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Allow dynamically calculated inherit-product path

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Bug: 193566316
Test: internal
Change-Id: Iaa7b68cf459f9a694ae9d37a32c9372cf8a8335a
This commit is contained in:
Sasha Smundak 2021-07-22 18:32:56 -07:00
parent e083a05ad0
commit 6609ba7664
7 changed files with 475 additions and 55 deletions
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41
mk2rbc/cmd/mk2rbc.go
View file

@ -21,10 +21,12 @@
package main
import (
"bufio"
"flag"
"fmt"
"io/ioutil"
"os"
"os/exec"
"path/filepath"
"regexp"
"runtime/debug"
@ -78,6 +80,7 @@ func init() {
var backupSuffix string
var tracedVariables []string
var errorLogger = errorsByType{data: make(map[string]datum)}
var makefileFinder = &LinuxMakefileFinder{}
func main() {
flag.Usage = func() {
@ -302,6 +305,8 @@ func convertOne(mkFile string) (ok bool) {
TracedVariables: tracedVariables,
TraceCalls: *traceCalls,
WarnPartialSuccess: *warn,
SourceFS: os.DirFS(*rootDir),
MakefileFinder: makefileFinder,
}
if *errstat {
mk2starRequest.ErrorLogger = errorLogger
@ -504,3 +509,39 @@ func stringsWithFreq(items []string, topN int) (string, int) {
}
return res, len(sorted)
}
type LinuxMakefileFinder struct {
cachedRoot string
cachedMakefiles []string
}
func (l *LinuxMakefileFinder) Find(root string) []string {
if l.cachedMakefiles != nil && l.cachedRoot == root {
return l.cachedMakefiles
}
l.cachedRoot = root
l.cachedMakefiles = make([]string, 0)
// Return all *.mk files but not in hidden directories.
// NOTE(asmundak): as it turns out, even the WalkDir (which is an _optimized_ directory tree walker)
// is about twice slower than running `find` command (14s vs 6s on the internal Android source tree).
common_args := []string{"!", "-type", "d", "-name", "*.mk", "!", "-path", "*/.*/*"}
if root != "" {
common_args = append([]string{root}, common_args...)
}
cmd := exec.Command("/usr/bin/find", common_args...)
stdout, err := cmd.StdoutPipe()
if err == nil {
err = cmd.Start()
}
if err != nil {
panic(fmt.Errorf("cannot get the output from %s: %s", cmd, err))
}
scanner := bufio.NewScanner(stdout)
for scanner.Scan() {
l.cachedMakefiles = append(l.cachedMakefiles, strings.TrimPrefix(scanner.Text(), "./"))
}
stdout.Close()
return l.cachedMakefiles
}

