miqt/qt-restricted-extras/qscintilla/gen_qscilexerfortran.go

197 lines
5.7 KiB
Go

package qscintilla
/*
#include "gen_qscilexerfortran.h"
#include <stdlib.h>
*/
import "C"
import (
"github.com/mappu/miqt/qt"
"runtime"
"runtime/cgo"
"unsafe"
)
type QsciLexerFortran struct {
h *C.QsciLexerFortran
isSubclass bool
*QsciLexerFortran77
}
func (this *QsciLexerFortran) cPointer() *C.QsciLexerFortran {
if this == nil {
return nil
}
return this.h
}
func (this *QsciLexerFortran) UnsafePointer() unsafe.Pointer {
if this == nil {
return nil
}
return unsafe.Pointer(this.h)
}
// newQsciLexerFortran constructs the type using only CGO pointers.
func newQsciLexerFortran(h *C.QsciLexerFortran) *QsciLexerFortran {
if h == nil {
return nil
}
var outptr_QsciLexerFortran77 *C.QsciLexerFortran77 = nil
C.QsciLexerFortran_virtbase(h, &outptr_QsciLexerFortran77)
return &QsciLexerFortran{h: h,
QsciLexerFortran77: newQsciLexerFortran77(outptr_QsciLexerFortran77)}
}
// UnsafeNewQsciLexerFortran constructs the type using only unsafe pointers.
func UnsafeNewQsciLexerFortran(h unsafe.Pointer) *QsciLexerFortran {
return newQsciLexerFortran((*C.QsciLexerFortran)(h))
}
// NewQsciLexerFortran constructs a new QsciLexerFortran object.
func NewQsciLexerFortran() *QsciLexerFortran {
ret := newQsciLexerFortran(C.QsciLexerFortran_new())
ret.isSubclass = true
return ret
}
// NewQsciLexerFortran2 constructs a new QsciLexerFortran object.
func NewQsciLexerFortran2(parent *qt.QObject) *QsciLexerFortran {
ret := newQsciLexerFortran(C.QsciLexerFortran_new2((*C.QObject)(parent.UnsafePointer())))
ret.isSubclass = true
return ret
}
func (this *QsciLexerFortran) MetaObject() *qt.QMetaObject {
return qt.UnsafeNewQMetaObject(unsafe.Pointer(C.QsciLexerFortran_MetaObject(this.h)))
}
func (this *QsciLexerFortran) Metacast(param1 string) unsafe.Pointer {
param1_Cstring := C.CString(param1)
defer C.free(unsafe.Pointer(param1_Cstring))
return (unsafe.Pointer)(C.QsciLexerFortran_Metacast(this.h, param1_Cstring))
}
func QsciLexerFortran_Tr(s string) string {
s_Cstring := C.CString(s)
defer C.free(unsafe.Pointer(s_Cstring))
var _ms C.struct_miqt_string = C.QsciLexerFortran_Tr(s_Cstring)
_ret := C.GoStringN(_ms.data, C.int(int64(_ms.len)))
C.free(unsafe.Pointer(_ms.data))
return _ret
}
func QsciLexerFortran_TrUtf8(s string) string {
s_Cstring := C.CString(s)
defer C.free(unsafe.Pointer(s_Cstring))
var _ms C.struct_miqt_string = C.QsciLexerFortran_TrUtf8(s_Cstring)
_ret := C.GoStringN(_ms.data, C.int(int64(_ms.len)))
C.free(unsafe.Pointer(_ms.data))
return _ret
}
func (this *QsciLexerFortran) Language() string {
_ret := C.QsciLexerFortran_Language(this.h)
return C.GoString(_ret)
}
func (this *QsciLexerFortran) Lexer() string {
_ret := C.QsciLexerFortran_Lexer(this.h)
return C.GoString(_ret)
}
func (this *QsciLexerFortran) Keywords(set int) string {
_ret := C.QsciLexerFortran_Keywords(this.h, (C.int)(set))
return C.GoString(_ret)
}
func QsciLexerFortran_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 _ms C.struct_miqt_string = C.QsciLexerFortran_Tr2(s_Cstring, c_Cstring)
_ret := C.GoStringN(_ms.data, C.int(int64(_ms.len)))
C.free(unsafe.Pointer(_ms.data))
return _ret
}
func QsciLexerFortran_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 _ms C.struct_miqt_string = C.QsciLexerFortran_Tr3(s_Cstring, c_Cstring, (C.int)(n))
_ret := C.GoStringN(_ms.data, C.int(int64(_ms.len)))
C.free(unsafe.Pointer(_ms.data))
return _ret
}
func QsciLexerFortran_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 _ms C.struct_miqt_string = C.QsciLexerFortran_TrUtf82(s_Cstring, c_Cstring)
_ret := C.GoStringN(_ms.data, C.int(int64(_ms.len)))
C.free(unsafe.Pointer(_ms.data))
return _ret
}
func QsciLexerFortran_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 _ms C.struct_miqt_string = C.QsciLexerFortran_TrUtf83(s_Cstring, c_Cstring, (C.int)(n))
_ret := C.GoStringN(_ms.data, C.int(int64(_ms.len)))
C.free(unsafe.Pointer(_ms.data))
return _ret
}
func (this *QsciLexerFortran) callVirtualBase_SetFoldCompact(fold bool) {
C.QsciLexerFortran_virtualbase_SetFoldCompact(unsafe.Pointer(this.h), (C.bool)(fold))
}
func (this *QsciLexerFortran) OnSetFoldCompact(slot func(super func(fold bool), fold bool)) {
if !this.isSubclass {
panic("miqt: can only override virtual methods for directly constructed types")
}
C.QsciLexerFortran_override_virtual_SetFoldCompact(unsafe.Pointer(this.h), C.intptr_t(cgo.NewHandle(slot)))
}
//export miqt_exec_callback_QsciLexerFortran_SetFoldCompact
func miqt_exec_callback_QsciLexerFortran_SetFoldCompact(self *C.QsciLexerFortran, cb C.intptr_t, fold C.bool) {
gofunc, ok := cgo.Handle(cb).Value().(func(super func(fold bool), fold bool))
if !ok {
panic("miqt: callback of non-callback type (heap corruption?)")
}
// Convert all CABI parameters to Go parameters
slotval1 := (bool)(fold)
gofunc((&QsciLexerFortran{h: self}).callVirtualBase_SetFoldCompact, slotval1)
}
// Delete this object from C++ memory.
func (this *QsciLexerFortran) Delete() {
C.QsciLexerFortran_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 *QsciLexerFortran) GoGC() {
runtime.SetFinalizer(this, func(this *QsciLexerFortran) {
this.Delete()
runtime.KeepAlive(this.h)
})
}