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// Copyright 2019 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.
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// TODO: test swap corresponding types (e.g. u1 <-> u2 and u2 <-> u1)
// TODO: test exported alias refers to something in another package -- does correspondence work then?
// TODO: CODE COVERAGE
// TODO: note that we may miss correspondences because we bail early when we compare a signature (e.g. when lengths differ; we could do up to the shorter)
// TODO: if you add an unexported method to an exposed interface, you have to check that
// every exposed type that previously implemented the interface still does. Otherwise
// an external assignment of the exposed type to the interface type could fail.
// TODO: check constant values: large values aren't representable by some types.
// TODO: Document all the incompatibilities we don't check for.
package apidiff
import (
"fmt"
"go/constant"
"go/token"
"go/types"
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"golang.org/x/tools/internal/aliases"
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)
// Changes reports on the differences between the APIs of the old and new packages.
// It classifies each difference as either compatible or incompatible (breaking.) For
// a detailed discussion of what constitutes an incompatible change, see the package
// documentation.
func Changes ( old , new * types . Package ) Report {
d := newDiffer ( old , new )
d . checkPackage ( )
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r := Report { }
for _ , m := range d . incompatibles . collect ( ) {
r . Changes = append ( r . Changes , Change { Message : m , Compatible : false } )
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}
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for _ , m := range d . compatibles . collect ( ) {
r . Changes = append ( r . Changes , Change { Message : m , Compatible : true } )
}
return r
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}
type differ struct {
old , new * types . Package
// Correspondences between named types.
// Even though it is the named types (*types.Named) that correspond, we use
// *types.TypeName as a map key because they are canonical.
// The values can be either named types or basic types.
correspondMap map [ * types . TypeName ] types . Type
// Messages.
incompatibles messageSet
compatibles messageSet
}
func newDiffer ( old , new * types . Package ) * differ {
return & differ {
old : old ,
new : new ,
correspondMap : map [ * types . TypeName ] types . Type { } ,
incompatibles : messageSet { } ,
compatibles : messageSet { } ,
}
}
func ( d * differ ) incompatible ( obj types . Object , part , format string , args ... interface { } ) {
addMessage ( d . incompatibles , obj , part , format , args )
}
func ( d * differ ) compatible ( obj types . Object , part , format string , args ... interface { } ) {
addMessage ( d . compatibles , obj , part , format , args )
}
func addMessage ( ms messageSet , obj types . Object , part , format string , args [ ] interface { } ) {
ms . add ( obj , part , fmt . Sprintf ( format , args ... ) )
}
func ( d * differ ) checkPackage ( ) {
// Old changes.
for _ , name := range d . old . Scope ( ) . Names ( ) {
oldobj := d . old . Scope ( ) . Lookup ( name )
if ! oldobj . Exported ( ) {
continue
}
newobj := d . new . Scope ( ) . Lookup ( name )
if newobj == nil {
d . incompatible ( oldobj , "" , "removed" )
continue
}
d . checkObjects ( oldobj , newobj )
}
// New additions.
for _ , name := range d . new . Scope ( ) . Names ( ) {
newobj := d . new . Scope ( ) . Lookup ( name )
if newobj . Exported ( ) && d . old . Scope ( ) . Lookup ( name ) == nil {
d . compatible ( newobj , "" , "added" )
}
}
// Whole-package satisfaction.
// For every old exposed interface oIface and its corresponding new interface nIface...
for otn1 , nt1 := range d . correspondMap {
oIface , ok := otn1 . Type ( ) . Underlying ( ) . ( * types . Interface )
if ! ok {
continue
}
nIface , ok := nt1 . Underlying ( ) . ( * types . Interface )
if ! ok {
// If nt1 isn't an interface but otn1 is, then that's an incompatibility that
// we've already noticed, so there's no need to do anything here.
continue
}
// For every old type that implements oIface, its corresponding new type must implement
// nIface.
for otn2 , nt2 := range d . correspondMap {
if otn1 == otn2 {
continue
}
if types . Implements ( otn2 . Type ( ) , oIface ) && ! types . Implements ( nt2 , nIface ) {
d . incompatible ( otn2 , "" , "no longer implements %s" , objectString ( otn1 ) )
}
}
}
}
func ( d * differ ) checkObjects ( old , new types . Object ) {
switch old := old . ( type ) {
case * types . Const :
if new , ok := new . ( * types . Const ) ; ok {
d . constChanges ( old , new )
return
}
case * types . Var :
if new , ok := new . ( * types . Var ) ; ok {
d . checkCorrespondence ( old , "" , old . Type ( ) , new . Type ( ) )
return
}
case * types . Func :
switch new := new . ( type ) {
case * types . Func :
d . checkCorrespondence ( old , "" , old . Type ( ) , new . Type ( ) )
return
case * types . Var :
d . compatible ( old , "" , "changed from func to var" )
d . checkCorrespondence ( old , "" , old . Type ( ) , new . Type ( ) )
return
}
case * types . TypeName :
if new , ok := new . ( * types . TypeName ) ; ok {
d . checkCorrespondence ( old , "" , old . Type ( ) , new . Type ( ) )
return
}
default :
panic ( "unexpected obj type" )
}
// Here if kind of type changed.
d . incompatible ( old , "" , "changed from %s to %s" ,
objectKindString ( old ) , objectKindString ( new ) )
}
// Compare two constants.
func ( d * differ ) constChanges ( old , new * types . Const ) {
ot := old . Type ( )
nt := new . Type ( )
// Check for change of type.
if ! d . correspond ( ot , nt ) {
d . typeChanged ( old , "" , ot , nt )
return
}
// Check for change of value.
// We know the types are the same, so constant.Compare shouldn't panic.
if ! constant . Compare ( old . Val ( ) , token . EQL , new . Val ( ) ) {
d . incompatible ( old , "" , "value changed from %s to %s" , old . Val ( ) , new . Val ( ) )
}
}
func objectKindString ( obj types . Object ) string {
switch obj . ( type ) {
case * types . Const :
return "const"
case * types . Var :
return "var"
case * types . Func :
return "func"
case * types . TypeName :
return "type"
default :
return "???"
}
}
func ( d * differ ) checkCorrespondence ( obj types . Object , part string , old , new types . Type ) {
if ! d . correspond ( old , new ) {
d . typeChanged ( obj , part , old , new )
}
}
func ( d * differ ) typeChanged ( obj types . Object , part string , old , new types . Type ) {
old = removeNamesFromSignature ( old )
new = removeNamesFromSignature ( new )
olds := types . TypeString ( old , types . RelativeTo ( d . old ) )
news := types . TypeString ( new , types . RelativeTo ( d . new ) )
d . incompatible ( obj , part , "changed from %s to %s" , olds , news )
}
// go/types always includes the argument and result names when formatting a signature.
// Since these can change without affecting compatibility, we don't want users to
// be distracted by them, so we remove them.
func removeNamesFromSignature ( t types . Type ) types . Type {
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sig , ok := aliases . Unalias ( t ) . ( * types . Signature )
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if ! ok {
return t
}
dename := func ( p * types . Tuple ) * types . Tuple {
var vars [ ] * types . Var
for i := 0 ; i < p . Len ( ) ; i ++ {
v := p . At ( i )
vars = append ( vars , types . NewVar ( v . Pos ( ) , v . Pkg ( ) , "" , v . Type ( ) ) )
}
return types . NewTuple ( vars ... )
}
return types . NewSignature ( sig . Recv ( ) , dename ( sig . Params ( ) ) , dename ( sig . Results ( ) ) , sig . Variadic ( ) )
}