_function |
| { |
| // The function. |
| Named_object* function; |
| // The stack of active blocks in the function. |
| std::vector<Block*> blocks; |
| }; |
| |
| // The stack of functions. |
| typedef std::vector<Open_function> Open_functions; |
| |
| // Set up the built-in unsafe package. |
| void |
| import_unsafe(const std::string&, bool is_exported, Location); |
| |
| // Return the current binding contour. |
| Bindings* |
| current_bindings(); |
| |
| const Bindings* |
| current_bindings() const; |
| |
| void |
| write_c_header(); |
| |
| // Get the decl for the magic initialization function. |
| Named_object* |
| initialization_function_decl(); |
| |
| // Create the magic initialization function. |
| Named_object* |
| create_initialization_function(Named_object* fndecl, Bstatement* code_stmt); |
| |
| // Initialize imported packages. BFUNCTION is the function |
| // into which the package init calls will be placed. |
| void |
| init_imports(std::vector<Bstatement*>&, Bfunction* bfunction); |
| |
| // Register variables with the garbage collector. |
| void |
| register_gc_vars(const std::vector<Named_object*>&, |
| std::vector<Bstatement*>&, |
| Bfunction* init_bfunction); |
| |
| // Build the list of type descriptors. |
| void |
| build_type_descriptor_list(); |
| |
| // Register the type descriptors with the runtime. |
| void |
| register_type_descriptors(std::vector<Bstatement*>&, |
| Bfunction* init_bfunction); |
| |
| void |
| propagate_writebarrierrec(); |
| |
| Named_object* |
| write_barrier_variable(); |
| |
| static bool |
| is_digits(const std::string&); |
| |
| // Type used to map import names to packages. |
| typedef std::map<std::string, Package*> Imports; |
| |
| // Type used to map package names to packages. |
| typedef std::map<std::string, Package*> Packages; |
| |
| // Type used to map variables to the function calls that set them. |
| // This is used for initialization dependency analysis. |
| typedef std::map<Variable*, Named_object*> Var_deps; |
| |
| // Type used to map identifiers in the file block to the location |
| // where they were defined. |
| typedef Unordered_map(std::string, Location) File_block_names; |
| |
| // Type used to queue writing a type specific function. |
| struct Specific_type_function |
| { |
| enum Specific_type_function_kind { SPECIFIC_HASH, SPECIFIC_EQUAL }; |
| |
| Type* type; |
| Named_type* name; |
| int64_t size; |
| Specific_type_function_kind kind; |
| Backend_name bname; |
| Function_type* fntype; |
| |
| Specific_type_function(Type* atype, Named_type* aname, int64_t asize, |
| Specific_type_function_kind akind, |
| Backend_name* abname, |
| Function_type* afntype) |
| : type(atype), name(aname), size(asize), kind(akind), |
| bname(*abname), fntype(afntype) |
| { } |
| }; |
| |
| // Recompute init priorities. |
| void |
| recompute_init_priorities(); |
| |
| // Recursive helper used by the routine above. |
| void |
| update_init_priority(Import_init* ii, |
| std::set<const Import_init *>* visited); |
| |
| // The backend generator. |
| Backend* backend_; |
| // The object used to keep track of file names and line numbers. |
| Linemap* linemap_; |
| // The package we are compiling. |
| Package* package_; |
| // The list of currently open functions during parsing. |
| Open_functions functions_; |
| // The global binding contour. This includes the builtin functions |
| // and the package we are compiling. |
| Bindings* globals_; |
| // The list of names we have seen in the file block. |
| File_block_names file_block_names_; |
| // Mapping from import file names to packages. |
| Imports imports_; |
| // Whether the magic unsafe package was imported. |
| bool imported_unsafe_; |
| // Whether the magic unsafe package was imported by the current file. |
| bool current_file_imported_unsafe_; |
| // Mapping from package names we have seen to packages. This does |
| // not include the package we are compiling. |
| Packages packages_; |
| // The functions named "init", if there are any. |
| std::vector<Named_object*> init_functions_; |
| // A mapping from variables to the function calls that initialize |
| // them, if it is not stored in the variable's init or preinit. |
| // This is used for dependency analysis. |
| Var_deps var_deps_; |
| // Whether we need a magic initialization function. |
| bool need_init_fn_; |
| // The name of the magic initialization function. |
| std::string init_fn_name_; |
| // A list of import control variables for packages that we import. |
| Import_init_set imported_init_fns_; |
| // The package path used for reflection data. |
| std::string pkgpath_; |
| // The package path to use for a symbol name. |
| std::string pkgpath_symbol_; |
| // The prefix to use for symbols, from the -fgo-prefix option. |
| std::string prefix_; |
| // Whether pkgpath_ has been set. |
| bool pkgpath_set_; |
| // Whether an explicit package path was set by -fgo-pkgpath. |
| bool pkgpath_from_option_; |
| // Whether an explicit prefix was set by -fgo-prefix. |
| bool prefix_from_option_; |
| // The relative import path, from the -fgo-relative-import-path |
| // option. |
| std::string relative_import_path_; |
| // The C header file to write, from the -fgo-c-header option. |
| std::string c_header_; |
| // Whether or not to check for division by zero, from the |
| // -fgo-check-divide-zero option. |
| bool check_divide_by_zero_; |
| // Whether or not to check for division overflow, from the |
| // -fgo-check-divide-overflow option. |
| bool check_divide_overflow_; |
| // Whether we are compiling the runtime package, from the |
| // -fgo-compiling-runtime option. |
| bool compiling_runtime_; |
| // The level of escape analysis debug information to emit, from the |
| // -fgo-debug-escape option. |
| int debug_escape_level_; |
| // A hash value for debug escape analysis, from the |
| // -fgo-debug-escape-hash option. The analysis is run only on |
| // functions with names that hash to the matching value. |
| std::string debug_escape_hash_; |
| // Whether to output optimization diagnostics, from the |
| // -fgo-debug-optimization option. |
| bool debug_optimization_; |
| // Nil-check size threshhold. |
| int64_t nil_check_size_threshold_; |
| // Whether runtime.eqtype calls are needed when comparing type |
| // descriptors. |
| bool need_eqtype_; |
| // A list of types to verify. |
| std::vector<Type*> verify_types_; |
| // A list of interface types defined while parsing. |
| std::vector<Interface_type*> interface_types_; |
| // Type specific functions to write out. |
| std::vector<Specific_type_function*> specific_type_functions_; |
| // Whether we are done writing out specific type functions. |
| bool specific_type_functions_are_written_; |
| // Whether named types have been converted. |
| bool named_types_are_converted_; |
| // A list containing groups of possibly mutually recursive functions to be |
| // considered during escape analysis. |
| std::vector<Analysis_set> analysis_sets_; |
| // A list of objects to add to the GC roots. |
| std::vector<Expression*> gc_roots_; |
| // A list of type descriptors that we need to register. |
| std::vector<Type*> type_descriptors_; |
| // A list of function declarations with imported bodies that we may |
| // want to inline. |
| std::vector<Named_object*> imported_inlinable_functions_; |
| // A list of functions that we want to inline. These will be sent |
| // to the backend. |
| std::vector<Named_object*> imported_inline_functions_; |
| }; |
| |
| // A block of statements. |
| |
| class Block |
| { |
| public: |
| Block(Block* enclosing, Location); |
| |
| // Return the enclosing block. |
| const Block* |
| enclosing() const |
| { return this->enclosing_; } |
| |
| // Return the bindings of the block. |
| Bindings* |
| bindings() |
| { return this->bindings_; } |
| |
| const Bindings* |
| bindings() const |
| { return this->bindings_; } |
| |
| // Look at the block's statements. |
| const std::vector<Statement*>* |
| statements() const |
| { return &this->statements_; } |
| |
| // Return the start location. This is normally the location of the |
| // left curly brace which starts the block. |
| Location |
| start_location() const |
| { return this->start_location_; } |
| |
| // Return the end location. This is normally the location of the |
| // right curly brace which ends the block. |
| Location |
| end_location() const |
| { return this->end_location_; } |
| |
| // Add a statement to the block. |
| void |
| add_statement(Statement*); |
| |
| // Add a statement to the front of the block. |
| void |
| add_statement_at_front(Statement*); |
| |
| // Replace a statement in a block. |
| void |
| replace_statement(size_t index, Statement*); |
| |
| // Add a Statement before statement number INDEX. |
| void |
| insert_statement_before(size_t index, Statement*); |
| |
| // Add a Statement after statement number INDEX. |
| void |
| insert_statement_after(size_t index, Statement*); |
| |
| // Set the end location of the block. |
| void |
| set_end_location(Location location) |
| { this->end_location_ = location; } |
| |
| // Traverse the tree. |
| int |
| traverse(Traverse*); |
| |
| // Set final types for unspecified variables and constants. |
| void |
| determine_types(); |
| |
| // Return true if execution of this block may fall through to the |
| // next block. |
| bool |
| may_fall_through() const; |
| |
| // Write the export data for the block's statements to the string. |
| void |
| export_block(Export_function_body*); |
| |
| // Turn exported block data into a block. |
| static bool |
| import_block(Block*, Import_function_body*, Location); |
| |
| // Convert the block to the backend representation. |
| Bblock* |
| get_backend(Translate_context*); |
| |
| // Iterate over statements. |
| |
| typedef std::vector<Statement*>::iterator iterator; |
| |
| iterator |
| begin() |
| { return this->statements_.begin(); } |
| |
| iterator |
| end() |
| { return this->statements_.end(); } |
| |
| private: |
| // Enclosing block. |
| Block* enclosing_; |
| // Statements in the block. |
| std::vector<Statement*> statements_; |
| // Binding contour. |
| Bindings* bindings_; |
| // Location of start of block. |