121
mk2rbc/find_mockfs.go Normal file
View file

@ -0,0 +1,121 @@
package mk2rbc
import (
"io/fs"
"os"
"path/filepath"
"time"
)
// Mock FS. Maps a directory name to an array of entries.
// An entry implements fs.DirEntry, fs.FIleInfo and fs.File interface
type FindMockFS struct {
dirs map[string][]myFileInfo
}
func (m FindMockFS) locate(name string) (myFileInfo, bool) {
if name == "." {
return myFileInfo{".", true}, true
}
dir := filepath.Dir(name)
base := filepath.Base(name)
if entries, ok := m.dirs[dir]; ok {
for _, e := range entries {
if e.name == base {
return e, true
}
}
}
return myFileInfo{}, false
}
func (m FindMockFS) create(name string, isDir bool) {
dir := filepath.Dir(name)
m.dirs[dir] = append(m.dirs[dir], myFileInfo{filepath.Base(name), isDir})
}
func (m FindMockFS) Stat(name string) (fs.FileInfo, error) {
if fi, ok := m.locate(name); ok {
return fi, nil
}
return nil, os.ErrNotExist
}
type myFileInfo struct {
name string
isDir bool
}
func (m myFileInfo) Info() (fs.FileInfo, error) {
panic("implement me")
}
func (m myFileInfo) Size() int64 {
panic("implement me")
}
func (m myFileInfo) Mode() fs.FileMode {
panic("implement me")
}
func (m myFileInfo) ModTime() time.Time {
panic("implement me")
}
func (m myFileInfo) Sys() interface{} {
return nil
}
func (m myFileInfo) Stat() (fs.FileInfo, error) {
return m, nil
}
func (m myFileInfo) Read(bytes []byte) (int, error) {
panic("implement me")
}
func (m myFileInfo) Close() error {
panic("implement me")
}
func (m myFileInfo) Name() string {
return m.name
}
func (m myFileInfo) IsDir() bool {
return m.isDir
}
func (m myFileInfo) Type() fs.FileMode {
return m.Mode()
}
func (m FindMockFS) Open(name string) (fs.File, error) {
panic("implement me")
}
func (m FindMockFS) ReadDir(name string) ([]fs.DirEntry, error) {
if d, ok := m.dirs[name]; ok {
var res []fs.DirEntry
for _, e := range d {
res = append(res, e)
}
return res, nil
}
return nil, os.ErrNotExist
}
func NewFindMockFS(files []string) FindMockFS {
myfs := FindMockFS{make(map[string][]myFileInfo)}
for _, f := range files {
isDir := false
for f != "." {
if _, ok := myfs.locate(f); !ok {
myfs.create(f, isDir)
}
isDir = true
f = filepath.Dir(f)
}
}
return myfs
}

