mirror of https://github.com/PCSX2/pcsx2.git
301 lines
7.5 KiB
C++
301 lines
7.5 KiB
C++
#ifndef MEM_TRANSMIT_H_INCLUDED
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#define MEM_TRANSMIT_H_INCLUDED
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#include "GS.h"
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#include "Mem.h"
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#define DSTPSM gs.dstbuf.psm
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extern int tempX, tempY;
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extern int pitch, area, fracX;
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extern int nSize;
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extern u8* pstart;
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// transfers whole rows
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template <class T>
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static __forceinline const T *TransmitHostLocalY_(_writePixel_0 wp, u32 widthlimit, u32 endY, const T *buf)
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{
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assert((nSize % widthlimit) == 0 && widthlimit <= 4);
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if ((gs.imageEndX - gs.trxpos.dx) % widthlimit)
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{
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// ZZLog::GS_Log("Bad Transmission! %d %d, psm: %d", gs.trxpos.dx, gs.imageEndX, DSTPSM);
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for (; tempY < endY; ++tempY)
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{
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for (; tempX < gs.imageEndX && nSize > 0; tempX += 1, nSize -= 1, buf += 1)
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{
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/* write as many pixel at one time as possible */
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wp(pstart, tempX % 2048, tempY % 2048, buf[0], gs.dstbuf.bw);
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}
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}
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}
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for (; tempY < endY; ++tempY)
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{
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for (; tempX < gs.imageEndX && nSize > 0; tempX += widthlimit, nSize -= widthlimit, buf += widthlimit)
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{
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/* write as many pixel at one time as possible */
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if (nSize < widthlimit) return NULL;
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wp(pstart, tempX % 2048, tempY % 2048, buf[0], gs.dstbuf.bw);
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if (widthlimit > 1)
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{
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wp(pstart, (tempX + 1) % 2048, tempY % 2048, buf[1], gs.dstbuf.bw);
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if (widthlimit > 2)
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{
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wp(pstart, (tempX + 2) % 2048, tempY % 2048, buf[2], gs.dstbuf.bw);
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if (widthlimit > 3)
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{
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wp(pstart, (tempX + 3) % 2048, tempY % 2048, buf[3], gs.dstbuf.bw);
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}
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}
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}
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}
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if (tempX >= gs.imageEndX)
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{
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assert(tempX == gs.imageEndX);
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tempX = gs.trxpos.dx;
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}
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else
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{
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assert(gs.imageTransfer == -1 || nSize*sizeof(T) / 4 == 0);
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return NULL;
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}
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}
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return buf;
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}
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// transfers whole rows
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template <class T>
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static __forceinline const T *TransmitHostLocalY_24(_writePixel_0 wp, u32 widthlimit, u32 endY, const T *buf)
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{
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if (widthlimit != 8 || ((gs.imageEndX - gs.trxpos.dx) % widthlimit))
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{
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//ZZLog::GS_Log("Bad Transmission! %d %d, psm: %d", gs.trxpos.dx, gs.imageEndX, DSTPSM);
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for (; tempY < endY; ++tempY)
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{
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for (; tempX < gs.imageEndX && nSize > 0; tempX += 1, nSize -= 1, buf += 3)
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{
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wp(pstart, tempX % 2048, tempY % 2048, *(u32*)(buf), gs.dstbuf.bw);
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}
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if (tempX >= gs.imageEndX)
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{
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assert(gs.imageTransfer == -1 || tempX == gs.imageEndX);
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tempX = gs.trxpos.dx;
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}
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else
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{
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assert(gs.imageTransfer == -1 || nSize == 0);
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return NULL;
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}
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}
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}
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else
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{
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assert(/*(nSize%widthlimit) == 0 &&*/ widthlimit == 8);
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for (; tempY < endY; ++tempY)
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{
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for (; tempX < gs.imageEndX && nSize > 0; tempX += widthlimit, nSize -= widthlimit, buf += 3 * widthlimit)
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{
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if (nSize < widthlimit) return NULL;
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/* write as many pixel at one time as possible */
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wp(pstart, tempX % 2048, tempY % 2048, *(u32*)(buf + 0), gs.dstbuf.bw);
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wp(pstart, (tempX + 1) % 2048, tempY % 2048, *(u32*)(buf + 3), gs.dstbuf.bw);
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wp(pstart, (tempX + 2) % 2048, tempY % 2048, *(u32*)(buf + 6), gs.dstbuf.bw);
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wp(pstart, (tempX + 3) % 2048, tempY % 2048, *(u32*)(buf + 9), gs.dstbuf.bw);
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wp(pstart, (tempX + 4) % 2048, tempY % 2048, *(u32*)(buf + 12), gs.dstbuf.bw);
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wp(pstart, (tempX + 5) % 2048, tempY % 2048, *(u32*)(buf + 15), gs.dstbuf.bw);
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wp(pstart, (tempX + 6) % 2048, tempY % 2048, *(u32*)(buf + 18), gs.dstbuf.bw);
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wp(pstart, (tempX + 7) % 2048, tempY % 2048, *(u32*)(buf + 21), gs.dstbuf.bw);
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}
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if (tempX >= gs.imageEndX)
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{
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assert(gs.imageTransfer == -1 || tempX == gs.imageEndX);
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tempX = gs.trxpos.dx;
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}
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else
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{
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if (nSize < 0)
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{
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/* extracted too much */
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assert((nSize % 3) == 0 && nSize > -24);
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tempX += nSize / 3;
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nSize = 0;
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}
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assert(gs.imageTransfer == -1 || nSize == 0);
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return NULL;
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}
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}
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}
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return buf;
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}
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// meant for 4bit transfers
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template <class T>
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static __forceinline const T *TransmitHostLocalY_4(_writePixel_0 wp, u32 widthlimit, u32 endY, const T *buf)
