package reflect2 import ( "reflect" "unsafe" ) // sliceHeader is a safe version of SliceHeader used within this package. type sliceHeader struct { Data unsafe.Pointer Len int Cap int } type UnsafeSliceType struct { unsafeType elemRType unsafe.Pointer pElemRType unsafe.Pointer elemSize uintptr } func newUnsafeSliceType(cfg *frozenConfig, type1 reflect.Type) SliceType { elemType := type1.Elem() return &UnsafeSliceType{ unsafeType: *newUnsafeType(cfg, type1), pElemRType: unpackEFace(reflect.PtrTo(elemType)).data, elemRType: unpackEFace(elemType).data, elemSize: elemType.Size(), } } func (type2 *UnsafeSliceType) Set(obj interface{}, val interface{}) { objEFace := unpackEFace(obj) assertType("Type.Set argument 1", type2.ptrRType, objEFace.rtype) valEFace := unpackEFace(val) assertType("Type.Set argument 2", type2.ptrRType, valEFace.rtype) type2.UnsafeSet(objEFace.data, valEFace.data) } func (type2 *UnsafeSliceType) UnsafeSet(ptr unsafe.Pointer, val unsafe.Pointer) { *(*sliceHeader)(ptr) = *(*sliceHeader)(val) } func (type2 *UnsafeSliceType) IsNil(obj interface{}) bool { if obj == nil { return true } objEFace := unpackEFace(obj) assertType("Type.IsNil argument 1", type2.ptrRType, objEFace.rtype) return type2.UnsafeIsNil(objEFace.data) } func (type2 *UnsafeSliceType) UnsafeIsNil(ptr unsafe.Pointer) bool { if ptr == nil { return true } return (*sliceHeader)(ptr).Data == nil } func (type2 *UnsafeSliceType) SetNil(obj interface{}) { objEFace := unpackEFace(obj) assertType("SliceType.SetNil argument 1", type2.ptrRType, objEFace.rtype) type2.UnsafeSetNil(objEFace.data) } func (type2 *UnsafeSliceType) UnsafeSetNil(ptr unsafe.Pointer) { header := (*sliceHeader)(ptr) header.Len = 0 header.Cap = 0 header.Data = nil } func (type2 *UnsafeSliceType) MakeSlice(length int, cap int) interface{} { return packEFace(type2.ptrRType, type2.UnsafeMakeSlice(length, cap)) } func (type2 *UnsafeSliceType) UnsafeMakeSlice(length int, cap int) unsafe.Pointer { header := &sliceHeader{unsafe_NewArray(type2.elemRType, cap), length, cap} return unsafe.Pointer(header) } func (type2 *UnsafeSliceType) LengthOf(obj interface{}) int { objEFace := unpackEFace(obj) assertType("SliceType.Len argument 1", type2.ptrRType, objEFace.rtype) return type2.UnsafeLengthOf(objEFace.data) } func (type2 *UnsafeSliceType) UnsafeLengthOf(obj unsafe.Pointer) int { header := (*sliceHeader)(obj) return header.Len } func (type2 *UnsafeSliceType) SetIndex(obj interface{}, index int, elem interface{}) { objEFace := unpackEFace(obj) assertType("SliceType.SetIndex argument 1", type2.ptrRType, objEFace.rtype) elemEFace := unpackEFace(elem) assertType("SliceType.SetIndex argument 3", type2.pElemRType, elemEFace.rtype) type2.UnsafeSetIndex(objEFace.data, index, elemEFace.data) } func (type2 *UnsafeSliceType) UnsafeSetIndex(obj unsafe.Pointer, index int, elem unsafe.Pointer) { header := (*sliceHeader)(obj) elemPtr := arrayAt(header.Data, index, type2.elemSize, "i < s.Len") typedmemmove(type2.elemRType, elemPtr, elem) } func (type2 *UnsafeSliceType) GetIndex(obj interface{}, index int) interface{} { objEFace := unpackEFace(obj) assertType("SliceType.GetIndex argument 1", type2.ptrRType, objEFace.rtype) elemPtr := type2.UnsafeGetIndex(objEFace.data, index) return packEFace(type2.pElemRType, elemPtr) } func (type2 *UnsafeSliceType) UnsafeGetIndex(obj unsafe.Pointer, index int) unsafe.Pointer { header := (*sliceHeader)(obj) return arrayAt(header.Data, index, type2.elemSize, "i < s.Len") } func (type2 *UnsafeSliceType) Append(obj interface{}, elem interface{}) { objEFace := unpackEFace(obj) assertType("SliceType.Append argument 1", type2.ptrRType, objEFace.rtype) elemEFace := unpackEFace(elem) assertType("SliceType.Append argument 2", type2.pElemRType, elemEFace.rtype) type2.UnsafeAppend(objEFace.data, elemEFace.data) } func (type2 *UnsafeSliceType) UnsafeAppend(obj unsafe.Pointer, elem unsafe.Pointer) { header := (*sliceHeader)(obj) oldLen := header.Len type2.UnsafeGrow(obj, oldLen+1) type2.UnsafeSetIndex(obj, oldLen, elem) } func (type2 *UnsafeSliceType) Cap(obj interface{}) int { objEFace := unpackEFace(obj) assertType("SliceType.Cap argument 1", type2.ptrRType, objEFace.rtype) return type2.UnsafeCap(objEFace.data) } func (type2 *UnsafeSliceType) UnsafeCap(ptr unsafe.Pointer) int { return (*sliceHeader)(ptr).Cap } func (type2 *UnsafeSliceType) Grow(obj interface{}, newLength int) { objEFace := unpackEFace(obj) assertType("SliceType.Grow argument 1", type2.ptrRType, objEFace.rtype) type2.UnsafeGrow(objEFace.data, newLength) } func (type2 *UnsafeSliceType) UnsafeGrow(obj unsafe.Pointer, newLength int) { header := (*sliceHeader)(obj) if newLength <= header.Cap { header.Len = newLength return } newCap := calcNewCap(header.Cap, newLength) newHeader := (*sliceHeader)(type2.UnsafeMakeSlice(header.Len, newCap)) typedslicecopy(type2.elemRType, *newHeader, *header) header.Data = newHeader.Data header.Cap = newHeader.Cap header.Len = newLength } func calcNewCap(cap int, expectedCap int) int { if cap == 0 { cap = expectedCap } else { for cap < expectedCap { if cap < 1024 { cap += cap } else { cap += cap / 4 } } } return cap }