mk2rbc/node.go - platform/build/soong - Git at Google

 // Copyright 2021 Google LLC
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //      http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package mk2rbc

 import (
 	"fmt"
 	"strings"

 	mkparser "android/soong/androidmk/parser"
 )

 // A parsed node for which starlark code will be generated
 // by calling emit().
 type starlarkNode interface {
 	emit(ctx *generationContext)
 }

 // Types used to keep processed makefile data:
 type commentNode struct {
 	text string
 }

 func (c *commentNode) emit(gctx *generationContext) {
 	chunks := strings.Split(c.text, "\\\n")
 	gctx.newLine()
 	gctx.write(chunks[0]) // It has '#' at the beginning already.
 	for _, chunk := range chunks[1:] {
 		gctx.newLine()
 		gctx.write("#", chunk)
 	}
 }

 type moduleInfo struct {
 	path            string // Converted Starlark file path
 	originalPath    string // Makefile file path
 	moduleLocalName string
 	optional        bool
 	missing         bool // a module may not exist if a module that depends on it is loaded dynamically
 }

 func (im moduleInfo) entryName() string {
 	return im.moduleLocalName + "_init"
 }

 func (mi moduleInfo) name() string {
 	return fmt.Sprintf("%q", MakePath2ModuleName(mi.originalPath))
 }

 type inheritedModule interface {
 	name() string
 	entryName() string
 	emitSelect(gctx *generationContext)
 	pathExpr() starlarkExpr
 	needsLoadCheck() bool
 }

 type inheritedStaticModule struct {
 	*moduleInfo
 	loadAlways bool
 }

 func (im inheritedStaticModule) emitSelect(_ *generationContext) {
 }

 func (im inheritedStaticModule) pathExpr() starlarkExpr {
 	return &stringLiteralExpr{im.path}
 }

 func (im inheritedStaticModule) needsLoadCheck() bool {
 	return im.missing
 }

 type inheritedDynamicModule struct {
 	path             starlarkExpr
 	candidateModules []*moduleInfo
 	loadAlways       bool
 	location         ErrorLocation
 	needsWarning     bool
 }

 func (i inheritedDynamicModule) name() string {
 	return "_varmod"
 }

 func (i inheritedDynamicModule) entryName() string {
 	return i.name() + "_init"
 }

 func (i inheritedDynamicModule) emitSelect(gctx *generationContext) {
 	if i.needsWarning {
 		gctx.newLine()
 		gctx.writef("%s.mkwarning(%q, %q)", baseName, i.location, "Please avoid starting an include path with a variable. See https://source.android.com/setup/build/bazel/product_config/issues/includes for details.")
 	}
 	gctx.newLine()
 	gctx.writef("_entry = {")
 	gctx.indentLevel++
 	for _, mi := range i.candidateModules {
 		gctx.newLine()
 		gctx.writef(`"%s": (%s, %s),`, mi.originalPath, mi.name(), mi.entryName())
 	}
 	gctx.indentLevel--
 	gctx.newLine()
 	gctx.write("}.get(")
 	i.path.emit(gctx)
 	gctx.write(")")
 	gctx.newLine()
 	gctx.writef("(%s, %s) = _entry if _entry else (None, None)", i.name(), i.entryName())
 }

 func (i inheritedDynamicModule) pathExpr() starlarkExpr {
 	return i.path
 }

 func (i inheritedDynamicModule) needsLoadCheck() bool {
 	return true
 }

 type inheritNode struct {
 	module     inheritedModule
 	loadAlways bool
 }

 func (inn *inheritNode) emit(gctx *generationContext) {
 	// Unconditional case:
 	//    maybe check that loaded
 	//    rblf.inherit(handle, <module>, module_init)
 	// Conditional case:
 	//    if <module>_init != None:
 	//      same as above
 	inn.module.emitSelect(gctx)
 	name := inn.module.name()
 	entry := inn.module.entryName()
 	if inn.loadAlways {
 		gctx.emitLoadCheck(inn.module)
 		gctx.newLine()
 		gctx.writef("%s(handle, %s, %s)", cfnInherit, name, entry)
 		return
 	}

 	gctx.newLine()
 	gctx.writef("if %s:", entry)
 	gctx.indentLevel++
 	gctx.newLine()
 	gctx.writef("%s(handle, %s, %s)", cfnInherit, name, entry)
 	gctx.indentLevel--
 }

