// DO NOT EDIT: auto-generated using scripts/gen-starlark-bindings.go package starbind import ( "fmt" "github.com/go-delve/delve/service/api" "github.com/go-delve/delve/service/rpc2" "go.starlark.net/starlark" ) func (env *Env) starlarkPredeclare() starlark.StringDict { r := starlark.StringDict{} r["amend_breakpoint"] = starlark.NewBuiltin("amend_breakpoint", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.AmendBreakpointIn var rpcRet rpc2.AmendBreakpointOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Breakpoint, "Breakpoint") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Breakpoint": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Breakpoint, "Breakpoint") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("AmendBreakpoint", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["ancestors"] = starlark.NewBuiltin("ancestors", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.AncestorsIn var rpcRet rpc2.AncestorsOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.GoroutineID, "GoroutineID") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.NumAncestors, "NumAncestors") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 2 && args[2] != starlark.None { err := unmarshalStarlarkValue(args[2], &rpcArgs.Depth, "Depth") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "GoroutineID": err = unmarshalStarlarkValue(kv[1], &rpcArgs.GoroutineID, "GoroutineID") case "NumAncestors": err = unmarshalStarlarkValue(kv[1], &rpcArgs.NumAncestors, "NumAncestors") case "Depth": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Depth, "Depth") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("Ancestors", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["attached_to_existing_process"] = starlark.NewBuiltin("attached_to_existing_process", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.AttachedToExistingProcessIn var rpcRet rpc2.AttachedToExistingProcessOut err := env.ctx.Client().CallAPI("AttachedToExistingProcess", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["cancel_next"] = starlark.NewBuiltin("cancel_next", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.CancelNextIn var rpcRet rpc2.CancelNextOut err := env.ctx.Client().CallAPI("CancelNext", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["checkpoint"] = starlark.NewBuiltin("checkpoint", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.CheckpointIn var rpcRet rpc2.CheckpointOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Where, "Where") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Where": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Where, "Where") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("Checkpoint", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["clear_breakpoint"] = starlark.NewBuiltin("clear_breakpoint", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ClearBreakpointIn var rpcRet rpc2.ClearBreakpointOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Id, "Id") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Name, "Name") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Id": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Id, "Id") case "Name": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Name, "Name") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ClearBreakpoint", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["clear_checkpoint"] = starlark.NewBuiltin("clear_checkpoint", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ClearCheckpointIn var rpcRet rpc2.ClearCheckpointOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.ID, "ID") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "ID": err = unmarshalStarlarkValue(kv[1], &rpcArgs.ID, "ID") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ClearCheckpoint", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["raw_command"] = starlark.NewBuiltin("raw_command", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs api.DebuggerCommand var rpcRet rpc2.CommandOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Name, "Name") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.ThreadID, "ThreadID") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 2 && args[2] != starlark.None { err := unmarshalStarlarkValue(args[2], &rpcArgs.GoroutineID, "GoroutineID") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 3 && args[3] != starlark.None { err := unmarshalStarlarkValue(args[3], &rpcArgs.ReturnInfoLoadConfig, "ReturnInfoLoadConfig") if err != nil { return starlark.None, decorateError(thread, err) } } else { cfg := env.ctx.LoadConfig() rpcArgs.ReturnInfoLoadConfig = &cfg } if len(args) > 4 && args[4] != starlark.None { err := unmarshalStarlarkValue(args[4], &rpcArgs.Expr, "Expr") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 5 && args[5] != starlark.None { err := unmarshalStarlarkValue(args[5], &rpcArgs.UnsafeCall, "UnsafeCall") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Name": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Name, "Name") case "ThreadID": err = unmarshalStarlarkValue(kv[1], &rpcArgs.ThreadID, "ThreadID") case "GoroutineID": err = unmarshalStarlarkValue(kv[1], &rpcArgs.GoroutineID, "GoroutineID") case "ReturnInfoLoadConfig": err = unmarshalStarlarkValue(kv[1], &rpcArgs.ReturnInfoLoadConfig, "ReturnInfoLoadConfig") case "Expr": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Expr, "Expr") case "UnsafeCall": err = unmarshalStarlarkValue(kv[1], &rpcArgs.UnsafeCall, "UnsafeCall") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("Command", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["create_breakpoint"] = starlark.NewBuiltin("create_breakpoint", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.CreateBreakpointIn var rpcRet rpc2.CreateBreakpointOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Breakpoint, "Breakpoint") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Breakpoint": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Breakpoint, "Breakpoint") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("CreateBreakpoint", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["detach"] = starlark.NewBuiltin("detach", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.DetachIn