package qt6 /* #include "gen_qversionnumber.h" #include */ import "C" import ( "runtime" "unsafe" ) type QVersionNumber struct { h *C.QVersionNumber isSubclass bool } func (this *QVersionNumber) cPointer() *C.QVersionNumber { if this == nil { return nil } return this.h } func (this *QVersionNumber) UnsafePointer() unsafe.Pointer { if this == nil { return nil } return unsafe.Pointer(this.h) } // newQVersionNumber constructs the type using only CGO pointers. func newQVersionNumber(h *C.QVersionNumber) *QVersionNumber { if h == nil { return nil } return &QVersionNumber{h: h} } // UnsafeNewQVersionNumber constructs the type using only unsafe pointers. func UnsafeNewQVersionNumber(h unsafe.Pointer) *QVersionNumber { return newQVersionNumber((*C.QVersionNumber)(h)) } // NewQVersionNumber constructs a new QVersionNumber object. func NewQVersionNumber() *QVersionNumber { ret := newQVersionNumber(C.QVersionNumber_new()) ret.isSubclass = true return ret } // NewQVersionNumber2 constructs a new QVersionNumber object. func NewQVersionNumber2(seg []int) *QVersionNumber { seg_CArray := (*[0xffff]C.int)(C.malloc(C.size_t(8 * len(seg)))) defer C.free(unsafe.Pointer(seg_CArray)) for i := range seg { seg_CArray[i] = (C.int)(seg[i]) } seg_ma := C.struct_miqt_array{len: C.size_t(len(seg)), data: unsafe.Pointer(seg_CArray)} ret := newQVersionNumber(C.QVersionNumber_new2(seg_ma)) ret.isSubclass = true return ret } // NewQVersionNumber3 constructs a new QVersionNumber object. func NewQVersionNumber3(maj int) *QVersionNumber { ret := newQVersionNumber(C.QVersionNumber_new3((C.int)(maj))) ret.isSubclass = true return ret } // NewQVersionNumber4 constructs a new QVersionNumber object. func NewQVersionNumber4(maj int, min int) *QVersionNumber { ret := newQVersionNumber(C.QVersionNumber_new4((C.int)(maj), (C.int)(min))) ret.isSubclass = true return ret } // NewQVersionNumber5 constructs a new QVersionNumber object. func NewQVersionNumber5(maj int, min int, mic int) *QVersionNumber { ret := newQVersionNumber(C.QVersionNumber_new5((C.int)(maj), (C.int)(min), (C.int)(mic))) ret.isSubclass = true return ret } // NewQVersionNumber6 constructs a new QVersionNumber object. func NewQVersionNumber6(param1 *QVersionNumber) *QVersionNumber { ret := newQVersionNumber(C.QVersionNumber_new6(param1.cPointer())) ret.isSubclass = true return ret } func (this *QVersionNumber) IsNull() bool { return (bool)(C.QVersionNumber_IsNull(this.h)) } func (this *QVersionNumber) IsNormalized() bool { return (bool)(C.QVersionNumber_IsNormalized(this.h)) } func (this *QVersionNumber) MajorVersion() int { return (int)(C.QVersionNumber_MajorVersion(this.h)) } func (this *QVersionNumber) MinorVersion() int { return (int)(C.QVersionNumber_MinorVersion(this.h)) } func (this *QVersionNumber) MicroVersion() int { return (int)(C.QVersionNumber_MicroVersion(this.h)) } func (this *QVersionNumber) Normalized() *QVersionNumber { _goptr := newQVersionNumber(C.QVersionNumber_Normalized(this.h)) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func (this *QVersionNumber) Segments() []int { var _ma C.struct_miqt_array = C.QVersionNumber_Segments(this.h) _ret := make([]int, int(_ma.len)) _outCast := (*[0xffff]C.int)(unsafe.Pointer(_ma.data)) // hey ya for i := 0; i < int(_ma.len); i++ { _ret[i] = (int)(_outCast[i]) } return _ret } func (this *QVersionNumber) SegmentAt(index int64) int { return (int)(C.QVersionNumber_SegmentAt(this.h, (C.ptrdiff_t)(index))) } func (this *QVersionNumber) SegmentCount() int64 { return (int64)(C.QVersionNumber_SegmentCount(this.h)) } func (this *QVersionNumber) IsPrefixOf(other *QVersionNumber) bool { return (bool)(C.QVersionNumber_IsPrefixOf(this.h, other.cPointer())) } func