go/import.h - gofrontend - Git at Google

 // import.h -- Go frontend import declarations.     -*- 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_IMPORT_H
 #define GO_IMPORT_H

 #include "export.h"
 #include "go-linemap.h"

 class Gogo;
 class Block;
 class Package;
 class Type;
 class Named_object;
 class Named_type;
 class Expression;
 class Import_function_body;
 class Temporary_statement;
 class Unnamed_label;
 class Finalize_methods;

 // Expressions can be imported either directly from import data (for
 // simple constant expressions that can appear in a const declaration
 // or as an array length in a type definition) or from an exported
 // function body (for an inlinable function).  These two cases happen
 // at different points in the compilation and have different
 // requirements, so it's not easy to unify them.  Import_expression is
 // an abstract interface that permits the expression import code to
 // work at either point.  When importing expressions that only occur
 // for an inlinable function, the ifb method is available to get the
 // full Import_function_body.

 class Import_expression
 {
  public:
   // Return the import function body.  This should only be called for
   // expressions that can not appear outside of an inlinable function
   // body.
   virtual Import_function_body*
   ifb() = 0;

   // The location to report in an error message.
   virtual Location
   location() const = 0;

   // Peek at the next character in the input, returning a value from 0
   // to 0xff.  Returns -1 at end of stream.
   virtual int
   peek_char() = 0;

   // Return the next character and advance.
   virtual int
   get_char() = 0;

   // Return true if the next bytes match STR.
   virtual bool
   match_c_string(const char* str) = 0;

   // Require that the next bytes match STR.
   virtual void
   require_c_string(const char* str) = 0;

   // Advance the stream SKIP bytes.
   virtual void
   advance(size_t skip) = 0;

   // Read an identifier.
   virtual std::string
   read_identifier() = 0;

   // Read a type.
   virtual Type*
   read_type() = 0;

   // Return the maximum valid package index.
   virtual size_t
   max_package_index() const = 0;

   // Return the package for a package index.
   virtual Package*
   package_at_index(int index) = 0;

   // Return the version number of the export data we're reading.
   virtual Export_data_version
   version() const = 0;
 };

 // This class manages importing Go declarations.

 class Import : public Import_expression
 {
  public:
   // The Stream class is an interface used to read the data.  The
   // caller should instantiate a child of this class.
   class Stream
   {
    public:
     Stream();
     virtual ~Stream();

     // Set the position, for error messages.
     void
     set_pos(int pos)
     { this->pos_ = pos; }

     // Return whether we have seen an error.
     bool
     saw_error() const
     { return this->saw_error_; }

     // Record that we've seen an error.
     void
     set_saw_error()
     { this->saw_error_ = true; }

     // Return the next character (a value from 0 to 0xff) without
     // advancing.  Returns -1 at end of stream.
     int
     peek_char();

     // Look for LENGTH characters, setting *BYTES to point to them.
     // Returns false if the bytes are not available.  Does not
     // advance.
     bool
     peek(size_t length, const char** bytes)
     { return this->do_peek(length, bytes); }

     // Return the next character (a value from 0 to 0xff) and advance
     // the read position by 1.  Returns -1 at end of stream.
     int
     get_char()
     {
       int c = this->peek_char();
       this->advance(1);
       return c;
     }

     // Return true if at the end of the stream.
     bool
     at_eof()
     { return this->peek_char() == -1; }

     // Return true if the next bytes match STR.
     bool
     match_c_string(const char* str)
     { return this->match_bytes(str, strlen(str)); }

     // Return true if the next LENGTH bytes match BYTES.
     bool
     match_bytes(const char* bytes, size_t length);

     // Give an error if the next bytes do not match STR.  Advance the
     // read position by the length of STR.
     void
     require_c_string(Location location, const char* str)
     { this->require_bytes(location, str, strlen(str)); }

     // Given an error if the next LENGTH bytes do not match BYTES.
     // Advance the read position by LENGTH.
     void
     require_bytes(Location, const char* bytes, size_t length);

     // Advance the read position by SKIP bytes.
     void
     advance(size_t skip)
     {
       this->do_advance(skip);
       this->pos_ += skip;
     }

     // Return the current read position.  This returns int because it
     // is more convenient in error reporting.  FIXME.
     int
     pos()
     { return static_cast<int>(this->pos_); }

    protected:
     // This function should set *BYTES to point to a buffer holding
     // the LENGTH bytes at the current read position.  It should
     // return false if the bytes are not available.  This should not
     // change the current read position.
     virtual bool
     do_peek(size_t length, const char** bytes) = 0;

