package main import ( "errors" "fmt" "log" "strings" ) func parseHeader(inner []interface{}) (*CppParsedHeader, error) { var ret CppParsedHeader for _, node := range inner { node, ok := node.(map[string]interface{}) if !ok { return nil, errors.New("inner[] element not an object") } kind, ok := node["kind"].(string) if !ok { return nil, errors.New("node has no kind") } switch kind { case "CXXRecordDecl": // Must have a name nodename, ok := node["name"].(string) if !ok { return nil, errors.New("node has no name") } fmt.Printf("-> %q name=%q\n", kind, nodename) if classInner, ok := node["inner"].([]interface{}); ok { // Check if this was 'struct' (default visible) or 'class' (default invisible) visible := true if tagUsed, ok := node["tagUsed"].(string); ok && tagUsed == "class" { visible = false } // Process the inner class definition obj, err := processType(classInner, nodename, visible) if err != nil { panic(err) } ret.Classes = append(ret.Classes, obj) } case "StaticAssertDecl": // ignore default: return nil, fmt.Errorf("missing handling for clang ast node type %q", kind) } } return &ret, nil // done } func processType(inner []interface{}, className string, visibility bool) (CppClass, error) { var ret CppClass ret.ClassName = className nextMethod: for _, node := range inner { node, ok := node.(map[string]interface{}) if !ok { return CppClass{}, errors.New("inner[] element not an object") } kind, ok := node["kind"] if !ok { panic("inner element has no kind") } switch kind { case "AccessSpecDecl": // Swap between visible/invisible access, ok := node["access"].(string) if !ok { panic("AccessSpecDecl missing `access` field") } switch access { case "public": visibility = true case "private", "protected": visibility = false default: panic("unexpected access visibility '" + access + "'") } case "FriendDecl": // Safe to ignore case "CXXConstructorDecl": var mm CppMethod err := parseMethod(node, &mm) if err != nil { if errors.Is(err, ErrTooComplex) { log.Printf("Skipping method %q with complex type", mm.MethodName) continue nextMethod } // Real error return CppClass{}, err } ret.Ctors = append(ret.Ctors, mm) case "CXXDestructorDecl": // We don't need to expose destructors in the binding beyond offering // a regular delete function case "CXXMethodDecl": if !visibility { continue // Skip private/protected } // Method methodName, ok := node["name"].(string) if !ok { return CppClass{}, errors.New("method has no name") } var mm CppMethod mm.MethodName = methodName if strings.HasPrefix(methodName, "qt_") { // Strip redundant Qt prefix, we know these are all Qt functions mm.OverrideMethodName = methodName mm.MethodName = methodName[3:] } err := parseMethod(node, &mm) if err != nil { if errors.Is(err, ErrTooComplex) { log.Printf("Skipping method %q with complex type", mm.MethodName) continue nextMethod } // Real error return CppClass{}, err } ret.Methods = append(ret.Methods, mm) default: fmt.Printf("==> NOT IMPLEMENTED %q\n", kind) } } return ret, nil // done } var ErrTooComplex error = errors.New("Type declaration is too complex to parse") func parseMethod(node map[string]interface{}, mm *CppMethod) error { if typobj, ok := node["type"].(map[string]interface{}); ok { if qualType, ok := typobj["qualType"].(string); ok { // The qualType is the whole type of the method, including its parameter types // If anything here is too complicated, skip the whole method var err error = nil mm.ReturnType, mm.Parameters, err = parseTypeString(qualType) if err != nil { return err } } } if methodInner, ok := node["inner"].([]interface{}); ok { paramCounter := 0 for _, methodObj := range methodInner { methodObj, ok := methodObj.(map[string]interface{}) if !ok { return errors.New("inner[] element not an object") } switch methodObj["kind"] { case "ParmVarDecl": // Parameter variable parmName, _ := methodObj["name"].(string) // n.b. may be unnamed if parmName == "" { // Generate a default parameter name // Super nice autogen names if this is a Q_PROPERTY setter: if len(mm.Parameters) == 1 && strings.HasPrefix(mm.MethodName, "set") { parmName = strings.ToLower(string(mm.MethodName[3])) + mm.MethodName[4:] } else { // Otherwise - default parmName = fmt.Sprintf("param%d", paramCounter+1) } } // Block reserved Go words, replace with generic parameters if parmName == "default" || parmName == "const" || parmName == "func" { parmName += "Val" } // Update the name for the existing nth parameter mm.Parameters[paramCounter].ParameterName = parmName // If this parameter has any internal AST nodes of its // own, assume it means it's an optional parameter if _, ok := methodObj["inner"]; ok { mm.Parameters[paramCounter].Optional = true } // Next paramCounter++ default: // Something else inside a declaration?? fmt.Printf("==> NOT IMPLEMENTED CXXMethodDecl->%q\n", methodObj["kind"]) } } } return nil } // parseTypeString converts a string like // - `QString (const char *, const char *, int)` // - `void (const QKeySequence \u0026)` // into its (A) return type and (B) separate parameter types. // These clang strings never contain the parameter's name, so the names here are // not filled in. func parseTypeString(typeString string) (CppParameter, []CppParameter, error) { if strings.Contains(typeString, `::`) { return CppParameter{}, nil, ErrTooComplex } // Cut to exterior-most (, ) pair opos := strings.Index(typeString, `(`) epos := strings.LastIndex(typeString, `)`) if opos == -1 || epos == -1 { return CppParameter{}, nil, fmt.Errorf("Type string %q missing brackets") } returnType := parseSingleTypeString(strings.TrimSpace(typeString[0:opos])) inner := typeString[opos+1 : epos] // Should be no more brackets if strings.ContainsAny(inner, `()`) { return CppParameter{}, nil, ErrTooComplex } // Parameters are separated by commas and nesting can not be possible params := strings.Split(inner, `,`) ret := make([]CppParameter, 0, len(params)) for _, p := range params { insert := parseSingleTypeString(p) if insert.ParameterType != "" { ret = append(ret, insert) } } return returnType, ret, nil } func parseSingleTypeString(p string) CppParameter { tokens := strings.Split(strings.TrimSpace(p), " ") insert := CppParameter{} for _, tok := range tokens { if tok == "const" { insert.Const = true } else if tok == "&" { // U+0026 insert.ByRef = true } else if tok == "*" { insert.Pointer = true } else { // Valid part of the type name insert.ParameterType += " " + tok } } insert.ParameterType = strings.TrimSpace(insert.ParameterType) return insert }