/* ScummVM - Scumm Interpreter * Copyright (C) 2005-2006 The ScummVM project * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $Header$ * */ // minimalistic gfx pipe implementation based on Vzzrzzn's GfxPipe. #include #include #include "DmaPipe.h" #include "GsDefs.h" class SinglePipe { public: SinglePipe(uint64 *buf, uint32 size); uint32 spaceLeft(void); void flush(void); void setGifRegListTag(uint8 numRegs, uint64 list); void setGifLoopTag(uint16 nLoop); void setReg(uint64 reg, uint64 value); void setListReg(uint64 value1, uint64 value2); void appendChain(uint64 dmaTag); void init(void); uint64 *_chainHead; private: uint64 *_bufPos; uint16 *_chainSize; uint64 *_buf; uint32 _size; }; DmaPipe::DmaPipe(uint32 size) { size &= ~0x1F; _buf = (uint64*)memalign(64, size); _curPipe = 0; _pipes[0] = new SinglePipe(_buf, size >> 4); _pipes[1] = new SinglePipe(_buf + (size >> 4), size >> 4); // reset DMAC Channel 2 D2_CHCR = 0; D2_TADR = 0; D2_MADR = 0; D2_ASR1 = 0; D2_ASR0 = 0; D_STAT = 0xFF1F; D_CTRL = 0; D_PCR = 0; D_SQWC = 0; D_RBOR = 0; D_RBSR = 0; D_CTRL = 1; if (!(D_STAT & CIM2)) // channel 2 interrupts enabled? D_STAT = CIM2; // enable them if (D_STAT & CIS2) // is there an old interrupt we have to acknowledge? D_STAT = CIS2; // do so... SifSetDChain(); } void DmaPipe::uploadTex(uint32 dest, uint16 bufWidth, uint16 destOfsX, uint16 destOfsY, uint8 pixelFmt, const void *src, uint16 width, uint16 height) { checkSpace(5); *(_pipes[_curPipe]->_chainHead) &= 0xffffffff8fffffff; // change last chain tag id, from 'end' to 'cnt' *(_pipes[_curPipe]->_chainHead) |= (1 << 28); _pipes[_curPipe]->setGifLoopTag(4); _pipes[_curPipe]->setReg(GPR_BITBLTBUF, GS_SET_DEST_BLTBUF((dest/256) & 0x3fff, (bufWidth/64) & 0x3f, pixelFmt & 0x3f)); _pipes[_curPipe]->setReg( GPR_TRXPOS, GS_SET_DEST_TRXPOS(destOfsX, destOfsY)); _pipes[_curPipe]->setReg( GPR_TRXREG, GS_SET_TRXREG(width, height)); _pipes[_curPipe]->setReg( GPR_TRXDIR, 0); checkSpace(15); uint32 numq = width * height; switch (pixelFmt) { case GS_PSMCT32: numq = (numq + 3) >> 2; break; case GS_PSMCT24: numq = (numq + 2) / 3; break; case GS_PSMCT16: case GS_PSMCT16S: numq = (numq + 7) >> 3; break; case GS_PSMT8: case GS_PSMT8H: numq = (numq + 15) >> 4; break; case GS_PSMT4HL: case GS_PSMT4HH: case GS_PSMT4: numq = (numq + 31) >> 5; break; default: numq = 0; } uint64 texSrc = (uint32)src & 0x7fffffff; while (numq) { uint64 sendQuads = (numq <= 0x7FF0) ? numq : 0x7FF0; _pipes[_curPipe]->appendChain((1 << 28) | 1); _pipes[_curPipe]->appendChain(0x0800000000000000 + sendQuads); // IMAGE mode giftag. Flg = 10b, nloop = currq _pipes[_curPipe]->appendChain((texSrc << 32) | 0x0000000030000000 | sendQuads); // set up dma tag for image transfer. next = tex addr, id = 11b, qwc = numq numq -= sendQuads; texSrc += sendQuads * 16; } _pipes[_curPipe]->appendChain(0x0000000070000000); // next dma tag _pipes[_curPipe]->setGifLoopTag(1); _pipes[_curPipe]->setReg(GPR_TEXFLUSH, 1); } void DmaPipe::setTex(uint32 tex, uint32 