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llcppsigfetch:refine log out

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This commit is contained in:
luoliwoshang
2024-10-22 15:21:49 +08:00
parent 72d176b77a
commit 3877dcf83a
1 changed files with 216 additions and 143 deletions
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359
chore/_xtool/llcppsigfetch/parse/cvt.go
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@@ -48,6 +48,7 @@ type Converter struct {
// Example:
// typedef struct { int x; } MyStruct;
anonyTypeMap map[string]bool // cursorUsr
indent int // for verbose debug
}
var tagMap = map[string]ast.Tag{
@@ -72,6 +73,7 @@ func NewConverter(config *clangutils.Config) (*Converter, error) {
log.Println("config.IsCpp", config.IsCpp)
log.Println("config.Temp", config.Temp)
}
index, unit, err := clangutils.CreateTranslationUnit(config)
if err != nil {
return nil, err
@@ -87,13 +89,8 @@ func NewConverter(config *clangutils.Config) (*Converter, error) {
}
func (ct *Converter) Dispose() {
if debugParse {
log.Println("Dispose: ct.index")
}
ct.logln("Dispose")
ct.index.Dispose()
if debugParse {
log.Println("Dispose: ct.unit")
}
ct.unit.Dispose()
}
@@ -118,74 +115,87 @@ func (ct *Converter) GetTokens(cursor clang.Cursor) []*ast.Token {
return result
}
func (ct *Converter) logBase() string {
return strings.Repeat(" ", ct.indent)
}
func (ct *Converter) incIndent() {
ct.indent++
}
func (ct *Converter) decIndent() {
if ct.indent > 0 {
ct.indent--
}
}
func (ct *Converter) logf(format string, args ...interface{}) {
if debugParse {
log.Printf(ct.logBase()+format, args...)
}
}
func (ct *Converter) logln(args ...interface{}) {
if debugParse {
if len(args) > 0 {
firstArg := fmt.Sprintf("%s%v", ct.logBase(), args[0])
log.Println(append([]interface{}{firstArg}, args[1:]...)...)
} else {
log.Println(ct.logBase())
}
}
}
func (ct *Converter) UpdateLoc(cursor clang.Cursor) {
loc := cursor.Location()
var file clang.File
loc.SpellingLocation(&file, nil, nil, nil)
filename := file.FileName()
defer filename.Dispose()
if filename.CStr() == nil {
filePath := toStr(file.FileName())
if filePath == "" {
//todo(zzy): For some built-in macros, there is no file.
ct.curLoc = ast.Location{File: ""}
return
}
filePath := c.GoString(filename.CStr())
ct.curLoc = ast.Location{File: filePath}
}
func (ct *Converter) GetCurFile() *ast.File {
if ct.curLoc.File == "" {
if debugParse {
log.Println("GetCurFile: NO FILE")
}
ct.logln("GetCurFile: NO FILE")
return nil
}
// todo(zzy): more efficient
for i, entry := range ct.Files {
if entry.Path == ct.curLoc.File {
if debugParse {
log.Println("GetCurFile: found", ct.curLoc.File)
}
ct.logln("GetCurFile: found", ct.curLoc.File)
return ct.Files[i].Doc
}
}
if debugParse {
log.Println("GetCurFile: Create New ast.File", ct.curLoc.File)
}
ct.logln("GetCurFile: Create New ast.File", ct.curLoc.File)
newDoc := &ast.File{}
ct.Files = append(ct.Files, &FileEntry{Path: ct.curLoc.File, Doc: newDoc})
return newDoc
}
func (ct *Converter) SetAnonyType(cursor clang.Cursor) {
usr := cursor.USR()
usrStr := c.GoString(usr.CStr())
defer usr.Dispose()
ct.anonyTypeMap[usrStr] = true
usr := toStr(cursor.USR())
ct.anonyTypeMap[usr] = true
}
func (ct *Converter) GetAnonyType(cursor clang.Cursor) (bool, bool) {
usr := cursor.USR()
usrStr := c.GoString(usr.CStr())
defer usr.Dispose()
isAnony, ok := ct.anonyTypeMap[usrStr]
usr := toStr(cursor.USR())
isAnony, ok := ct.anonyTypeMap[usr]
return isAnony, ok
}
func (ct *Converter) SetTypeDecl(cursor clang.Cursor, decl ast.Decl) {
usr := cursor.USR()
usrStr := c.GoString(usr.CStr())
ct.typeDecls[usrStr] = decl
usr.Dispose()
usr := toStr(cursor.USR())
ct.typeDecls[usr] = decl
}
func (ct *Converter) GetTypeDecl(cursor clang.Cursor) (ast.Decl, bool) {
usr := cursor.USR()
usrStr := c.GoString(usr.CStr())
decl, ok := ct.typeDecls[usrStr]
usr.Dispose()
usr := toStr(cursor.USR())
decl, ok := ct.typeDecls[usr]
return decl, ok
}
@@ -213,14 +223,13 @@ func (ct *Converter) CreateDeclBase(cursor clang.Cursor) ast.DeclBase {
// Note: In cases where both documentation comments and line comments conceptually exist,
// only the line comment will be preserved.