     // This function should advance the current read position LENGTH
     // bytes.
     virtual void
     do_advance(size_t skip) = 0;

    private:
     // The current read position.
     size_t pos_;
     // True if we've seen an error reading from this stream.
     bool saw_error_;
   };

   // Find import data.  This searches the file system for FILENAME and
   // returns a pointer to a Stream object to read the data that it
   // exports.  LOCATION is the location of the import statement.
   // RELATIVE_IMPORT_PATH is used as a prefix for a relative import.
   static Stream*
   open_package(const std::string& filename, Location location,
 	       const std::string& relative_import_path);

   // Constructor.
   Import(Stream*, Location);

   // Register the builtin types.
   void
   register_builtin_types(Gogo*);

   // Import everything defined in the stream.  LOCAL_NAME is the local
   // name to be used for bindings; if it is the string "." then
   // bindings should be inserted in the global scope.  If LOCAL_NAME
   // is the empty string then the name of the package itself is the
   // local name.  This returns the imported package, or NULL on error.
   Package*
   import(Gogo*, const std::string& local_name, bool is_local_name_exported);

   // The location of the import statement.
   Location
   location() const
   { return this->location_; }

   // Return the package we are importing.
   Package*
   package() const
   { return this->package_; }

   // Return the next character.
   int
   peek_char()
   { return this->stream_->peek_char(); }

   // Return the next character and advance.
   int
   get_char()
   { return this->stream_->get_char(); }

   // Read LENGTH characters into *OUT and advance past them.  On
   // EOF reports an error and sets *OUT to an empty string.
   void
   read(size_t length, std::string* out);

   // Return true at the end of the stream.
   bool
   at_eof()
   { return this->stream_->at_eof(); }

   // Return whether the next bytes match STR.
   bool
   match_c_string(const char* str)
   { return this->stream_->match_c_string(str); }

   // Require that the next bytes match STR.
   void
   require_c_string(const char* str)
   { this->stream_->require_c_string(this->location_, str); }

   // Advance the stream SKIP bytes.
   void
   advance(size_t skip)
   { this->stream_->advance(skip); }

   // Stream position, for error reporting.
   int
   pos()
   { return this->stream_->pos(); }

   // Return the version number of the export data we're reading.
   Export_data_version
   version() const { return this->version_; }

   // Skip a semicolon if using an older version.
   void
   require_semicolon_if_old_version()
   {
     if (this->version_ == EXPORT_FORMAT_V1
 	|| this->version_ == EXPORT_FORMAT_V2)
       this->require_c_string(";");
   }

   // Read an identifier.
   std::string
   read_identifier();

   // Read a name.  This is like read_identifier, except that a "?" is
   // returned as an empty string.  This matches Export::write_name.
   std::string
   read_name();

   // Return the maximum valid package index.  This is the size of
   // packages_ because we will subtract 1 in package_at_index.
   size_t
   max_package_index() const
   { return this->packages_.size(); }

   // Return the package at an index.  (We subtract 1 because package
   // index 0 is not used.)
   Package*
   package_at_index(int index)
   { return this->packages_.at(index - 1); }

   // Read a type.
   Type*
   read_type();

   // Return the type for a type index.  INPUT_NAME and INPUT_OFFSET
   // are only for error reporting.  PARSED is set to whether we parsed
   // the type information for a new type.
   Type*
   type_for_index(int index, const std::string& input_name,
 		 size_t input_offset, bool* parsed);

   // Read an escape note.
   std::string
   read_escape();

   // Clear the stream when it is no longer accessible.
   void
   clear_stream()
   { this->stream_ = NULL; }

   // Just so that Import implements Import_expression.
   Import_function_body*
   ifb()
   { return NULL; }

   // Read a qualified identifier from an Import_expression.  Sets
   // *NAME, *PKG, and *IS_EXPORTED, and reports whether it succeeded.
   static bool
   read_qualified_identifier(Import_expression*, std::string* name,
 			    Package** pkg, bool* is_exported);

  private:
   static Stream*
   try_package_in_directory(const std::string&, Location);

   static int
   try_suffixes(std::string*);

   static Stream*
   find_export_data(const std::string& filename, int fd, Location);

   static Stream*
   find_object_export_data(const std::string& filename, int fd,
 			  off_t offset, Location);

   static const int archive_magic_len = 8;

   static bool
   is_archive_magic(const char*);

   static Stream*
   find_archive_export_data(const std::string& filename, int fd,
 			   Location);

   // Read a package line.
   void
   read_one_package();