texBufWidth, uint8 texPowW, uint8 texPowH, uint8 texPixFmt, uint32 clut, uint8 csm, uint32 clutBufWidth, uint32 clutPixFmt) { checkSpace(7); _pipes[_curPipe]->setGifLoopTag(6); _pipes[_curPipe]->setReg( GPR_TEXCLUT, 256 / 64); _pipes[_curPipe]->setReg(GPR_TEXFLUSH, 0); _pipes[_curPipe]->setReg( GPR_TEXA, GS_SET_TEXA(128, 1, 0)); _pipes[_curPipe]->setReg( GPR_TEX1_1, GS_SET_TEX1(0, 0, FILTER_LINEAR, FILTER_LINEAR, 0, 0, 0)); _pipes[_curPipe]->setReg( GPR_TEX0_1, GS_SET_TEX0(tex / 256, texBufWidth / 64, texPixFmt, texPowW, texPowH, 1, 0, clut / 256, clutBufWidth / 64, csm, 0, 1)); _pipes[_curPipe]->setReg( GPR_CLAMP_1, 0); } void DmaPipe::textureRect(const GsVertex *p1, const GsVertex *p2, const TexVertex *t1, const TexVertex *t2) { checkSpace(4); _pipes[_curPipe]->setGifRegListTag( 6, 0xffffffffff535310); _pipes[_curPipe]->setListReg( GS_SET_PRIM(PR_SPRITE, 0, 1, 0, 1, 0, 1, 0, 0), GS_SET_COLQ(GS_RGBA(0x80, 0x80, 0x80, 0x80))); _pipes[_curPipe]->setListReg( GS_SET_UV(t1->u, t1->v), GS_SET_XYZ(p1->x, p1->y, p1->z)); _pipes[_curPipe]->setListReg( GS_SET_UV(t2->u, t2->v), GS_SET_XYZ(p2->x, p2->y, p2->z)); } void DmaPipe::textureRect(const GsVertex *p1, const GsVertex *p2, const GsVertex *p3, const GsVertex *p4, const TexVertex *t1, const TexVertex *t2, const TexVertex *t3, const TexVertex *t4, uint32 rgba) { checkSpace(6); _pipes[_curPipe]->setGifRegListTag(10, 0xffffff5353535310); _pipes[_curPipe]->setListReg( GS_SET_PRIM(PR_TRIANGLESTRIP, 0, 1, 0, 1, 0, 1, 0, 0), GS_SET_COLQ(rgba)); _pipes[_curPipe]->setListReg( GS_SET_UV(t1->u, t1->v), GS_SET_XYZ(p1->x, p1->y, p1->z)); _pipes[_curPipe]->setListReg( GS_SET_UV(t2->u, t2->v), GS_SET_XYZ(p2->x, p2->y, p2->z)); _pipes[_curPipe]->setListReg( GS_SET_UV(t3->u, t3->v), GS_SET_XYZ(p3->x, p3->y, p3->z)); _pipes[_curPipe]->setListReg( GS_SET_UV(t4->u, t4->v), GS_SET_XYZ(p4->x, p4->y, p4->z)); } void DmaPipe::flatRect(const GsVertex *p1, const GsVertex *p2, const GsVertex *p3, const GsVertex *p4, uint32 rgba) { checkSpace(4); _pipes[_curPipe]->setGifRegListTag( 6, 0xffffffffff555510); _pipes[_curPipe]->setListReg( GS_SET_PRIM(PR_TRIANGLESTRIP, 0, 0, 0, 0, 0, 0, 0, 0), GS_SET_COLQ(rgba)); _pipes[_curPipe]->setListReg( GS_SET_XYZ(p1->x, p1->y, p1->z), GS_SET_XYZ(p2->x, p2->y, p2->z)); _pipes[_curPipe]->setListReg( GS_SET_XYZ(p3->x, p3->y, p3->z), GS_SET_XYZ(p4->x, p4->y, p4->z)); } void DmaPipe::flatRect(const GsVertex *p1, const GsVertex *p2, uint32 rgba) { checkSpace(3); _pipes[_curPipe]->setGifRegListTag( 4, 0xffffffffffff5510); _pipes[_curPipe]->setListReg( GS_SET_PRIM(PR_SPRITE, 0, 0, 0, 1, 0, 0, 0, 0), GS_SET_COLQ(rgba)); _pipes[_curPipe]->setListReg( GS_SET_XYZ(p1->x, p1->y, p1->z), GS_SET_XYZ(p2->x, p2->y, p2->z)); } void DmaPipe::setOrigin(uint16 x, uint16 y) { checkSpace(2); _pipes[_curPipe]->setGifLoopTag(1); _pipes[_curPipe]->setReg( GPR_XYOFFSET_1, GS_SET_XYOFFSET(x, y)); } void DmaPipe::setAlphaBlend(AlphaBlendColor a, AlphaBlendColor b, AlphaBlendAlpha c, AlphaBlendColor d, uint8 