func (ct *Converter) ParseCommentGroup(cursor clang.Cursor) (comentGroup *ast.CommentGroup, isDoc bool) {
rawComment := cursor.RawCommentText()
defer rawComment.Dispose()
rawComment := toStr(cursor.RawCommentText())
commentGroup := &ast.CommentGroup{}
if rawComment.CStr() != nil {
if rawComment != "" {
commentRange := cursor.CommentRange()
cursorRange := cursor.Extent()
isDoc := getOffset(commentRange.RangeStart()) < getOffset(cursorRange.RangeStart())
commentGroup = ct.ParseComment(c.GoString(rawComment.CStr()))
commentGroup = ct.ParseComment(rawComment)
if len(commentGroup.List) > 0 {
return commentGroup, isDoc
}
@@ -239,15 +248,15 @@ func (ct *Converter) ParseComment(rawComment string) *ast.CommentGroup {
// visit top decls (struct,class,function,enum & macro,include)
func (ct *Converter) visitTop(cursor, parent clang.Cursor) clang.ChildVisitResult {
ct.incIndent()
defer ct.decIndent()
ct.UpdateLoc(cursor)
curFile := ct.GetCurFile()
if debugParse {
name := cursor.String()
defer name.Dispose()
log.Println("visitTop: Cursor:", c.GoString(name.CStr()))
}
name := toStr(cursor.String())
ct.logf("visitTop: Cursor: %s\n", name)
if curFile == nil {
return clang.ChildVisit_Continue
@@ -257,69 +266,57 @@ func (ct *Converter) visitTop(cursor, parent clang.Cursor) clang.ChildVisitResul
case clang.CursorInclusionDirective:
include := ct.ProcessInclude(cursor)
curFile.Includes = append(curFile.Includes, include)
if debugParse {
log.Println("visitTop: ProcessInclude END ", include.Path)
}
ct.logln("visitTop: ProcessInclude END ", include.Path)
case clang.CursorMacroDefinition:
macro := ct.ProcessMacro(cursor)
curFile.Macros = append(curFile.Macros, macro)
if debugParse {
log.Println("visitTop: ProcessMacro END ", macro.Name, "Tokens Length:", len(macro.Tokens))
}
ct.logln("visitTop: ProcessMacro END ", macro.Name, "Tokens Length:", len(macro.Tokens))
case clang.CursorEnumDecl:
enum := ct.ProcessEnumDecl(cursor)
curFile.Decls = append(curFile.Decls, enum)
if debugParse {
name := "anonymous"
if enum.Name != nil {
name = enum.Name.Name
}
log.Println("visitTop: ProcessEnumDecl END", name)
ct.logf("visitTop: ProcessEnumDecl END")
if enum.Name != nil {
ct.logln(enum.Name.Name)
} else {
ct.logln("ANONY")
}
case clang.CursorClassDecl:
classDecl := ct.ProcessClassDecl(cursor)
curFile.Decls = append(curFile.Decls, classDecl)
if debugParse {
name := "anonymous"
if classDecl.Name != nil {
name = classDecl.Name.Name
}
log.Println("visitTop: ProcessClassDecl END", name)
}
// class havent anonymous situation
ct.logln("visitTop: ProcessClassDecl END", classDecl.Name.Name)
case clang.CursorStructDecl:
structDecl := ct.ProcessStructDecl(cursor)
curFile.Decls = append(curFile.Decls, structDecl)
if debugParse {
name := "anonymous"
if structDecl.Name != nil {
name = structDecl.Name.Name
}
log.Println("visitTop: ProcessStructDecl END", name)
ct.logf("visitTop: ProcessStructDecl END")
if structDecl.Name != nil {
ct.logln(structDecl.Name.Name)
} else {
ct.logln("ANONY")
}
case clang.CursorUnionDecl:
unionDecl := ct.ProcessUnionDecl(cursor)
curFile.Decls = append(curFile.Decls, unionDecl)
if debugParse {
name := "anonymous"
if unionDecl.Name != nil {
name = unionDecl.Name.Name
}
log.Println("visitTop: ProcessUnionDecl END", name)