 type includeNode struct {
 	module     inheritedModule
 	loadAlways bool
 }

 func (inn *includeNode) emit(gctx *generationContext) {
 	inn.module.emitSelect(gctx)
 	entry := inn.module.entryName()
 	if inn.loadAlways {
 		gctx.emitLoadCheck(inn.module)
 		gctx.newLine()
 		gctx.writef("%s(g, handle)", entry)
 		return
 	}

 	gctx.newLine()
 	gctx.writef("if %s != None:", entry)
 	gctx.indentLevel++
 	gctx.newLine()
 	gctx.writef("%s(g, handle)", entry)
 	gctx.indentLevel--
 }

 type assignmentFlavor int

 const (
 	// Assignment flavors
 	asgnSet      assignmentFlavor = iota // := or =
 	asgnMaybeSet assignmentFlavor = iota // ?=
 	asgnAppend   assignmentFlavor = iota // +=
 )

 type assignmentNode struct {
 	lhs      variable
 	value    starlarkExpr
 	mkValue  *mkparser.MakeString
 	flavor   assignmentFlavor
 	location ErrorLocation
 	isTraced bool
 }

 func (asgn *assignmentNode) emit(gctx *generationContext) {
 	gctx.newLine()
 	gctx.inAssignment = true
 	asgn.lhs.emitSet(gctx, asgn)
 	gctx.inAssignment = false

 	if asgn.isTraced {
 		gctx.newLine()
 		gctx.tracedCount++
 		gctx.writef(`print("%s.%d: %s := ", `, gctx.starScript.mkFile, gctx.tracedCount, asgn.lhs.name())
 		asgn.lhs.emitGet(gctx)
 		gctx.writef(")")
 	}
 }

 func (asgn *assignmentNode) isSelfReferential() bool {
 	if asgn.flavor == asgnAppend {
 		return true
 	}
 	isSelfReferential := false
 	asgn.value.transform(func(expr starlarkExpr) starlarkExpr {
 		if ref, ok := expr.(*variableRefExpr); ok && ref.ref.name() == asgn.lhs.name() {
 			isSelfReferential = true
 		}
 		return nil
 	})
 	return isSelfReferential
 }

 type exprNode struct {
 	expr starlarkExpr
 }

 func (exn *exprNode) emit(gctx *generationContext) {
 	gctx.newLine()
 	exn.expr.emit(gctx)
 }

 type ifNode struct {
 	isElif bool // true if this is 'elif' statement
 	expr   starlarkExpr
 }

 func (in *ifNode) emit(gctx *generationContext) {
 	ifElif := "if "
 	if in.isElif {
 		ifElif = "elif "
 	}

 	gctx.newLine()
 	gctx.write(ifElif)
 	in.expr.emit(gctx)
 	gctx.write(":")
 }

 type elseNode struct{}

 func (br *elseNode) emit(gctx *generationContext) {
 	gctx.newLine()
 	gctx.write("else:")
 }

 // switchCase represents as single if/elseif/else branch. All the necessary
 // info about flavor (if/elseif/else) is supposed to be kept in `gate`.
 type switchCase struct {
 	gate  starlarkNode
 	nodes []starlarkNode
 }

 func (cb *switchCase) emit(gctx *generationContext) {
 	cb.gate.emit(gctx)
 	gctx.indentLevel++
 	gctx.pushVariableAssignments()
 	hasStatements := false
 	for _, node := range cb.nodes {
 		if _, ok := node.(*commentNode); !ok {
 			hasStatements = true
 		}
 		node.emit(gctx)
 	}
 	if !hasStatements {
 		gctx.emitPass()
 	}
 	gctx.indentLevel--
 	gctx.popVariableAssignments()
 }

 // A single complete if ... elseif ... else ... endif sequences
 type switchNode struct {
 	ssCases []*switchCase
 }

 func (ssw *switchNode) emit(gctx *generationContext) {
 	for _, ssCase := range ssw.ssCases {
 		ssCase.emit(gctx)
 	}
 }

 type foreachNode struct {
 	varName string
 	list    starlarkExpr
 	actions []starlarkNode
 }

 func (f *foreachNode) emit(gctx *generationContext) {
 	gctx.pushVariableAssignments()
 	gctx.newLine()
 	gctx.writef("for %s in ", f.varName)
 	f.list.emit(gctx)
 	gctx.write(":")
 	gctx.indentLevel++
 	hasStatements := false
 	for _, a := range f.actions {
 		if _, ok := a.(*commentNode); !ok {
 			hasStatements = true
 		}
 		a.emit(gctx)
 	}
 	if !hasStatements {
 		gctx.emitPass()
 	}
 	gctx.indentLevel--
 	gctx.popVariableAssignments()
 }
	// Copyright 2021 Google LLC
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package mk2rbc

	import (
	"fmt"
	"strings"

	mkparser "android/soong/androidmk/parser"
	)

