374 lines
8.9 KiB
Go
374 lines
8.9 KiB
Go
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// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package main
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import (
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"bytes"
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"fmt"
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exact "go/constant"
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"go/token"
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"go/types"
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"io"
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"math/big"
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)
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// TODO(gri) use tabwriter for alignment?
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func print(w io.Writer, pkg *types.Package, filter func(types.Object) bool) {
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var p printer
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p.pkg = pkg
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p.printPackage(pkg, filter)
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p.printGccgoExtra(pkg)
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io.Copy(w, &p.buf)
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}
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type printer struct {
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pkg *types.Package
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buf bytes.Buffer
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indent int // current indentation level
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last byte // last byte written
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}
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func (p *printer) print(s string) {
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// Write the string one byte at a time. We care about the presence of
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// newlines for indentation which we will see even in the presence of
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// (non-corrupted) Unicode; no need to read one rune at a time.
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for i := 0; i < len(s); i++ {
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ch := s[i]
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if ch != '\n' && p.last == '\n' {
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// Note: This could lead to a range overflow for very large
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// indentations, but it's extremely unlikely to happen for
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// non-pathological code.
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p.buf.WriteString("\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t\t"[:p.indent])
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}
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p.buf.WriteByte(ch)
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p.last = ch
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}
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}
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func (p *printer) printf(format string, args ...interface{}) {
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p.print(fmt.Sprintf(format, args...))
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}
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// methodsFor returns the named type and corresponding methods if the type
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// denoted by obj is not an interface and has methods. Otherwise it returns
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// the zero value.
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func methodsFor(obj *types.TypeName) (*types.Named, []*types.Selection) {
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named, _ := obj.Type().(*types.Named)
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if named == nil {
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// A type name's type can also be the
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// exported basic type unsafe.Pointer.
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return nil, nil
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}
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if _, ok := named.Underlying().(*types.Interface); ok {
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// ignore interfaces
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return nil, nil
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}
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methods := combinedMethodSet(named)
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if len(methods) == 0 {
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return nil, nil
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}
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return named, methods
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}
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func (p *printer) printPackage(pkg *types.Package, filter func(types.Object) bool) {
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// collect objects by kind
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var (
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consts []*types.Const
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typem []*types.Named // non-interface types with methods
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typez []*types.TypeName // interfaces or types without methods
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vars []*types.Var
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funcs []*types.Func
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builtins []*types.Builtin
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methods = make(map[*types.Named][]*types.Selection) // method sets for named types
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)
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scope := pkg.Scope()
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for _, name := range scope.Names() {
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obj := scope.Lookup(name)
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if obj.Exported() {
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// collect top-level exported and possibly filtered objects
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if filter == nil || filter(obj) {
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switch obj := obj.(type) {
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case *types.Const:
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consts = append(consts, obj)
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case *types.TypeName:
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// group into types with methods and types without
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if named, m := methodsFor(obj); named != nil {
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typem = append(typem, named)
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methods[named] = m
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} else {
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typez = append(typez, obj)
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}
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case *types.Var:
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vars = append(vars, obj)
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case *types.Func:
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funcs = append(funcs, obj)
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case *types.Builtin:
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// for unsafe.Sizeof, etc.
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builtins = append(builtins, obj)
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}
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}
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} else if filter == nil {
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// no filtering: collect top-level unexported types with methods
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if obj, _ := obj.(*types.TypeName); obj != nil {
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// see case *types.TypeName above
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if named, m := methodsFor(obj); named != nil {
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typem = append(typem, named)
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methods[named] = m
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}
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}
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}
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}
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p.printf("package %s // %q\n", pkg.Name(), pkg.Path())
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p.printDecl("const", len(consts), func() {
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for _, obj := range consts {
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p.printObj(obj)
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p.print("\n")
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}
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})
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p.printDecl("var", len(vars), func() {
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for _, obj := range vars {
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p.printObj(obj)
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p.print("\n")
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}
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})
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p.printDecl("type", len(typez), func() {
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for _, obj := range typez {
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p.printf("%s ", obj.Name())
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typ := obj.Type()
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if isAlias(obj) {
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p.print("= ")
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p.writeType(p.pkg, typ)
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} else {
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p.writeType(p.pkg, typ.Underlying())
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}
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p.print("\n")
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}
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})
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// non-interface types with methods
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for _, named := range typem {
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first := true
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if obj := named.Obj(); obj.Exported() {
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if first {
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p.print("\n")
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first = false
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}
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p.printf("type %s ", obj.Name())
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p.writeType(p.pkg, named.Underlying())
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p.print("\n")
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}
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for _, m := range methods[named] {
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if obj := m.Obj(); obj.Exported() {
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if first {
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p.print("\n")
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first = false
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}
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p.printFunc(m.Recv(), obj.(*types.Func))
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p.print("\n")
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}
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}
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}
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if len(funcs) > 0 {
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p.print("\n")
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for _, obj := range funcs {
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p.printFunc(nil, obj)
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p.print("\n")
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}
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}
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// TODO(gri) better handling of builtins (package unsafe only)
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if len(builtins) > 0 {
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p.print("\n")
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for _, obj := range builtins {
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p.printf("func %s() // builtin\n", obj.Name())
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}
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}
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p.print("\n")
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}
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func (p *printer) printDecl(keyword string, n int, printGroup func()) {
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switch n {
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case 0:
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// nothing to do
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case 1:
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p.printf("\n%s ", keyword)
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printGroup()
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default:
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p.printf("\n%s (\n", keyword)
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p.indent++
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printGroup()
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p.indent--
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p.print(")\n")
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}
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}
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// absInt returns the absolute value of v as a *big.Int.
