package cgo // This file parses a fragment of C with libclang and stores the result for AST // modification. It does not touch the AST itself. import ( "fmt" "go/ast" "go/scanner" "go/token" "path/filepath" "strconv" "strings" "unsafe" ) /* #include // if this fails, install libclang-10-dev #include #include // This struct should be ABI-compatible on all platforms (uintptr_t has the same // alignment etc. as void*) but does not include void* pointers that are not // always real pointers. // The Go garbage collector assumes that all non-nil pointer-typed integers are // actually pointers. This is not always true, as data[1] often contains 0x1, // which is clearly not a valid pointer. Usually the GC won't catch this issue, // but occasionally it will leading to a crash with a vague error message. typedef struct { enum CXCursorKind kind; int xdata; uintptr_t data[3]; } GoCXCursor; // Forwarding functions. They are implemented in libclang_stubs.c and forward to // the real functions without doing anything else, thus they are entirely // compatible with the versions without tinygo_ prefix. The only difference is // the CXCursor type, which has been replaced with GoCXCursor. GoCXCursor tinygo_clang_getTranslationUnitCursor(CXTranslationUnit tu); unsigned tinygo_clang_visitChildren(GoCXCursor parent, CXCursorVisitor visitor, CXClientData client_data); CXString tinygo_clang_getCursorSpelling(GoCXCursor c); enum CXCursorKind tinygo_clang_getCursorKind(GoCXCursor c); CXType tinygo_clang_getCursorType(GoCXCursor c); GoCXCursor tinygo_clang_getTypeDeclaration(CXType t); CXType tinygo_clang_getTypedefDeclUnderlyingType(GoCXCursor c); CXType tinygo_clang_getCursorResultType(GoCXCursor c); int tinygo_clang_Cursor_getNumArguments(GoCXCursor c); GoCXCursor tinygo_clang_Cursor_getArgument(GoCXCursor c, unsigned i); CXSourceLocation tinygo_clang_getCursorLocation(GoCXCursor c); CXSourceRange tinygo_clang_getCursorExtent(GoCXCursor c); CXTranslationUnit tinygo_clang_Cursor_getTranslationUnit(GoCXCursor c); long long tinygo_clang_getEnumConstantDeclValue(GoCXCursor c); CXType tinygo_clang_getEnumDeclIntegerType(GoCXCursor c); unsigned tinygo_clang_Cursor_isBitField(GoCXCursor c); int tinygo_clang_globals_visitor(GoCXCursor c, GoCXCursor parent, CXClientData client_data); int tinygo_clang_struct_visitor(GoCXCursor c, GoCXCursor parent, CXClientData client_data); int tinygo_clang_enum_visitor(GoCXCursor c, GoCXCursor parent, CXClientData client_data); */ import "C" // storedRefs stores references to types, used for clang_visitChildren. var storedRefs refMap var diagnosticSeverity = [...]string{ C.CXDiagnostic_Ignored: "ignored", C.CXDiagnostic_Note: "note", C.CXDiagnostic_Warning: "warning", C.CXDiagnostic_Error: "error", C.CXDiagnostic_Fatal: "fatal", } func (p *cgoPackage) parseFragment(fragment string, cflags []string, posFilename string, posLine int) { index := C.clang_createIndex(0, 0) defer C.clang_disposeIndex(index) // pretend to be a .c file filenameC := C.CString(posFilename + "!cgo.c") defer C.free(unsafe.Pointer(filenameC)) // fix up error locations fragment = fmt.Sprintf("# %d %#v\n", posLine+1, posFilename) + fragment fragmentC := C.CString(fragment) defer C.free(unsafe.Pointer(fragmentC)) unsavedFile := C.struct_CXUnsavedFile{ Filename: filenameC, Length: C.ulong(len(fragment)), Contents: fragmentC, } // convert Go slice of strings to C array of