| Location start_location_; |
| // Location of end of block. |
| Location end_location_; |
| }; |
| |
| // A function. |
| |
| class Function |
| { |
| public: |
| Function(Function_type* type, Named_object*, Block*, Location); |
| |
| // Return the function's type. |
| Function_type* |
| type() const |
| { return this->type_; } |
| |
| // Return the enclosing function if there is one. |
| Named_object* |
| enclosing() const |
| { return this->enclosing_; } |
| |
| // Set the enclosing function. This is used when building thunks |
| // for functions which call recover. |
| void |
| set_enclosing(Named_object* enclosing) |
| { |
| go_assert(this->enclosing_ == NULL); |
| this->enclosing_ = enclosing; |
| } |
| |
| // The result variables. |
| typedef std::vector<Named_object*> Results; |
| |
| // Create the result variables in the outer block. |
| void |
| create_result_variables(Gogo*); |
| |
| // Update the named result variables when cloning a function which |
| // calls recover. |
| void |
| update_result_variables(); |
| |
| // Return the result variables. |
| Results* |
| result_variables() |
| { return this->results_; } |
| |
| bool |
| is_sink() const |
| { return this->is_sink_; } |
| |
| void |
| set_is_sink() |
| { this->is_sink_ = true; } |
| |
| // Whether the result variables have names. |
| bool |
| results_are_named() const |
| { return this->results_are_named_; } |
| |
| // Return the assembler name. |
| const std::string& |
| asm_name() const |
| { return this->asm_name_; } |
| |
| // Set the assembler name. |
| void |
| set_asm_name(const std::string& asm_name) |
| { this->asm_name_ = asm_name; } |
| |
| // Mark this symbol as exported by a linkname directive. |
| void |
| set_is_exported_by_linkname() |
| { this->is_exported_by_linkname_ = true; } |
| |
| // Return the pragmas for this function. |
| unsigned int |
| pragmas() const |
| { return this->pragmas_; } |
| |
| // Set the pragmas for this function. |
| void |
| set_pragmas(unsigned int pragmas) |
| { |
| this->pragmas_ = pragmas; |
| } |
| |
| // Return the index to use for a nested function. |
| unsigned int |
| next_nested_function_index() |
| { |
| ++this->nested_functions_; |
| return this->nested_functions_; |
| } |
| |
| // Whether this method should not be included in the type |
| // descriptor. |
| bool |
| nointerface() const; |
| |
| // Record that this method should not be included in the type |
| // descriptor. |
| void |
| set_nointerface(); |
| |
| // Record that this function is a stub method created for an unnamed |
| // type. |
| void |
| set_is_unnamed_type_stub_method() |
| { |
| go_assert(this->is_method()); |
| this->is_unnamed_type_stub_method_ = true; |
| } |
| |
| // Return the amount of enclosed variables in this closure. |
| size_t |
| closure_field_count() const |
| { return this->closure_fields_.size(); } |
| |
| // Add a new field to the closure variable. |
| void |
| add_closure_field(Named_object* var, Location loc) |
| { this->closure_fields_.push_back(std::make_pair(var, loc)); } |
| |
| // Whether this function needs a closure. |
| bool |
| needs_closure() const |
| { return !this->closure_fields_.empty(); } |
| |
| // Return the closure variable, creating it if necessary. This is |
| // passed to the function as a static chain parameter. |
| Named_object* |
| closure_var(); |
| |
| // Set the closure variable. This is used when building thunks for |
| // functions which call recover. |
| void |
| set_closure_var(Named_object* v) |
| { |
| go_assert(this->closure_var_ == NULL); |
| this->closure_var_ = v; |
| } |
| |
| // Return the variable for a reference to field INDEX in the closure |
| // variable. |
| Named_object* |
| enclosing_var(unsigned int index) |
| { |
| go_assert(index < this->closure_fields_.size()); |
| return closure_fields_[index].first; |
| } |
| |
| // Set the type of the closure variable if there is one. |
| void |
| set_closure_type(); |
| |
| // Get the block of statements associated with the function. |
| Block* |
| block() const |
| { return this->block_; } |
| |
| // Get the location of the start of the function. |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Return whether this function is actually a method. |
| bool |
| is_method() const; |
| |
| // Add a label definition to the function. |
| Label* |
| add_label_definition(Gogo*, const std::string& label_name, Location); |
| |
| // Add a label reference to a function. ISSUE_GOTO_ERRORS is true |
| // if we should report errors for a goto from the current location |
| // to the label location. |
| Label* |
| add_label_reference(Gogo*, const std::string& label_name, |
| Location, bool issue_goto_errors); |
| |
| // Warn about labels that are defined but not used. |
| void |
| check_labels() const; |
| |
| // Note that a new local type has been added. Return its index. |
| unsigned int |
| new_local_type_index() |
| { return this->local_type_count_++; } |
| |
| // Whether this function calls the predeclared recover function. |
| bool |
| calls_recover() const |
| { return this->calls_recover_; } |
| |
| // Record that this function calls the predeclared recover function. |
| // This is set during the lowering pass. |
| void |
| set_calls_recover() |
| { this->calls_recover_ = true; } |
| |
| // Whether this is a recover thunk function. |
| bool |
| is_recover_thunk() const |
| { return this->is_recover_thunk_; } |
| |
| // Record that this is a thunk built for a function which calls |
| // recover. |
| void |
| set_is_recover_thunk() |
| { this->is_recover_thunk_ = true; } |
| |
| // Whether this function already has a recover thunk. |
| bool |
| has_recover_thunk() const |
| { return this->has_recover_thunk_; } |
| |
| // Record that this function already has a recover thunk. |
| void |
| set_has_recover_thunk() |
| { this->has_recover_thunk_ = true; } |
| |
| // Record that this function is a thunk created for a defer |
| // statement that calls the __go_set_defer_retaddr runtime function. |
| void |
| set_calls_defer_retaddr() |
| { this->calls_defer_retaddr_ = true; } |
| |
| // Whether this is a type hash or equality function created by the |
| // compiler. |
| bool |
| is_type_specific_function() |
| { return this->is_type_specific_function_; } |
| |
| // Record that this function is a type hash or equality function |
| // created by the compiler. |
| void |
| set_is_type_specific_function() |
| { this->is_type_specific_function_ = true; } |
| |
| // Mark the function as going into a unique section. |
| void |
| set_in_unique_section() |
| { this->in_unique_section_ = true; } |
| |
| // Return whether this function should be exported for inlining. |
| bool |
| export_for_inlining() const |
| { return this->export_for_inlining_; } |
| |
| // Mark the function to be exported for inlining. |
| void |
| set_export_for_inlining() |
| { this->export_for_inlining_ = true; } |
| |
| // Return whether this function is inline only. |
| bool |
| is_inline_only() const |
| { return this->is_inline_only_; } |
| |
| // Mark the function as inline only: the body should not be emitted |
| // if it is not inlined. |
| void |
| set_is_inline_only() |
| { this->is_inline_only_ = true; } |
| |
| // Report whether the function is referenced by an inline body. |
| bool |
| is_referenced_by_inline() const |
| { return this->is_referenced_by_inline_; } |
| |
| // Mark the function as referenced by an inline body. |
| void |
| set_is_referenced_by_inline() |
| { this->is_referenced_by_inline_ = true; } |
| |
| // Swap with another function. Used only for the thunk which calls |
| // recover. |
| void |
| swap_for_recover(Function *); |
| |
| // Traverse the tree. |
| int |
| traverse(Traverse*); |
| |
| // Determine types in the function. |
| void |
| determine_types(); |
| |
| // Return an expression for the function descriptor, given the named |
| // object for this function. This may only be called for functions |
| // without a closure. This will be an immutable struct with one |
| // field that points to the function's code. |
| Expression* |
| descriptor(Gogo*, Named_object*); |
| |
| // Set the descriptor for this function. This is used when a |
| // function declaration is followed by a function definition. |
| void |
| set_descriptor(Expression* descriptor) |
| { |
| go_assert(this->descriptor_ == NULL); |
| this->descriptor_ = descriptor; |
| } |
| |
| // Return the backend representation. |
| Bfunction* |
| get_or_make_decl(Gogo*, Named_object*); |
| |
| // Return the function's decl after it has been built. |
| Bfunction* |
| get_decl() const; |
| |
| // Set the function decl to hold a backend representation of the function |
| // code. |
| void |
| build(Gogo*, Named_object*); |
| |
| // Get the statement that assigns values to this function's result struct. |
| Bstatement* |
| return_value(Gogo*, Named_object*, Location) const; |
| |
| // Get the backend name of this function. |
| void |
| backend_name(Gogo*, Named_object*, Backend_name*); |
| |
| // Get an expression for the variable holding the defer stack. |
| Expression* |
| defer_stack(Location); |
| |
| // Export the function. |
| void |
| export_func(Export*, const Named_object*) const; |
| |
| // Export a function with a type. |
| static void |
| export_func_with_type(Export*, const Named_object*, |
| const Function_type*, Results*, bool nointerface, |
| const std::string& asm_name, Block* block, Location); |
| |
| // Import a function. Reports whether the import succeeded. |
| static bool |
| import_func(Import*, std::string* pname, Package** pkg, |
| bool* is_exported, Typed_identifier** receiver, |
| Typed_identifier_list** pparameters, |
| Typed_identifier_list** presults, bool* is_varargs, |
| bool* nointerface, std::string* asm_name, std::string* body); |
| |
| private: |
| // Type for mapping from label names to Label objects. |
| typedef Unordered_map(std::string, Label*) Labels; |
| |
| void |
| build_defer_wrapper(Gogo*, Named_object*, Bstatement**, Bstatement**); |
| |
| typedef std::vector<std::pair<Named_object*, |
| Location> > Closure_fields; |
| |
| // The function's type. |
| Function_type* type_; |
| // The enclosing function. This is NULL when there isn't one, which |
