package qt /* #include "gen_qsplitter.h" #include */ import "C" import ( "runtime" "runtime/cgo" "unsafe" ) type QSplitter struct { h *C.QSplitter *QFrame } func (this *QSplitter) cPointer() *C.QSplitter { if this == nil { return nil } return this.h } func newQSplitter(h *C.QSplitter) *QSplitter { if h == nil { return nil } return &QSplitter{h: h, QFrame: newQFrame_U(unsafe.Pointer(h))} } func newQSplitter_U(h unsafe.Pointer) *QSplitter { return newQSplitter((*C.QSplitter)(h)) } // NewQSplitter constructs a new QSplitter object. func NewQSplitter() *QSplitter { ret := C.QSplitter_new() return newQSplitter(ret) } // NewQSplitter2 constructs a new QSplitter object. func NewQSplitter2(param1 Orientation) *QSplitter { ret := C.QSplitter_new2((C.uintptr_t)(param1)) return newQSplitter(ret) } // NewQSplitter3 constructs a new QSplitter object. func NewQSplitter3(parent *QWidget) *QSplitter { ret := C.QSplitter_new3(parent.cPointer()) return newQSplitter(ret) } // NewQSplitter4 constructs a new QSplitter object. func NewQSplitter4(param1 Orientation, parent *QWidget) *QSplitter { ret := C.QSplitter_new4((C.uintptr_t)(param1), parent.cPointer()) return newQSplitter(ret) } func (this *QSplitter) MetaObject() *QMetaObject { ret := C.QSplitter_MetaObject(this.h) return newQMetaObject_U(unsafe.Pointer(ret)) } func QSplitter_Tr(s string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitter_Tr(s_Cstring, &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func QSplitter_TrUtf8(s string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitter_TrUtf8(s_Cstring, &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func (this *QSplitter) AddWidget(widget *QWidget) { C.QSplitter_AddWidget(this.h, widget.cPointer()) } func (this *QSplitter) InsertWidget(index int, widget *QWidget) { C.QSplitter_InsertWidget(this.h, (C.int)(index), widget.cPointer()) } func (this *QSplitter) ReplaceWidget(index int, widget *QWidget) *QWidget { ret := C.QSplitter_ReplaceWidget(this.h, (C.int)(index), widget.cPointer()) return newQWidget_U(unsafe.Pointer(ret)) } func (this *QSplitter) SetOrientation(orientation Orientation) { C.QSplitter_SetOrientation(this.h, (C.uintptr_t)(orientation)) } func (this *QSplitter) Orientation() Orientation { ret := C.QSplitter_Orientation(this.h) return (Orientation)(ret) } func (this *QSplitter) SetChildrenCollapsible(childrenCollapsible bool) { C.QSplitter_SetChildrenCollapsible(this.h, (C.bool)(childrenCollapsible)) } func (this *QSplitter) ChildrenCollapsible() bool { ret := C.QSplitter_ChildrenCollapsible(this.h) return (bool)(ret) } func (this *QSplitter) SetCollapsible(index int, param2 bool) { C.QSplitter_SetCollapsible(this.h, (C.int)(index), (C.bool)(param2)) } func (this *QSplitter) IsCollapsible(index int) bool { ret := C.QSplitter_IsCollapsible(this.h, (C.int)(index)) return (bool)(ret) } func (this *QSplitter) SetOpaqueResize() { C.QSplitter_SetOpaqueResize(this.h) } func (this *QSplitter) OpaqueResize() bool { ret := C.QSplitter_OpaqueResize(this.h) return (bool)(ret) } func (this *QSplitter) Refresh() { C.QSplitter_Refresh(this.h) } func (this *QSplitter) SizeHint() *QSize { ret := C.QSplitter_SizeHint(this.h) // Qt uses pass-by-value semantics for this type. Mimic with finalizer ret1 := newQSize(ret) runtime.SetFinalizer(ret1, func(ret2 *QSize) { ret2.Delete() runtime.KeepAlive(ret2.h) }) return ret1 } func (this *QSplitter) MinimumSizeHint() *QSize { ret := C.QSplitter_MinimumSizeHint(this.h) // Qt uses pass-by-value semantics for this type. Mimic with finalizer ret1 := newQSize(ret) runtime.SetFinalizer(ret1, func(ret2 *QSize) { ret2.Delete() runtime.KeepAlive(ret2.h) }) return ret1 } func (this *QSplitter) Sizes() []int { var _out *C.int = nil var _out_len C.size_t = 0 C.QSplitter_Sizes(this.h, &_out, &_out_len) ret := make([]int, int(_out_len)) _outCast := (*[0xffff]C.int)(unsafe.Pointer(_out)) // mrs jackson for i := 0; i < int(_out_len); i++ { ret[i] = (int)(_outCast[i]) } C.free(unsafe.Pointer(_out)) return ret } func (this *QSplitter) SetSizes(list []int) { // For the C ABI, malloc a C array of raw pointers list_CArray := (*[0xffff]C.int)(C.malloc(C.size_t(8 * len(list)))) defer C.free(unsafe.Pointer(list_CArray)) for i := range list { list_CArray[i] = (C.int)(list[i]) } C.QSplitter_SetSizes(this.h, &list_CArray[0], C.size_t(len(list))) } func (this *QSplitter) SaveState() *QByteArray { ret := C.QSplitter_SaveState(this.h) // Qt uses pass-by-value semantics for this type. Mimic with finalizer ret1 := newQByteArray(ret) runtime.SetFinalizer(ret1, func(ret2 *QByteArray) { ret2.Delete() runtime.KeepAlive(ret2.h) }) return ret1 } func (this *QSplitter) RestoreState(state *QByteArray) bool { ret := C.QSplitter_RestoreState(this.h, state.cPointer()) return (bool)(ret) } func (this *QSplitter) HandleWidth() int { ret := C.QSplitter_HandleWidth(this.h) return (int)(ret) } func (this *QSplitter) SetHandleWidth(handleWidth int) { C.QSplitter_SetHandleWidth(this.h, (C.int)(handleWidth)) } func (this *QSplitter) IndexOf(w *QWidget) int { ret := C.QSplitter_IndexOf(this.h, w.cPointer()) return (int)(ret) } func (this *QSplitter) Widget(index int) *QWidget { ret := C.QSplitter_Widget(this.h, (C.int)(index)) return newQWidget_U(unsafe.Pointer(ret)) } func (this *QSplitter) Count() int { ret := C.QSplitter_Count(this.h) return (int)(ret) } func (this *QSplitter) GetRange(index int, param2 *int, param3 *int) { C.QSplitter_GetRange(this.h, (C.int)(index), (*C.int)(unsafe.Pointer(param2)), (*C.int)(unsafe.Pointer(param3))) } func (this *QSplitter) Handle(index int) *QSplitterHandle { ret := C.QSplitter_Handle(this.h, (C.int)(index)) return newQSplitterHandle_U(unsafe.Pointer(ret)) } func (this *QSplitter) SetStretchFactor(index int, stretch int) { C.QSplitter_SetStretchFactor(this.h, (C.int)(index), (C.int)(stretch)) } func (this *QSplitter) SplitterMoved(pos int, index int) { C.QSplitter_SplitterMoved(this.h, (C.int)(pos), (C.int)(index)) } func (this *QSplitter) OnSplitterMoved(slot func()) { var slotWrapper miqtCallbackFunc = func(argc C.int, args *C.void) { slot() } C.QSplitter_connect_SplitterMoved(this.h, unsafe.Pointer(uintptr(cgo.NewHandle(slotWrapper)))) } func QSplitter_Tr2(s string, c string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitter_Tr2(s_Cstring, c_Cstring, &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func QSplitter_Tr3(s string, c string, n int) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitter_Tr3(s_Cstring, c_Cstring, (C.int)(n), &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func QSplitter_TrUtf82(s string, c string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitter_TrUtf82(s_Cstring, c_Cstring, &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func QSplitter_TrUtf83(s string, c