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{
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for (; tempY < endY; ++tempY)
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{
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for (; tempX < gs.imageEndX && nSize > 0; tempX += widthlimit, nSize -= widthlimit)
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{
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/* write as many pixel at one time as possible */
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wp(pstart, tempX % 2048, tempY % 2048, *buf&0x0f, gs.dstbuf.bw);
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wp(pstart, (tempX + 1) % 2048, tempY % 2048, *buf >> 4, gs.dstbuf.bw);
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buf++;
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if (widthlimit > 2)
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{
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wp(pstart, (tempX + 2) % 2048, tempY % 2048, *buf&0x0f, gs.dstbuf.bw);
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wp(pstart, (tempX + 3) % 2048, tempY % 2048, *buf >> 4, gs.dstbuf.bw);
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buf++;
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if (widthlimit > 4)
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{
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wp(pstart, (tempX + 4) % 2048, tempY % 2048, *buf&0x0f, gs.dstbuf.bw);
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wp(pstart, (tempX + 5) % 2048, tempY % 2048, *buf >> 4, gs.dstbuf.bw);
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buf++;
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if (widthlimit > 6)
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{
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wp(pstart, (tempX + 6) % 2048, tempY % 2048, *buf&0x0f, gs.dstbuf.bw);
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wp(pstart, (tempX + 7) % 2048, tempY % 2048, *buf >> 4, gs.dstbuf.bw);
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buf++;
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}
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}
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}
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}
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if (tempX >= gs.imageEndX)
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{
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tempX = gs.trxpos.dx;
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}
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else
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{
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assert(gs.imageTransfer == -1 || (nSize / 32) == 0);
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return NULL;
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}
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}
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return buf;
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}
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template <class T>
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static __forceinline const T *TransmitHostLocalY(TransferData data, _writePixel_0 wp, u32 widthlimit, u32 endY, const T *buf)
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{
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switch (data.psm)
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{
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case PSM_:
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return TransmitHostLocalY_<T>(wp, widthlimit, endY, buf);
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case PSM_4_:
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return TransmitHostLocalY_4<T>(wp, widthlimit, endY, buf);
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case PSM_24_:
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return TransmitHostLocalY_24<T>(wp, widthlimit, endY, buf);
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}
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assert(0);
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return NULL;
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}
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template <class T>
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static __forceinline const T *TransmitHostLocalX_(_writePixel_0 wp, u32 widthlimit, u32 blockheight, u32 startX, const T *buf)
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{
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for (u32 tempi = 0; tempi < blockheight; ++tempi)
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{
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for (tempX = startX; tempX < gs.imageEndX; tempX++, buf++)
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{
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wp(pstart, tempX % 2048, (tempY + tempi) % 2048, buf[0], gs.dstbuf.bw);
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}
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buf += pitch - fracX;
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}
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return buf;
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}
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// transmit until endX, don't check size since it has already been prevalidated
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template <class T>
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static __forceinline const T *TransmitHostLocalX_24(_writePixel_0 wp, u32 widthlimit, u32 blockheight, u32 startX, const T *buf)
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{
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for (u32 tempi = 0; tempi < blockheight; ++tempi)
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{
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for (tempX = startX; tempX < gs.imageEndX; tempX++, buf += 3)
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{
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wp(pstart, tempX % 2048, (tempY + tempi) % 2048, *(u32*)buf, gs.dstbuf.bw);
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}
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buf += 3 * (pitch - fracX);
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}
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return buf;
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}
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// transmit until endX, don't check size since it has already been prevalidated
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template <class T>
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static __forceinline const T *TransmitHostLocalX_4(_writePixel_0 wp, u32 widthlimit, u32 blockheight, u32 startX, const T *buf)
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{
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for (u32 tempi = 0; tempi < blockheight; ++tempi)
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{
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for (tempX = startX; tempX < gs.imageEndX; tempX += 2, buf++)
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{
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wp(pstart, tempX % 2048, (tempY + tempi) % 2048, buf[0]&0x0f, gs.dstbuf.bw);
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wp(pstart, (tempX + 1) % 2048, (tempY + tempi) % 2048, buf[0] >> 4, gs.dstbuf.bw);
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}
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buf += (pitch - fracX) / 2;
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}
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return buf;
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}
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template <class T>
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static __forceinline const T *TransmitHostLocalX(TransferData data, _writePixel_0 wp, u32 widthlimit, u32 blockheight, u32 startX, const T *buf)
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{
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switch (data.psm)
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{
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case PSM_:
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return TransmitHostLocalX_<T>(wp, widthlimit, blockheight, startX, buf);
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case PSM_4_:
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return TransmitHostLocalX_4<T>(wp, widthlimit, blockheight, startX, buf);
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case PSM_24_:
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return TransmitHostLocalX_24<T>(wp, widthlimit, blockheight, startX, buf);
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}
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assert(0);
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return NULL;
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}
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// calculate pitch in source buffer
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static __forceinline u32 TransPitch(u32 pitch, u32 size)
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{
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return pitch * size / 8;
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}
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static __forceinline u32 TransPitch2(u32 pitch, u32 size)
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{
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if (size == 4) return pitch / 2;
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if (size == 24) return pitch * 3;
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return pitch;
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}
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#endif // MEM_TRANSMIT_H_INCLUDED
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