strings. cmdargsC := C.malloc(C.size_t(len(cflags)) * C.size_t(unsafe.Sizeof(uintptr(0)))) defer C.free(cmdargsC) cmdargs := (*[1 << 16]*C.char)(cmdargsC) for i, cflag := range cflags { s := C.CString(cflag) cmdargs[i] = s defer C.free(unsafe.Pointer(s)) } var unit C.CXTranslationUnit errCode := C.clang_parseTranslationUnit2( index, filenameC, (**C.char)(cmdargsC), C.int(len(cflags)), // command line args &unsavedFile, 1, // unsaved files C.CXTranslationUnit_DetailedPreprocessingRecord, &unit) if errCode != 0 { // This is probably a bug in the usage of libclang. panic("cgo: failed to parse source with libclang") } defer C.clang_disposeTranslationUnit(unit) if numDiagnostics := int(C.clang_getNumDiagnostics(unit)); numDiagnostics != 0 { addDiagnostic := func(diagnostic C.CXDiagnostic) { spelling := getString(C.clang_getDiagnosticSpelling(diagnostic)) severity := diagnosticSeverity[C.clang_getDiagnosticSeverity(diagnostic)] location := C.clang_getDiagnosticLocation(diagnostic) pos := p.getClangLocationPosition(location, unit) p.addError(pos, severity+": "+spelling) } for i := 0; i < numDiagnostics; i++ { diagnostic := C.clang_getDiagnostic(unit, C.uint(i)) addDiagnostic(diagnostic) // Child diagnostics (like notes on redefinitions). diagnostics := C.clang_getChildDiagnostics(diagnostic) for j := 0; j < int(C.clang_getNumDiagnosticsInSet(diagnostics)); j++ { addDiagnostic(C.clang_getDiagnosticInSet(diagnostics, C.uint(j))) } } } ref := storedRefs.Put(p) defer storedRefs.Remove(ref) cursor := C.tinygo_clang_getTranslationUnitCursor(unit) C.tinygo_clang_visitChildren(cursor, C.CXCursorVisitor(C.tinygo_clang_globals_visitor), C.CXClientData(ref)) } //export tinygo_clang_globals_visitor func tinygo_clang_globals_visitor(c, parent C.GoCXCursor, client_data C.CXClientData) C.int { p := storedRefs.Get(unsafe.Pointer(client_data)).(*cgoPackage) kind := C.tinygo_clang_getCursorKind(c) pos := p.getCursorPosition(c) switch kind { case C.CXCursor_FunctionDecl: name := getString(C.tinygo_clang_getCursorSpelling(c)) if _, required := p.missingSymbols[name]; !required { return C.CXChildVisit_Continue } cursorType := C.tinygo_clang_getCursorType(c) if C.clang_isFunctionTypeVariadic(cursorType) != 0 { return C.CXChildVisit_Continue // not supported } numArgs := int(C.tinygo_clang_Cursor_getNumArguments(c)) fn := &functionInfo{ pos: pos, } p.functions[name] = fn for i := 0; i < numArgs; i++ { arg := C.tinygo_clang_Cursor_getArgument(c, C.uint(i)) argName := getString(C.tinygo_clang_getCursorSpelling(arg)) argType := C.clang_getArgType(cursorType, C.uint(i)) if argName == "" { argName = "$" + strconv.Itoa(i) } fn.args = append(fn.args, paramInfo{ name: argName, typeExpr: p.makeASTType(argType, pos), }) } resultType := C.tinygo_clang_getCursorResultType(c) if resultType.kind != C.CXType_Void { fn.results = &ast.FieldList{ List: []*ast.Field{ &ast.Field{ Type: p.makeASTType(resultType, pos), }, }, } } case C.CXCursor_StructDecl: typ := C.tinygo_clang_getCursorType(c) name := getString(C.tinygo_clang_getCursorSpelling(c)) if _, required := p.missingSymbols["struct_"+name]; !required { return C.CXChildVisit_Continue } p.makeASTType(typ, pos) case C.CXCursor_TypedefDecl: typedefType := C.tinygo_clang_getCursorType(c) name := getString(C.clang_getTypedefName(typedefType)) if _, required := p.missingSymbols[name]; !required { return C.CXChildVisit_Continue } p.makeASTType(typedefType, pos) case C.CXCursor_VarDecl: name := getString(C.tinygo_clang_getCursorSpelling(c)) if _, required := p.missingSymbols[name]; !required { return C.CXChildVisit_Continue } cursorType := C.tinygo_clang_getCursorType(c) p.globals[name] = globalInfo{ typeExpr: p.makeASTType(cursorType, pos), pos: pos, } case C.CXCursor_MacroDefinition: name := getString(C.tinygo_clang_getCursorSpelling(c)) if _, required := p.missingSymbols[name]; !required { return C.CXChildVisit_Continue } sourceRange := C.tinygo_clang_getCursorExtent(c) start := C.clang_getRangeStart(sourceRange) end := C.clang_getRangeEnd(sourceRange) var file, endFile C.CXFile var startOffset, endOffset C.unsigned C.clang_getExpansionLocation(start, &file, nil, nil, &startOffset) if file == nil { p.addError(pos, "internal error: could not find file where macro is defined") break } C.clang_getExpansionLocation(end, &endFile, nil, nil, &endOffset) if file != endFile { p.addError(pos, "internal error: expected start and end location of a macro to be in the same file") break } if startOffset > endOffset { p.addError(pos, "internal error: start offset of macro is after end offset") break } // read file contents and extract the relevant byte range tu := C.tinygo_clang_Cursor_getTranslationUnit(c) var size C.size_t sourcePtr := C.clang_getFileContents(tu, file, &size) if endOffset >= C.uint(size) { p.addError(pos, "internal error: end offset of macro lies after end of file") break } source := string(((*[1 << 28]byte)(unsafe.Pointer(sourcePtr)))[startOffset:endOffset:endOffset]) if !strings.HasPrefix(source, name) { p.addError(pos, fmt.Sprintf("internal error: expected macro value to start with %#v, got %#v", name, source)) break } value := source[len(name):] // Try to convert this #define into a Go constant expression. expr, scannerError := parseConst(pos+token.Pos(len(name)), p.fset, value) if scannerError != nil { p.errors = append(p.errors, *scannerError) } if expr != nil { // Parsing was successful. p.constants[name] = constantInfo{expr, pos} } case C.CXCursor_EnumDecl: // Visit all enums, because the fields may be used even when the enum // type itself is not. typ := C.tinygo_clang_getCursorType(c) p.makeASTType(typ, pos) } return C.CXChildVisit_Continue } func getString(clangString C.CXString) (s string) { rawString := C.clang_getCString(clangString) s = C.GoString(rawString) C.clang_disposeString(clangString) return } // getCursorPosition returns a usable token.Pos from a libclang cursor. func (p *cgoPackage) getCursorPosition(cursor C.GoCXCursor) token.Pos { return p.getClangLocationPosition(C.tinygo_clang_getCursorLocation(cursor), C.tinygo_clang_Cursor_getTranslationUnit(cursor)) } // getClangLocationPosition returns a usable token.Pos based on a libclang // location and translation unit. If the file for this cursor has not been seen // before, it is read from libclang (which already has the file in memory) and // added to the token.FileSet. func (p *cgoPackage) getClangLocationPosition(location C.CXSourceLocation, tu C.CXTranslationUnit) token.Pos { var file C.CXFile var line C.unsigned var column C.unsigned var offset C.unsigned C.clang_getExpansionLocation(location, &file, &line, &column, &offset) if line == 0 || file == nil { // Invalid token. return token.NoPos } filename := getString(C.clang_getFileName(file)) if _, ok := p.tokenFiles[filename]; !ok { // File