ct.logf("visitTop: ProcessUnionDecl END")
if unionDecl.Name != nil {
ct.logln(unionDecl.Name.Name)
} else {
ct.logln("ANONY")
}
case clang.CursorFunctionDecl, clang.CursorCXXMethod, clang.CursorConstructor, clang.CursorDestructor:
// Handle functions and class methods (including out-of-class method)
// Example: void MyClass::myMethod() { ... } out-of-class method
funcDecl := ct.ProcessFuncDecl(cursor)
curFile.Decls = append(curFile.Decls, funcDecl)
if debugParse {
log.Println("visitTop: ProcessFuncDecl END", funcDecl.Name.Name, funcDecl.MangledName, "isStatic:", funcDecl.IsStatic, "isInline:", funcDecl.IsInline)
}
ct.logln("visitTop: ProcessFuncDecl END", funcDecl.Name.Name, funcDecl.MangledName, "isStatic:", funcDecl.IsStatic, "isInline:", funcDecl.IsInline)
case clang.CursorTypedefDecl:
typedefDecl := ct.ProcessTypeDefDecl(cursor)
curFile.Decls = append(curFile.Decls, typedefDecl)
if debugParse {
log.Println("visitTop: ProcessTypeDefDecl END", typedefDecl.Name.Name)
}
ct.logln("visitTop: ProcessTypeDefDecl END", typedefDecl.Name.Name)
case clang.CursorNamespace:
VisitChildren(cursor, ct.visitTop)
}
@@ -343,6 +340,12 @@ func VisitChildren(cursor clang.Cursor, fn Visitor) c.Uint {
}
func (ct *Converter) ProcessType(t clang.Type) ast.Expr {
ct.incIndent()
defer ct.decIndent()
typeName, typeKind := getTypeDesc(t)
ct.logln("ProcessType: TypeName:", typeName, "TypeKind:", typeKind)
if t.Kind >= clang.TypeFirstBuiltin && t.Kind <= clang.TypeLastBuiltin {
return ct.ProcessBuiltinType(t)
}
@@ -354,14 +357,22 @@ func (ct *Converter) ProcessType(t clang.Type) ast.Expr {
var expr ast.Expr
switch t.Kind {
case clang.TypePointer:
name, kind := getTypeDesc(t.PointeeType())
ct.logln("ProcessType: PointerType Pointee TypeName:", name, "TypeKind:", kind)
expr = &ast.PointerType{X: ct.ProcessType(t.PointeeType())}
case clang.TypeLValueReference:
name, kind := getTypeDesc(t.NonReferenceType())
ct.logln("ProcessType: LvalueRefType NonReference TypeName:", name, "TypeKind:", kind)
expr = &ast.LvalueRefType{X: ct.ProcessType(t.NonReferenceType())}
case clang.TypeRValueReference:
name, kind := getTypeDesc(t.NonReferenceType())
ct.logln("ProcessType: RvalueRefType NonReference TypeName:", name, "TypeKind:", kind)
expr = &ast.RvalueRefType{X: ct.ProcessType(t.NonReferenceType())}
case clang.TypeFunctionProto, clang.TypeFunctionNoProto:
// treating TypeFunctionNoProto as a general function without parameters
// function type will only collect return type, params will be collected in ProcessFuncDecl
name, kind := getTypeDesc(t)
ct.logln("ProcessType: FunctionType TypeName:", name, "TypeKind:", kind)
expr = ct.ProcessFunctionType(t)
case clang.TypeConstantArray, clang.TypeIncompleteArray, clang.TypeVariableArray, clang.TypeDependentSizedArray:
if t.Kind == clang.TypeConstantArray {
@@ -378,6 +389,9 @@ func (ct *Converter) ProcessType(t clang.Type) ast.Expr {
Elt: ct.ProcessType(t.ArrayElementType()),
}
}
default:
name, kind := getTypeDesc(t)
ct.logln("ProcessType: Unknown Type TypeName:", name, "TypeKind:", kind)
}
return expr
}
@@ -386,11 +400,19 @@ func (ct *Converter) ProcessType(t clang.Type) ast.Expr {
// This is because we cannot reverse-lookup the corresponding declaration node from a function type.