| // is the normal case. |
| Named_object* enclosing_; |
| // The result variables, if any. |
| Results* results_; |
| // If there is a closure, this is the list of variables which appear |
| // in the closure. This is created by the parser, and then resolved |
| // to a real type when we lower parse trees. |
| Closure_fields closure_fields_; |
| // The closure variable, passed as a parameter using the static |
| // chain parameter. Normally NULL. |
| Named_object* closure_var_; |
| // The outer block of statements in the function. |
| Block* block_; |
| // The source location of the start of the function. |
| Location location_; |
| // Labels defined or referenced in the function. |
| Labels labels_; |
| // The number of local types defined in this function. |
| unsigned int local_type_count_; |
| // The assembler name: this is the name that will be put in the object file. |
| // Set by the go:linkname compiler directive. This is normally empty. |
| std::string asm_name_; |
| // The function descriptor, if any. |
| Expression* descriptor_; |
| // The function decl. |
| Bfunction* fndecl_; |
| // The defer stack variable. A pointer to this variable is used to |
| // distinguish the defer stack for one function from another. This |
| // is NULL unless we actually need a defer stack. |
| Temporary_statement* defer_stack_; |
| // Pragmas for this function. This is a set of GOPRAGMA bits. |
| unsigned int pragmas_; |
| // Number of nested functions defined within this function. |
| unsigned int nested_functions_; |
| // True if this function is sink-named. No code is generated. |
| bool is_sink_ : 1; |
| // True if the result variables are named. |
| bool results_are_named_ : 1; |
| // True if this function is a stub method created for an unnamed |
| // type. |
| bool is_unnamed_type_stub_method_ : 1; |
| // True if this function calls the predeclared recover function. |
| bool calls_recover_ : 1; |
| // True if this a thunk built for a function which calls recover. |
| bool is_recover_thunk_ : 1; |
| // True if this function already has a recover thunk. |
| bool has_recover_thunk_ : 1; |
| // True if this is a thunk built for a defer statement that calls |
| // the __go_set_defer_retaddr runtime function. |
| bool calls_defer_retaddr_ : 1; |
| // True if this is a function built by the compiler to as a hash or |
| // equality function for some type. |
| bool is_type_specific_function_ : 1; |
| // True if this function should be put in a unique section. This is |
| // turned on for field tracking. |
| bool in_unique_section_ : 1; |
| // True if we should export the body of this function for |
| // cross-package inlining. |
| bool export_for_inlining_ : 1; |
| // True if this function is inline only: if it should not be emitted |
| // if it is not inlined. |
| bool is_inline_only_ : 1; |
| // True if this function is referenced from an inlined body that |
| // will be put into the export data. |
| bool is_referenced_by_inline_ : 1; |
| // True if we should make this function visible to other packages |
| // because of a go:linkname directive. |
| bool is_exported_by_linkname_ : 1; |
| }; |
| |
| // A snapshot of the current binding state. |
| |
| class Bindings_snapshot |
| { |
| public: |
| Bindings_snapshot(const Block*, Location); |
| |
| // Report any errors appropriate for a goto from the current binding |
| // state of B to this one. |
| void |
| check_goto_from(const Block* b, Location); |
| |
| // Report any errors appropriate for a goto from this binding state |
| // to the current state of B. |
| void |
| check_goto_to(const Block* b); |
| |
| private: |
| bool |
| check_goto_block(Location, const Block*, const Block*, size_t*); |
| |
| void |
| check_goto_defs(Location, const Block*, size_t, size_t); |
| |
| // The current block. |
| const Block* block_; |
| // The number of names currently defined in each open block. |
| // Element 0 is this->block_, element 1 is |
| // this->block_->enclosing(), etc. |
| std::vector<size_t> counts_; |
| // The location where this snapshot was taken. |
| Location location_; |
| }; |
| |
| // A function declaration. |
| |
| class Function_declaration |
| { |
| public: |
| Function_declaration(Function_type* fntype, Location location) |
| : fntype_(fntype), location_(location), asm_name_(), descriptor_(NULL), |
| fndecl_(NULL), pragmas_(0), imported_body_(), |
| is_on_inlinable_list_(false) |
| { } |
| |
| Function_type* |
| type() const |
| { return this->fntype_; } |
| |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Return whether this function declaration is a method. |
| bool |
| is_method() const; |
| |
| const std::string& |
| asm_name() const |
| { return this->asm_name_; } |
| |
| // Set the assembler name. |
| void |
| set_asm_name(const std::string& asm_name) |
| { this->asm_name_ = asm_name; } |
| |
| // Return the pragmas for this function. |
| unsigned int |
| pragmas() const |
| { return this->pragmas_; } |
| |
| // Set the pragmas for this function. |
| void |
| set_pragmas(unsigned int pragmas) |
| { |
| this->pragmas_ = pragmas; |
| } |
| |
| // Whether this method should not be included in the type |
| // descriptor. |
| bool |
| nointerface() const; |
| |
| // Record that this method should not be included in the type |
| // descriptor. |
| void |
| set_nointerface(); |
| |
| // Whether we have an imported function body. |
| bool |
| has_imported_body() const |
| { return !this->imported_body_.empty(); } |
| |
| // Record the imported body of this function. |
| void |
| set_imported_body(Import* imp, const std::string& imported_body) |
| { |
| this->imp_ = imp; |
| this->imported_body_ = imported_body; |
| } |
| |
| // Whether this declaration is on the list of inlinable functions. |
| bool |
| is_on_inlinable_list() const |
| { return this->is_on_inlinable_list_; } |
| |
| // Set that this function is on the list of inlinable functions. |
| void |
| set_is_on_inlinable_list() |
| { this->is_on_inlinable_list_ = true; } |
| |
| // Import the function body, creating a function. |
| void |
| import_function_body(Gogo*, Named_object*); |
| |
| // Return an expression for the function descriptor, given the named |
| // object for this function. This may only be called for functions |
| // without a closure. This will be an immutable struct with one |
| // field that points to the function's code. |
| Expression* |
| descriptor(Gogo*, Named_object*); |
| |
| // Return true if we have created a descriptor for this declaration. |
| bool |
| has_descriptor() const |
| { return this->descriptor_ != NULL; } |
| |
| // Return a backend representation. |
| Bfunction* |
| get_or_make_decl(Gogo*, Named_object*); |
| |
| // If there is a descriptor, build it into the backend |
| // representation. |
| void |
| build_backend_descriptor(Gogo*); |
| |
| // Get the backend name of this function declaration. |
| void |
| backend_name(Gogo*, Named_object*, Backend_name*); |
| |
| // Export a function declaration. |
| void |
| export_func(Export* exp, const Named_object* no) const |
| { |
| Function::export_func_with_type(exp, no, this->fntype_, NULL, |
| this->is_method() && this->nointerface(), |
| this->asm_name_, NULL, this->location_); |
| } |
| |
| // Check that the types used in this declaration's signature are defined. |
| void |
| check_types() const; |
| |
| private: |
| // The type of the function. |
| Function_type* fntype_; |
| // The location of the declaration. |
| Location location_; |
| // The assembler name: this is the name to use in references to the |
| // function. This is normally empty. |
| std::string asm_name_; |
| // The function descriptor, if any. |
| Expression* descriptor_; |
| // The function decl if needed. |
| Bfunction* fndecl_; |
| // Pragmas for this function. This is a set of GOPRAGMA bits. |
| unsigned int pragmas_; |
| // Importer for function body if imported from a different package. |
| Import* imp_; |
| // Export data for function body if imported from a different package. |
| std::string imported_body_; |
| // Whether this declaration is already on the list of inlinable functions. |
| bool is_on_inlinable_list_; |
| }; |
| |
| // A variable. |
| |
| class Variable |
| { |
| public: |
| Variable(Type*, Expression*, bool is_global, bool is_parameter, |
| bool is_receiver, Location); |
| |
| // Get the type of the variable. |
| Type* |
| type(); |
| |
| Type* |
| type() const; |
| |
| // Return whether the type is defined yet. |
| bool |
| has_type() const; |
| |
| // Get the initial value. |
| Expression* |
| init() const |
| { return this->init_; } |
| |
| // Return whether there are any preinit statements. |
| bool |
| has_pre_init() const |
| { return this->preinit_ != NULL; } |
| |
| // Return the preinit statements if any. |
| Block* |
| preinit() const |
| { return this->preinit_; } |
| |
| // Return whether this is a global variable. |
| bool |
| is_global() const |
| { return this->is_global_; } |
| |
| // Return whether this is a function parameter. |
| bool |
| is_parameter() const |
| { return this->is_parameter_; } |
| |
| // Return whether this is a closure (static chain) parameter. |
| bool |
| is_closure() const |
| { return this->is_closure_; } |
| |
| // Change this parameter to be a closure. |
| void |
| set_is_closure() |
| { |
| this->is_closure_ = true; |
| } |
| |
| // Return whether this is the receiver parameter of a method. |
| bool |
| is_receiver() const |
| { return this->is_receiver_; } |
| |
| // Change this parameter to be a receiver. This is used when |
| // creating the thunks created for functions which call recover. |
| void |
| set_is_receiver() |
| { |
| go_assert(this->is_parameter_); |
| this->is_receiver_ = true; |
| } |
| |
| // Change this parameter to not be a receiver. This is used when |
| // creating the thunks created for functions which call recover. |
| void |
| set_is_not_receiver() |
| { |
| go_assert(this->is_parameter_); |
| this->is_receiver_ = false; |
| } |
| |
| // Return whether this is the varargs parameter of a function. |
| bool |
| is_varargs_parameter() const |
| { return this->is_varargs_parameter_; } |
| |
