go/ssa/instantiate.go - tools - Git at Google

 // Copyright 2022 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 ssa

 import (
 	"fmt"
 	"go/ast"
 	"go/types"

 	"golang.org/x/tools/internal/typeparams"
 )

 // Instances returns all of the instances generated by runtime types for this function in an unspecified order.
 //
 // Thread-safe.
 //
 // This is an experimental interface! It may change without warning.
 func (prog *Program) _Instances(fn *Function) []*Function {
 	if len(fn._TypeParams) == 0 {
 		return nil
 	}

 	prog.methodsMu.Lock()
 	defer prog.methodsMu.Unlock()
 	return prog.instances[fn].list()
 }

 // A set of instantiations of a generic function fn.
 type instanceSet struct {
 	fn        *Function               // len(fn._TypeParams) > 0 and len(fn._TypeArgs) == 0.
 	instances map[*typeList]*Function // canonical type arguments to an instance.
 	syntax    *ast.FuncDecl           // fn.syntax copy for instantiating after fn is done. nil on synthetic packages.
 	info      *types.Info             // fn.pkg.info copy for building after fn is done.. nil on synthetic packages.

 	// TODO(taking): Consider ways to allow for clearing syntax and info when done building.
 	// May require a public API change as MethodValue can request these be built after prog.Build() is done.
 }

 func (insts *instanceSet) list() []*Function {
 	if insts == nil {
 		return nil
 	}

 	fns := make([]*Function, 0, len(insts.instances))
 	for _, fn := range insts.instances {
 		fns = append(fns, fn)
 	}
 	return fns
 }

 // createInstanceSet adds a new instanceSet for a generic function fn if one does not exist.
 //
 // Precondition: fn is a package level declaration (function or method).
 //
 // EXCLUSIVE_LOCKS_ACQUIRED(prog.methodMu)
 func (prog *Program) createInstanceSet(fn *Function) {
 	assert(len(fn._TypeParams) > 0 && len(fn._TypeArgs) == 0, "Can only create instance sets for generic functions")

 	prog.methodsMu.Lock()
 	defer prog.methodsMu.Unlock()

 	syntax, _ := fn.syntax.(*ast.FuncDecl)
 	assert((syntax == nil) == (fn.syntax == nil), "fn.syntax is either nil or a *ast.FuncDecl")

 	if _, ok := prog.instances[fn]; !ok {
 		prog.instances[fn] = &instanceSet{
 			fn:     fn,
 			syntax: syntax,
 			info:   fn.info,
 		}
 	}
 }

 // needsInstance returns an Function that that is the instantiation of fn with the type arguments targs.
 //
 // Any CREATEd instance is added to cr.
 //
 // EXCLUSIVE_LOCKS_ACQUIRED(prog.methodMu)
 func (prog *Program) needsInstance(fn *Function, targs []types.Type, cr *creator) *Function {
 	prog.methodsMu.Lock()
 	defer prog.methodsMu.Unlock()

 	return prog.instances[fn].lookupOrCreate(targs, cr)
 }

 // lookupOrCreate returns the instantiation of insts.fn using targs.
 // If the instantiation is reported, this is added to cr.
 func (insts *instanceSet) lookupOrCreate(targs []types.Type, cr *creator) *Function {
 	if insts.instances == nil {
 		insts.instances = make(map[*typeList]*Function)
 	}

 	// canonicalize on a tuple of targs. Sig is not unique.
 	//
 	// func A[T any]() {
 	//   var x T
 	//   fmt.Println("%T", x)
 	// }
 	key := insts.fn.Prog.canon.List(targs)
 	if inst, ok := insts.instances[key]; ok {
 		return inst
 	}

 	var syntax ast.Node
 	if insts.syntax != nil {
 		syntax = insts.syntax
 	}
 	instance := createInstance(insts.fn, targs, insts.info, syntax, cr)
 	insts.instances[key] = instance
 	return instance
 }

 // createInstance returns an CREATEd instantiation of fn using targs.
 //
 // Function is added to cr.
 func createInstance(fn *Function, targs []types.Type, info *types.Info, syntax ast.Node, cr *creator) *Function {
 	prog := fn.Prog
 	var sig *types.Signature
 	var obj *types.Func
 	if recv := fn.Signature.Recv(); recv != nil {
 		// method
 		m := fn.object.(*types.Func)
 		obj = prog.canon.instantiateMethod(m, targs, prog.ctxt)
 		sig = obj.Type().(*types.Signature)
 	} else {
 		instSig, err := typeparams.Instantiate(prog.ctxt, fn.Signature, targs, false)
 		if err != nil {
 			panic(err)
 		}
 		instance, ok := instSig.(*types.Signature)
 		if !ok {
 			panic("Instantiate of a Signature returned a non-signature")
 		}
 		obj = fn.object.(*types.Func) // instantiation does not exist yet
 		sig = prog.canon.Type(instance).(*types.Signature)
 	}

 	name := fmt.Sprintf("%s%s", fn.Name(), targs) // may not be unique
 	synthetic := fmt.Sprintf("instantiation of %s", fn.Name())
 	instance := &Function{
 		name:        name,
 		object:      obj,
 		Signature:   sig,
 		Synthetic:   synthetic,
 		_Origin:     fn,
 		pos:         obj.Pos(),
 		Pkg:         nil,
 		Prog:        fn.Prog,
 		_TypeParams: fn._TypeParams,
 		_TypeArgs:   targs,
 		info:        info, // on synthetic packages info is nil.
 		subst:       makeSubster(prog.ctxt, fn._TypeParams, targs, false),
 	}
 	if prog.mode&InstantiateGenerics != 0 {
 		instance.syntax = syntax // otherwise treat instance as an external function.
 	}
 	cr.Add(instance)
 	return instance
 }
	// Copyright 2022 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 ssa

	import (
	"fmt"
	"go/ast"
	"go/types"