	// A parsed node for which starlark code will be generated
	// by calling emit().
	type starlarkNode interface {
	emit(ctx *generationContext)
	}

	// Types used to keep processed makefile data:
	type commentNode struct {
	text string
	}

	func (c commentNode) emit(gctx generationContext) {
	chunks := strings.Split(c.text, "\\\n")
	gctx.newLine()
	gctx.write(chunks[0]) // It has '#' at the beginning already.
	for _, chunk := range chunks[1:] {
	gctx.newLine()
	gctx.write("#", chunk)
	}
	}

	type moduleInfo struct {
	path string // Converted Starlark file path
	originalPath string // Makefile file path
	moduleLocalName string
	optional bool
	missing bool // a module may not exist if a module that depends on it is loaded dynamically
	}

	func (im moduleInfo) entryName() string {
	return im.moduleLocalName + "_init"
	}

	func (mi moduleInfo) name() string {
	return fmt.Sprintf("%q", MakePath2ModuleName(mi.originalPath))
	}

	type inheritedModule interface {
	name() string
	entryName() string
	emitSelect(gctx *generationContext)
	pathExpr() starlarkExpr
	needsLoadCheck() bool
	}

	type inheritedStaticModule struct {
	*moduleInfo
	loadAlways bool
	}

	func (im inheritedStaticModule) emitSelect(_ *generationContext) {
	}

	func (im inheritedStaticModule) pathExpr() starlarkExpr {
	return &stringLiteralExpr{im.path}
	}

	func (im inheritedStaticModule) needsLoadCheck() bool {
	return im.missing
	}

	type inheritedDynamicModule struct {
	path starlarkExpr
	candidateModules []*moduleInfo
	loadAlways bool
	location ErrorLocation
	needsWarning bool
	}

	func (i inheritedDynamicModule) name() string {
	return "_varmod"
	}

	func (i inheritedDynamicModule) entryName() string {
	return i.name() + "_init"
	}

	func (i inheritedDynamicModule) emitSelect(gctx *generationContext) {
	if i.needsWarning {
	gctx.newLine()
	gctx.writef("%s.mkwarning(%q, %q)", baseName, i.location, "Please avoid starting an include path with a variable. See https://source.android.com/setup/build/bazel/product_config/issues/includes for details.")
	}
	gctx.newLine()
	gctx.writef("_entry = {")
	gctx.indentLevel++
	for _, mi := range i.candidateModules {
	gctx.newLine()
	gctx.writef(`"%s": (%s, %s),`, mi.originalPath, mi.name(), mi.entryName())
	}
	gctx.indentLevel--
	gctx.newLine()
	gctx.write("}.get(")
	i.path.emit(gctx)
	gctx.write(")")
	gctx.newLine()
	gctx.writef("(%s, %s) = _entry if _entry else (None, None)", i.name(), i.entryName())
	}

	func (i inheritedDynamicModule) pathExpr() starlarkExpr {
	return i.path
	}

	func (i inheritedDynamicModule) needsLoadCheck() bool {
	return true
	}

	type inheritNode struct {
	module inheritedModule
	loadAlways bool
	}

	func (inn inheritNode) emit(gctx generationContext) {
	// Unconditional case:
	// maybe check that loaded
	// rblf.inherit(handle, <module>, module_init)
	// Conditional case:
	// if <module>_init != None:
	// same as above
	inn.module.emitSelect(gctx)
	name := inn.module.name()
	entry := inn.module.entryName()
	if inn.loadAlways {
	gctx.emitLoadCheck(inn.module)
	gctx.newLine()
	gctx.writef("%s(handle, %s, %s)", cfnInherit, name, entry)
	return
	}

	gctx.newLine()
	gctx.writef("if %s:", entry)
	gctx.indentLevel++
	gctx.newLine()
	gctx.writef("%s(handle, %s, %s)", cfnInherit, name, entry)
	gctx.indentLevel--
	}

