//------------------------------------------------------------------------------ // // This code was generated by a tool. // Changes to this file may cause incorrect behavior and will be lost if // the code is regenerated. // //------------------------------------------------------------------------------ package cfg; import "errors" type DefineFromExcel2 struct { Id int32 X1 bool X5 int64 X6 float32 X8 int32 X10 string X13 int32 X132 int32 X14 interface{} X15 interface{} V2 *vec2 T1 int64 K1 []int32 K2 []int32 K8 map[int32]int32 K9 []*TestDemoE2 K10 []*vec3 K11 []*vec4 } const TypeId_DefineFromExcel2 = 482045152 func (*DefineFromExcel2) GetTypeId() int32 { return 482045152 } func NewDefineFromExcel2(_buf map[string]interface{}) (_v *DefineFromExcel2, err error) { _v = &DefineFromExcel2{} { var _ok_ bool; var _tempNum_ float64; if _tempNum_, _ok_ = _buf["id"].(float64); !_ok_ { err = errors.New("id error"); return }; _v.Id = int32(_tempNum_) } { var _ok_ bool; if _v.X1, _ok_ = _buf["x1"].(bool); !_ok_ { err = errors.New("x1 error"); return } } { var _ok_ bool; var _tempNum_ float64; if _tempNum_, _ok_ = _buf["x5"].(float64); !_ok_ { err = errors.New("x5 error"); return }; _v.X5 = int64(_tempNum_) } { var _ok_ bool; var _tempNum_ float64; if _tempNum_, _ok_ = _buf["x6"].(float64); !_ok_ { err = errors.New("x6 error"); return }; _v.X6 = float32(_tempNum_) } { var _ok_ bool; var _tempNum_ float64; if _tempNum_, _ok_ = _buf["x8"].(float64); !_ok_ { err = errors.New("x8 error"); return }; _v.X8 = int32(_tempNum_) } { var _ok_ bool; if _v.X10, _ok_ = _buf["x10"].(string); !_ok_ { err = errors.New("x10 error"); return } } { var _ok_ bool; var _tempNum_ float64; if _tempNum_, _ok_ = _buf["x13"].(float64); !_ok_ { err = errors.New("x13 error"); return }; _v.X13 = int32(_tempNum_) } { var _ok_ bool; var _tempNum_ float64; if _tempNum_, _ok_ = _buf["x13_2"].(float64); !_ok_ { err = errors.New("x13_2 error"); return }; _v.X132 = int32(_tempNum_) } { var _ok_ bool; var _x_ map[string]interface{}; if _x_, _ok_ = _buf["x14"].(map[string]interface{}); !_ok_ { err = errors.New("x14 error"); return }; if _v.X14, err = NewTestDemoDynamic(_x_); err != nil { return } } { var _ok_ bool; var _x_ map[string]interface{}; if _x_, _ok_ = _buf["x15"].(map[string]interface{}); !_ok_ { err = errors.New("x15 error"); return }; if _v.X15, err = NewTestShape(_x_); err != nil { return } } { var _ok_ bool; var _x_ map[string]interface{}; if _x_, _ok_ = _buf["v2"].(map[string]interface{}); !_ok_ { err = errors.New("v2 error"); return }; if _v.V2, err = Newvec2(_x_); err != nil { return } } { var _ok_ bool; var _tempNum_ float64; if _tempNum_, _ok_ = _buf["t1"].(float64); !_ok_ { err = errors.New("t1 error"); return }; _v.T1 = int64(_tempNum_) } { var _arr_ []interface{} var _ok_ bool if _arr_, _ok_ = _buf["k1"].([]interface{}); !_ok_ { err = errors.New("k1 error"); return } _v.K1 = make([]int32, 0, len(_arr_)) for _, _e_ := range _arr_ { var _list_v_ int32 { var _ok_ bool; var _x_ float64; if _x_, _ok_ = _e_.(float64); !_ok_ { err = errors.New("_list_v_ error"); return }; _list_v_ = int32(_x_) } _v.K1 = append(_v.K1, _list_v_) } } { var _arr_ []interface{} var _ok_ bool if _arr_, _ok_ = _buf["k2"].([]interface{}); !_ok_ { err = errors.New("k2 error"); return } _v.K2 = make([]int32, 0, len(_arr_)) for _, _e_ := range _arr_ { var _list_v_ int32 { var _ok_ bool; var _x_ float64; if _x_, _ok_ = _e_.(float64); !_ok_ { err = errors.New("_list_v_ error"); return }; _list_v_ = int32(_x_) } _v.K2 = append(_v.K2, _list_v_) } } { var _arr_ []interface{} var _ok_ bool if _arr_, _ok_ = _buf["k8"].([]interface{}); !_ok_ { err = errors.New("k8 error"); return } _v.K8 = make(map[int32]int32) for _, _e_ := range _arr_ { var _kv_ []interface{} if _kv_, _ok_ = _e_.([]interface{}); !_ok_ || len(_kv_) != 2 { err = errors.New("k8 error"); return } var _key_ int32 { var _ok_ bool; var _x_ float64; if _x_, _ok_ = _kv_[0].(float64); !_ok_ { err = errors.New("_key_ error"); return }; _key_ = int32(_x_) } var _value_ int32 { var _ok_ bool; var _x_ float64; if _x_, _ok_ = _kv_[1].(float64); !_ok_ { err = errors.New("_value_ error"); return }; _value_ = int32(_x_) } _v.K8[_key_] = _value_ } } { var _arr_ []interface{} var _ok_ bool if _arr_, _ok_ = _buf["k9"].([]interface{}); !_ok_ { err = errors.New("k9 error"); return } _v.K9 = make([]*TestDemoE2, 0, len(_arr_)) for _, _e_ := range _arr_ { var _list_v_ *TestDemoE2 { var _ok_ bool; var _x_ map[string]interface{}; if _x_, _ok_ = _e_.(map[string]interface{}); !_ok_ { err = errors.New("_list_v_ error"); return }; if _list_v_, err = NewTestDemoE2(_x_); err != nil { return } } _v.K9 = append(_v.K9, _list_v_) } } { var _arr_ []interface{} var _ok_ bool if _arr_, _ok_ = _buf["k10"].([]interface{}); !_ok_ { err = errors.New("k10 error"); return } _v.K10 = make([]*vec3, 0, len(_arr_)) for _, _e_ := range _arr_ { var _list_v_ *vec3 { var _ok_ bool; var _x_ map[string]interface{}; if _x_, _ok_ = _e_.(map[string]interface{}); !_ok_ { err = errors.New("_list_v_ error"); return }; if _list_v_, err = Newvec3(_x_); err != nil { return } } _v.K10 = append(_v.K10, _list_v_) } } { var _arr_ []interface{} var _ok_ bool if _arr_, _ok_ = _buf["k11"].([]interface{}); !_ok_ { err = errors.New("k11 error"); return } _v.K11 = make([]*vec4, 0, len(_arr_)) for _, _e_ := range _arr_ { var _list_v_ *vec4 { var _ok_ bool; var _x_ map[string]interface{}; if _x_, _ok_ = _e_.(map[string]interface{}); !_ok_ { err = errors.New("_list_v_ error"); return }; if _list_v_, err = Newvec4(_x_); err != nil { return } } _v.K11 = append(_v.K11, _list_v_) } } return }