161
mk2rbc/mk2rbc.go
View file

@ -27,6 +27,7 @@ import (
"bytes"
"fmt"
"io"
"io/fs"
"io/ioutil"
"os"
"path/filepath"
@ -104,6 +105,7 @@ var knownFunctions = map[string]struct {
"match-prefix": {"!match-prefix", starlarkTypeUnknown}, // internal macro
"match-word": {"!match-word", starlarkTypeUnknown}, // internal macro
"match-word-in-list": {"!match-word-in-list", starlarkTypeUnknown}, // internal macro
"my-dir": {"!my-dir", starlarkTypeString},
"patsubst": {baseName + ".mkpatsubst", starlarkTypeString},
"produce_copy_files": {baseName + ".produce_copy_files", starlarkTypeList},
"require-artifacts-in-path": {baseName + ".require_artifacts_in_path", starlarkTypeVoid},
@ -136,6 +138,8 @@ type Request struct {
TracedVariables []string // trace assignment to these variables
TraceCalls bool
WarnPartialSuccess bool
SourceFS fs.FS
MakefileFinder MakefileFinder
}
// An error sink allowing to gather error statistics.
@ -149,7 +153,8 @@ type ErrorMonitorCB interface {
func moduleNameForFile(mkFile string) string {
base := strings.TrimSuffix(filepath.Base(mkFile), filepath.Ext(mkFile))
// TODO(asmundak): what else can be in the product file names?
return strings.ReplaceAll(base, "-", "_")
return strings.NewReplacer("-", "_", ".", "_").Replace(base)
}
func cloneMakeString(mkString *mkparser.MakeString) *mkparser.MakeString {
@ -241,7 +246,7 @@ func (gctx *generationContext) emitPreamble() {
sc.moduleLocalName = m
continue
}
if !sc.loadAlways {
if sc.optional {
uri += "|init"
}
gctx.newLine()
@ -342,11 +347,13 @@ type StarlarkScript struct {
moduleName string
mkPos scanner.Position
nodes []starlarkNode
inherited []*inheritedModule
inherited []*moduleInfo
hasErrors bool
topDir string
traceCalls bool // print enter/exit each init function
warnPartialSuccess bool
sourceFS fs.FS
makefileFinder MakefileFinder
}
func (ss *StarlarkScript) newNode(node starlarkNode) {
@ -379,13 +386,15 @@ type parseContext struct {
receiver nodeReceiver // receptacle for the generated starlarkNode's
receiverStack []nodeReceiver
outputDir string
dependentModules map[string]*moduleInfo
}
func newParseContext(ss *StarlarkScript, nodes []mkparser.Node) *parseContext {
topdir, _ := filepath.Split(filepath.Join(ss.topDir, "foo"))
predefined := []struct{ name, value string }{
{"SRC_TARGET_DIR", filepath.Join("build", "make", "target")},
{"LOCAL_PATH", filepath.Dir(ss.mkFile)},
{"TOPDIR", ss.topDir},
{"TOPDIR", topdir},
// TODO(asmundak): maybe read it from build/make/core/envsetup.mk?
{"TARGET_COPY_OUT_SYSTEM", "system"},
{"TARGET_COPY_OUT_SYSTEM_OTHER", "system_other"},
@ -428,6 +437,7 @@ func newParseContext(ss *StarlarkScript, nodes []mkparser.Node) *parseContext {
moduleNameCount: make(map[string]int),
builtinMakeVars: map[string]starlarkExpr{},
variables: make(map[string]variable),
dependentModules: make(map[string]*moduleInfo),
}
ctx.pushVarAssignments()
for _, item := range predefined {
@ -619,16 +629,12 @@ func (ctx *parseContext) buildConcatExpr(a *mkparser.Assignment) *concatExpr {
return xConcat
}
func (ctx *parseContext) newInheritedModule(v mkparser.Node, pathExpr starlarkExpr, loadAlways bool) *inheritedModule {
var path string