	type includeNode struct {
	module inheritedModule
	loadAlways bool
	}

	func (inn includeNode) emit(gctx generationContext) {
	inn.module.emitSelect(gctx)
	entry := inn.module.entryName()
	if inn.loadAlways {
	gctx.emitLoadCheck(inn.module)
	gctx.newLine()
	gctx.writef("%s(g, handle)", entry)
	return
	}

	gctx.newLine()
	gctx.writef("if %s != None:", entry)
	gctx.indentLevel++
	gctx.newLine()
	gctx.writef("%s(g, handle)", entry)
	gctx.indentLevel--
	}

	type assignmentFlavor int

	const (
	// Assignment flavors
	asgnSet assignmentFlavor = iota // := or =
	asgnMaybeSet assignmentFlavor = iota // ?=
	asgnAppend assignmentFlavor = iota // +=
	)

	type assignmentNode struct {
	lhs variable
	value starlarkExpr
	mkValue *mkparser.MakeString
	flavor assignmentFlavor
	location ErrorLocation
	isTraced bool
	}

	func (asgn assignmentNode) emit(gctx generationContext) {
	gctx.newLine()
	gctx.inAssignment = true
	asgn.lhs.emitSet(gctx, asgn)
	gctx.inAssignment = false

	if asgn.isTraced {
	gctx.newLine()
	gctx.tracedCount++
	gctx.writef(`print("%s.%d: %s := ", `, gctx.starScript.mkFile, gctx.tracedCount, asgn.lhs.name())
	asgn.lhs.emitGet(gctx)
	gctx.writef(")")
	}
	}

	func (asgn *assignmentNode) isSelfReferential() bool {
	if asgn.flavor == asgnAppend {
	return true
	}
	isSelfReferential := false
	asgn.value.transform(func(expr starlarkExpr) starlarkExpr {
	if ref, ok := expr.(*variableRefExpr); ok && ref.ref.name() == asgn.lhs.name() {
	isSelfReferential = true
	}
	return nil
	})
	return isSelfReferential
	}

	type exprNode struct {
	expr starlarkExpr
	}

	func (exn exprNode) emit(gctx generationContext) {
	gctx.newLine()
	exn.expr.emit(gctx)
	}

	type ifNode struct {
	isElif bool // true if this is 'elif' statement
	expr starlarkExpr
	}

	func (in ifNode) emit(gctx generationContext) {
	ifElif := "if "
	if in.isElif {
	ifElif = "elif "
	}

	gctx.newLine()
	gctx.write(ifElif)
	in.expr.emit(gctx)
	gctx.write(":")
	}

	type elseNode struct{}

	func (br elseNode) emit(gctx generationContext) {
	gctx.newLine()
	gctx.write("else:")
	}

	// switchCase represents as single if/elseif/else branch. All the necessary
	// info about flavor (if/elseif/else) is supposed to be kept in `gate`.
	type switchCase struct {
	gate starlarkNode
	nodes []starlarkNode
	}

	func (cb switchCase) emit(gctx generationContext) {
	cb.gate.emit(gctx)
	gctx.indentLevel++
	gctx.pushVariableAssignments()
	hasStatements := false
	for _, node := range cb.nodes {
	if _, ok := node.(*commentNode); !ok {
	hasStatements = true
	}
	node.emit(gctx)
	}
	if !hasStatements {
	gctx.emitPass()
	}
	gctx.indentLevel--
	gctx.popVariableAssignments()
	}

	// A single complete if ... elseif ... else ... endif sequences
	type switchNode struct {
	ssCases []*switchCase
	}

	func (ssw switchNode) emit(gctx generationContext) {
	for _, ssCase := range ssw.ssCases {
	ssCase.emit(gctx)
	}
	}

	type foreachNode struct {
	varName string
	list starlarkExpr
	actions []starlarkNode
	}

	func (f foreachNode) emit(gctx generationContext) {
	gctx.pushVariableAssignments()
	gctx.newLine()
	gctx.writef("for %s in ", f.varName)
	f.list.emit(gctx)
	gctx.write(":")
	gctx.indentLevel++
	hasStatements := false
	for _, a := range f.actions {
	if _, ok := a.(*commentNode); !ok {
	hasStatements = true
	}
	a.emit(gctx)
	}
	if !hasStatements {
	gctx.emitPass()
	}
	gctx.indentLevel--
	gctx.popVariableAssignments()
	}