   // Read an import line.
   void
   read_one_import();

   // Read an indirectimport line.
   void
   read_one_indirect_import();

   // Read the import control functions and init graph.
   void
   read_import_init_fns(Gogo*);

   // Read the types.
   bool
   read_types();

   // Import a constant.
   void
   import_const();

   // Import a type.
   void
   import_type();

   // Import a variable.
   void
   import_var();

   // Import a function.
   void
   import_func(Package*);

   // Parse a type definition.
   bool
   parse_type(int index);

   // Read a named type and store it at this->type_[index].
   Type*
   read_named_type(int index);

   // Register a single builtin type.
   void
   register_builtin_type(Gogo*, const char* name, Builtin_code);

   // Get an integer from a string.
   bool
   string_to_int(const std::string&, bool is_neg_ok, int* ret);

   // Get an unsigned integer from a string.
   bool
   string_to_unsigned(const std::string& s, unsigned* ret)
   {
     int ivalue;
     if (!this->string_to_int(s, false, &ivalue))
       return false;
     *ret = static_cast<unsigned>(ivalue);
     return true;
   }

   // Finalize methods for newly imported types.
   void
   finalize_methods();

   // The general IR.
   Gogo* gogo_;
   // The stream from which to read import data.
   Stream* stream_;
   // The location of the import statement we are processing.
   Location location_;
   // The package we are importing.
   Package* package_;
   // Whether to add new objects to the global scope, rather than to a
   // package scope.
   bool add_to_globals_;
   // Mapping from package index to package.
   std::vector<Package*> packages_;
   // All type data.
   std::string type_data_;
   // Position of type data in the stream.
   int type_pos_;
   // Mapping from type code to offset/length in type_data_.
   std::vector<std::pair<size_t, size_t> > type_offsets_;
   // Mapping from negated builtin type codes to Type structures.
   std::vector<Named_type*> builtin_types_;
   // Mapping from exported type codes to Type structures.
   std::vector<Type*> types_;
   // Version of export data we're reading.
   Export_data_version version_;
 };

 // Read import data from a string.

 class Stream_from_string : public Import::Stream
 {
  public:
   Stream_from_string(const std::string& str)
     : str_(str), pos_(0)
   { }

  protected:
   bool
   do_peek(size_t length, const char** bytes)
   {
     if (this->pos_ + length > this->str_.length())
       return false;
     *bytes = this->str_.data() + this->pos_;
     return true;
   }

   void
   do_advance(size_t len)
   { this->pos_ += len; }

  private:
   // The string of data we are reading.
   std::string str_;
   // The current position within the string.
   size_t pos_;
 };

 // Read import data from a buffer allocated using malloc.

 class Stream_from_buffer : public Import::Stream
 {
  public:
   Stream_from_buffer(char* buf, size_t length)
     : buf_(buf), length_(length), pos_(0)
   { }

   ~Stream_from_buffer()
   { free(this->buf_); }

  protected:
   bool
   do_peek(size_t length, const char** bytes)
   {
     if (this->pos_ + length > this->length_)
       return false;
     *bytes = this->buf_ + this->pos_;
     return true;
   }

   void
   do_advance(size_t len)
   { this->pos_ += len; }

  private:
   // The data we are reading.
   char* buf_;
   // The length of the buffer.
   size_t length_;
   // The current position within the buffer.
   size_t pos_;
 };

 // Read import data from an open file descriptor.

 class Stream_from_file : public Import::Stream
 {
  public:
   Stream_from_file(int fd);

   ~Stream_from_file();

  protected:
   bool
   do_peek(size_t, const char**);

   void
   do_advance(size_t);

  private:
   // No copying.
   Stream_from_file(const Stream_from_file&);
   Stream_from_file& operator=(const Stream_from_file&);

   // The file descriptor.
   int fd_;
   // Data read from the file.
   std::string data_;
 };

 // Read import data from an offset into a std::string.  This uses a
 // reference to the string, to avoid copying, so the string must be
 // kept alive through some other mechanism.

 class Stream_from_string_ref : public Import::Stream
 {
  public:
   Stream_from_string_ref(const std::string& str, size_t offset, size_t length)
     : str_(str), pos_(offset), end_(offset + length)
   { }

   ~Stream_from_string_ref()
   {}

  protected:
   bool
   do_peek(size_t length, const char** bytes)
   {
     if (this->pos_ + length > this->end_)
       return false;
     *bytes = &this->str_[this->pos_];
     return true;
   }

   void
   do_advance(size_t length)
   { this->pos_ += length; }

  private:
   // A reference to the string we are reading from.
   const std::string& str_;
   // The current offset into the string.
   size_t pos_;
   // The index after the last byte we can read.
   size_t end_;
 };