// Note: For function declarations, parameter names are collected in the ProcessFuncDecl method.
func (ct *Converter) ProcessFunctionType(t clang.Type) *ast.FuncType {
ct.incIndent()
defer ct.decIndent()
typeName, typeKind := getTypeDesc(t)
ct.logln("ProcessFunctionType: TypeName:", typeName, "TypeKind:", typeKind)
// Note: Attempting to get the type declaration for a function type will result in CursorNoDeclFound
// cursor := t.TypeDeclaration()
// This would return CursorNoDeclFound
resType := t.ResultType()
ret := ct.ProcessType(t.ResultType())
name, kind := getTypeDesc(resType)
ct.logln("ProcessFunctionType: ResultType TypeName:", name, "TypeKind:", kind)
ret := ct.ProcessType(resType)
params := &ast.FieldList{}
numArgs := t.NumArgTypes()
for i := 0; i < int(numArgs); i++ {
@@ -412,14 +434,16 @@ func (ct *Converter) ProcessFunctionType(t clang.Type) *ast.FuncType {
}
func (ct *Converter) ProcessTypeDefDecl(cursor clang.Cursor) *ast.TypedefDecl {
name := cursor.String()
defer name.Dispose()
ct.incIndent()
defer ct.decIndent()
name, kind := getCursorDesc(cursor)
ct.logln("ProcessTypeDefDecl: CursorName:", name, "CursorKind:", kind)
typ := ct.ProcessUnderlyingType(cursor)
decl := &ast.TypedefDecl{
DeclBase: ct.CreateDeclBase(cursor),
Name: &ast.Ident{Name: c.GoString(name.CStr())},
Name: &ast.Ident{Name: name},
Type: typ,
}
@@ -432,9 +456,7 @@ func (ct *Converter) ProcessUnderlyingType(cursor clang.Cursor) ast.Expr {
underlyingTyp := cursor.TypedefDeclUnderlyingType()
if underlyingTyp.Kind != clang.TypeElaborated {
if debugParse {
log.Println("ProcessUnderlyingType: not elaborated")
}
ct.logln("ProcessUnderlyingType: not elaborated")
return ct.ProcessType(underlyingTyp)
}
@@ -447,9 +469,7 @@ func (ct *Converter) ProcessUnderlyingType(cursor clang.Cursor) ast.Expr {
// In this case, libclang incorrectly reports an anonymous struct as a named struct
sourceCode := ct.GetTokens(referTypeCursor)
if isAnonymousStructure(sourceCode) {
if debugParse {
log.Println("ProcessUnderlyingType: is anonymous structure")
}
ct.logln("ProcessUnderlyingType: is anonymous structure")
ct.SetAnonyType(referTypeCursor)
typ, isValidType := ct.GetTypeDecl(referTypeCursor)
if isValidType {
@@ -457,15 +477,11 @@ func (ct *Converter) ProcessUnderlyingType(cursor clang.Cursor) ast.Expr {
// according to a normal anonymous decl
switch declType := typ.(type) {
case *ast.EnumTypeDecl:
if debugParse {
log.Println("ProcessUnderlyingType: is actually anonymous enum,remove name")
}
ct.logln("ProcessUnderlyingType: is actually anonymous enum,remove name")
declType.Name = nil
case *ast.TypeDecl:
if declType.Type.Tag != ast.Class {
if debugParse {
log.Println("ProcessUnderlyingType: is actually anonymous struct,remove name")
}
ct.logln("ProcessUnderlyingType: is actually anonymous struct,remove name")
declType.Name = nil
} else {
// Unreachable: There should be no anonymous classes in this context
@@ -484,35 +500,30 @@ func (ct *Converter) ProcessUnderlyingType(cursor clang.Cursor) ast.Expr {
// converts functions, methods, constructors, destructors (including out-of-class decl) to ast.FuncDecl nodes.