x, _ := pathExpr.eval(ctx.builtinMakeVars)
s, ok := x.(*stringLiteralExpr)
if !ok {
ctx.errorf(v, "inherit-product/include argument is too complex")
return nil
func (ctx *parseContext) newDependentModule(path string, optional bool) *moduleInfo {
modulePath := ctx.loadedModulePath(path)
if mi, ok := ctx.dependentModules[modulePath]; ok {
mi.optional = mi.optional || optional
return mi
}
path = s.literal
moduleName := moduleNameForFile(path)
moduleLocalName := "_" + moduleName
n, found := ctx.moduleNameCount[moduleName]
@ -636,27 +642,124 @@ func (ctx *parseContext) newInheritedModule(v mkparser.Node, pathExpr starlarkEx
moduleLocalName += fmt.Sprintf("%d", n)
}
ctx.moduleNameCount[moduleName] = n + 1
ln := &inheritedModule{
path: ctx.loadedModulePath(path),
mi := &moduleInfo{
path: modulePath,
originalPath: path,
moduleName: moduleName,
moduleLocalName: moduleLocalName,
loadAlways: loadAlways,
optional: optional,
}
ctx.script.inherited = append(ctx.script.inherited, ln)
return ln
ctx.dependentModules[modulePath] = mi
ctx.script.inherited = append(ctx.script.inherited, mi)
return mi
}
func (ctx *parseContext) handleSubConfig(
v mkparser.Node, pathExpr starlarkExpr, loadAlways bool, processModule func(inheritedModule)) {
pathExpr, _ = pathExpr.eval(ctx.builtinMakeVars)
// In a simple case, the name of a module to inherit/include is known statically.
if path, ok := maybeString(pathExpr); ok {
if strings.Contains(path, "*") {
if paths, err := fs.Glob(ctx.script.sourceFS, path); err == nil {
for _, p := range paths {
processModule(inheritedStaticModule{ctx.newDependentModule(p, !loadAlways), loadAlways})
}
} else {
ctx.errorf(v, "cannot glob wildcard argument")
}
} else {
processModule(inheritedStaticModule{ctx.newDependentModule(path, !loadAlways), loadAlways})
}
return
}
// If module path references variables (e.g., $(v1)/foo/$(v2)/device-config.mk), find all the paths in the
// source tree that may be a match and the corresponding variable values. For instance, if the source tree
// contains vendor1/foo/abc/dev.mk and vendor2/foo/def/dev.mk, the first one will be inherited when
// (v1, v2) == ('vendor1', 'abc'), and the second one when (v1, v2) == ('vendor2', 'def').
// We then emit the code that loads all of them, e.g.:
// load("//vendor1/foo/abc:dev.rbc", _dev1_init="init")
// load("//vendor2/foo/def/dev.rbc", _dev2_init="init")
// And then inherit it as follows:
// _e = {
// "vendor1/foo/abc/dev.mk": ("vendor1/foo/abc/dev", _dev1_init),
// "vendor2/foo/def/dev.mk": ("vendor2/foo/def/dev", _dev_init2) }.get("%s/foo/%s/dev.mk" % (v1, v2))
// if _e:
// rblf.inherit(handle, _e[0], _e[1])
//
var matchingPaths []string
varPath, ok := pathExpr.(*interpolateExpr)
if !ok {
ctx.errorf(v, "inherit-product/include argument is too complex")
return
}
pathPattern := []string{varPath.chunks[0]}
for _, chunk := range varPath.chunks[1:] {
if chunk != "" {
pathPattern = append(pathPattern, chunk)
}
}
if pathPattern[0] != "" {
matchingPaths = ctx.findMatchingPaths(pathPattern)
} else {
// Heuristics -- if pattern starts from top, restrict it to the directories where
// we know inherit-product uses dynamically calculated path.