 // Class to manage importing a function body.  This is passed around
 // to Statements and Expressions.  It parses the function into the IR.

 class Import_function_body : public Import_expression
 {
  public:
   Import_function_body(Gogo* gogo, Import* imp, Named_object* named_object,
 		       const std::string& body, size_t off, Block* block,
 		       int indent);
   ~Import_function_body();

   // The IR.
   Gogo*
   gogo()
   { return this->gogo_; }

   // The location to report in an error message.
   Location
   location() const
   { return this->imp_->location(); }

   // The function we are importing.
   Named_object*
   function() const
   { return this->named_object_; }

   // A reference to the body we are reading.
   const std::string&
   body() const
   { return this->body_; }

   // The current offset into the body.
   size_t
   off()
   { return this->off_; }

   // Update the offset into the body.
   void
   set_off(size_t off)
   { this->off_ = off; }

   // Advance the offset by SKIP bytes.
   void
   advance(size_t skip)
   { this->off_ += skip; }

   // The current block.
   Block*
   block()
   { return this->blocks_.back(); }

   // Begin importing a new block BLOCK nested within the current block.
   void
   begin_block(Block *block)
   { this->blocks_.push_back(block); }

   // Record the fact that we're done importing the current block.
   void
   finish_block()
   { this->blocks_.pop_back(); }

   // The current indentation.
   int
   indent() const
   { return this->indent_; }

   // Increment the indentation level.
   void
   increment_indent()
   { ++this->indent_; }

   // Decrement the indentation level.
   void
   decrement_indent()
   { --this->indent_; }

   // The name of the function we are parsing.
   const std::string&
   name() const;

   // Return the next character in the input stream, or -1 at the end.
   int
   peek_char()
   {
     if (this->body_.length() <= this->off_)
       return -1;
     return static_cast<unsigned char>(this->body_[this->off_]);
   }

   // Return the next character and advance.
   int
   get_char()
   {
     if (this->body_.length() <= this->off_)
       return -1;
     int c = static_cast<unsigned char>(this->body_[this->off_]);
     this->off_++;
     return c;
   }

   // Return whether the C string matches the current body position.
   bool
   match_c_string(const char* str)
   {
     size_t len = strlen(str);
     return (this->body_.length() >= this->off_ + len
 	    && this->body_.compare(this->off_, len, str) == 0);
   }

   // Give an error if the next bytes do not match STR.  Advance the
   // offset by the length of STR.
   void
   require_c_string(const char* str);

   // Read an identifier.
   std::string
   read_identifier();

   // Read a type.
   Type*
   read_type();

   Export_data_version
   version() const
   { return this->imp_->version(); }

   // Record the index of a temporary statement.
   void
   record_temporary(Temporary_statement*, unsigned int);

   // Return a temporary statement given an index.
   Temporary_statement*
   temporary_statement(unsigned int);

   // Return an unnamed label given an index, defining the label if we
   // haven't seen it already.
   Unnamed_label*
   unnamed_label(unsigned int, Location);

   // Implement Import_expression.
   Import_function_body*
   ifb()
   { return this; }

   // Return the maximum valid package index.
   size_t
   max_package_index() const
   { return this->imp_->max_package_index(); }

   // Return the package at an index.
   Package*
   package_at_index(int index)
   { return this->imp_->package_at_index(index); }

   // Return whether we have seen an error.
   bool
   saw_error() const
   { return this->saw_error_; }

   // Record that we have seen an error.
   void
   set_saw_error()
   { this->saw_error_ = true; }

  private:
   static size_t
   next_size(size_t);

   // The IR.
   Gogo* gogo_;
   // The importer.
   Import* imp_;
   // The function we are parsing.
   Named_object* named_object_;
   // The exported data we are parsing.  Note that this is a reference;
   // the body string must laster longer than this object.
   const std::string& body_;
   // The current offset into body_.
   size_t off_;
   // Stack to record nesting of blocks being imported.
   std::vector<Block *> blocks_;
   // Current expected indentation level.
   int indent_;
   // Temporary statements by index.
   std::vector<Temporary_statement*> temporaries_;
   // Unnamed labels by index.
   std::vector<Unnamed_label*> labels_;
   // Whether we've seen an error.  Used to avoid reporting excess
   // errors.
   bool saw_error_;
 };