func (ct *Converter) ProcessFuncDecl(cursor clang.Cursor) *ast.FuncDecl {
name := cursor.String()
mangledName := cursor.Mangling()
defer name.Dispose()
defer mangledName.Dispose()
ct.incIndent()
defer ct.decIndent()
name, kind := getCursorDesc(cursor)
mangledName := toStr(cursor.Mangling())
ct.logln("ProcessFuncDecl: CursorName:", name, "CursorKind:", kind)
// function type will only collect return type
// ProcessType can't get the field names,will collect in follows
if debugParse {
log.Println("ProcessFuncDecl: Get Base FuncType")
}
funcType, ok := ct.ProcessType(cursor.Type()).(*ast.FuncType)
if !ok {
fmt.Println("failed to process function type")
ct.logln("ProcessFuncDecl: failed to process function type")
return nil
}
if debugParse {
log.Println("ProcessFuncDecl: ProcessFieldList")
}
ct.logln("ProcessFuncDecl: ProcessFieldList")
params := ct.ProcessFieldList(cursor)
funcType.Params = params
mangledNameStr := c.GoString(mangledName.CStr())
mangledNameStr = strings.TrimLeft(mangledNameStr, "_")
mangledName = strings.TrimLeft(mangledName, "_")
funcDecl := &ast.FuncDecl{
DeclBase: ct.CreateDeclBase(cursor),
Name: &ast.Ident{Name: c.GoString(name.CStr())},
Name: &ast.Ident{Name: name},
Type: funcType,
MangledName: mangledNameStr,
MangledName: mangledName,
}
if cursor.IsFunctionInlined() != 0 {
@@ -520,9 +531,7 @@ func (ct *Converter) ProcessFuncDecl(cursor clang.Cursor) *ast.FuncDecl {
}
if isMethod(cursor) {
if debugParse {
log.Println("ProcessFuncDecl: is method, ProcessMethodAttributes")
}
ct.logln("ProcessFuncDecl: is method, ProcessMethodAttributes")
ct.ProcessMethodAttributes(cursor, funcDecl)
} else {
if cursor.StorageClass() == clang.SCStatic {
@@ -599,12 +608,11 @@ func (ct *Converter) ProcessEnumType(cursor clang.Cursor) *ast.EnumType {
}
func (ct *Converter) ProcessEnumDecl(cursor clang.Cursor) *ast.EnumTypeDecl {
name := cursor.String()
defer name.Dispose()
name := toStr(cursor.String())
decl := &ast.EnumTypeDecl{
DeclBase: ct.CreateDeclBase(cursor),
Name: &ast.Ident{Name: c.GoString(name.CStr())},
Name: &ast.Ident{Name: name},
Type: ct.ProcessEnumType(cursor),
}
ct.SetTypeDecl(cursor, decl)
@@ -613,20 +621,18 @@ func (ct *Converter) ProcessEnumDecl(cursor clang.Cursor) *ast.EnumTypeDecl {
// current only collect macro which defined in file
func (ct *Converter) ProcessMacro(cursor clang.Cursor) *ast.Macro {
name := cursor.String()
defer name.Dispose()
name := toStr(cursor.String())
macro := &ast.Macro{
Name: c.GoString(name.CStr()),
Name: name,
Tokens: ct.GetTokens(cursor),
}
return macro
}
func (ct *Converter) ProcessInclude(cursor clang.Cursor) *ast.Include {
name := cursor.String()
defer name.Dispose()
return &ast.Include{Path: c.GoString(name.CStr())}
name := toStr(cursor.String())
return &ast.Include{Path: name}
}
// todo(zzy): after https://github.com/goplus/llgo/issues/804 has be resolved
@@ -637,11 +643,19 @@ type visitFieldContext struct {
}
func (p *visitFieldContext) createBaseField(cursor clang.Cursor) *ast.Field {