for _, t := range []string{"vendor/qcom", "vendor/google_devices"} {
pathPattern[0] = t
matchingPaths = append(matchingPaths, ctx.findMatchingPaths(pathPattern)...)
}
}
// Safeguard against $(call inherit-product,$(PRODUCT_PATH))
const maxMatchingFiles = 100
if len(matchingPaths) > maxMatchingFiles {
ctx.errorf(v, "there are >%d files matching the pattern, please rewrite it", maxMatchingFiles)
return
}
res := inheritedDynamicModule{*varPath, []*moduleInfo{}, loadAlways}
for _, p := range matchingPaths {
// A product configuration files discovered dynamically may attempt to inherit
// from another one which does not exist in this source tree. Prevent load errors
// by always loading the dynamic files as optional.
res.candidateModules = append(res.candidateModules, ctx.newDependentModule(p, true))
}
processModule(res)
}
func (ctx *parseContext) findMatchingPaths(pattern []string) []string {
files := ctx.script.makefileFinder.Find(ctx.script.topDir)
if len(pattern) == 0 {
return files
}
// Create regular expression from the pattern
s_regexp := "^" + regexp.QuoteMeta(pattern[0])
for _, s := range pattern[1:] {
s_regexp += ".*" + regexp.QuoteMeta(s)
}
s_regexp += "$"
rex := regexp.MustCompile(s_regexp)
// Now match
var res []string
for _, p := range files {
if rex.MatchString(p) {
res = append(res, p)
}
}
return res
}
func (ctx *parseContext) handleInheritModule(v mkparser.Node, pathExpr starlarkExpr, loadAlways bool) {
if im := ctx.newInheritedModule(v, pathExpr, loadAlways); im != nil {
ctx.handleSubConfig(v, pathExpr, loadAlways, func(im inheritedModule) {
ctx.receiver.newNode(&inheritNode{im})
}
})
}
func (ctx *parseContext) handleInclude(v mkparser.Node, pathExpr starlarkExpr, loadAlways bool) {
if ln := ctx.newInheritedModule(v, pathExpr, loadAlways); ln != nil {
ctx.receiver.newNode(&includeNode{ln})
}
ctx.handleSubConfig(v, pathExpr, loadAlways, func(im inheritedModule) {
ctx.receiver.newNode(&includeNode{im})
})
}
func (ctx *parseContext) handleVariable(v *mkparser.Variable) {
@ -1091,10 +1194,11 @@ func (ctx *parseContext) parseReference(node mkparser.Node, ref *mkparser.MakeSt
}
expr.name = words[0].Dump()
if len(words) < 2 {
return expr
}
args = &mkparser.MakeString{}
} else {
args = words[1]
}
}
if kf, found := knownFunctions[expr.name]; found {
expr.returnType = kf.returnType
} else {
@ -1103,6 +1207,8 @@ func (ctx *parseContext) parseReference(node mkparser.Node, ref *mkparser.MakeSt
switch expr.name {
case "word":
return ctx.parseWordFunc(node, args)
case "my-dir":
return &variableRefExpr{ctx.addVariable("LOCAL_PATH"), true}
case "subst", "patsubst":
return ctx.parseSubstFunc(node, expr.name, args)
default:
@ -1285,6 +1391,7 @@ func (ss *StarlarkScript) String() string {
}
func (ss *StarlarkScript) SubConfigFiles() []string {
var subs []string
for _, src := range ss.inherited {
subs = append(subs, src.originalPath)
@ -1322,6 +1429,8 @@ func Convert(req Request) (*StarlarkScript, error) {
topDir: req.RootDir,
traceCalls: req.TraceCalls,
warnPartialSuccess: req.WarnPartialSuccess,
sourceFS: req.SourceFS,
makefileFinder: req.MakefileFinder,
}
ctx := newParseContext(starScript, nodes)
ctx.outputSuffix = req.OutputSuffix