 #endif // !defined(GO_IMPORT_H)
	// import.h -- Go frontend import declarations. -- 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_IMPORT_H
	#define GO_IMPORT_H

	#include "export.h"
	#include "go-linemap.h"

	class Gogo;
	class Block;
	class Package;
	class Type;
	class Named_object;
	class Named_type;
	class Expression;
	class Import_function_body;
	class Temporary_statement;
	class Unnamed_label;
	class Finalize_methods;

	// Expressions can be imported either directly from import data (for
	// simple constant expressions that can appear in a const declaration
	// or as an array length in a type definition) or from an exported
	// function body (for an inlinable function). These two cases happen
	// at different points in the compilation and have different
	// requirements, so it's not easy to unify them. Import_expression is
	// an abstract interface that permits the expression import code to
	// work at either point. When importing expressions that only occur
	// for an inlinable function, the ifb method is available to get the
	// full Import_function_body.

	class Import_expression
	{
	public:
	// Return the import function body. This should only be called for
	// expressions that can not appear outside of an inlinable function
	// body.
	virtual Import_function_body*
	ifb() = 0;

	// The location to report in an error message.
	virtual Location
	location() const = 0;

	// Peek at the next character in the input, returning a value from 0
	// to 0xff. Returns -1 at end of stream.
	virtual int
	peek_char() = 0;

	// Return the next character and advance.
	virtual int
	get_char() = 0;

	// Return true if the next bytes match STR.
	virtual bool
	match_c_string(const char* str) = 0;

	// Require that the next bytes match STR.
	virtual void
	require_c_string(const char* str) = 0;

	// Advance the stream SKIP bytes.
	virtual void
	advance(size_t skip) = 0;

	// Read an identifier.
	virtual std::string
	read_identifier() = 0;

	// Read a type.
	virtual Type*
	read_type() = 0;

	// Return the maximum valid package index.
	virtual size_t
	max_package_index() const = 0;

	// Return the package for a package index.
	virtual Package*
	package_at_index(int index) = 0;

	// Return the version number of the export data we're reading.
	virtual Export_data_version
	version() const = 0;
	};

	// This class manages importing Go declarations.

	class Import : public Import_expression
	{
	public:
	// The Stream class is an interface used to read the data. The
	// caller should instantiate a child of this class.
	class Stream
	{
	public:
	Stream();
	virtual ~Stream();

	// Set the position, for error messages.
	void
	set_pos(int pos)
	{ this->pos_ = pos; }

	// Return whether we have seen an error.
	bool
	saw_error() const
	{ return this->saw_error_; }

	// Record that we've seen an error.
	void
	set_saw_error()
	{ this->saw_error_ = true; }

	// Return the next character (a value from 0 to 0xff) without
	// advancing. Returns -1 at end of stream.
	int
	peek_char();

	// Look for LENGTH characters, setting *BYTES to point to them.
	// Returns false if the bytes are not available. Does not
	// advance.
	bool
	peek(size_t length, const char** bytes)
	{ return this->do_peek(length, bytes); }

	// Return the next character (a value from 0 to 0xff) and advance
	// the read position by 1. Returns -1 at end of stream.
	int
	get_char()
	{
	int c = this->peek_char();
	this->advance(1);
	return c;
	}

	// Return true if at the end of the stream.
	bool
	at_eof()
	{ return this->peek_char() == -1; }

	// Return true if the next bytes match STR.
	bool
	match_c_string(const char* str)
	{ return this->match_bytes(str, strlen(str)); }

	// Return true if the next LENGTH bytes match BYTES.
	bool
	match_bytes(const char* bytes, size_t length);

	// Give an error if the next bytes do not match STR. Advance the
	// read position by the length of STR.
	void
	require_c_string(Location location, const char* str)
	{ this->require_bytes(location, str, strlen(str)); }

	// Given an error if the next LENGTH bytes do not match BYTES.
	// Advance the read position by LENGTH.
	void
	require_bytes(Location, const char* bytes, size_t length);

	// Advance the read position by SKIP bytes.
	void
	advance(size_t skip)
	{
	this->do_advance(skip);
	this->pos_ += skip;
	}

	// Return the current read position. This returns int because it
	// is more convenient in error reporting. FIXME.
	int
	pos()
	{ return static_cast<int>(this->pos_); }

	protected:
	// This function should set *BYTES to point to a buffer holding
	// the LENGTH bytes at the current read position. It should
	// return false if the bytes are not available. This should not
	// change the current read position.
	virtual bool
	do_peek(size_t length, const char** bytes) = 0;