has not been seen before in this package, add line information // now by reading the file from libclang. var size C.size_t sourcePtr := C.clang_getFileContents(tu, file, &size) source := ((*[1 << 28]byte)(unsafe.Pointer(sourcePtr)))[:size:size] lines := []int{0} for i := 0; i < len(source)-1; i++ { if source[i] == '\n' { lines = append(lines, i+1) } } f := p.fset.AddFile(filename, -1, int(size)) f.SetLines(lines) p.tokenFiles[filename] = f } positionFile := p.tokenFiles[filename] // Check for alternative line/column information (set with a line directive). var filename2String C.CXString var line2 C.unsigned var column2 C.unsigned C.clang_getPresumedLocation(location, &filename2String, &line2, &column2) filename2 := getString(filename2String) if filename2 != filename || line2 != line || column2 != column { // The location was changed with a preprocessor directive. // TODO: this only works for locations that are added in order. Adding // line/column info to a file that already has line/column info after // the given offset is ignored. positionFile.AddLineColumnInfo(int(offset), filename2, int(line2), int(column2)) } return positionFile.Pos(int(offset)) } // addError is a utility function to add an error to the list of errors. It will // convert the token position to a line/column position first, and call // addErrorAt. func (p *cgoPackage) addError(pos token.Pos, msg string) { p.addErrorAt(p.fset.PositionFor(pos, true), msg) } // addErrorAfter is like addError, but adds the text `after` to the source // location. func (p *cgoPackage) addErrorAfter(pos token.Pos, after, msg string) { position := p.fset.PositionFor(pos, true) lines := strings.Split(after, "\n") if len(lines) != 1 { // Adjust lines. // For why we can't just do pos+token.Pos(len(after)), see: // https://github.com/golang/go/issues/35803 position.Line += len(lines) - 1 position.Column = len(lines[len(lines)-1]) + 1 } else { position.Column += len(after) } p.addErrorAt(position, msg) } // addErrorAt is a utility function to add an error to the list of errors. func (p *cgoPackage) addErrorAt(position token.Position, msg string) { if filepath.IsAbs(position.Filename) { // Relative paths for readability, like other Go parser errors. relpath, err := filepath.Rel(p.dir, position.Filename) if err == nil { position.Filename = relpath } } p.errors = append(p.errors, scanner.Error{ Pos: position, Msg: msg, }) } // makeASTType return the ast.Expr for the given libclang type. In other words, // it converts a libclang type to a type in the Go AST. func (p *cgoPackage) makeASTType(typ C.CXType, pos token.Pos) ast.Expr { var typeName string switch typ.kind { case C.CXType_Char_S, C.CXType_Char_U: typeName = "C.char" case C.CXType_SChar: typeName = "C.schar" case C.CXType_UChar: typeName = "C.uchar" case C.CXType_Short: typeName = "C.short" case C.CXType_UShort: typeName = "C.ushort" case C.CXType_Int: typeName = "C.int" case C.CXType_UInt: typeName = "C.uint" case C.CXType_Long: typeName = "C.long" case C.CXType_ULong: typeName = "C.ulong" case C.CXType_LongLong: typeName = "C.longlong" case C.CXType_ULongLong: typeName = "C.ulonglong" case C.CXType_Bool: typeName = "bool" case C.CXType_Float, C.CXType_Double, C.CXType_LongDouble: switch C.clang_Type_getSizeOf(typ) { case 4: typeName = "float32" case 8: typeName = "float64" default: // Don't do anything, rely on the fallback code to show a