fix) { checkSpace(2); _pipes[_curPipe]->setGifLoopTag(1); _pipes[_curPipe]->setReg(GPR_ALPHA_1, GS_SET_ALPHA(a, b, c, d, fix)); } void DmaPipe::setConfig(uint8 prModeCont, uint8 dither, uint8 colClamp) { checkSpace(9); _pipes[_curPipe]->setGifLoopTag(8); // set some defaults // alpha blending formula: (A-B) * C + D // set: A = dest pixel, b = 0, C = source alpha, D = source pixel, fix = don't care _pipes[_curPipe]->setReg(GPR_ALPHA_1, GS_SET_ALPHA(DEST_COLOR, ZERO_COLOR, SOURCE_ALPHA, SOURCE_COLOR, 0)); _pipes[_curPipe]->setReg( GPR_PRIM, 0); _pipes[_curPipe]->setReg( GPR_PABE, 0); // alpha blending off _pipes[_curPipe]->setReg( GPR_TEST_1, GS_SET_TEST(0, 0, 0, 0, 0, 0, 1, 1)); // ztest off _pipes[_curPipe]->setReg( GPR_ZBUF_1, (uint64)1 << 32); // zbuffer off _pipes[_curPipe]->setReg( GPR_PRMODECONT, prModeCont & 1); _pipes[_curPipe]->setReg( GPR_DTHE, dither & 1); _pipes[_curPipe]->setReg( GPR_COLCLAMP, colClamp & 1); } void DmaPipe::setScissorRect(uint64 x1, uint64 y1, uint64 x2, uint64 y2) { checkSpace(2); _pipes[_curPipe]->setGifLoopTag(1); _pipes[_curPipe]->setReg( GPR_SCISSOR_1, GS_SET_SCISSOR(x1, x2, y1, y2)); } void DmaPipe::setDrawBuffer(uint64 base, uint64 width, uint8 pixelFmt, uint64 mask) { checkSpace(2); _pipes[_curPipe]->setGifLoopTag(1); _pipes[_curPipe]->setReg( GPR_FRAME_1, GS_SET_FRAME(base / 8192, width / 64, pixelFmt, mask)); } void DmaPipe::setFinishEvent(void) { checkSpace(3); // make GS generate a FINISH interrupt when it's done. _pipes[_curPipe]->setGifLoopTag(2); _pipes[_curPipe]->setReg( GPR_FINISH, 1); _pipes[_curPipe]->setReg( GPR_SIGNAL, 1); } void DmaPipe::checkSpace(uint32 needed) { if (_pipes[_curPipe]->spaceLeft() < (needed << 1)) flush(); } void DmaPipe::waitForDma(void) { while (D2_CHCR & 0x100) {} } void DmaPipe::flush(void) { waitForDma(); FlushCache(0); _pipes[_curPipe]->flush(); _curPipe ^= 1; _pipes[_curPipe]->init(); } SinglePipe::SinglePipe(uint64 *buf, uint32 size) { _buf = buf; _size = size; init(); } void SinglePipe::flush(void) { D2_TADR = (uint32)_buf; D2_QWC = 0; D2_CHCR |= 0x185; } void SinglePipe::init(void) { _buf[0] = 0x0000000070000000; _buf[1] = 0; _chainHead = _buf; _chainSize = (uint16*)_chainHead; _bufPos = _buf + 2; } uint32 SinglePipe::spaceLeft(void) { return (_size - (_bufPos - _buf)); } void SinglePipe::appendChain(uint64 dmaTag) { _chainHead = _bufPos; _chainHead[0] = dmaTag; _chainHead[1] = 0; _chainSize = (uint16*)_chainHead; _bufPos += 2; } void SinglePipe::setReg(uint64 reg, uint64 value) { *_bufPos++ = value; *_bufPos++ = reg; (*_chainSize)++; } void SinglePipe::setListReg(uint64 value1, uint64 value2) { *_bufPos++ = value1; *_bufPos++ = value2; (*_chainSize)++; } void SinglePipe::setGifRegListTag(uint8 numRegs, uint64 list) { *_bufPos++ = GIF_SET_TAG(1, 1, 0, 0, 1, 0) | ((uint64)numRegs << 60); *_bufPos++ = list; (*_chainSize)++; } void SinglePipe::setGifLoopTag(uint16 nLoop) { *_bufPos++ = GIF_SET_TAG(0, 1, 0, 0, 0, 1) | nLoop; *_bufPos++ = 0xfffffffffffffffe; (*_chainSize)++; }