89
mk2rbc/mk2rbc_test.go
View file

@ -16,6 +16,8 @@ package mk2rbc
import (
"bytes"
"io/fs"
"path/filepath"
"strings"
"testing"
)
@ -100,10 +102,13 @@ def init(g, handle):
desc: "Unknown function",
mkname: "product.mk",
in: `
PRODUCT_NAME := $(call foo, bar)
PRODUCT_NAME := $(call foo1, bar)
PRODUCT_NAME := $(call foo0)
`,
expected: `# MK2RBC TRANSLATION ERROR: cannot handle invoking foo
# PRODUCT_NAME := $(call foo, bar)
expected: `# MK2RBC TRANSLATION ERROR: cannot handle invoking foo1
# PRODUCT_NAME := $(call foo1, bar)
# MK2RBC TRANSLATION ERROR: cannot handle invoking foo0
# PRODUCT_NAME := $(call foo0)
load("//build/make/core:product_config.rbc", "rblf")
def init(g, handle):
@ -130,7 +135,7 @@ def init(g, handle):
rblf.inherit(handle, "part", _part_init)
else:
# Comment
rblf.inherit(handle, "./part", _part_init)
rblf.inherit(handle, "part", _part_init)
`,
},
{
@ -144,7 +149,7 @@ load(":part.star|init", _part_init = "init")
def init(g, handle):
cfg = rblf.cfg(handle)
if _part_init != None:
if _part_init:
rblf.inherit(handle, "part", _part_init)
`,
},
@ -160,7 +165,7 @@ else
endif
`,
expected: `load("//build/make/core:product_config.rbc", "rblf")
load(":part.star", _part_init = "init")
load(":part.star|init", _part_init = "init")
def init(g, handle):
cfg = rblf.cfg(handle)
@ -176,8 +181,7 @@ def init(g, handle):
desc: "Synonymous inherited configurations",
mkname: "path/product.mk",
in: `
$(call inherit-product, foo/font.mk)
$(call inherit-product, bar/font.mk)
$(call inherit-product, */font.mk)
`,
expected: `load("//build/make/core:product_config.rbc", "rblf")
load("//foo:font.star", _font_init = "init")
@ -254,6 +258,8 @@ def init(g, handle):
in: `
ifdef PRODUCT_NAME
# Comment
else
TARGET_COPY_OUT_VENDOR := foo
endif
`,
expected: `load("//build/make/core:product_config.rbc", "rblf")
@ -263,6 +269,10 @@ def init(g, handle):
if g.get("PRODUCT_NAME") != None:
# Comment
pass
else:
# MK2RBC TRANSLATION ERROR: cannot set predefined variable TARGET_COPY_OUT_VENDOR to "foo", its value should be "||VENDOR-PATH-PH||"
pass
rblf.warning("product.mk", "partially successful conversion")
`,
},
{
@ -840,6 +850,30 @@ def init(g, handle):
g["V2"] = g.get("PRODUCT_ADB_KEYS", "")
g["PRODUCT_ADB_KEYS"] = "foo"
g["V3"] = g["PRODUCT_ADB_KEYS"]
`,
},
{
desc: "Dynamic inherit path",
mkname: "product.mk",
in: `
MY_PATH=foo
$(call inherit-product,vendor/$(MY_PATH)/cfg.mk)
`,
expected: `load("//build/make/core:product_config.rbc", "rblf")
load("//vendor/foo1:cfg.star|init", _cfg_init = "init")
load("//vendor/bar/baz:cfg.star|init", _cfg1_init = "init")
def init(g, handle):
cfg = rblf.cfg(handle)
g["MY_PATH"] = "foo"
_entry = {
"vendor/foo1/cfg.mk": ("_cfg", _cfg_init),
"vendor/bar/baz/cfg.mk": ("_cfg1", _cfg1_init),
}.get("vendor/%s/cfg.mk" % g["MY_PATH"])
(_varmod, _varmod_init) = _entry if _entry else (None, None)
if not _varmod_init:
rblf.mkerror("cannot")
rblf.inherit(handle, _varmod, _varmod_init)
`,
},
}
@ -865,10 +899,47 @@ var known_variables = []struct {
{"PLATFORM_LIST", VarClassSoong, starlarkTypeList}, // TODO(asmundak): make it local instead of soong
}
type testMakefileFinder struct {
fs fs.FS
root string
files []string
}
func (t *testMakefileFinder) Find(root string) []string {
if t.files != nil || root == t.root {
return t.files
}
t.files = make([]string, 0)
fs.WalkDir(t.fs, root, func(path string, d fs.DirEntry, err error) error {
if err != nil {
return err
}
if d.IsDir() {
base := filepath.Base(path)
if base[0] == '.' && len(base) > 1 {
return fs.SkipDir
}
return nil
}
if strings.HasSuffix(path, ".mk") {
t.files = append(t.files, path)
}
return nil
})
return t.files
}
func TestGood(t *testing.T) {
for _, v := range known_variables {
KnownVariables.NewVariable(v.name, v.class, v.starlarkType)
}
fs := NewFindMockFS([]string{
"vendor/foo1/cfg.mk",
"vendor/bar/baz/cfg.mk",
"part.mk",
"foo/font.mk",
"bar/font.mk",
})
for _, test := range testCases {
t.Run(test.desc,
func(t *testing.T) {
@ -878,6 +949,8 @@ func TestGood(t *testing.T) {
RootDir: ".",
OutputSuffix: ".star",
WarnPartialSuccess: true,
SourceFS: fs,
MakefileFinder: &testMakefileFinder{fs: fs},
})
if err != nil {
t.Error(err)