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// v must be a numeric value.
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func absInt(v exact.Value) *big.Int {
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// compute big-endian representation of v
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b := exact.Bytes(v) // little-endian
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for i, j := 0, len(b)-1; i < j; i, j = i+1, j-1 {
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b[i], b[j] = b[j], b[i]
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}
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return new(big.Int).SetBytes(b)
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}
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var (
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one = big.NewRat(1, 1)
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ten = big.NewRat(10, 1)
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)
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// floatString returns the string representation for a
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// numeric value v in normalized floating-point format.
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func floatString(v exact.Value) string {
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if exact.Sign(v) == 0 {
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return "0.0"
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}
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// x != 0
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// convert |v| into a big.Rat x
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x := new(big.Rat).SetFrac(absInt(exact.Num(v)), absInt(exact.Denom(v)))
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// normalize x and determine exponent e
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// (This is not very efficient, but also not speed-critical.)
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var e int
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for x.Cmp(ten) >= 0 {
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x.Quo(x, ten)
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e++
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}
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for x.Cmp(one) < 0 {
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x.Mul(x, ten)
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e--
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}
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// TODO(gri) Values such as 1/2 are easier to read in form 0.5
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// rather than 5.0e-1. Similarly, 1.0e1 is easier to read as
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// 10.0. Fine-tune best exponent range for readability.
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s := x.FloatString(100) // good-enough precision
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// trim trailing 0's
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i := len(s)
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for i > 0 && s[i-1] == '0' {
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i--
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}
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s = s[:i]
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// add a 0 if the number ends in decimal point
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if len(s) > 0 && s[len(s)-1] == '.' {
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s += "0"
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}
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// add exponent and sign
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if e != 0 {
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s += fmt.Sprintf("e%+d", e)
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}
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if exact.Sign(v) < 0 {
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s = "-" + s
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}
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// TODO(gri) If v is a "small" fraction (i.e., numerator and denominator
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// are just a small number of decimal digits), add the exact fraction as
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// a comment. For instance: 3.3333...e-1 /* = 1/3 */
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return s
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}
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// valString returns the string representation for the value v.
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// Setting floatFmt forces an integer value to be formatted in
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// normalized floating-point format.
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// TODO(gri) Move this code into package exact.
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func valString(v exact.Value, floatFmt bool) string {
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switch v.Kind() {
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case exact.Int:
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if floatFmt {
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return floatString(v)
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}
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case exact.Float:
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return floatString(v)
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case exact.Complex:
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re := exact.Real(v)
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im := exact.Imag(v)
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var s string
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if exact.Sign(re) != 0 {
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s = floatString(re)
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if exact.Sign(im) >= 0 {
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s += " + "
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} else {
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s += " - "
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im = exact.UnaryOp(token.SUB, im, 0) // negate im
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}
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}
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// im != 0, otherwise v would be exact.Int or exact.Float
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return s + floatString(im) + "i"
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}
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return v.String()
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}
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func (p *printer) printObj(obj types.Object) {
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p.print(obj.Name())
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typ, basic := obj.Type().Underlying().(*types.Basic)
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if basic && typ.Info()&types.IsUntyped != 0 {
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// don't write untyped types
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} else {
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p.print(" ")
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p.writeType(p.pkg, obj.Type())
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}
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if obj, ok := obj.(*types.Const); ok {
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floatFmt := basic && typ.Info()&(types.IsFloat|types.IsComplex) != 0
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p.print(" = ")
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p.print(valString(obj.Val(), floatFmt))
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}
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}
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func (p *printer) printFunc(recvType types.Type, obj *types.Func) {
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p.print("func ")
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sig := obj.Type().(*types.Signature)
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if recvType != nil {
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p.print("(")
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p.writeType(p.pkg, recvType)
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p.print(") ")
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}
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p.print(obj.Name())
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p.writeSignature(p.pkg, sig)
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}
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// combinedMethodSet returns the method set for a named type T
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// merged with all the methods of *T that have different names than
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// the methods of T.
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//
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// combinedMethodSet is analogous to types/typeutil.IntuitiveMethodSet
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// but doesn't require a MethodSetCache.
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// TODO(gri) If this functionality doesn't change over time, consider
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// just calling IntuitiveMethodSet eventually.
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func combinedMethodSet(T *types.Named) []*types.Selection {
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// method set for T
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mset := types.NewMethodSet(T)
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var res []*types.Selection
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for i, n := 0, mset.Len(); i < n; i++ {
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res = append(res, mset.At(i))
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}
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// add all *T methods with names different from T methods
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pmset := types.NewMethodSet(types.NewPointer(T))
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for i, n := 0, pmset.Len(); i < n; i++ {
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pm := pmset.At(i)
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if obj := pm.Obj(); mset.Lookup(obj.Pkg(), obj.Name()) == nil {
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res = append(res, pm)
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}
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}
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return res
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}
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