	// This function should advance the current read position LENGTH
	// bytes.
	virtual void
	do_advance(size_t skip) = 0;

	private:
	// The current read position.
	size_t pos_;
	// True if we've seen an error reading from this stream.
	bool saw_error_;
	};

	// Find import data. This searches the file system for FILENAME and
	// returns a pointer to a Stream object to read the data that it
	// exports. LOCATION is the location of the import statement.
	// RELATIVE_IMPORT_PATH is used as a prefix for a relative import.
	static Stream*
	open_package(const std::string& filename, Location location,
	const std::string& relative_import_path);

	// Constructor.
	Import(Stream*, Location);

	// Register the builtin types.
	void
	register_builtin_types(Gogo*);

	// Import everything defined in the stream. LOCAL_NAME is the local
	// name to be used for bindings; if it is the string "." then
	// bindings should be inserted in the global scope. If LOCAL_NAME
	// is the empty string then the name of the package itself is the
	// local name. This returns the imported package, or NULL on error.
	Package*
	import(Gogo*, const std::string& local_name, bool is_local_name_exported);

	// The location of the import statement.
	Location
	location() const
	{ return this->location_; }

	// Return the package we are importing.
	Package*
	package() const
	{ return this->package_; }

	// Return the next character.
	int
	peek_char()
	{ return this->stream_->peek_char(); }

	// Return the next character and advance.
	int
	get_char()
	{ return this->stream_->get_char(); }

	// Read LENGTH characters into *OUT and advance past them. On
	// EOF reports an error and sets *OUT to an empty string.
	void
	read(size_t length, std::string* out);

	// Return true at the end of the stream.
	bool
	at_eof()
	{ return this->stream_->at_eof(); }

	// Return whether the next bytes match STR.
	bool
	match_c_string(const char* str)
	{ return this->stream_->match_c_string(str); }

	// Require that the next bytes match STR.
	void
	require_c_string(const char* str)
	{ this->stream_->require_c_string(this->location_, str); }

	// Advance the stream SKIP bytes.
	void
	advance(size_t skip)
	{ this->stream_->advance(skip); }

	// Stream position, for error reporting.
	int
	pos()
	{ return this->stream_->pos(); }

	// Return the version number of the export data we're reading.
	Export_data_version
	version() const { return this->version_; }

	// Skip a semicolon if using an older version.
	void
	require_semicolon_if_old_version()
	{
	if (this->version_ == EXPORT_FORMAT_V1
	\|\| this->version_ == EXPORT_FORMAT_V2)
	this->require_c_string(";");
	}

	// Read an identifier.
	std::string
	read_identifier();

	// Read a name. This is like read_identifier, except that a "?" is
	// returned as an empty string. This matches Export::write_name.
	std::string
	read_name();

	// Return the maximum valid package index. This is the size of
	// packages_ because we will subtract 1 in package_at_index.
	size_t
	max_package_index() const
	{ return this->packages_.size(); }

	// Return the package at an index. (We subtract 1 because package
	// index 0 is not used.)
	Package*
	package_at_index(int index)
	{ return this->packages_.at(index - 1); }

	// Read a type.
	Type*
	read_type();

	// Return the type for a type index. INPUT_NAME and INPUT_OFFSET
	// are only for error reporting. PARSED is set to whether we parsed
	// the type information for a new type.
	Type*
	type_for_index(int index, const std::string& input_name,
	size_t input_offset, bool* parsed);

	// Read an escape note.
	std::string
	read_escape();

	// Clear the stream when it is no longer accessible.
	void
	clear_stream()
	{ this->stream_ = NULL; }

	// Just so that Import implements Import_expression.
	Import_function_body*
	ifb()
	{ return NULL; }

	// Read a qualified identifier from an Import_expression. Sets
	// NAME, PKG, and *IS_EXPORTED, and reports whether it succeeded.
	static bool
	read_qualified_identifier(Import_expression, std::string name,
	Package** pkg, bool* is_exported);

	private:
	static Stream*
	try_package_in_directory(const std::string&, Location);

	static int
	try_suffixes(std::string*);

	static Stream*
	find_export_data(const std::string& filename, int fd, Location);

	static Stream*
	find_object_export_data(const std::string& filename, int fd,
	off_t offset, Location);

	static const int archive_magic_len = 8;

	static bool
	is_archive_magic(const char*);

	static Stream*
	find_archive_export_data(const std::string& filename, int fd,
	Location);

	// Read a package line.
	void
	read_one_package();

	// Read an import line.
	void
	read_one_import();

