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mirror of https://github.com/golang/go synced 2024-11-19 05:54:44 -07:00
go/usr/gri/gosrc/import.go
Robert Griesemer 7a799be49a - switch to new export syntax
- deprecate old syntax in this front-end (use -6g for compatibility)

R=r
OCL=13831
CL=13833
2008-08-04 15:37:47 -07:00

313 lines
5.6 KiB
Go
Executable File

// 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.
package Importer
import Utils "utils"
import Globals "globals"
import Object "object"
import Type "type"
import Universe "universe"
type Importer struct {
comp *Globals.Compilation;
debug bool;
buf string;
buf_pos int;
pkg_list [256] *Globals.Package;
pkg_ref int;
type_list [1024] *Globals.Type;
type_ref int;
};
func (I *Importer) ReadObject() *Globals.Object;
func (I *Importer) ReadByte() byte {
x := I.buf[I.buf_pos];
I.buf_pos++;
/*
if E.debug {
print " ", x;
}
*/
return x;
}
func (I *Importer) ReadInt() int {
x := 0;
s := 0; // TODO eventually Go will require this to be a uint!
b := I.ReadByte();
for b < 128 {
x |= int(b) << s;
s += 7;
b = I.ReadByte();
}
// b >= 128
x |= ((int(b) - 192) << s);
/*
if I.debug {
print " #", x;
}
*/
return x;
}
func (I *Importer) ReadString() string {
var buf [256] byte; // TODO this needs to be fixed
n := I.ReadInt();
for i := 0; i < n; i++ {
buf[i] = I.ReadByte();
}
s := string(buf)[0 : n];
if I.debug {
print ` "`, s, `"`;
}
return s;
}
func (I *Importer) ReadPackageTag() int {
tag := I.ReadInt();
if I.debug {
if tag >= 0 {
print " [P", tag, "]"; // package ref
} else {
print "\nP", I.pkg_ref, ":";
}
}
return tag;
}
func (I *Importer) ReadTypeTag() int {
tag := I.ReadInt();
if I.debug {
if tag >= 0 {
print " [T", tag, "]"; // type ref
} else {
print "\nT", I.type_ref, ": ", Type.FormStr(-tag);
}
}
return tag;
}
func (I *Importer) ReadObjectTag() int {
tag := I.ReadInt();
if tag < 0 {
panic "tag < 0";
}
if I.debug {
print "\n", Object.KindStr(tag);
}
return tag;
}
func (I *Importer) ReadPackage() *Globals.Package {
tag := I.ReadPackageTag();
if tag >= 0 {
return I.pkg_list[tag]; // package already imported
}
ident := I.ReadString();
file_name := I.ReadString();
key := I.ReadString();
// Canonicalize package - if it was imported before,
// use the primary import.
pkg := I.comp.Lookup(file_name);
if pkg == nil {
// new package
obj := Globals.NewObject(-1, Object.PACKAGE, ident);
pkg = Globals.NewPackage(file_name, obj, Globals.NewScope(nil));
I.comp.Insert(pkg);
} else if key != pkg.key {
// the package was imported before but the package
// key has changed
panic "package key inconsistency";
}
I.pkg_list[I.pkg_ref] = pkg;
I.pkg_ref++;
return pkg;
}
func (I *Importer) ReadScope() *Globals.Scope {
if I.debug {
print " {";
}
scope := Globals.NewScope(nil);
obj := I.ReadObject();
for obj != nil {
scope.Insert(obj);
obj = I.ReadObject();
}
if I.debug {
print " }";
}
return scope;
}
func (I *Importer) ReadType() *Globals.Type {
tag := I.ReadTypeTag();
if tag >= 0 {
return I.type_list[tag]; // type already imported
}
typ := Globals.NewType(-tag);
ptyp := typ; // primary type
ident := I.ReadString();
if len(ident) > 0 {
// named type
pkg := I.ReadPackage();
// create corresponding type object
obj := Globals.NewObject(0, Object.TYPE, ident);
obj.exported = true;
obj.typ = typ;
obj.pnolev = pkg.obj.pnolev;
typ.obj = obj;
// canonicalize type
// (if the type was seen before, use primary instance!)
ptyp = pkg.scope.InsertImport(obj).typ;
}
// insert the primary type into the type table but
// keep filling in the current type fields
I.type_list[I.type_ref] = ptyp;
I.type_ref++;
switch (typ.form) {
case Type.ALIAS:
typ.elt = I.ReadType();
case Type.ARRAY:
typ.len_ = I.ReadInt();
typ.elt = I.ReadType();
case Type.MAP:
typ.key = I.ReadType();
typ.elt = I.ReadType();
case Type.CHANNEL:
typ.flags = I.ReadInt();
typ.elt = I.ReadType();
case Type.FUNCTION:
typ.flags = I.ReadInt();
typ.scope = I.ReadScope();
case Type.STRUCT, Type.INTERFACE:
typ.scope = I.ReadScope();
case Type.POINTER, Type.REFERENCE:
typ.elt = I.ReadType();
default:
panic "UNREACHABLE";
}
return ptyp; // only use primary type
}
func (I *Importer) ReadObject() *Globals.Object {
tag := I.ReadObjectTag();
if tag == Object.END {
return nil;
}
if tag == Object.TYPE {
// named types are handled entirely by ReadType()
typ := I.ReadType();
if typ.obj.typ != typ {
panic "inconsistent named type";
}
return typ.obj;
}
ident := I.ReadString();
obj := Globals.NewObject(0, tag, ident);
obj.typ = I.ReadType();
switch (tag) {
case Object.CONST:
I.ReadInt(); // should set the value field
case Object.VAR:
I.ReadInt(); // should set the address/offset field
case Object.FUNC:
I.ReadInt(); // should set the address/offset field
default:
panic "UNREACHABLE";
}
return obj;
}
func (I *Importer) Import(comp* Globals.Compilation, file_name string) *Globals.Package {
I.comp = comp;
I.debug = comp.flags.debug;
I.buf = "";
I.buf_pos = 0;
I.pkg_ref = 0;
I.type_ref = 0;
if I.debug {
print "importing from ", file_name, "\n";
}
buf, ok := sys.readfile(file_name);
if !ok {
return nil;
}
I.buf = buf;
// Predeclared types are "pre-imported".
for p := Universe.types.first; p != nil; p = p.next {
if p.typ.ref != I.type_ref {
panic "incorrect ref for predeclared type";
}
I.type_list[I.type_ref] = p.typ;
I.type_ref++;
}
// import package
pkg := I.ReadPackage();
{ obj := I.ReadObject();
for obj != nil {
obj.pnolev = pkg.obj.pnolev;
pkg.scope.InsertImport(obj);
obj = I.ReadObject();
}
}
if I.debug {
print "\n(", I.buf_pos, " bytes)\n";
}
return pkg;
}
export func Import(comp* Globals.Compilation, pkg_name string) *Globals.Package {
var I Importer;
return (&I).Import(comp, Utils.FixExt(pkg_name));
}