	"golang.org/x/tools/internal/typeparams"
	)

	// Instances returns all of the instances generated by runtime types for this function in an unspecified order.
	//
	// Thread-safe.
	//
	// This is an experimental interface! It may change without warning.
	func (prog Program) _Instances(fn Function) []*Function {
	if len(fn._TypeParams) == 0 {
	return nil
	}

	prog.methodsMu.Lock()
	defer prog.methodsMu.Unlock()
	return prog.instances[fn].list()
	}

	// A set of instantiations of a generic function fn.
	type instanceSet struct {
	fn *Function // len(fn._TypeParams) > 0 and len(fn._TypeArgs) == 0.
	instances map[typeList]Function // canonical type arguments to an instance.
	syntax *ast.FuncDecl // fn.syntax copy for instantiating after fn is done. nil on synthetic packages.
	info *types.Info // fn.pkg.info copy for building after fn is done.. nil on synthetic packages.

	// TODO(taking): Consider ways to allow for clearing syntax and info when done building.
	// May require a public API change as MethodValue can request these be built after prog.Build() is done.
	}

	func (insts instanceSet) list() []Function {
	if insts == nil {
	return nil
	}

	fns := make([]*Function, 0, len(insts.instances))
	for _, fn := range insts.instances {
	fns = append(fns, fn)
	}
	return fns
	}

	// createInstanceSet adds a new instanceSet for a generic function fn if one does not exist.
	//
	// Precondition: fn is a package level declaration (function or method).
	//
	// EXCLUSIVE_LOCKS_ACQUIRED(prog.methodMu)
	func (prog Program) createInstanceSet(fn Function) {
	assert(len(fn._TypeParams) > 0 && len(fn._TypeArgs) == 0, "Can only create instance sets for generic functions")

	prog.methodsMu.Lock()
	defer prog.methodsMu.Unlock()

	syntax, _ := fn.syntax.(*ast.FuncDecl)
	assert((syntax == nil) == (fn.syntax == nil), "fn.syntax is either nil or a *ast.FuncDecl")

	if _, ok := prog.instances[fn]; !ok {
	prog.instances[fn] = &instanceSet{
	fn: fn,
	syntax: syntax,
	info: fn.info,
	}
	}
	}

	// needsInstance returns an Function that that is the instantiation of fn with the type arguments targs.
	//
	// Any CREATEd instance is added to cr.
	//
	// EXCLUSIVE_LOCKS_ACQUIRED(prog.methodMu)
	func (prog Program) needsInstance(fn Function, targs []types.Type, cr creator) Function {
	prog.methodsMu.Lock()
	defer prog.methodsMu.Unlock()

	return prog.instances[fn].lookupOrCreate(targs, cr)
	}

	// lookupOrCreate returns the instantiation of insts.fn using targs.
	// If the instantiation is reported, this is added to cr.
	func (insts instanceSet) lookupOrCreate(targs []types.Type, cr creator) *Function {
	if insts.instances == nil {
	insts.instances = make(map[typeList]Function)
	}

	// canonicalize on a tuple of targs. Sig is not unique.
	//
	// func A[T any]() {
	// var x T
	// fmt.Println("%T", x)
	// }
	key := insts.fn.Prog.canon.List(targs)
	if inst, ok := insts.instances[key]; ok {
	return inst
	}

	var syntax ast.Node
	if insts.syntax != nil {
	syntax = insts.syntax
	}
	instance := createInstance(insts.fn, targs, insts.info, syntax, cr)
	insts.instances[key] = instance
	return instance
	}

	// createInstance returns an CREATEd instantiation of fn using targs.
	//
	// Function is added to cr.
	func createInstance(fn Function, targs []types.Type, info types.Info, syntax ast.Node, cr creator) Function {
	prog := fn.Prog
	var sig *types.Signature
	var obj *types.Func
	if recv := fn.Signature.Recv(); recv != nil {
	// method
	m := fn.object.(*types.Func)
	obj = prog.canon.instantiateMethod(m, targs, prog.ctxt)
	sig = obj.Type().(*types.Signature)
	} else {
	instSig, err := typeparams.Instantiate(prog.ctxt, fn.Signature, targs, false)
	if err != nil {
	panic(err)
	}
	instance, ok := instSig.(*types.Signature)
	if !ok {
	panic("Instantiate of a Signature returned a non-signature")
	}
	obj = fn.object.(*types.Func) // instantiation does not exist yet
	sig = prog.canon.Type(instance).(*types.Signature)
	}

	name := fmt.Sprintf("%s%s", fn.Name(), targs) // may not be unique
	synthetic := fmt.Sprintf("instantiation of %s", fn.Name())
	instance := &Function{
	name: name,
	object: obj,
	Signature: sig,
	Synthetic: synthetic,
	_Origin: fn,
	pos: obj.Pos(),
	Pkg: nil,
	Prog: fn.Prog,
	_TypeParams: fn._TypeParams,
	_TypeArgs: targs,
	info: info, // on synthetic packages info is nil.
	subst: makeSubster(prog.ctxt, fn._TypeParams, targs, false),
	}
	if prog.mode&InstantiateGenerics != 0 {
	instance.syntax = syntax // otherwise treat instance as an external function.
	}
	cr.Add(instance)
	return instance
	}