string, n int) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitter_TrUtf83(s_Cstring, c_Cstring, (C.int)(n), &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func (this *QSplitter) SetOpaqueResize1(opaque bool) { C.QSplitter_SetOpaqueResize1(this.h, (C.bool)(opaque)) } func (this *QSplitter) Delete() { C.QSplitter_Delete(this.h) } type QSplitterHandle struct { h *C.QSplitterHandle *QWidget } func (this *QSplitterHandle) cPointer() *C.QSplitterHandle { if this == nil { return nil } return this.h } func newQSplitterHandle(h *C.QSplitterHandle) *QSplitterHandle { if h == nil { return nil } return &QSplitterHandle{h: h, QWidget: newQWidget_U(unsafe.Pointer(h))} } func newQSplitterHandle_U(h unsafe.Pointer) *QSplitterHandle { return newQSplitterHandle((*C.QSplitterHandle)(h)) } // NewQSplitterHandle constructs a new QSplitterHandle object. func NewQSplitterHandle(o Orientation, parent *QSplitter) *QSplitterHandle { ret := C.QSplitterHandle_new((C.uintptr_t)(o), parent.cPointer()) return newQSplitterHandle(ret) } func (this *QSplitterHandle) MetaObject() *QMetaObject { ret := C.QSplitterHandle_MetaObject(this.h) return newQMetaObject_U(unsafe.Pointer(ret)) } func QSplitterHandle_Tr(s string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitterHandle_Tr(s_Cstring, &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func QSplitterHandle_TrUtf8(s string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitterHandle_TrUtf8(s_Cstring, &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func (this *QSplitterHandle) SetOrientation(o Orientation) { C.QSplitterHandle_SetOrientation(this.h, (C.uintptr_t)(o)) } func (this *QSplitterHandle) Orientation() Orientation { ret := C.QSplitterHandle_Orientation(this.h) return (Orientation)(ret) } func (this *QSplitterHandle) OpaqueResize() bool { ret := C.QSplitterHandle_OpaqueResize(this.h) return (bool)(ret) } func (this *QSplitterHandle) Splitter() *QSplitter { ret := C.QSplitterHandle_Splitter(this.h) return newQSplitter_U(unsafe.Pointer(ret)) } func (this *QSplitterHandle) SizeHint() *QSize { ret := C.QSplitterHandle_SizeHint(this.h) // Qt uses pass-by-value semantics for this type. Mimic with finalizer ret1 := newQSize(ret) runtime.SetFinalizer(ret1, func(ret2 *QSize) { ret2.Delete() runtime.KeepAlive(ret2.h) }) return ret1 } func QSplitterHandle_Tr2(s string, c string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitterHandle_Tr2(s_Cstring, c_Cstring, &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func QSplitterHandle_Tr3(s string, c string, n int) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitterHandle_Tr3(s_Cstring, c_Cstring, (C.int)(n), &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func QSplitterHandle_TrUtf82(s string, c string) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitterHandle_TrUtf82(s_Cstring, c_Cstring, &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func QSplitterHandle_TrUtf83(s string, c string, n int) string { s_Cstring := C.CString(s) defer C.free(unsafe.Pointer(s_Cstring)) c_Cstring := C.CString(c) defer C.free(unsafe.Pointer(c_Cstring)) var _out *C.char = nil var _out_Strlen C.int = 0 C.QSplitterHandle_TrUtf83(s_Cstring, c_Cstring, (C.int)(n), &_out, &_out_Strlen) ret := C.GoStringN(_out, _out_Strlen) C.free(unsafe.Pointer(_out)) return ret } func (this *QSplitterHandle) Delete() { C.QSplitterHandle_Delete(this.h) }