	// Read an indirectimport line.
	void
	read_one_indirect_import();

	// Read the import control functions and init graph.
	void
	read_import_init_fns(Gogo*);

	// Read the types.
	bool
	read_types();

	// Import a constant.
	void
	import_const();

	// Import a type.
	void
	import_type();

	// Import a variable.
	void
	import_var();

	// Import a function.
	void
	import_func(Package*);

	// Parse a type definition.
	bool
	parse_type(int index);

	// Read a named type and store it at this->type_[index].
	Type*
	read_named_type(int index);

	// Register a single builtin type.
	void
	register_builtin_type(Gogo, const char name, Builtin_code);

	// Get an integer from a string.
	bool
	string_to_int(const std::string&, bool is_neg_ok, int* ret);

	// Get an unsigned integer from a string.
	bool
	string_to_unsigned(const std::string& s, unsigned* ret)
	{
	int ivalue;
	if (!this->string_to_int(s, false, &ivalue))
	return false;
	*ret = static_cast<unsigned>(ivalue);
	return true;
	}

	// Finalize methods for newly imported types.
	void
	finalize_methods();

	// The general IR.
	Gogo* gogo_;
	// The stream from which to read import data.
	Stream* stream_;
	// The location of the import statement we are processing.
	Location location_;
	// The package we are importing.
	Package* package_;
	// Whether to add new objects to the global scope, rather than to a
	// package scope.
	bool add_to_globals_;
	// Mapping from package index to package.
	std::vector<Package*> packages_;
	// All type data.
	std::string type_data_;
	// Position of type data in the stream.
	int type_pos_;
	// Mapping from type code to offset/length in type_data_.
	std::vector<std::pair<size_t, size_t> > type_offsets_;
	// Mapping from negated builtin type codes to Type structures.
	std::vector<Named_type*> builtin_types_;
	// Mapping from exported type codes to Type structures.
	std::vector<Type*> types_;
	// Version of export data we're reading.
	Export_data_version version_;
	};

	// Read import data from a string.

	class Stream_from_string : public Import::Stream
	{
	public:
	Stream_from_string(const std::string& str)
	: str_(str), pos_(0)
	{ }

	protected:
	bool
	do_peek(size_t length, const char** bytes)
	{
	if (this->pos_ + length > this->str_.length())
	return false;
	*bytes = this->str_.data() + this->pos_;
	return true;
	}

	void
	do_advance(size_t len)
	{ this->pos_ += len; }

	private:
	// The string of data we are reading.
	std::string str_;
	// The current position within the string.
	size_t pos_;
	};

	// Read import data from a buffer allocated using malloc.

	class Stream_from_buffer : public Import::Stream
	{
	public:
	Stream_from_buffer(char* buf, size_t length)
	: buf_(buf), length_(length), pos_(0)
	{ }

	~Stream_from_buffer()
	{ free(this->buf_); }

	protected:
	bool
	do_peek(size_t length, const char** bytes)
	{
	if (this->pos_ + length > this->length_)
	return false;
	*bytes = this->buf_ + this->pos_;
	return true;
	}

	void
	do_advance(size_t len)
	{ this->pos_ += len; }

	private:
	// The data we are reading.
	char* buf_;
	// The length of the buffer.
	size_t length_;
	// The current position within the buffer.
	size_t pos_;
	};

	// Read import data from an open file descriptor.

	class Stream_from_file : public Import::Stream
	{
	public:
	Stream_from_file(int fd);

	~Stream_from_file();

	protected:
	bool
	do_peek(size_t, const char**);

	void
	do_advance(size_t);

	private:
	// No copying.
	Stream_from_file(const Stream_from_file&);
	Stream_from_file& operator=(const Stream_from_file&);

	// The file descriptor.
	int fd_;
	// Data read from the file.
	std::string data_;
	};

	// Read import data from an offset into a std::string. This uses a
	// reference to the string, to avoid copying, so the string must be
	// kept alive through some other mechanism.

	class Stream_from_string_ref : public Import::Stream
	{
	public:
	Stream_from_string_ref(const std::string& str, size_t offset, size_t length)
	: str_(str), pos_(offset), end_(offset + length)
	{ }

	~Stream_from_string_ref()
	{}

	protected:
	bool
	do_peek(size_t length, const char** bytes)
	{
	if (this->pos_ + length > this->end_)
	return false;
	*bytes = &this->str_[this->pos_];
	return true;
	}

	void
	do_advance(size_t length)
	{ this->pos_ += length; }

	private:
	// A reference to the string we are reading from.
	const std::string& str_;
	// The current offset into the string.
	size_t pos_;
	// The index after the last byte we can read.
	size_t end_;
	};