somewhat // sensible error message like "undeclared name: C.long double". } case C.CXType_Complex: switch C.clang_Type_getSizeOf(typ) { case 8: typeName = "complex64" case 16: typeName = "complex128" } case C.CXType_Pointer: pointeeType := C.clang_getPointeeType(typ) if pointeeType.kind == C.CXType_Void { // void* type is translated to Go as unsafe.Pointer return &ast.SelectorExpr{ X: &ast.Ident{ NamePos: pos, Name: "unsafe", }, Sel: &ast.Ident{ NamePos: pos, Name: "Pointer", }, } } return &ast.StarExpr{ Star: pos, X: p.makeASTType(pointeeType, pos), } case C.CXType_ConstantArray: return &ast.ArrayType{ Lbrack: pos, Len: &ast.BasicLit{ ValuePos: pos, Kind: token.INT, Value: strconv.FormatInt(int64(C.clang_getArraySize(typ)), 10), }, Elt: p.makeASTType(C.clang_getElementType(typ), pos), } case C.CXType_FunctionProto: // Be compatible with gc, which uses the *[0]byte type for function // pointer types. // Return type [0]byte because this is a function type, not a pointer to // this function type. return &ast.ArrayType{ Lbrack: pos, Len: &ast.BasicLit{ ValuePos: pos, Kind: token.INT, Value: "0", }, Elt: &ast.Ident{ NamePos: pos, Name: "byte", }, } case C.CXType_Typedef: name := getString(C.clang_getTypedefName(typ)) if _, ok := p.typedefs[name]; !ok { p.typedefs[name] = nil // don't recurse c := C.tinygo_clang_getTypeDeclaration(typ) underlyingType := C.tinygo_clang_getTypedefDeclUnderlyingType(c) expr := p.makeASTType(underlyingType, pos) if strings.HasPrefix(name, "_Cgo_") { expr := expr.(*ast.Ident) typeSize := C.clang_Type_getSizeOf(underlyingType) switch expr.Name { case "C.char": if typeSize != 1 { // This happens for some very special purpose architectures // (DSPs etc.) that are not currently targeted. // https://www.embecosm.com/2017/04/18/non-8-bit-char-support-in-clang-and-llvm/ p.addError(pos, fmt.Sprintf("unknown char width: %d", typeSize)) } switch underlyingType.kind { case C.CXType_Char_S: expr.Name = "int8" case C.CXType_Char_U: expr.Name = "uint8" } case "C.schar", "C.short", "C.int", "C.long", "C.longlong": switch typeSize { case 1: expr.Name = "int8" case 2: expr.Name = "int16" case 4: expr.Name = "int32" case 8: expr.Name = "int64" } case "C.uchar", "C.ushort", "C.uint", "C.ulong", "C.ulonglong": switch typeSize { case 1: expr.Name = "uint8" case 2: expr.Name = "uint16" case 4: expr.Name = "uint32" case 8: expr.Name = "uint64" } } } p.typedefs[name] = &typedefInfo{ typeExpr: expr, pos: pos, } } return &ast.Ident{ NamePos: pos, Name: "C." + name, } case C.CXType_Elaborated: underlying := C.clang_Type_getNamedType(typ) switch underlying.kind { case C.CXType_Record: return p.makeASTType(underlying, pos) case C.CXType_Enum: return p.makeASTType(underlying, pos) default: typeKindSpelling := getString(C.clang_getTypeKindSpelling(underlying.kind)) p.addError(pos, fmt.Sprintf("unknown elaborated type (libclang type kind %s)", typeKindSpelling)) typeName = "" } case C.CXType_Record: cursor := C.tinygo_clang_getTypeDeclaration(typ) name := getString(C.tinygo_clang_getCursorSpelling(cursor)) var cgoRecordPrefix string switch C.tinygo_clang_getCursorKind(cursor) { case C.CXCursor_StructDecl: cgoRecordPrefix = "struct_" case C.CXCursor_UnionDecl: cgoRecordPrefix = "union_" default: // makeASTRecordType will create an appropriate error. cgoRecordPrefix = "record_" } if name == "" { // Anonymous record, probably inside a typedef. typeInfo := p.makeASTRecordType(cursor, pos) if typeInfo.bitfields != nil || typeInfo.unionSize != 0 { // This record is a union or is a struct with bitfields, so we // have to declare it as a named type (for getters/setters to // work). p.anonStructNum++ cgoName := cgoRecordPrefix + strconv.Itoa(p.anonStructNum) p.elaboratedTypes[cgoName] = typeInfo return &ast.Ident{ NamePos: pos, Name: "C." + cgoName, } } return typeInfo.typeExpr } else { cgoName := cgoRecordPrefix + name if _, ok := p.elaboratedTypes[cgoName]; !ok { p.elaboratedTypes[cgoName] = nil // predeclare (to avoid endless recursion) p.elaboratedTypes[cgoName] = p.makeASTRecordType(cursor, pos) } return &ast.Ident{ NamePos: pos, Name: "C." + cgoName, } } case C.CXType_Enum: cursor := C.tinygo_clang_getTypeDeclaration(typ) name := getString(C.tinygo_clang_getCursorSpelling(cursor)) underlying := C.tinygo_clang_getEnumDeclIntegerType(cursor) if name == "" { // anonymous enum ref := storedRefs.Put(p) defer storedRefs.Remove(ref) C.tinygo_clang_visitChildren(cursor, C.CXCursorVisitor(C.tinygo_clang_enum_visitor), C.CXClientData(ref)) return p.makeASTType(underlying, pos) } else { // named enum if _, ok := p.enums[name]; !ok { ref := storedRefs.Put(p) defer storedRefs.Remove(ref) C.tinygo_clang_visitChildren(cursor, C.CXCursorVisitor(C.tinygo_clang_enum_visitor), C.CXClientData(ref)) p.enums[name] = enumInfo{ typeExpr: p.makeASTType(underlying, pos), pos: pos, } } return &ast.Ident{ NamePos: pos, Name: "C.enum_" + name, } } } if typeName == "" { // Report this as an error. typeSpelling := getString(C.clang_getTypeSpelling(typ)) typeKindSpelling := getString(C.clang_getTypeKindSpelling(typ.kind)) p.addError(pos, fmt.Sprintf("unknown C type: %v (libclang type kind %s)", typeSpelling, typeKindSpelling)) typeName = "C." } return &ast.Ident{ NamePos: pos, Name: typeName, } } // makeASTRecordType parses a C record (struct or union) and translates it into // a Go struct type. func (p *cgoPackage) makeASTRecordType(cursor C.GoCXCursor, pos token.Pos) *elaboratedTypeInfo { fieldList := &ast.FieldList{ Opening: pos, Closing: pos, } var bitfieldList []bitfieldInfo inBitfield := false bitfieldNum := 0 ref := storedRefs.Put(struct { fieldList *ast.FieldList pkg *cgoPackage inBitfield *bool bitfieldNum *int bitfieldList *[]bitfieldInfo }{fieldList, p, &inBitfield, &bitfieldNum, &bitfieldList}) defer storedRefs.Remove(ref) C.tinygo_clang_visitChildren(cursor, C.CXCursorVisitor(C.tinygo_clang_struct_visitor), C.CXClientData(ref)) renameFieldKeywords(fieldList) switch C.tinygo_clang_getCursorKind(cursor) { case C.CXCursor_StructDecl: return &elaboratedTypeInfo{ typeExpr: &ast.StructType{ Struct: pos, Fields: fieldList, }, pos: pos, bitfields: bitfieldList, } case C.CXCursor_UnionDecl: typeInfo := &elaboratedTypeInfo{ typeExpr: &ast.StructType{ Struct: pos, Fields: fieldList, }, pos: pos, bitfields: bitfieldList, } if len(fieldList.List) <= 1 { // Useless union, treat it as a regular struct. return typeInfo } if bitfieldList != nil { // This is valid C... but please don't do this. p.addError(pos, "bitfield in a union is not supported") } typ := C.tinygo_clang_getCursorType(cursor) alignInBytes := int64(C.clang_Type_getAlignOf(typ)) sizeInBytes := int64(C.clang_Type_getSizeOf(typ)) if sizeInBytes == 0 { p.addError(pos, "zero-length union is not supported") } typeInfo.unionSize = sizeInBytes typeInfo.unionAlign = alignInBytes return typeInfo default: cursorKind := C.tinygo_clang_getCursorKind(cursor) cursorKindSpelling := getString(C.clang_getCursorKindSpelling(cursorKind)) p.addError(pos, fmt.Sprintf("expected StructDecl or UnionDecl, not %s", cursorKindSpelling)) return &elaboratedTypeInfo{ typeExpr: &ast.StructType{ Struct: pos, }, pos: pos, } } } //export tinygo_clang_struct_visitor func tinygo_clang_struct_visitor(c, parent C.GoCXCursor, client_data C.CXClientData) C.int { passed := storedRefs.Get(unsafe.Pointer(client_data)).(struct { fieldList *ast.FieldList pkg *cgoPackage inBitfield *bool bitfieldNum *int bitfieldList *[]bitfieldInfo }) fieldList := passed.fieldList p := passed.pkg inBitfield := passed.inBitfield bitfieldNum := passed.bitfieldNum bitfieldList := passed.bitfieldList pos := p.getCursorPosition(c) switch cursorKind := C.tinygo_clang_getCursorKind(c); cursorKind { case C.CXCursor_FieldDecl: // Expected. This is a regular field. case C.CXCursor_StructDecl, C.CXCursor_UnionDecl: // Ignore. The next field will be the struct/union itself. return C.CXChildVisit_Continue default: cursorKindSpelling := getString(C.clang_getCursorKindSpelling(cursorKind)) p.addError(pos, fmt.Sprintf("expected FieldDecl in struct or union, not %s", cursorKindSpelling)) return C.CXChildVisit_Continue } name := getString(C.tinygo_clang_getCursorSpelling(c)) if name == "" { // Assume this is a bitfield of 0 bits. // Warning: this is not necessarily true! return C.CXChildVisit_Continue } typ := C.tinygo_clang_getCursorType(c) field := &ast.Field{ Type: p.makeASTType(typ, p.getCursorPosition(c)), } offsetof := int64(C.clang_Type_getOffsetOf(C.tinygo_clang_getCursorType(parent), C.CString(name))) alignOf := int64(C.clang_Type_getAlignOf(typ) * 8) bitfieldOffset := offsetof % alignOf if bitfieldOffset != 0 { if C.tinygo_clang_Cursor_isBitField(c) != 1 { p.addError(pos, "expected a bitfield") return C.CXChildVisit_Continue } if !*inBitfield { *bitfieldNum++ } bitfieldName := "__bitfield_" + strconv.Itoa(*bitfieldNum) prevField := fieldList.List[len(fieldList.List)-1] if !*inBitfield { // The previous element also was a bitfield, but wasn't noticed // then. Add it now. *inBitfield = true *bitfieldList = append(*bitfieldList, bitfieldInfo{ field: prevField, name: prevField.Names[0].Name, startBit: 0, pos: prevField.Names[0].NamePos, }) prevField.Names[0].Name = bitfieldName prevField.Names[0].Obj.Name = bitfieldName } prevBitfield := &(*bitfieldList)[len(*bitfieldList)-1] prevBitfield.endBit = bitfieldOffset *bitfieldList = append(*bitfieldList, bitfieldInfo{ field: prevField, name: name, startBit: bitfieldOffset, pos: pos, }) return C.CXChildVisit_Continue } *inBitfield = false field.Names = []*ast.Ident{ &ast.Ident{ NamePos: pos, Name: name, Obj: &ast.Object{ Kind: ast.Var, Name: name, Decl: field, }, }, } fieldList.List = append(fieldList.List, field) return C.CXChildVisit_Continue } //export tinygo_clang_enum_visitor func tinygo_clang_enum_visitor(c, parent C.GoCXCursor, client_data C.CXClientData) C.int { p := storedRefs.Get(unsafe.Pointer(client_data)).(*cgoPackage) name := getString(C.tinygo_clang_getCursorSpelling(c)) pos := p.getCursorPosition(c) value := C.tinygo_clang_getEnumConstantDeclValue(c) p.constants[name] = constantInfo{ expr: &ast.BasicLit{pos, token.INT, strconv.FormatInt(int64(value), 10)}, pos: pos, } return C.CXChildVisit_Continue }