390 lines
14 KiB
C
390 lines
14 KiB
C
/* FreeRDP: A Remote Desktop Protocol Client
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* Copy operations.
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* vi:ts=4 sw=4:
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*
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* (c) Copyright 2012 Hewlett-Packard Development Company, L.P.
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* Licensed under the Apache License, Version 2.0 (the "License"); you may
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* not use this file except in compliance with the License. You may obtain
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* a copy of the License at http://www.apache.org/licenses/LICENSE-2.0.
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
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* or implied. See the License for the specific language governing
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* permissions and limitations under the License.
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*/
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#include <freerdp/config.h>
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#include <string.h>
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#include <freerdp/types.h>
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#include <freerdp/primitives.h>
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#include <freerdp/log.h>
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#include "prim_internal.h"
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#include "prim_copy.h"
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#include "../codec/color.h"
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#include <freerdp/codec/color.h>
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#define TAG FREERDP_TAG("primitives.copy")
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static primitives_t* generic = NULL;
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/* ------------------------------------------------------------------------- */
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/*static inline BOOL memory_regions_overlap_1d(*/
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static BOOL memory_regions_overlap_1d(const BYTE* p1, const BYTE* p2, size_t bytes)
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{
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const ULONG_PTR p1m = (const ULONG_PTR)p1;
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const ULONG_PTR p2m = (const ULONG_PTR)p2;
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if (p1m <= p2m)
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{
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if (p1m + bytes > p2m)
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return TRUE;
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}
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else
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{
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if (p2m + bytes > p1m)
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return TRUE;
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}
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/* else */
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return FALSE;
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}
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/* ------------------------------------------------------------------------- */
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/*static inline BOOL memory_regions_overlap_2d( */
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static BOOL memory_regions_overlap_2d(const BYTE* p1, int p1Step, int p1Size, const BYTE* p2,
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int p2Step, int p2Size, int width, int height)
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{
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ULONG_PTR p1m = (ULONG_PTR)p1;
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ULONG_PTR p2m = (ULONG_PTR)p2;
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if (p1m <= p2m)
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{
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ULONG_PTR p1mEnd = p1m + 1ull * (height - 1) * p1Step + 1ull * width * p1Size;
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if (p1mEnd > p2m)
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return TRUE;
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}
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else
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{
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ULONG_PTR p2mEnd = p2m + 1ull * (height - 1) * p2Step + 1ull * width * p2Size;
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if (p2mEnd > p1m)
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return TRUE;
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}
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/* else */
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return FALSE;
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}
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/* ------------------------------------------------------------------------- */
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static pstatus_t general_copy_8u(const BYTE* pSrc, BYTE* pDst, INT32 len)
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{
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if (memory_regions_overlap_1d(pSrc, pDst, (size_t)len))
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{
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memmove((void*)pDst, (const void*)pSrc, (size_t)len);
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}
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else
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{
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memcpy((void*)pDst, (const void*)pSrc, (size_t)len);
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}
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return PRIMITIVES_SUCCESS;
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}
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/* ------------------------------------------------------------------------- */
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/* Copy a block of pixels from one buffer to another.
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* The addresses are assumed to have been already offset to the upper-left
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* corners of the source and destination region of interest.
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*/
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static pstatus_t general_copy_8u_AC4r(const BYTE* pSrc, INT32 srcStep, BYTE* pDst, INT32 dstStep,
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INT32 width, INT32 height)
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{
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const BYTE* src = pSrc;
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BYTE* dst = pDst;
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int rowbytes = width * sizeof(UINT32);
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if ((width == 0) || (height == 0))
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return PRIMITIVES_SUCCESS;
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if (memory_regions_overlap_2d(pSrc, srcStep, sizeof(UINT32), pDst, dstStep, sizeof(UINT32),
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width, height))
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{
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do
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{
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generic->copy(src, dst, rowbytes);
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src += srcStep;
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dst += dstStep;
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} while (--height);
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}
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else
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{
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/* TODO: do it in one operation when the rowdata is adjacent. */
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do
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{
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/* If we find a replacement for memcpy that is consistently
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* faster, this could be replaced with that.