| // Whether this variable's address is taken. |
| bool |
| is_address_taken() const |
| { return this->is_address_taken_; } |
| |
| // Whether this variable should live in the heap. |
| bool |
| is_in_heap() const |
| { return this->is_address_taken_ && !this->is_global_; } |
| |
| // Note that something takes the address of this variable. |
| void |
| set_address_taken() |
| { this->is_address_taken_ = true; } |
| |
| // Return whether the address is taken but does not escape. |
| bool |
| is_non_escaping_address_taken() const |
| { return this->is_non_escaping_address_taken_; } |
| |
| // Note that something takes the address of this variable such that |
| // the address does not escape the function. |
| void |
| set_non_escaping_address_taken() |
| { this->is_non_escaping_address_taken_ = true; } |
| |
| // Get the source location of the variable's declaration. |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Record that this is the varargs parameter of a function. |
| void |
| set_is_varargs_parameter() |
| { |
| go_assert(this->is_parameter_); |
| this->is_varargs_parameter_ = true; |
| } |
| |
| // Return whether the variable has been used. |
| bool |
| is_used() const |
| { return this->is_used_; } |
| |
| // Mark that the variable has been used. |
| void |
| set_is_used() |
| { this->is_used_ = true; } |
| |
| // Clear the initial value; used for error handling and write barriers. |
| void |
| clear_init() |
| { this->init_ = NULL; } |
| |
| // Set the initial value; used for converting shortcuts. |
| void |
| set_init(Expression* init) |
| { this->init_ = init; } |
| |
| // Get the preinit block, a block of statements to be run before the |
| // initialization expression. |
| Block* |
| preinit_block(Gogo*); |
| |
| // Add a statement to be run before the initialization expression. |
| // This is only used for global variables. |
| void |
| add_preinit_statement(Gogo*, Statement*); |
| |
| // Lower the initialization expression after parsing is complete. |
| void |
| lower_init_expression(Gogo*, Named_object*, Statement_inserter*); |
| |
| // Flatten the initialization expression after ordering evaluations. |
| void |
| flatten_init_expression(Gogo*, Named_object*, Statement_inserter*); |
| |
| // A special case: the init value is used only to determine the |
| // type. This is used if the variable is defined using := with the |
| // comma-ok form of a map index or a receive expression. The init |
| // value is actually the map index expression or receive expression. |
| // We use this because we may not know the right type at parse time. |
| void |
| set_type_from_init_tuple() |
| { this->type_from_init_tuple_ = true; } |
| |
| // Another special case: the init value is used only to determine |
| // the type. This is used if the variable is defined using := with |
| // a range clause. The init value is the range expression. The |
| // type of the variable is the index type of the range expression |
| // (i.e., the first value returned by a range). |
| void |
| set_type_from_range_index() |
| { this->type_from_range_index_ = true; } |
| |
| // Another special case: like set_type_from_range_index, but the |
| // type is the value type of the range expression (i.e., the second |
| // value returned by a range). |
| void |
| set_type_from_range_value() |
| { this->type_from_range_value_ = true; } |
| |
| // Another special case: the init value is used only to determine |
| // the type. This is used if the variable is defined using := with |
| // a case in a select statement. The init value is the channel. |
| // The type of the variable is the channel's element type. |
| void |
| set_type_from_chan_element() |
| { this->type_from_chan_element_ = true; } |
| |
| // After we lower the select statement, we once again set the type |
| // from the initialization expression. |
| void |
| clear_type_from_chan_element() |
| { |
| go_assert(this->type_from_chan_element_); |
| this->type_from_chan_element_ = false; |
| } |
| |
| // TRUE if this variable was created for a type switch clause. |
| bool |
| is_type_switch_var() const |
| { return this->is_type_switch_var_; } |
| |
| // Note that this variable was created for a type switch clause. |
| void |
| set_is_type_switch_var() |
| { this->is_type_switch_var_ = true; } |
| |
| // Mark the variable as going into a unique section. |
| void |
| set_in_unique_section() |
| { |
| go_assert(this->is_global_); |
| this->in_unique_section_ = true; |
| } |
| |
| // Mark the variable as referenced by an inline body. |
| void |
| set_is_referenced_by_inline() |
| { |
| go_assert(this->is_global_); |
| this->is_referenced_by_inline_ = true; |
| } |
| |
| // Return the top-level declaration for this variable. |
| Statement* |
| toplevel_decl() |
| { return this->toplevel_decl_; } |
| |
| // Set the top-level declaration for this variable. Only used for local |
| // variables |
| void |
| set_toplevel_decl(Statement* s) |
| { |
| go_assert(!this->is_global_ && !this->is_parameter_ && !this->is_receiver_); |
| this->toplevel_decl_ = s; |
| } |
| |
| // Traverse the initializer expression. |
| int |
| traverse_expression(Traverse*, unsigned int traverse_mask); |
| |
| // Determine the type of the variable if necessary. |
| void |
| determine_type(); |
| |
| // Get the backend representation of the variable. |
| Bvariable* |
| get_backend_variable(Gogo*, Named_object*, const Package*, |
| const std::string&); |
| |
| // Get the initial value of the variable. This may only |
| // be called if has_pre_init() returns false. |
| Bexpression* |
| get_init(Gogo*, Named_object* function); |
| |
| // Return a series of statements which sets the value of the |
| // variable in DECL. This should only be called is has_pre_init() |
| // returns true. DECL may be NULL for a sink variable. |
| Bstatement* |
| get_init_block(Gogo*, Named_object* function, Bvariable* decl); |
| |
| // Export the variable. |
| void |
| export_var(Export*, const Named_object*) const; |
| |
| // Import a variable. Reports whether the import succeeded. |
| static bool |
| import_var(Import*, std::string* pname, Package** pkg, bool* is_exported, |
| Type** ptype); |
| |
| private: |
| // The type of a tuple. |
| Type* |
| type_from_tuple(Expression*, bool) const; |
| |
| // The type of a range. |
| Type* |
| type_from_range(Expression*, bool, bool) const; |
| |
| // The element type of a channel. |
| Type* |
| type_from_chan_element(Expression*, bool) const; |
| |
| // The variable's type. This may be NULL if the type is set from |
| // the expression. |
| Type* type_; |
| // The initial value. This may be NULL if the variable should be |
| // initialized to the default value for the type. |
| Expression* init_; |
| // Statements to run before the init statement. |
| Block* preinit_; |
| // Location of variable definition. |
| Location location_; |
| // Backend representation. |
| Bvariable* backend_; |
| // Whether this is a global variable. |
| bool is_global_ : 1; |
| // Whether this is a function parameter. |
| bool is_parameter_ : 1; |
| // Whether this is a closure parameter. |
| bool is_closure_ : 1; |
| // Whether this is the receiver parameter of a method. |
| bool is_receiver_ : 1; |
| // Whether this is the varargs parameter of a function. |
| bool is_varargs_parameter_ : 1; |
| // Whether this variable is ever referenced. |
| bool is_used_ : 1; |
| // Whether something takes the address of this variable. For a |
| // local variable this implies that the variable has to be on the |
| // heap if it escapes from its function. |
| bool is_address_taken_ : 1; |
| // Whether something takes the address of this variable such that |
| // the address does not escape the function. |
| bool is_non_escaping_address_taken_ : 1; |
| // True if we have seen this variable in a traversal. |
| bool seen_ : 1; |
| // True if we have lowered the initialization expression. |
| bool init_is_lowered_ : 1; |
| // True if we have flattened the initialization expression. |
| bool init_is_flattened_ : 1; |
| // True if init is a tuple used to set the type. |
| bool type_from_init_tuple_ : 1; |
| // True if init is a range clause and the type is the index type. |
| bool type_from_range_index_ : 1; |
| // True if init is a range clause and the type is the value type. |
| bool type_from_range_value_ : 1; |
| // True if init is a channel and the type is the channel's element type. |
| bool type_from_chan_element_ : 1; |
| // True if this is a variable created for a type switch case. |
| bool is_type_switch_var_ : 1; |
| // True if we have determined types. |
| bool determined_type_ : 1; |
| // True if this variable should be put in a unique section. This is |
| // used for field tracking. |
| bool in_unique_section_ : 1; |
| // True if this variable is referenced from an inlined body that |
| // will be put into the export data. |
| bool is_referenced_by_inline_ : 1; |
| // The top-level declaration for this variable. Only used for local |
| // variables. Must be a Temporary_statement if not NULL. |
| Statement* toplevel_decl_; |
| }; |
| |
| // A variable which is really the name for a function return value, or |
| // part of one. |
| |
| class Result_variable |
| { |
| public: |
| Result_variable(Type* type, Function* function, int index, |
| Location location) |
| : type_(type), function_(function), index_(index), location_(location), |
| backend_(NULL), is_address_taken_(false), |
| is_non_escaping_address_taken_(false) |
| { } |
| |
| // Get the type of the result variable. |
| Type* |
| type() const |
| { return this->type_; } |
| |
| // Get the function that this is associated with. |
| Function* |
| function() const |
| { return this->function_; } |
| |
| // Index in the list of function results. |
| int |
| index() const |
| { return this->index_; } |
| |
| // The location of the variable definition. |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Whether this variable's address is taken. |
| bool |
| is_address_taken() const |
| { return this->is_address_taken_; } |
| |
| // Note that something takes the address of this variable. |
| void |
| set_address_taken() |
| { this->is_address_taken_ = true; } |
| |