	// Class to manage importing a function body. This is passed around
	// to Statements and Expressions. It parses the function into the IR.

	class Import_function_body : public Import_expression
	{
	public:
	Import_function_body(Gogo* gogo, Import* imp, Named_object* named_object,
	const std::string& body, size_t off, Block* block,
	int indent);
	~Import_function_body();

	// The IR.
	Gogo*
	gogo()
	{ return this->gogo_; }

	// The location to report in an error message.
	Location
	location() const
	{ return this->imp_->location(); }

	// The function we are importing.
	Named_object*
	function() const
	{ return this->named_object_; }

	// A reference to the body we are reading.
	const std::string&
	body() const
	{ return this->body_; }

	// The current offset into the body.
	size_t
	off()
	{ return this->off_; }

	// Update the offset into the body.
	void
	set_off(size_t off)
	{ this->off_ = off; }

	// Advance the offset by SKIP bytes.
	void
	advance(size_t skip)
	{ this->off_ += skip; }

	// The current block.
	Block*
	block()
	{ return this->blocks_.back(); }

	// Begin importing a new block BLOCK nested within the current block.
	void
	begin_block(Block *block)
	{ this->blocks_.push_back(block); }

	// Record the fact that we're done importing the current block.
	void
	finish_block()
	{ this->blocks_.pop_back(); }

	// The current indentation.
	int
	indent() const
	{ return this->indent_; }

	// Increment the indentation level.
	void
	increment_indent()
	{ ++this->indent_; }

	// Decrement the indentation level.
	void
	decrement_indent()
	{ --this->indent_; }

	// The name of the function we are parsing.
	const std::string&
	name() const;

	// Return the next character in the input stream, or -1 at the end.
	int
	peek_char()
	{
	if (this->body_.length() <= this->off_)
	return -1;
	return static_cast<unsigned char>(this->body_[this->off_]);
	}

	// Return the next character and advance.
	int
	get_char()
	{
	if (this->body_.length() <= this->off_)
	return -1;
	int c = static_cast<unsigned char>(this->body_[this->off_]);
	this->off_++;
	return c;
	}

	// Return whether the C string matches the current body position.
	bool
	match_c_string(const char* str)
	{
	size_t len = strlen(str);
	return (this->body_.length() >= this->off_ + len
	&& this->body_.compare(this->off_, len, str) == 0);
	}

	// Give an error if the next bytes do not match STR. Advance the
	// offset by the length of STR.
	void
	require_c_string(const char* str);

	// Read an identifier.
	std::string
	read_identifier();

	// Read a type.
	Type*
	read_type();

	Export_data_version
	version() const
	{ return this->imp_->version(); }

	// Record the index of a temporary statement.
	void
	record_temporary(Temporary_statement*, unsigned int);

	// Return a temporary statement given an index.
	Temporary_statement*
	temporary_statement(unsigned int);

	// Return an unnamed label given an index, defining the label if we
	// haven't seen it already.
	Unnamed_label*
	unnamed_label(unsigned int, Location);

	// Implement Import_expression.
	Import_function_body*
	ifb()
	{ return this; }

	// Return the maximum valid package index.
	size_t
	max_package_index() const
	{ return this->imp_->max_package_index(); }

	// Return the package at an index.
	Package*
	package_at_index(int index)
	{ return this->imp_->package_at_index(index); }

	// Return whether we have seen an error.
	bool
	saw_error() const
	{ return this->saw_error_; }

	// Record that we have seen an error.
	void
	set_saw_error()
	{ this->saw_error_ = true; }

	private:
	static size_t
	next_size(size_t);

	// The IR.
	Gogo* gogo_;
	// The importer.
	Import* imp_;
	// The function we are parsing.
	Named_object* named_object_;
	// The exported data we are parsing. Note that this is a reference;
	// the body string must laster longer than this object.
	const std::string& body_;
	// The current offset into body_.
	size_t off_;
	// Stack to record nesting of blocks being imported.
	std::vector<Block *> blocks_;
	// Current expected indentation level.
	int indent_;
	// Temporary statements by index.
	std::vector<Temporary_statement*> temporaries_;
	// Unnamed labels by index.
	std::vector<Unnamed_label*> labels_;
	// Whether we've seen an error. Used to avoid reporting excess
	// errors.
	bool saw_error_;
	};

	#endif // !defined(GO_IMPORT_H)