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*/
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memcpy(dst, src, rowbytes);
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src += srcStep;
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dst += dstStep;
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} while (--height);
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}
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return PRIMITIVES_SUCCESS;
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}
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static INLINE pstatus_t generic_image_copy_bgr24_bgrx32(BYTE* WINPR_RESTRICT pDstData,
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UINT32 nDstStep, UINT32 nXDst, UINT32 nYDst,
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UINT32 nWidth, UINT32 nHeight,
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const BYTE* WINPR_RESTRICT pSrcData,
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UINT32 nSrcStep, UINT32 nXSrc, UINT32 nYSrc,
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SSIZE_T srcVMultiplier, SSIZE_T srcVOffset,
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SSIZE_T dstVMultiplier, SSIZE_T dstVOffset)
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{
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const SSIZE_T srcByte = 3;
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const SSIZE_T dstByte = 4;
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for (SSIZE_T y = 0; y < nHeight; y++)
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{
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const BYTE* WINPR_RESTRICT srcLine =
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&pSrcData[srcVMultiplier * (y + nYSrc) * nSrcStep + srcVOffset];
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BYTE* WINPR_RESTRICT dstLine =
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&pDstData[dstVMultiplier * (y + nYDst) * nDstStep + dstVOffset];
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for (SSIZE_T x = 0; x < nWidth; x++)
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{
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dstLine[(x + nXDst) * dstByte + 0] = srcLine[(x + nXSrc) * srcByte + 0];
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dstLine[(x + nXDst) * dstByte + 1] = srcLine[(x + nXSrc) * srcByte + 1];
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dstLine[(x + nXDst) * dstByte + 2] = srcLine[(x + nXSrc) * srcByte + 2];
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}
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}
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return PRIMITIVES_SUCCESS;
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}
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static INLINE pstatus_t generic_image_copy_bgrx32_bgrx32(
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BYTE* WINPR_RESTRICT pDstData, UINT32 nDstStep, UINT32 nXDst, UINT32 nYDst, UINT32 nWidth,
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UINT32 nHeight, const BYTE* WINPR_RESTRICT pSrcData, UINT32 nSrcStep, UINT32 nXSrc,
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UINT32 nYSrc, SSIZE_T srcVMultiplier, SSIZE_T srcVOffset, SSIZE_T dstVMultiplier,
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SSIZE_T dstVOffset)
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{
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const SSIZE_T srcByte = 4;
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const SSIZE_T dstByte = 4;
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for (SSIZE_T y = 0; y < nHeight; y++)
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{
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const BYTE* WINPR_RESTRICT srcLine =
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&pSrcData[srcVMultiplier * (y + nYSrc) * nSrcStep + srcVOffset];
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BYTE* WINPR_RESTRICT dstLine =
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&pDstData[dstVMultiplier * (y + nYDst) * nDstStep + dstVOffset];
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for (SSIZE_T x = 0; x < nWidth; x++)
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{
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dstLine[(x + nXDst) * dstByte + 0] = srcLine[(x + nXSrc) * srcByte + 0];
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dstLine[(x + nXDst) * dstByte + 1] = srcLine[(x + nXSrc) * srcByte + 1];
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dstLine[(x + nXDst) * dstByte + 2] = srcLine[(x + nXSrc) * srcByte + 2];
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}
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}
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return PRIMITIVES_SUCCESS;
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}
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pstatus_t generic_image_copy_no_overlap_convert(
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BYTE* WINPR_RESTRICT pDstData, DWORD DstFormat, UINT32 nDstStep, UINT32 nXDst, UINT32 nYDst,
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UINT32 nWidth, UINT32 nHeight, const BYTE* WINPR_RESTRICT pSrcData, DWORD SrcFormat,
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UINT32 nSrcStep, UINT32 nXSrc, UINT32 nYSrc, const gdiPalette* WINPR_RESTRICT palette,
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SSIZE_T srcVMultiplier, SSIZE_T srcVOffset, SSIZE_T dstVMultiplier, SSIZE_T dstVOffset)
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{
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const SSIZE_T srcByte = FreeRDPGetBytesPerPixel(SrcFormat);
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const SSIZE_T dstByte = FreeRDPGetBytesPerPixel(DstFormat);
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const UINT32 width = nWidth - nWidth % 8;
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for (SSIZE_T y = 0; y < nHeight; y++)
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{
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const BYTE* WINPR_RESTRICT srcLine =
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&pSrcData[srcVMultiplier * (y + nYSrc) * nSrcStep + srcVOffset];
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BYTE* WINPR_RESTRICT dstLine =
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&pDstData[dstVMultiplier * (y + nYDst) * nDstStep + dstVOffset];
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SSIZE_T x = 0;
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WINPR_PRAGMA_UNROLL_LOOP
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for (; x < width; x++)
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{
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const UINT32 color = FreeRDPReadColor_int(&srcLine[(x + nXSrc) * srcByte], SrcFormat);
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const UINT32 dstColor = FreeRDPConvertColor(color, SrcFormat, DstFormat, palette);