var rpcRet rpc2.DetachOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Kill, "Kill") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Kill": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Kill, "Kill") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("Detach", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["disassemble"] = starlark.NewBuiltin("disassemble", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.DisassembleIn var rpcRet rpc2.DisassembleOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Scope, "Scope") if err != nil { return starlark.None, decorateError(thread, err) } } else { rpcArgs.Scope = env.ctx.Scope() } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.StartPC, "StartPC") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 2 && args[2] != starlark.None { err := unmarshalStarlarkValue(args[2], &rpcArgs.EndPC, "EndPC") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 3 && args[3] != starlark.None { err := unmarshalStarlarkValue(args[3], &rpcArgs.Flavour, "Flavour") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Scope": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Scope, "Scope") case "StartPC": err = unmarshalStarlarkValue(kv[1], &rpcArgs.StartPC, "StartPC") case "EndPC": err = unmarshalStarlarkValue(kv[1], &rpcArgs.EndPC, "EndPC") case "Flavour": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Flavour, "Flavour") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("Disassemble", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["eval"] = starlark.NewBuiltin("eval", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.EvalIn var rpcRet rpc2.EvalOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Scope, "Scope") if err != nil { return starlark.None, decorateError(thread, err) } } else { rpcArgs.Scope = env.ctx.Scope() } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Expr, "Expr") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 2 && args[2] != starlark.None { err := unmarshalStarlarkValue(args[2], &rpcArgs.Cfg, "Cfg") if err != nil { return starlark.None, decorateError(thread, err) } } else { cfg := env.ctx.LoadConfig() rpcArgs.Cfg = &cfg } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Scope": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Scope, "Scope") case "Expr": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Expr, "Expr") case "Cfg": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Cfg, "Cfg") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("Eval", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["examine_memory"] = starlark.NewBuiltin("examine_memory", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ExamineMemoryIn var rpcRet rpc2.ExaminedMemoryOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Address, "Address") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Length, "Length") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Address": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Address, "Address") case "Length": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Length, "Length") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ExamineMemory", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["find_location"] = starlark.NewBuiltin("find_location", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.FindLocationIn var rpcRet rpc2.FindLocationOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Scope, "Scope") if err != nil { return starlark.None, decorateError(thread, err) } } else { rpcArgs.Scope = env.ctx.Scope() } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Loc, "Loc") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 2 && args[2] != starlark.None { err := unmarshalStarlarkValue(args[2], &rpcArgs.IncludeNonExecutableLines, "IncludeNonExecutableLines") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Scope": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Scope, "Scope") case "Loc": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Loc, "Loc") case "IncludeNonExecutableLines": err = unmarshalStarlarkValue(kv[1], &rpcArgs.IncludeNonExecutableLines, "IncludeNonExecutableLines") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("FindLocation", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["function_return_locations"] = starlark.NewBuiltin("function_return_locations", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.FunctionReturnLocationsIn var rpcRet rpc2.FunctionReturnLocationsOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.FnName, "FnName") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "FnName": err = unmarshalStarlarkValue(kv[1], &rpcArgs.FnName, "FnName") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("FunctionReturnLocations", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["get_breakpoint"] = starlark.NewBuiltin("get_breakpoint", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.GetBreakpointIn var rpcRet rpc2.GetBreakpointOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Id, "Id") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Name, "Name") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Id": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Id, "Id") case "Name": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Name, "Name") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("GetBreakpoint", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["get_thread"] = starlark.NewBuiltin("get_thread", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.GetThreadIn var rpcRet rpc2.GetThreadOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Id, "Id") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Id": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Id, "Id") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("GetThread", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["is_multiclient"] = starlark.NewBuiltin("is_multiclient", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.IsMulticlientIn