| // Return whether the address is taken but does not escape. |
| bool |
| is_non_escaping_address_taken() const |
| { return this->is_non_escaping_address_taken_; } |
| |
| // Note that something takes the address of this variable such that |
| // the address does not escape the function. |
| void |
| set_non_escaping_address_taken() |
| { this->is_non_escaping_address_taken_ = true; } |
| |
| // Whether this variable should live in the heap. |
| bool |
| is_in_heap() const |
| { return this->is_address_taken_; } |
| |
| // Set the function. This is used when cloning functions which call |
| // recover. |
| void |
| set_function(Function* function) |
| { this->function_ = function; } |
| |
| // Get the backend representation of the variable. |
| Bvariable* |
| get_backend_variable(Gogo*, Named_object*, const std::string&); |
| |
| private: |
| // Type of result variable. |
| Type* type_; |
| // Function with which this is associated. |
| Function* function_; |
| // Index in list of results. |
| int index_; |
| // Where the result variable is defined. |
| Location location_; |
| // Backend representation. |
| Bvariable* backend_; |
| // Whether something takes the address of this variable. |
| bool is_address_taken_; |
| // Whether something takes the address of this variable such that |
| // the address does not escape the function. |
| bool is_non_escaping_address_taken_; |
| }; |
| |
| // The value we keep for a named constant. This lets us hold a type |
| // and an expression. |
| |
| class Named_constant |
| { |
| public: |
| Named_constant(Type* type, Expression* expr, int iota_value, |
| Location location) |
| : type_(type), expr_(expr), iota_value_(iota_value), location_(location), |
| lowering_(false), is_sink_(false), bconst_(NULL) |
| { } |
| |
| Type* |
| type() const |
| { return this->type_; } |
| |
| void |
| set_type(Type* t); |
| |
| Expression* |
| expr() const |
| { return this->expr_; } |
| |
| int |
| iota_value() const |
| { return this->iota_value_; } |
| |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Whether we are lowering. |
| bool |
| lowering() const |
| { return this->lowering_; } |
| |
| // Set that we are lowering. |
| void |
| set_lowering() |
| { this->lowering_ = true; } |
| |
| // We are no longer lowering. |
| void |
| clear_lowering() |
| { this->lowering_ = false; } |
| |
| bool |
| is_sink() const |
| { return this->is_sink_; } |
| |
| void |
| set_is_sink() |
| { this->is_sink_ = true; } |
| |
| // Traverse the expression. |
| int |
| traverse_expression(Traverse*); |
| |
| // Determine the type of the constant if necessary. |
| void |
| determine_type(); |
| |
| // Indicate that we found and reported an error for this constant. |
| void |
| set_error(); |
| |
| // Export the constant. |
| void |
| export_const(Export*, const std::string& name) const; |
| |
| // Import a constant. |
| static void |
| import_const(Import*, std::string*, Type**, Expression**); |
| |
| // Get the backend representation of the constant value. |
| Bexpression* |
| get_backend(Gogo*, Named_object*); |
| |
| private: |
| // The type of the constant. |
| Type* type_; |
| // The expression for the constant. |
| Expression* expr_; |
| // If the predeclared constant iota is used in EXPR_, this is the |
| // value it will have. We do this because at parse time we don't |
| // know whether the name "iota" will refer to the predeclared |
| // constant or to something else. We put in the right value in when |
| // we lower. |
| int iota_value_; |
| // The location of the definition. |
| Location location_; |
| // Whether we are currently lowering this constant. |
| bool lowering_; |
| // Whether this constant is blank named and needs only type checking. |
| bool is_sink_; |
| // The backend representation of the constant value. |
| Bexpression* bconst_; |
| }; |
| |
| // A type declaration. |
| |
| class Type_declaration |
| { |
| public: |
| Type_declaration(Location location) |
| : location_(location), in_function_(NULL), in_function_index_(0), |
| methods_(), issued_warning_(false) |
| { } |
| |
| // Return the location. |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Return the function in which this type is declared. This will |
| // return NULL for a type declared in global scope. |
| Named_object* |
| in_function(unsigned int* pindex) |
| { |
| *pindex = this->in_function_index_; |
| return this->in_function_; |
| } |
| |
| // Set the function in which this type is declared. |
| void |
| set_in_function(Named_object* f, unsigned int index) |
| { |
| this->in_function_ = f; |
| this->in_function_index_ = index; |
| } |
| |
| // Add a method to this type. This is used when methods are defined |
| // before the type. |
| Named_object* |
| add_method(const std::string& name, Function* function); |
| |
| // Add a method declaration to this type. |
| Named_object* |
| add_method_declaration(const std::string& name, Package*, |
| Function_type* type, Location location); |
| |
| // Add an already created object as a method. |
| void |
| add_existing_method(Named_object* no) |
| { this->methods_.push_back(no); } |
| |
| // Return whether any methods were defined. |
| bool |
| has_methods() const; |
| |
| // Return the methods. |
| const std::vector<Named_object*>* |
| methods() const |
| { return &this->methods_; } |
| |
| // Define methods when the real type is known. |
| void |
| define_methods(Named_type*); |
| |
| // This is called if we are trying to use this type. It returns |
| // true if we should issue a warning. |
| bool |
| using_type(); |
| |
| private: |
| // The location of the type declaration. |
| Location location_; |
| // If this type is declared in a function, a pointer back to the |
| // function in which it is defined. |
| Named_object* in_function_; |
| // The index of this type in IN_FUNCTION_. |
| unsigned int in_function_index_; |
| // Methods defined before the type is defined. |
| std::vector<Named_object*> methods_; |
| // True if we have issued a warning about a use of this type |
| // declaration when it is undefined. |
| bool issued_warning_; |
| }; |
| |
| // An unknown object. These are created by the parser for forward |
| // references to names which have not been seen before. In a correct |
| // program, these will always point to a real definition by the end of |
| // the parse. Because they point to another Named_object, these may |
| // only be referenced by Unknown_expression objects. |
| |
| class Unknown_name |
| { |
| public: |
| Unknown_name(Location location) |
| : location_(location), real_named_object_(NULL) |
| { } |
| |
| // Return the location where this name was first seen. |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Return the real named object that this points to, or NULL if it |
| // was never resolved. |
| Named_object* |
| real_named_object() const |
| { return this->real_named_object_; } |
| |
| // Set the real named object that this points to. |
| void |
| set_real_named_object(Named_object* no); |
| |
| private: |
| // The location where this name was first seen. |
| Location location_; |
| // The real named object when it is known. |
| Named_object* |
| real_named_object_; |
| }; |
| |
| // A named object named. This is the result of a declaration. We |
| // don't use a superclass because they all have to be handled |
| // differently. |
| |
| class Named_object |
| { |
| public: |
| enum Classification |
| { |
| // An uninitialized Named_object. We should never see this. |
| NAMED_OBJECT_UNINITIALIZED, |
| // An erroneous name. This indicates a parse error, to avoid |
| // later errors about undefined references. |
| NAMED_OBJECT_ERRONEOUS, |
| // An unknown name. This is used for forward references. In a |
| // correct program, these will all be resolved by the end of the |
| // parse. |
| NAMED_OBJECT_UNKNOWN, |
| // A const. |
| NAMED_OBJECT_CONST, |
| // A type. |
| NAMED_OBJECT_TYPE, |
| // A forward type declaration. |
| NAMED_OBJECT_TYPE_DECLARATION, |
| // A var. |
| NAMED_OBJECT_VAR, |
| // A result variable in a function. |
| NAMED_OBJECT_RESULT_VAR, |
| // The blank identifier--the special variable named _. |
| NAMED_OBJECT_SINK, |
| // A func. |
| NAMED_OBJECT_FUNC, |
| // A forward func declaration. |
| NAMED_OBJECT_FUNC_DECLARATION, |
| // A package. |
| NAMED_OBJECT_PACKAGE |
| }; |
| |
| // Return the classification. |
| Classification |
| classification() const |
| { return this->classification_; } |
| |
| // Classifiers. |
| |
| bool |
| is_erroneous() const |
| { return this->classification_ == NAMED_OBJECT_ERRONEOUS; } |
| |
| bool |
| is_unknown() const |
| { return this->classification_ == NAMED_OBJECT_UNKNOWN; } |
| |
| bool |
| is_const() const |
| { return this->classification_ == NAMED_OBJECT_CONST; } |
| |
| bool |
| is_type() const |
| { return this->classification_ == NAMED_OBJECT_TYPE; } |
| |
| bool |
| is_type_declaration() const |
| { return this->classification_ == NAMED_OBJECT_TYPE_DECLARATION; } |
| |
| bool |
| is_variable() const |
| { return this->classification_ == NAMED_OBJECT_VAR; } |
| |
| bool |
| is_result_variable() const |
| { return this->classification_ == NAMED_OBJECT_RESULT_VAR; } |
| |
| bool |
| is_sink() const |
| { return this->classification_ == NAMED_OBJECT_SINK; } |
| |
| bool |
| is_function() const |
| { return this->classification_ == NAMED_OBJECT_FUNC; } |
| |
| bool |
| is_function_declaration() const |
| { return this->classification_ == NAMED_OBJECT_FUNC_DECLARATION; } |
| |
| bool |
| is_package() const |
| { return this->classification_ == NAMED_OBJECT_PACKAGE; } |
| |
| // Creators. |
| |
| static Named_object* |
| make_erroneous_name(const std::string& name) |
| { return new Named_object(name, NULL, NAMED_OBJECT_ERRONEOUS); } |
| |
| static Named_object* |
| make_unknown_name(const std::string& name, Location); |
| |
| static Named_object* |
| make_constant(const Typed_identifier&, const Package*, Expression*, |
| int iota_value); |
| |
| static Named_object* |
| make_type(const std::string&, const Package*, Type*, Location); |
| |
| static Named_object* |
| make_type_declaration(const std::string&, const Package*, Location); |
| |