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FreeRDPWriteColor_int(&dstLine[(x + nXDst) * dstByte], DstFormat, dstColor);
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}
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for (; x < nWidth; x++)
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{
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const UINT32 color = FreeRDPReadColor_int(&srcLine[(x + nXSrc) * srcByte], SrcFormat);
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const UINT32 dstColor = FreeRDPConvertColor(color, SrcFormat, DstFormat, palette);
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FreeRDPWriteColor_int(&dstLine[(x + nXDst) * dstByte], DstFormat, dstColor);
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}
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}
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return PRIMITIVES_SUCCESS;
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}
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pstatus_t generic_image_copy_no_overlap_memcpy(
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BYTE* WINPR_RESTRICT pDstData, DWORD DstFormat, UINT32 nDstStep, UINT32 nXDst, UINT32 nYDst,
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UINT32 nWidth, UINT32 nHeight, const BYTE* WINPR_RESTRICT pSrcData, DWORD SrcFormat,
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UINT32 nSrcStep, UINT32 nXSrc, UINT32 nYSrc, const gdiPalette* WINPR_RESTRICT palette,
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SSIZE_T srcVMultiplier, SSIZE_T srcVOffset, SSIZE_T dstVMultiplier, SSIZE_T dstVOffset,
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UINT32 flags)
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{
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const SSIZE_T dstByte = FreeRDPGetBytesPerPixel(DstFormat);
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const SSIZE_T srcByte = FreeRDPGetBytesPerPixel(SrcFormat);
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const SSIZE_T copyDstWidth = nWidth * dstByte;
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const SSIZE_T xSrcOffset = nXSrc * srcByte;
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const SSIZE_T xDstOffset = nXDst * dstByte;
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for (SSIZE_T y = 0; y < nHeight; y++)
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{
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const BYTE* WINPR_RESTRICT srcLine =
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&pSrcData[srcVMultiplier * (y + nYSrc) * nSrcStep + srcVOffset];
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BYTE* WINPR_RESTRICT dstLine =
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&pDstData[dstVMultiplier * (y + nYDst) * nDstStep + dstVOffset];
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memcpy(&dstLine[xDstOffset], &srcLine[xSrcOffset], copyDstWidth);
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}
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return PRIMITIVES_SUCCESS;
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}
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static INLINE pstatus_t generic_image_copy_no_overlap_dst_alpha(
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BYTE* WINPR_RESTRICT pDstData, DWORD DstFormat, UINT32 nDstStep, UINT32 nXDst, UINT32 nYDst,
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UINT32 nWidth, UINT32 nHeight, const BYTE* WINPR_RESTRICT pSrcData, DWORD SrcFormat,
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UINT32 nSrcStep, UINT32 nXSrc, UINT32 nYSrc, const gdiPalette* WINPR_RESTRICT palette,
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SSIZE_T srcVMultiplier, SSIZE_T srcVOffset, SSIZE_T dstVMultiplier, SSIZE_T dstVOffset)
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{
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WINPR_ASSERT(pDstData);
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WINPR_ASSERT(pSrcData);
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switch (SrcFormat)
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{
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case PIXEL_FORMAT_BGR24:
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switch (DstFormat)
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{
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case PIXEL_FORMAT_BGRX32:
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case PIXEL_FORMAT_BGRA32:
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return generic_image_copy_bgr24_bgrx32(
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pDstData, nDstStep, nXDst, nYDst, nWidth, nHeight, pSrcData, nSrcStep,
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nXSrc, nYSrc, srcVMultiplier, srcVOffset, dstVMultiplier, dstVOffset);
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default:
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break;
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}
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break;
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case PIXEL_FORMAT_BGRX32:
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case PIXEL_FORMAT_BGRA32:
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switch (DstFormat)
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{
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case PIXEL_FORMAT_BGRX32:
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case PIXEL_FORMAT_BGRA32:
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return generic_image_copy_bgrx32_bgrx32(
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pDstData, nDstStep, nXDst, nYDst, nWidth, nHeight, pSrcData, nSrcStep,
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nXSrc, nYSrc, srcVMultiplier, srcVOffset, dstVMultiplier, dstVOffset);
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case PIXEL_FORMAT_BGR24:
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return generic_image_copy_bgr24_bgrx32(
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pDstData, nDstStep, nXDst, nYDst, nWidth, nHeight, pSrcData, nSrcStep,
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nXSrc, nYSrc, srcVMultiplier, srcVOffset, dstVMultiplier, dstVOffset);
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default:
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break;
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}
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break;
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default:
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break;
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}
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return generic_image_copy_no_overlap_convert(
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pDstData, DstFormat, nDstStep, nXDst, nYDst, nWidth, nHeight, pSrcData, SrcFormat, nSrcStep,