p.converter.incIndent()
defer p.converter.decIndent()
fieldName := toStr(cursor.String())
typ := cursor.Type()
typeName, typeKind := getTypeDesc(typ)
p.converter.logf("createBaseField: ProcessType %s TypeKind: %s", typeName, typeKind)
field := &ast.Field{
Type: p.converter.ProcessType(cursor.Type()),
Type: p.converter.ProcessType(typ),
}
fieldName := cursor.String()
defer fieldName.Dispose()
commentGroup, isDoc := p.converter.ParseCommentGroup(cursor)
if commentGroup != nil {
@@ -651,8 +665,8 @@ func (p *visitFieldContext) createBaseField(cursor clang.Cursor) *ast.Field {
field.Comment = commentGroup
}
}
if name := fieldName.CStr(); name != nil {
field.Names = []*ast.Ident{{Name: c.GoString(name)}}
if fieldName != "" {
field.Names = []*ast.Ident{{Name: fieldName}}
}
return field
}
@@ -668,6 +682,12 @@ func visitFieldList(cursor, parent clang.Cursor, clientData unsafe.Pointer) clan
// struct A {
// int a, b;
// };
if cursor.Kind == clang.CursorFieldDecl {
ctx.converter.logln("visitFieldList: CursorFieldDecl")
} else {
ctx.converter.logln("visitFieldList: CursorParmDecl")
}
field := ctx.createBaseField(cursor)
if cursor.Kind == clang.CursorFieldDecl {
field.Access = ast.AccessSpecifier(cursor.CXXAccessSpecifier())
@@ -690,11 +710,15 @@ func visitFieldList(cursor, parent clang.Cursor, clientData unsafe.Pointer) clan
// For Record Type(struct,union ...) & Func 's FieldList
func (ct *Converter) ProcessFieldList(cursor clang.Cursor) *ast.FieldList {
ct.incIndent()
defer ct.decIndent()
params := &ast.FieldList{}
ctx := &visitFieldContext{
params: params,
converter: ct,
}
ct.logln("ProcessFieldList: VisitChildren")
clang.VisitChildren(cursor, visitFieldList, c.Pointer(ctx))
if (cursor.Kind == clang.CursorFunctionDecl || isMethod(cursor)) && cursor.IsVariadic() != 0 {
params.List = append(params.List, &ast.Field{
@@ -732,12 +756,18 @@ func (ct *Converter) ProcessMethods(cursor clang.Cursor) []*ast.FuncDecl {
}
func (ct *Converter) ProcessRecordDecl(cursor clang.Cursor) *ast.TypeDecl {
ct.incIndent()
defer ct.decIndent()
cursorName, cursorKind := getCursorDesc(cursor)
ct.logln("ProcessRecordDecl: CursorName:", cursorName, "CursorKind:", cursorKind)
anony := cursor.IsAnonymousRecordDecl()
var name *ast.Ident
if anony == 0 {
cursorName := cursor.String()
defer cursorName.Dispose()
name = &ast.Ident{Name: c.GoString(cursorName.CStr())}
name = &ast.Ident{Name: cursorName}
ct.logln("ProcessRecordDecl: has name", cursorName)
} else {
ct.logln("ProcessRecordDecl: is anonymous")
}
decl := &ast.TypeDecl{
@@ -759,6 +789,9 @@ func (ct *Converter) ProcessUnionDecl(cursor clang.Cursor) *ast.TypeDecl {
}
func (ct *Converter) ProcessClassDecl(cursor clang.Cursor) *ast.TypeDecl {
cursorName, cursorKind := getCursorDesc(cursor)
ct.logln("ProcessClassDecl: CursorName:", cursorName, "CursorKind:", cursorKind)
// Pushing class scope before processing its type and popping after
base := ct.CreateDeclBase(cursor)
typ := ct.ProcessRecordType(cursor)