| static Named_object* |
| make_variable(const std::string&, const Package*, Variable*); |
| |
| static Named_object* |
| make_result_variable(const std::string&, Result_variable*); |
| |
| static Named_object* |
| make_sink(); |
| |
| static Named_object* |
| make_function(const std::string&, const Package*, Function*); |
| |
| static Named_object* |
| make_function_declaration(const std::string&, const Package*, Function_type*, |
| Location); |
| |
| static Named_object* |
| make_package(const std::string& alias, Package* package); |
| |
| // Getters. |
| |
| Unknown_name* |
| unknown_value() |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_UNKNOWN); |
| return this->u_.unknown_value; |
| } |
| |
| const Unknown_name* |
| unknown_value() const |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_UNKNOWN); |
| return this->u_.unknown_value; |
| } |
| |
| Named_constant* |
| const_value() |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_CONST); |
| return this->u_.const_value; |
| } |
| |
| const Named_constant* |
| const_value() const |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_CONST); |
| return this->u_.const_value; |
| } |
| |
| Named_type* |
| type_value() |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_TYPE); |
| return this->u_.type_value; |
| } |
| |
| const Named_type* |
| type_value() const |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_TYPE); |
| return this->u_.type_value; |
| } |
| |
| Type_declaration* |
| type_declaration_value() |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_TYPE_DECLARATION); |
| return this->u_.type_declaration; |
| } |
| |
| const Type_declaration* |
| type_declaration_value() const |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_TYPE_DECLARATION); |
| return this->u_.type_declaration; |
| } |
| |
| Variable* |
| var_value() |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_VAR); |
| return this->u_.var_value; |
| } |
| |
| const Variable* |
| var_value() const |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_VAR); |
| return this->u_.var_value; |
| } |
| |
| Result_variable* |
| result_var_value() |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_RESULT_VAR); |
| return this->u_.result_var_value; |
| } |
| |
| const Result_variable* |
| result_var_value() const |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_RESULT_VAR); |
| return this->u_.result_var_value; |
| } |
| |
| Function* |
| func_value() |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_FUNC); |
| return this->u_.func_value; |
| } |
| |
| const Function* |
| func_value() const |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_FUNC); |
| return this->u_.func_value; |
| } |
| |
| Function_declaration* |
| func_declaration_value() |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_FUNC_DECLARATION); |
| return this->u_.func_declaration_value; |
| } |
| |
| const Function_declaration* |
| func_declaration_value() const |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_FUNC_DECLARATION); |
| return this->u_.func_declaration_value; |
| } |
| |
| Package* |
| package_value() |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_PACKAGE); |
| return this->u_.package_value; |
| } |
| |
| const Package* |
| package_value() const |
| { |
| go_assert(this->classification_ == NAMED_OBJECT_PACKAGE); |
| return this->u_.package_value; |
| } |
| |
| const std::string& |
| name() const |
| { return this->name_; } |
| |
| // Return the name to use in an error message. The difference is |
| // that if this Named_object is defined in a different package, this |
| // will return PACKAGE.NAME. |
| std::string |
| message_name() const; |
| |
| const Package* |
| package() const |
| { return this->package_; } |
| |
| // Resolve an unknown value if possible. This returns the same |
| // Named_object or a new one. |
| Named_object* |
| resolve() |
| { |
| Named_object* ret = this; |
| if (this->is_unknown()) |
| { |
| Named_object* r = this->unknown_value()->real_named_object(); |
| if (r != NULL) |
| ret = r; |
| } |
| return ret; |
| } |
| |
| const Named_object* |
| resolve() const |
| { |
| const Named_object* ret = this; |
| if (this->is_unknown()) |
| { |
| const Named_object* r = this->unknown_value()->real_named_object(); |
| if (r != NULL) |
| ret = r; |
| } |
| return ret; |
| } |
| |
| // The location where this object was defined or referenced. |
| Location |
| location() const; |
| |
| // Convert a variable to the backend representation. |
| Bvariable* |
| get_backend_variable(Gogo*, Named_object* function); |
| |
| // Get the backend representation of this object. |
| void |
| get_backend(Gogo*, std::vector<Bexpression*>&, std::vector<Btype*>&, |
| std::vector<Bfunction*>&); |
| |
| // Define a type declaration. |
| void |
| set_type_value(Named_type*); |
| |
| // Define a function declaration. |
| void |
| set_function_value(Function*); |
| |
| // Declare an unknown name as a type declaration. |
| void |
| declare_as_type(); |
| |
| // Export this object. |
| void |
| export_named_object(Export*) const; |
| |
| // Mark this named object as an invalid redefinition of another object. |
| void |
| set_is_redefinition() |
| { this->is_redefinition_ = true; } |
| |
| // Return whether or not this object is a invalid redefinition of another |
| // object. |
| bool |
| is_redefinition() const |
| { return this->is_redefinition_; } |
| |
| private: |
| Named_object(const std::string&, const Package*, Classification); |
| |
| // The name of the object. |
| std::string name_; |
| // The package that this object is in. This is NULL if it is in the |
| // file we are compiling. |
| const Package* package_; |
| // The type of object this is. |
| Classification classification_; |
| // The real data. |
| union |
| { |
| Unknown_name* unknown_value; |
| Named_constant* const_value; |
| Named_type* type_value; |
| Type_declaration* type_declaration; |
| Variable* var_value; |
| Result_variable* result_var_value; |
| Function* func_value; |
| Function_declaration* func_declaration_value; |
| Package* package_value; |
| } u_; |
| // True if this object is an invalid redefinition of another object. |
| bool is_redefinition_; |
| }; |
| |
| // A binding contour. This binds names to objects. |
| |
| class Bindings |
| { |
| public: |
| // Type for mapping from names to objects. |
| typedef Unordered_map(std::string, Named_object*) Contour; |
| |
| Bindings(Bindings* enclosing); |
| |
| // Add an erroneous name. |
| Named_object* |
| add_erroneous_name(const std::string& name) |
| { return this->add_named_object(Named_object::make_erroneous_name(name)); } |
| |
| // Add an unknown name. |
| Named_object* |
| add_unknown_name(const std::string& name, Location location) |
| { |
| return this->add_named_object(Named_object::make_unknown_name(name, |
| location)); |
| } |
| |
| // Add a constant. |
| Named_object* |
| add_constant(const Typed_identifier& tid, const Package* package, |
| Expression* expr, int iota_value) |
| { |
| return this->add_named_object(Named_object::make_constant(tid, package, |
| expr, |
| iota_value)); |
| } |
| |
| // Add a type. |
| Named_object* |
| add_type(const std::string& name, const Package* package, Type* type, |
| Location location) |
| { |
| return this->add_named_object(Named_object::make_type(name, package, type, |
| location)); |
| } |
| |
| // Add a named type. This is used for builtin types, and to add an |
| // imported type to the global scope. |
| Named_object* |
| add_named_type(Named_type* named_type); |
| |
| // Add a type declaration. |
| Named_object* |
| add_type_declaration(const std::string& name, const Package* package, |
| Location location) |
| { |
| Named_object* no = Named_object::make_type_declaration(name, package, |
| location); |
| return this->add_named_object(no); |
| } |
| |
| // Add a variable. |
| Named_object* |
| add_variable(const std::string& name, const Package* package, |
| Variable* variable) |
| { |
| return this->add_named_object(Named_object::make_variable(name, package, |
| variable)); |
| } |
| |
| // Add a result variable. |
| Named_object* |
| add_result_variable(const std::string& name, Result_variable* result) |
| { |
| return this->add_named_object(Named_object::make_result_variable(name, |
| result)); |
| } |
| |
| // Add a function. |
| Named_object* |
| add_function(const std::string& name, const Package*, Function* function); |
| |
| // Add a function declaration. |
| Named_object* |
| add_function_declaration(const std::string& name, const Package* package, |
| Function_type* type, Location location); |
| |
| // Add a package. The location is the location of the import |
| // statement. |
| Named_object* |
| add_package(const std::string& alias, Package* package) |
| { |
| Named_object* no = Named_object::make_package(alias, package); |
| return this->add_named_object(no); |
| } |
| |
| // Define a type which was already declared. |
| void |
| define_type(Named_object*, Named_type*); |
| |
| // Add a method to the list of objects. This is not added to the |
| // lookup table. |
| void |
| add_method(Named_object*); |
| |
| // Add a named object to this binding. |
| Named_object* |
| add_named_object(Named_object* no) |
| { return this->add_named_object_to_contour(&this->bindings_, no); } |
| |
| // Clear all names in file scope from the bindings. |
| void |
| clear_file_scope(Gogo*); |
| |
| // Look up a name in this binding contour and in any enclosing |
| // binding contours. This returns NULL if the name is not found. |
| Named_object* |
| lookup(const std::string&) const; |
| |
| // Look up a name in this binding contour without looking in any |
| // enclosing binding contours. Returns NULL if the name is not found. |
| Named_object* |
| lookup_local(const std::string&) const; |
| |
| // Remove a name. |
| void |
| remove_binding(Named_object*); |
| |
| // Mark all variables as used. This is used for some types of parse |
| // error. |
| void |
| mark_locals_used(); |
| |
| // Traverse the tree. See the Traverse class. |
| int |
| traverse(Traverse*, bool is_global); |
| |
| // Iterate over definitions. This does not include things which |
| // were only declared. |