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nXSrc, nYSrc, palette, srcVMultiplier, srcVOffset, dstVMultiplier, dstVOffset);
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}
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static INLINE pstatus_t generic_image_copy_no_overlap_no_alpha(
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BYTE* WINPR_RESTRICT pDstData, DWORD DstFormat, UINT32 nDstStep, UINT32 nXDst, UINT32 nYDst,
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UINT32 nWidth, UINT32 nHeight, const BYTE* WINPR_RESTRICT pSrcData, DWORD SrcFormat,
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UINT32 nSrcStep, UINT32 nXSrc, UINT32 nYSrc, const gdiPalette* WINPR_RESTRICT palette,
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SSIZE_T srcVMultiplier, SSIZE_T srcVOffset, SSIZE_T dstVMultiplier, SSIZE_T dstVOffset,
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UINT32 flags)
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{
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if (FreeRDPAreColorFormatsEqualNoAlpha(SrcFormat, DstFormat))
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return generic_image_copy_no_overlap_memcpy(pDstData, DstFormat, nDstStep, nXDst, nYDst,
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nWidth, nHeight, pSrcData, SrcFormat, nSrcStep,
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nXSrc, nYSrc, palette, srcVMultiplier,
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srcVOffset, dstVMultiplier, dstVOffset, flags);
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else
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return generic_image_copy_no_overlap_convert(pDstData, DstFormat, nDstStep, nXDst, nYDst,
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nWidth, nHeight, pSrcData, SrcFormat, nSrcStep,
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nXSrc, nYSrc, palette, srcVMultiplier,
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srcVOffset, dstVMultiplier, dstVOffset);
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}
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static pstatus_t generic_image_copy_no_overlap(BYTE* WINPR_RESTRICT pDstData, DWORD DstFormat,
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UINT32 nDstStep, UINT32 nXDst, UINT32 nYDst,
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UINT32 nWidth, UINT32 nHeight,
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const BYTE* WINPR_RESTRICT pSrcData, DWORD SrcFormat,
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UINT32 nSrcStep, UINT32 nXSrc, UINT32 nYSrc,
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const gdiPalette* WINPR_RESTRICT palette,
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UINT32 flags)
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{
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const BOOL vSrcVFlip = (flags & FREERDP_FLIP_VERTICAL) ? TRUE : FALSE;
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SSIZE_T srcVOffset = 0;
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SSIZE_T srcVMultiplier = 1;
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SSIZE_T dstVOffset = 0;
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SSIZE_T dstVMultiplier = 1;
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if ((nWidth == 0) || (nHeight == 0))
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return PRIMITIVES_SUCCESS;
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if ((nHeight > INT32_MAX) || (nWidth > INT32_MAX))
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return -1;
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if (!pDstData || !pSrcData)
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return -1;
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if (nDstStep == 0)
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nDstStep = nWidth * FreeRDPGetBytesPerPixel(DstFormat);
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if (nSrcStep == 0)
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nSrcStep = nWidth * FreeRDPGetBytesPerPixel(SrcFormat);
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if (vSrcVFlip)
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{
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srcVOffset = (nHeight - 1ll) * nSrcStep;
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srcVMultiplier = -1;
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}
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if (((flags & FREERDP_KEEP_DST_ALPHA) != 0) && FreeRDPColorHasAlpha(DstFormat))
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return generic_image_copy_no_overlap_dst_alpha(
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pDstData, DstFormat, nDstStep, nXDst, nYDst, nWidth, nHeight, pSrcData, SrcFormat,
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nSrcStep, nXSrc, nYSrc, palette, srcVMultiplier, srcVOffset, dstVMultiplier,
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dstVOffset);
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else
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return generic_image_copy_no_overlap_no_alpha(
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pDstData, DstFormat, nDstStep, nXDst, nYDst, nWidth, nHeight, pSrcData, SrcFormat,
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nSrcStep, nXSrc, nYSrc, palette, srcVMultiplier, srcVOffset, dstVMultiplier, dstVOffset,
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flags);
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return PRIMITIVES_SUCCESS;
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}
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/* ------------------------------------------------------------------------- */
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void primitives_init_copy(primitives_t* prims)
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{
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/* Start with the default. */
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prims->copy_8u = general_copy_8u;
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prims->copy_8u_AC4r = general_copy_8u_AC4r;
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/* This is just an alias with void* parameters */
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prims->copy = (__copy_t)(prims->copy_8u);
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prims->copy_no_overlap = generic_image_copy_no_overlap;
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}
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void primitives_init_copy_opt(primitives_t* prims)
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{
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primitives_init_copy_sse41(prims);
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primitives_init_copy_avx2(prims);
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}
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