var rpcRet rpc2.IsMulticlientOut err := env.ctx.Client().CallAPI("IsMulticlient", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["last_modified"] = starlark.NewBuiltin("last_modified", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.LastModifiedIn var rpcRet rpc2.LastModifiedOut err := env.ctx.Client().CallAPI("LastModified", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["breakpoints"] = starlark.NewBuiltin("breakpoints", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListBreakpointsIn var rpcRet rpc2.ListBreakpointsOut err := env.ctx.Client().CallAPI("ListBreakpoints", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["checkpoints"] = starlark.NewBuiltin("checkpoints", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListCheckpointsIn var rpcRet rpc2.ListCheckpointsOut err := env.ctx.Client().CallAPI("ListCheckpoints", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["dynamic_libraries"] = starlark.NewBuiltin("dynamic_libraries", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListDynamicLibrariesIn var rpcRet rpc2.ListDynamicLibrariesOut err := env.ctx.Client().CallAPI("ListDynamicLibraries", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["function_args"] = starlark.NewBuiltin("function_args", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListFunctionArgsIn var rpcRet rpc2.ListFunctionArgsOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Scope, "Scope") if err != nil { return starlark.None, decorateError(thread, err) } } else { rpcArgs.Scope = env.ctx.Scope() } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Cfg, "Cfg") if err != nil { return starlark.None, decorateError(thread, err) } } else { rpcArgs.Cfg = env.ctx.LoadConfig() } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Scope": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Scope, "Scope") case "Cfg": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Cfg, "Cfg") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ListFunctionArgs", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["functions"] = starlark.NewBuiltin("functions", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListFunctionsIn var rpcRet rpc2.ListFunctionsOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Filter, "Filter") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Filter": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Filter, "Filter") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ListFunctions", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["goroutines"] = starlark.NewBuiltin("goroutines", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListGoroutinesIn var rpcRet rpc2.ListGoroutinesOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Start, "Start") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Count, "Count") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Start": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Start, "Start") case "Count": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Count, "Count") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ListGoroutines", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["local_vars"] = starlark.NewBuiltin("local_vars", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListLocalVarsIn var rpcRet rpc2.ListLocalVarsOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Scope, "Scope") if err != nil { return starlark.None, decorateError(thread, err) } } else { rpcArgs.Scope = env.ctx.Scope() } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Cfg, "Cfg") if err != nil { return starlark.None, decorateError(thread, err) } } else { rpcArgs.Cfg = env.ctx.LoadConfig() } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Scope": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Scope, "Scope") case "Cfg": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Cfg, "Cfg") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ListLocalVars", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["package_vars"] = starlark.NewBuiltin("package_vars", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListPackageVarsIn var rpcRet rpc2.ListPackageVarsOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Filter, "Filter") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Cfg, "Cfg") if err != nil { return starlark.None, decorateError(thread, err) } } else { rpcArgs.Cfg = env.ctx.LoadConfig() } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Filter": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Filter, "Filter") case "Cfg": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Cfg, "Cfg") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ListPackageVars", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["packages_build_info"] = starlark.NewBuiltin("packages_build_info", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListPackagesBuildInfoIn var rpcRet rpc2.ListPackagesBuildInfoOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.IncludeFiles, "IncludeFiles") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "IncludeFiles": err = unmarshalStarlarkValue(kv[1], &rpcArgs.IncludeFiles, "IncludeFiles") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ListPackagesBuildInfo", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["registers"] = starlark.NewBuiltin("registers", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListRegistersIn var rpcRet rpc2.ListRegistersOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.ThreadID, "ThreadID") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.IncludeFp, "IncludeFp") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "ThreadID": err = unmarshalStarlarkValue(kv[1], &rpcArgs.ThreadID, "ThreadID") case "IncludeFp": err = unmarshalStarlarkValue(kv[1], &rpcArgs.IncludeFp, "IncludeFp") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ListRegisters", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["sources"] = starlark.NewBuiltin("sources", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListSourcesIn var rpcRet