| |
| typedef std::vector<Named_object*>::const_iterator |
| const_definitions_iterator; |
| |
| const_definitions_iterator |
| begin_definitions() const |
| { return this->named_objects_.begin(); } |
| |
| const_definitions_iterator |
| end_definitions() const |
| { return this->named_objects_.end(); } |
| |
| // Return the number of definitions. |
| size_t |
| size_definitions() const |
| { return this->named_objects_.size(); } |
| |
| // Return whether there are no definitions. |
| bool |
| empty_definitions() const |
| { return this->named_objects_.empty(); } |
| |
| // Iterate over declarations. This is everything that has been |
| // declared, which includes everything which has been defined. |
| |
| typedef Contour::const_iterator const_declarations_iterator; |
| |
| const_declarations_iterator |
| begin_declarations() const |
| { return this->bindings_.begin(); } |
| |
| const_declarations_iterator |
| end_declarations() const |
| { return this->bindings_.end(); } |
| |
| // Return the number of declarations. |
| size_t |
| size_declarations() const |
| { return this->bindings_.size(); } |
| |
| // Return whether there are no declarations. |
| bool |
| empty_declarations() const |
| { return this->bindings_.empty(); } |
| |
| // Return the first declaration. |
| Named_object* |
| first_declaration() |
| { return this->bindings_.empty() ? NULL : this->bindings_.begin()->second; } |
| |
| // Dump to stderr for debugging |
| void debug_dump(); |
| |
| private: |
| Named_object* |
| add_named_object_to_contour(Contour*, Named_object*); |
| |
| Named_object* |
| new_definition(Named_object*, Named_object*); |
| |
| // Enclosing bindings. |
| Bindings* enclosing_; |
| // The list of objects. |
| std::vector<Named_object*> named_objects_; |
| // The mapping from names to objects. |
| Contour bindings_; |
| }; |
| |
| // A label. |
| |
| class Label |
| { |
| public: |
| Label(const std::string& name) |
| : name_(name), location_(Linemap::unknown_location()), snapshot_(NULL), |
| refs_(), is_used_(false), blabel_(NULL), depth_(DEPTH_UNKNOWN) |
| { } |
| |
| // Return the label's name. |
| const std::string& |
| name() const |
| { return this->name_; } |
| |
| // Return whether the label has been defined. |
| bool |
| is_defined() const |
| { return !Linemap::is_unknown_location(this->location_); } |
| |
| // Return whether the label has been used. |
| bool |
| is_used() const |
| { return this->is_used_; } |
| |
| // Record that the label is used. |
| void |
| set_is_used() |
| { this->is_used_ = true; } |
| |
| // Return whether this label is looping. |
| bool |
| looping() const |
| { return this->depth_ == DEPTH_LOOPING; } |
| |
| // Set this label as looping. |
| void |
| set_looping() |
| { this->depth_ = DEPTH_LOOPING; } |
| |
| // Return whether this label is nonlooping. |
| bool |
| nonlooping() const |
| { return this->depth_ == DEPTH_NONLOOPING; } |
| |
| // Set this label as nonlooping. |
| void |
| set_nonlooping() |
| { this->depth_ = DEPTH_NONLOOPING; } |
| |
| // Return the location of the definition. |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Return the bindings snapshot. |
| Bindings_snapshot* |
| snapshot() const |
| { return this->snapshot_; } |
| |
| // Add a snapshot of a goto which refers to this label. |
| void |
| add_snapshot_ref(Bindings_snapshot* snapshot) |
| { |
| go_assert(Linemap::is_unknown_location(this->location_)); |
| this->refs_.push_back(snapshot); |
| } |
| |
| // Return the list of snapshots of goto statements which refer to |
| // this label. |
| const std::vector<Bindings_snapshot*>& |
| refs() const |
| { return this->refs_; } |
| |
| // Clear the references. |
| void |
| clear_refs(); |
| |
| // Define the label at LOCATION with the given bindings snapshot. |
| void |
| define(Location location, Bindings_snapshot* snapshot) |
| { |
| if (this->is_dummy_label()) |
| return; |
| go_assert(Linemap::is_unknown_location(this->location_) |
| && this->snapshot_ == NULL); |
| this->location_ = location; |
| this->snapshot_ = snapshot; |
| } |
| |
| // Return the backend representation for this label. |
| Blabel* |
| get_backend_label(Translate_context*); |
| |
| // Return an expression for the address of this label. This is used |
| // to get the return address of a deferred function to see whether |
| // the function may call recover. |
| Bexpression* |
| get_addr(Translate_context*, Location location); |
| |
| // Return a dummy label, representing any instance of the blank label. |
| static Label* |
| create_dummy_label(); |
| |
| // Return TRUE if this is a dummy label. |
| bool |
| is_dummy_label() const |
| { return this->name_ == "_"; } |
| |
| // A classification of a label's looping depth. |
| enum Loop_depth |
| { |
| DEPTH_UNKNOWN, |
| // A label never jumped to. |
| DEPTH_NONLOOPING, |
| // A label jumped to. |
| DEPTH_LOOPING |
| }; |
| |
| private: |
| // The name of the label. |
| std::string name_; |
| // The location of the definition. This is 0 if the label has not |
| // yet been defined. |
| Location location_; |
| // A snapshot of the set of bindings defined at this label, used to |
| // issue errors about invalid goto statements. |
| Bindings_snapshot* snapshot_; |
| // A list of snapshots of goto statements which refer to this label. |
| std::vector<Bindings_snapshot*> refs_; |
| // Whether the label has been used. |
| bool is_used_; |
| // The backend representation. |
| Blabel* blabel_; |
| // The looping depth of this label, for escape analysis. |
| Loop_depth depth_; |
| }; |
| |
| // An unnamed label. These are used when lowering loops. |
| |
| class Unnamed_label |
| { |
| public: |
| Unnamed_label(Location location) |
| : location_(location), derived_from_(NULL), blabel_(NULL) |
| { } |
| |
| // Get the location where the label is defined. |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Set the location where the label is defined. |
| void |
| set_location(Location location) |
| { this->location_ = location; } |
| |
| // Get the top level statement this unnamed label is derived from. |
| Statement* |
| derived_from() const |
| { return this->derived_from_; } |
| |
| // Set the top level statement this unnamed label is derived from. |
| void |
| set_derived_from(Statement* s) |
| { this->derived_from_ = s; } |
| |
| // Return a statement which defines this label. |
| Bstatement* |
| get_definition(Translate_context*); |
| |
| // Return a goto to this label from LOCATION. |
| Bstatement* |
| get_goto(Translate_context*, Location location); |
| |
| private: |
| // Return the backend representation. |
| Blabel* |
| get_blabel(Translate_context*); |
| |
| // The location where the label is defined. |
| Location location_; |
| // The top-level statement this unnamed label was derived/lowered from. |
| // This is NULL is this label is not the top-level of a lowered statement. |
| Statement* derived_from_; |
| // The backend representation of this label. |
| Blabel* blabel_; |
| }; |
| |
| // An alias for an imported package. |
| |
| class Package_alias |
| { |
| public: |
| Package_alias(Location location) |
| : location_(location), used_(0) |
| { } |
| |
| // The location of the import statement. |
| Location |
| location() |
| { return this->location_; } |
| |
| // How many symbols from the package were used under this alias. |
| size_t |
| used() const |
| { return this->used_; } |
| |
| // Note that some symbol was used under this alias. |
| void |
| note_usage() |
| { this->used_++; } |
| |
| private: |
| // The location of the import statement. |
| Location location_; |
| // The amount of times some name from this package was used under this alias. |
| size_t used_; |
| }; |
| |
| // An imported package. |
| |
| class Package |
| { |
| public: |
| Package(const std::string& pkgpath, const std::string& pkgpath_symbol, |
| Location location); |
| |
| // Get the package path used for all symbols exported from this |
| // package. |
| const std::string& |
| pkgpath() const |
| { return this->pkgpath_; } |
| |
| // Return the package path to use for a symbol name. |
| std::string |
| pkgpath_symbol() const; |
| |
| // Set the package path symbol. |
| void |
| set_pkgpath_symbol(const std::string&); |
| |
| // Return the location of the most recent import statement. |
| Location |
| location() const |
| { return this->location_; } |
| |
| // Return whether we know the name of this package yet. |
| bool |
| has_package_name() const |
| { return !this->package_name_.empty(); } |
| |
| // The name that this package uses in its package clause. This may |
| // be different from the name in the associated Named_object if the |
| // import statement used an alias. |
| const std::string& |
| package_name() const |
| { |
| go_assert(!this->package_name_.empty()); |
| return this->package_name_; |
| } |
| |
| // Return the bindings. |
| Bindings* |
| bindings() const |
| { return this->bindings_; } |
| |
| // Type used to map import names to package aliases. |
| typedef std::map<std::string, Package_alias*> Aliases; |
| |
| // Return the set of package aliases. |
| const Aliases& |
| aliases() const |
| { return this->aliases_; } |
| |
| // Note that some symbol from this package was used and qualified by ALIAS. |
| // For dot imports, the ALIAS should be ".PACKAGE_NAME". |
| void |
| note_usage(const std::string& alias) const; |
| |
| // Note that USAGE might be a fake usage of this package. |
| void |
| note_fake_usage(Expression* usage) const |
| { this->fake_uses_.insert(usage); } |
| |
| // Forget a given USAGE of this package. |
| void |
| forget_usage(Expression* usage) const; |
| |
| // Clear the used field for the next file. |
| void |
| clear_used(); |
| |
| // Look up a name in the package. Returns NULL if the name is not |
| // found. |
| Named_object* |
| lookup(const std::string& name) const |
| { return this->bindings_->lookup(name); } |
| |
| // Set the name of the package. |
| void |
| set_package_name(const std::string& name, Location); |
| |
| // Set the location of the package. This is used to record the most |
| // recent import location. |
| void |
| set_location(Location location) |