QVersionNumber_Compare(v1 *QVersionNumber, v2 *QVersionNumber) int { return (int)(C.QVersionNumber_Compare(v1.cPointer(), v2.cPointer())) } func QVersionNumber_CommonPrefix(v1 *QVersionNumber, v2 *QVersionNumber) *QVersionNumber { _goptr := newQVersionNumber(C.QVersionNumber_CommonPrefix(v1.cPointer(), v2.cPointer())) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func (this *QVersionNumber) ToString() string { var _ms C.struct_miqt_string = C.QVersionNumber_ToString(this.h) _ret := C.GoStringN(_ms.data, C.int(int64(_ms.len))) C.free(unsafe.Pointer(_ms.data)) return _ret } func QVersionNumber_FromString(stringVal QAnyStringView) *QVersionNumber { _goptr := newQVersionNumber(C.QVersionNumber_FromString(stringVal.cPointer())) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func QVersionNumber_FromString2(stringVal QAnyStringView, suffixIndex *int64) *QVersionNumber { _goptr := newQVersionNumber(C.QVersionNumber_FromString2(stringVal.cPointer(), (*C.ptrdiff_t)(unsafe.Pointer(suffixIndex)))) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } // Delete this object from C++ memory. func (this *QVersionNumber) Delete() { C.QVersionNumber_Delete(this.h, C.bool(this.isSubclass)) } // GoGC adds a Go Finalizer to this pointer, so that it will be deleted // from C++ memory once it is unreachable from Go memory. func (this *QVersionNumber) GoGC() { runtime.SetFinalizer(this, func(this *QVersionNumber) { this.Delete() runtime.KeepAlive(this.h) }) } type QTypeRevision struct { h *C.QTypeRevision isSubclass bool } func (this *QTypeRevision) cPointer() *C.QTypeRevision { if this == nil { return nil } return this.h } func (this *QTypeRevision) UnsafePointer() unsafe.Pointer { if this == nil { return nil } return unsafe.Pointer(this.h) } // newQTypeRevision constructs the type using only CGO pointers. func newQTypeRevision(h *C.QTypeRevision) *QTypeRevision { if h == nil { return nil } return &QTypeRevision{h: h} } // UnsafeNewQTypeRevision constructs the type using only unsafe pointers. func UnsafeNewQTypeRevision(h unsafe.Pointer) *QTypeRevision { return newQTypeRevision((*C.QTypeRevision)(h)) } // NewQTypeRevision constructs a new QTypeRevision object. func NewQTypeRevision() *QTypeRevision { ret := newQTypeRevision(C.QTypeRevision_new()) ret.isSubclass = true return ret } // NewQTypeRevision2 constructs a new QTypeRevision object. func NewQTypeRevision2(param1 *QTypeRevision) *QTypeRevision { ret := newQTypeRevision(C.QTypeRevision_new2(param1.cPointer())) ret.isSubclass = true return ret } func QTypeRevision_Zero() *QTypeRevision { _goptr := newQTypeRevision(C.QTypeRevision_Zero()) _goptr.GoGC() // Qt uses pass-by-value semantics for this type. Mimic with finalizer return _goptr } func (this *QTypeRevision) HasMajorVersion() bool { return (bool)(C.QTypeRevision_HasMajorVersion(this.h)) } func (this *QTypeRevision) MajorVersion() byte { return (byte)(C.QTypeRevision_MajorVersion(this.h)) } func (this *QTypeRevision) HasMinorVersion() bool { return (bool)(C.QTypeRevision_HasMinorVersion(this.h)) } func (this *QTypeRevision) MinorVersion() byte { return (byte)(C.QTypeRevision_MinorVersion(this.h)) } func (this *QTypeRevision) IsValid() bool { return (bool)(C.QTypeRevision_IsValid(this.h)) } // Delete this object from C++ memory. func (this *QTypeRevision) Delete() { C.QTypeRevision_Delete(this.h, C.bool(this.isSubclass)) } // GoGC adds a Go Finalizer to this pointer, so that it will be deleted // from C++ memory once it is unreachable from Go memory. func (this *QTypeRevision) GoGC() { runtime.SetFinalizer(this, func(this *QTypeRevision) { this.Delete() runtime.KeepAlive(this.h) }) }