105
mk2rbc/node.go
View file

@ -42,24 +42,85 @@ func (c *commentNode) emit(gctx *generationContext) {
}
}
type inheritedModule struct {
type moduleInfo struct {
path string // Converted Starlark file path
originalPath string // Makefile file path
moduleName string
moduleLocalName string
loadAlways bool
optional bool
}
func (im inheritedModule) name() string {
return MakePath2ModuleName(im.originalPath)
}
func (im inheritedModule) entryName() string {
func (im moduleInfo) entryName() string {
return im.moduleLocalName + "_init"
}
type inheritedModule interface {
name() string
entryName() string
emitSelect(gctx *generationContext)
isLoadAlways() bool
}
type inheritedStaticModule struct {
*moduleInfo
loadAlways bool
}
func (im inheritedStaticModule) name() string {
return fmt.Sprintf("%q", MakePath2ModuleName(im.originalPath))
}
func (im inheritedStaticModule) emitSelect(_ *generationContext) {
}
func (im inheritedStaticModule) isLoadAlways() bool {
return im.loadAlways
}
type inheritedDynamicModule struct {
path interpolateExpr
candidateModules []*moduleInfo
loadAlways bool
}
func (i inheritedDynamicModule) name() string {
return "_varmod"
}
func (i inheritedDynamicModule) entryName() string {
return i.name() + "_init"
}
func (i inheritedDynamicModule) emitSelect(gctx *generationContext) {
gctx.newLine()
gctx.writef("_entry = {")
gctx.indentLevel++
for _, mi := range i.candidateModules {
gctx.newLine()
gctx.writef(`"%s": (%q, %s),`, mi.originalPath, mi.moduleLocalName, 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())
if i.loadAlways {
gctx.newLine()
gctx.writef("if not %s:", i.entryName())
gctx.indentLevel++
gctx.newLine()
gctx.write(`rblf.mkerror("cannot")`)
gctx.indentLevel--
}
}
func (i inheritedDynamicModule) isLoadAlways() bool {
return i.loadAlways
}
type inheritNode struct {
*inheritedModule
module inheritedModule
}
func (inn *inheritNode) emit(gctx *generationContext) {
@ -68,32 +129,40 @@ func (inn *inheritNode) emit(gctx *generationContext) {
// Conditional case:
// if <module>_init != None:
// same as above
inn.module.emitSelect(gctx)
name := inn.module.name()
entry := inn.module.entryName()
gctx.newLine()
if inn.loadAlways {
gctx.writef("%s(handle, %q, %s)", cfnInherit, inn.name(), inn.entryName())
if inn.module.isLoadAlways() {
gctx.writef("%s(handle, %s, %s)", cfnInherit, name, entry)
return
}
gctx.writef("if %s != None:", inn.entryName())
gctx.writef("if %s:", entry)
gctx.indentLevel++
gctx.newLine()
gctx.writef("%s(handle, %q, %s)", cfnInherit, inn.name(), inn.entryName())
gctx.writef("%s(handle, %s, %s)", cfnInherit, name, entry)
gctx.indentLevel--
}
type includeNode struct {
*inheritedModule
module inheritedModule
}
func (inn *includeNode) emit(gctx *generationContext) {
inn.module.emitSelect(gctx)
entry := inn.module.entryName()
gctx.newLine()
if inn.loadAlways {
gctx.writef("%s(g, handle)", inn.entryName())
if inn.module.isLoadAlways() {
gctx.writef("%s(g, handle)", entry)
return
}
gctx.writef("if %s != None:", inn.entryName())
gctx.writef("if %s != None:", entry)
gctx.indentLevel++
gctx.newLine()
gctx.writef("%s(g, handle)", inn.entryName())
gctx.writef("%s(g, handle)", entry)
gctx.indentLevel--
}

5
mk2rbc/types.go
View file

@ -58,3 +58,8 @@ func (s ScopeBase) Call(_ string, _ []string) []string {
func (s ScopeBase) SetFunc(_ string, _ func([]string) []string) {
panic("implement me")
}
// Used to find all makefiles in the source tree
type MakefileFinder interface {
Find(root string) []string
}

8
mk2rbc/variable.go
View file

@ -16,7 +16,6 @@ package mk2rbc
import (
"fmt"
"os"
"strings"
)
@ -222,15 +221,18 @@ func (pv predefinedVariable) emitGet(gctx *generationContext, _ bool) {
pv.value.emit(gctx)
}
func (pv predefinedVariable) emitSet(_ *generationContext, asgn *assignmentNode) {
func (pv predefinedVariable) emitSet(gctx *generationContext, asgn *assignmentNode) {
if expectedValue, ok1 := maybeString(pv.value); ok1 {
actualValue, ok2 := maybeString(asgn.value)
if ok2 {
if actualValue == expectedValue {
return
}
fmt.Fprintf(os.Stderr, "cannot set predefined variable %s to %q, its value should be %q",
gctx.writef("# MK2RBC TRANSLATION ERROR: cannot set predefined variable %s to %q, its value should be %q",
pv.name(), actualValue, expectedValue)
gctx.newLine()
gctx.write("pass")
gctx.starScript.hasErrors = true
return
}
}