| { this->location_ = location; } |
| |
| // Add a package name as an ALIAS for this package. |
| Package_alias* |
| add_alias(const std::string& alias, Location); |
| |
| // Add a constant to the package. |
| Named_object* |
| add_constant(const Typed_identifier& tid, Expression* expr) |
| { return this->bindings_->add_constant(tid, this, expr, 0); } |
| |
| // Add a type to the package. |
| Named_object* |
| add_type(const std::string& name, Type* type, Location location) |
| { return this->bindings_->add_type(name, this, type, location); } |
| |
| // Add a type declaration to the package. |
| Named_object* |
| add_type_declaration(const std::string& name, Location location) |
| { return this->bindings_->add_type_declaration(name, this, location); } |
| |
| // Add a variable to the package. |
| Named_object* |
| add_variable(const std::string& name, Variable* variable) |
| { return this->bindings_->add_variable(name, this, variable); } |
| |
| // Add a function declaration to the package. |
| Named_object* |
| add_function_declaration(const std::string& name, Function_type* type, |
| Location loc) |
| { return this->bindings_->add_function_declaration(name, this, type, loc); } |
| |
| // Determine types of constants. |
| void |
| determine_types(); |
| |
| private: |
| // The package path for type reflection data. |
| std::string pkgpath_; |
| // The package path for symbol names. |
| std::string pkgpath_symbol_; |
| // The name that this package uses in the package clause. This may |
| // be the empty string if it is not yet known. |
| std::string package_name_; |
| // The names in this package. |
| Bindings* bindings_; |
| // The location of the most recent import statement. |
| Location location_; |
| // The set of aliases associated with this package. |
| Aliases aliases_; |
| // A set of possibly fake uses of this package. This is mutable because we |
| // can track fake uses of a package even if we have a const pointer to it. |
| mutable std::set<Expression*> fake_uses_; |
| }; |
| |
| // Return codes for the traversal functions. This is not an enum |
| // because we want to be able to declare traversal functions in other |
| // header files without including this one. |
| |
| // Continue traversal as usual. |
| const int TRAVERSE_CONTINUE = -1; |
| |
| // Exit traversal. |
| const int TRAVERSE_EXIT = 0; |
| |
| // Continue traversal, but skip components of the current object. |
| // E.g., if this is returned by Traverse::statement, we do not |
| // traverse the expressions in the statement even if |
| // traverse_expressions is set in the traverse_mask. |
| const int TRAVERSE_SKIP_COMPONENTS = 1; |
| |
| // This class is used when traversing the parse tree. The caller uses |
| // a subclass which overrides functions as desired. |
| |
| class Traverse |
| { |
| public: |
| // These bitmasks say what to traverse. |
| static const unsigned int traverse_variables = 0x1; |
| static const unsigned int traverse_constants = 0x2; |
| static const unsigned int traverse_functions = 0x4; |
| static const unsigned int traverse_blocks = 0x8; |
| static const unsigned int traverse_statements = 0x10; |
| static const unsigned int traverse_expressions = 0x20; |
| static const unsigned int traverse_types = 0x40; |
| static const unsigned int traverse_func_declarations = 0x80; |
| |
| Traverse(unsigned int traverse_mask) |
| : traverse_mask_(traverse_mask), types_seen_(NULL), expressions_seen_(NULL) |
| { } |
| |
| virtual ~Traverse(); |
| |
| // The bitmask of what to traverse. |
| unsigned int |
| traverse_mask() const |
| { return this->traverse_mask_; } |
| |
| // Record that we are going to traverse a type. This returns true |
| // if the type has already been seen in this traversal. This is |
| // required because types, unlike expressions, can form a circular |
| // graph. |
| bool |
| remember_type(const Type*); |
| |
| // Record that we are going to see an expression. This returns true |
| // if the expression has already been seen in this traversal. This |
| // is only needed for cases where multiple expressions can point to |
| // a single one. |
| bool |
| remember_expression(const Expression*); |
| |
| // These functions return one of the TRAVERSE codes defined above. |
| |
| // If traverse_variables is set in the mask, this is called for |
| // every variable in the tree. |
| virtual int |
| variable(Named_object*); |
| |
| // If traverse_constants is set in the mask, this is called for |
| // every named constant in the tree. The bool parameter is true for |
| // a global constant. |
| virtual int |
| constant(Named_object*, bool); |
| |
| // If traverse_functions is set in the mask, this is called for |
| // every function in the tree. |
| virtual int |
| function(Named_object*); |
| |
| // If traverse_blocks is set in the mask, this is called for every |
| // block in the tree. |
| virtual int |
| block(Block*); |
| |
| // If traverse_statements is set in the mask, this is called for |
| // every statement in the tree. |
| virtual int |
| statement(Block*, size_t* index, Statement*); |
| |
| // If traverse_expressions is set in the mask, this is called for |
| // every expression in the tree. |
| virtual int |
| expression(Expression**); |
| |
| // If traverse_types is set in the mask, this is called for every |
| // type in the tree. |
| virtual int |
| type(Type*); |
| |
| // If traverse_func_declarations is set in the mask, this is called |
| // for every function declarations in the tree. |
| virtual int |
| function_declaration(Named_object*); |
| |
| private: |
| // A hash table for types we have seen during this traversal. Note |
| // that this uses the default hash functions for pointers rather |
| // than Type_hash_identical and Type_identical. This is because for |
| // traversal we care about seeing a specific type structure. If |
| // there are two separate instances of identical types, we want to |
| // traverse both. |
| typedef Unordered_set(const Type*) Types_seen; |
| |
| typedef Unordered_set(const Expression*) Expressions_seen; |
| |
| // Bitmask of what sort of objects to traverse. |
| unsigned int traverse_mask_; |
| // Types which have been seen in this traversal. |
| Types_seen* types_seen_; |
| // Expressions which have been seen in this traversal. |
| Expressions_seen* expressions_seen_; |
| }; |
| |
| // This class looks for interface types to finalize methods of inherited |
| // interfaces. |
| |
| class Finalize_methods : public Traverse |
| { |
| public: |
| Finalize_methods(Gogo* gogo) |
| : Traverse(traverse_types), |
| gogo_(gogo) |
| { } |
| |
| int |
| type(Type*); |
| |
| private: |
| Gogo* gogo_; |
| }; |
| |
| // A class which makes it easier to insert new statements before the |
| // current statement during a traversal. |
| |
| class Statement_inserter |
| { |
| public: |
| typedef Unordered_set(Statement*) Statements; |
| |
| // Empty constructor. |
| Statement_inserter() |
| : block_(NULL), pindex_(NULL), gogo_(NULL), var_(NULL), |
| statements_added_(NULL) |
| { } |
| |
| // Constructor for a statement in a block. |
| Statement_inserter(Block* block, size_t *pindex, Statements *added = NULL) |
| : block_(block), pindex_(pindex), gogo_(NULL), var_(NULL), |
| statements_added_(added) |
| { } |
| |
| // Constructor for a global variable. |
| Statement_inserter(Gogo* gogo, Variable* var, Statements *added = NULL) |
| : block_(NULL), pindex_(NULL), gogo_(gogo), var_(var), |
| statements_added_(added) |
| { go_assert(var->is_global()); } |
| |
| // We use the default copy constructor and assignment operator. |
| |
| // Insert S before the statement we are traversing, or before the |
| // initialization expression of a global variable. |
| void |
| insert(Statement* s); |
| |
| private: |
| // The block that the statement is in. |
| Block* block_; |
| // The index of the statement that we are traversing. |
| size_t* pindex_; |
| // The IR, needed when looking at an initializer expression for a |
| // global variable. |
| Gogo* gogo_; |
| // The global variable, when looking at an initializer expression. |
| Variable* var_; |
| // If non-null, a set to record new statements inserted (non-owned). |
| Statements* statements_added_; |
| }; |
| |
| // When translating the gogo IR into the backend data structure, this |
| // is the context we pass down the blocks and statements. |
| |
| class Translate_context |
| { |
| public: |
| Translate_context(Gogo* gogo, Named_object* function, Block* block, |
| Bblock* bblock) |
| : gogo_(gogo), backend_(gogo->backend()), function_(function), |
| block_(block), bblock_(bblock), is_const_(false) |
| { } |
| |
| // Accessors. |
| |
| Gogo* |
| gogo() |
| { return this->gogo_; } |
| |
| Backend* |
| backend() |
| { return this->backend_; } |
| |
| Named_object* |
| function() |
| { return this->function_; } |
| |
| Block* |
| block() |
| { return this->block_; } |
| |
| Bblock* |
| bblock() |
| { return this->bblock_; } |
| |
| bool |
| is_const() |
| { return this->is_const_; } |
| |
| // Make a constant context. |
| void |
| set_is_const() |
| { this->is_const_ = true; } |
| |
| private: |
| // The IR for the entire compilation unit. |
| Gogo* gogo_; |
| // The generator for the backend data structures. |
| Backend* backend_; |
| // The function we are currently translating. NULL if not in a |
| // function, e.g., the initializer of a global variable. |
| Named_object* function_; |
| // The block we are currently translating. NULL if not in a |
| // function. |
| Block *block_; |
| // The backend representation of the current block. NULL if block_ |
| // is NULL. |
| Bblock* bblock_; |
| // Whether this is being evaluated in a constant context. This is |
| // used for type descriptor initializers. |
| bool is_const_; |
| }; |
| |
| // This is used by some of the langhooks. |
| extern Gogo* go_get_gogo(); |
| |
| // Whether we have seen any errors. FIXME: Replace with a backend |
| // interface. |
| extern bool saw_errors(); |
| |
| // For use in the debugger |
| extern void debug_go_gogo(Gogo*); |
| extern void debug_go_named_object(Named_object*); |
| extern void debug_go_bindings(Bindings*); |
| |
| |
| #endif // !defined(GO_GOGO_H) |