rpc2.ListSourcesOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Filter, "Filter") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Filter": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Filter, "Filter") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ListSources", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["threads"] = starlark.NewBuiltin("threads", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListThreadsIn var rpcRet rpc2.ListThreadsOut err := env.ctx.Client().CallAPI("ListThreads", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["types"] = starlark.NewBuiltin("types", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ListTypesIn var rpcRet rpc2.ListTypesOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Filter, "Filter") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Filter": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Filter, "Filter") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("ListTypes", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["process_pid"] = starlark.NewBuiltin("process_pid", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.ProcessPidIn var rpcRet rpc2.ProcessPidOut err := env.ctx.Client().CallAPI("ProcessPid", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["recorded"] = starlark.NewBuiltin("recorded", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.RecordedIn var rpcRet rpc2.RecordedOut err := env.ctx.Client().CallAPI("Recorded", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["restart"] = starlark.NewBuiltin("restart", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.RestartIn var rpcRet rpc2.RestartOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Position, "Position") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.ResetArgs, "ResetArgs") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 2 && args[2] != starlark.None { err := unmarshalStarlarkValue(args[2], &rpcArgs.NewArgs, "NewArgs") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 3 && args[3] != starlark.None { err := unmarshalStarlarkValue(args[3], &rpcArgs.Rerecord, "Rerecord") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Position": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Position, "Position") case "ResetArgs": err = unmarshalStarlarkValue(kv[1], &rpcArgs.ResetArgs, "ResetArgs") case "NewArgs": err = unmarshalStarlarkValue(kv[1], &rpcArgs.NewArgs, "NewArgs") case "Rerecord": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Rerecord, "Rerecord") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("Restart", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["set_expr"] = starlark.NewBuiltin("set_expr", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.SetIn var rpcRet rpc2.SetOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Scope, "Scope") if err != nil { return starlark.None, decorateError(thread, err) } } else { rpcArgs.Scope = env.ctx.Scope() } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Symbol, "Symbol") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 2 && args[2] != starlark.None { err := unmarshalStarlarkValue(args[2], &rpcArgs.Value, "Value") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Scope": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Scope, "Scope") case "Symbol": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Symbol, "Symbol") case "Value": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Value, "Value") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("Set", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["stacktrace"] = starlark.NewBuiltin("stacktrace", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.StacktraceIn var rpcRet rpc2.StacktraceOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.Id, "Id") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 1 && args[1] != starlark.None { err := unmarshalStarlarkValue(args[1], &rpcArgs.Depth, "Depth") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 2 && args[2] != starlark.None { err := unmarshalStarlarkValue(args[2], &rpcArgs.Full, "Full") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 3 && args[3] != starlark.None { err := unmarshalStarlarkValue(args[3], &rpcArgs.Defers, "Defers") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 4 && args[4] != starlark.None { err := unmarshalStarlarkValue(args[4], &rpcArgs.Opts, "Opts") if err != nil { return starlark.None, decorateError(thread, err) } } if len(args) > 5 && args[5] != starlark.None { err := unmarshalStarlarkValue(args[5], &rpcArgs.Cfg, "Cfg") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "Id": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Id, "Id") case "Depth": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Depth, "Depth") case "Full": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Full, "Full") case "Defers": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Defers, "Defers") case "Opts": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Opts, "Opts") case "Cfg": err = unmarshalStarlarkValue(kv[1], &rpcArgs.Cfg, "Cfg") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("Stacktrace", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) r["state"] = starlark.NewBuiltin("state", func(thread *starlark.Thread, _ *starlark.Builtin, args starlark.Tuple, kwargs []starlark.Tuple) (starlark.Value, error) { if err := isCancelled(thread); err != nil { return starlark.None, decorateError(thread, err) } var rpcArgs rpc2.StateIn var rpcRet rpc2.StateOut if len(args) > 0 && args[0] != starlark.None { err := unmarshalStarlarkValue(args[0], &rpcArgs.NonBlocking, "NonBlocking") if err != nil { return starlark.None, decorateError(thread, err) } } for _, kv := range kwargs { var err error switch kv[0].(starlark.String) { case "NonBlocking": err = unmarshalStarlarkValue(kv[1], &rpcArgs.NonBlocking, "NonBlocking") default: err = fmt.Errorf("unknown argument %q", kv[0]) } if err != nil { return starlark.None, decorateError(thread, err) } } err := env.ctx.Client().CallAPI("State", &rpcArgs, &rpcRet) if err != nil { return starlark.None, err } return env.interfaceToStarlarkValue(rpcRet), nil }) return r }