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// 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"
class Gogo;
class Package;
class Type;
class Named_object;
class Named_type;
class Expression;
// This class manages importing Go declarations.
class Import
{
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();
// 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(source_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(source_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.
static Stream*
open_package(const std::string& filename, source_location location);
// Constructor.
Import(Stream*, source_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.
source_location
location() const
{ return this->location_; }
// 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(); }
// 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); }
// Read an identifier.
std::string
read_identifier();
// Read a type.
Type*
read_type();
// The name used for parameters, receivers, and results in imported
// function types.
static const char* const import_marker;
private:
static Stream*
try_package_in_directory(const std::string&, source_location);
static int
try_suffixes(std::string*);
static Stream*
find_export_data(const std::string& filename, int fd, source_location);
static Stream*
find_object_export_data(const std::string& filename, int fd,
off_t offset, source_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,
source_location);
// Read the import control functions.
void
read_import_init_fns(Gogo*);
// Import a constant.
void
import_const();
// Import a type.
void
import_type();
// Import a variable.
void
import_var();
// Import a function.
Named_object*
import_func(Package*);
// 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);
// The general IR.
Gogo* gogo_;
// The stream from which to read import data.
Stream* stream_;
// The location of the import statement we are processing.
source_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 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_;
};
// 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 an allocated buffer.
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()
{ delete[] 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_;
};
#endif // !defined(GO_IMPORT_H)
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