@@ -768,15 +801,31 @@ func (ct *Converter) ProcessClassDecl(cursor clang.Cursor) *ast.TypeDecl {
Name: &ast.Ident{Name: c.GoString(cursor.String().CStr())},
Type: typ,
}
ct.SetTypeDecl(cursor, decl)
return decl
}
func (ct *Converter) ProcessRecordType(cursor clang.Cursor) *ast.RecordType {
ct.incIndent()
defer ct.decIndent()
cursorName, cursorKind := getCursorDesc(cursor)
ct.logln("ProcessRecordType: CursorName:", cursorName, "CursorKind:", cursorKind)
tag := toTag(cursor.Kind)
ct.logln("ProcessRecordType: toTag", tag)
ct.logln("ProcessRecordType: ProcessFieldList")
fields := ct.ProcessFieldList(cursor)
ct.logln("ProcessRecordType: ProcessMethods")
methods := ct.ProcessMethods(cursor)
return &ast.RecordType{
Tag: toTag(cursor.Kind),
Fields: ct.ProcessFieldList(cursor),
Methods: ct.ProcessMethods(cursor),
Tag: tag,
Fields: fields,
Methods: methods,
}
}
@@ -790,8 +839,10 @@ func (ct *Converter) ProcessRecordType(cursor clang.Cursor) *ast.RecordType {
// - Examples: struct { int x; int y; }, union { int a; float b; }
// - Handling: Retrieve their corresponding concrete types
func (ct *Converter) ProcessElaboratedType(t clang.Type) ast.Expr {
name := t.String()
defer name.Dispose()
ct.incIndent()
defer ct.decIndent()
typeName, typeKind := getTypeDesc(t)
ct.logln("ProcessElaboratedType: TypeName:", typeName, "TypeKind:", typeKind)
decl := t.TypeDeclaration()
isAnony, ok := ct.GetAnonyType(decl)
@@ -804,8 +855,6 @@ func (ct *Converter) ProcessElaboratedType(t clang.Type) ast.Expr {
return ct.ProcessRecordType(decl)
}
typeName := c.GoString(name.CStr())
// for elaborated type, it could have a tag description
// like struct A, union B, class C, enum D
parts := strings.SplitN(typeName, " ", 2)
@@ -822,6 +871,11 @@ func (ct *Converter) ProcessElaboratedType(t clang.Type) ast.Expr {
}
func (ct *Converter) ProcessBuiltinType(t clang.Type) *ast.BuiltinType {
ct.incIndent()
defer ct.decIndent()
typeName, typeKind := getTypeDesc(t)
ct.logln("ProcessBuiltinType: TypeName:", typeName, "TypeKind:", typeKind)
kind := ast.Void
var flags ast.TypeFlag
@@ -874,9 +928,8 @@ func (ct *Converter) ProcessBuiltinType(t clang.Type) *ast.BuiltinType {
// float complfex flag is not set
default:
// like IBM128,NullPtr,Accum
kindStr := t.Kind.String()
defer kindStr.Dispose()
fmt.Fprintln(os.Stderr, "todo: unknown builtin type:", c.GoString(kindStr.CStr()))
kindStr := toStr(t.Kind.String())
fmt.Fprintln(os.Stderr, "todo: unknown builtin type:", kindStr)
}
if IsExplicitSigned(t) {
@@ -983,3 +1036,23 @@ func isAnonymousStructure(sourceCode []*ast.Token) bool {
sourceCode[1].Token == token.PUNCT &&
sourceCode[1].Lit == "{"
}
func toStr(clangStr clang.String) (str string) {
defer clangStr.Dispose()
if clangStr.CStr() != nil {
str = c.GoString(clangStr.CStr())
}
return
}
func getTypeDesc(t clang.Type) (name string, kind string) {
name = toStr(t.String())
kind = toStr(t.Kind.String())
return
}
func getCursorDesc(cursor clang.Cursor) (name string, kind string) {
name = toStr(cursor.String())
kind = toStr(cursor.Kind.String())
return
}