pcsx2/plugins/GSdx/GSRendererSW.cpp

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/*
* Copyright (C) 2007-2009 Gabest
* http://www.gabest.org
*
* 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, 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 GNU Make; see the file COPYING. If not, write to
* the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
* http://www.gnu.org/copyleft/gpl.html
*
*/
#include "StdAfx.h"
#include "GSRendererSW.h"
const GSVector4 g_pos_scale(1.0f / 16, 1.0f / 16, 1.0f, 128.0f);
GSRendererSW::GSRendererSW(uint8* base, bool mt, void (*irq)(), GSDevice* dev)
: GSRendererT(base, mt, irq, dev)
{
m_tc = new GSTextureCacheSW(this);
memset(m_texture, 0, sizeof(m_texture));
m_rl.Create<GSDrawScanline>(this, theApp.GetConfig("swthreads", 1));
InitVertexKick<GSRendererSW>();
}
GSRendererSW::~GSRendererSW()
{
delete m_tc;
}
void GSRendererSW::Reset()
{
// TODO: GSreset can come from the main thread too => crash
// m_tc->RemoveAll();
m_reset = true;
__super::Reset();
}
void GSRendererSW::VSync(int field)
{
__super::VSync(field);
m_tc->IncAge();
if(m_reset)
{
m_tc->RemoveAll();
m_reset = false;
}
// if((m_perfmon.GetFrame() & 255) == 0) m_rl.PrintStats();
}
void GSRendererSW::ResetDevice()
{
for(int i = 0; i < countof(m_texture); i++)
{
delete m_texture[i];
m_texture[i] = NULL;
}
}
GSTexture* GSRendererSW::GetOutput(int i)
{
const GSRegDISPFB& DISPFB = m_regs->DISP[i].DISPFB;
GIFRegTEX0 TEX0;
TEX0.TBP0 = DISPFB.Block();
TEX0.TBW = DISPFB.FBW;
TEX0.PSM = DISPFB.PSM;
GSVector4i r(0, 0, TEX0.TBW * 64, GetFrameRect(i).bottom);
// TODO: round up bottom
int w = r.width();
int h = r.height();
if(m_texture[i])
{
if(m_texture[i]->GetWidth() != w || m_texture[i]->GetHeight() != h)
{
delete m_texture[i];
m_texture[i] = NULL;
}
}
if(!m_texture[i])
{
m_texture[i] = m_dev->CreateTexture(w, h);
if(!m_texture[i])
{
return NULL;
}
}
// TODO
static uint8* buff = (uint8*)_aligned_malloc(1024 * 1024 * 4, 16);
static int pitch = 1024 * 4;
m_mem.ReadTexture(r, buff, pitch, TEX0, m_env.TEXA);
m_texture[i]->Update(r, buff, pitch);
if(s_dump)
{
if(s_save)
{
m_texture[i]->Save(format("c:\\temp1\\_%05d_f%I64d_fr%d_%05x_%d.bmp", s_n, m_perfmon.GetFrame(), i, (int)TEX0.TBP0, (int)TEX0.PSM));
}
s_n++;
}
return m_texture[i];
}
void GSRendererSW::Draw()
{
GS_PRIM_CLASS primclass = GSUtil::GetPrimClass(PRIM->PRIM);
m_vt.Update(m_vertices, m_count, primclass, PRIM, m_context);
if(m_dump)
{
m_dump.Object(m_vertices, m_count, primclass);
}
GSScanlineParam p;
GetScanlineParam(p, primclass);
if((p.fm & p.zm) == 0xffffffff)
{
return;
}
if(s_dump)
{
uint64 frame = m_perfmon.GetFrame();
string s;
if(s_save && PRIM->TME)
{
s = format("c:\\temp1\\_%05d_f%I64d_tex_%05x_%d.bmp", s_n, frame, (int)m_context->TEX0.TBP0, (int)m_context->TEX0.PSM);
m_mem.SaveBMP(s, m_context->TEX0.TBP0, m_context->TEX0.TBW, m_context->TEX0.PSM, 1 << m_context->TEX0.TW, 1 << m_context->TEX0.TH);
}
s_n++;
if(s_save)
{
s = format("c:\\temp1\\_%05d_f%I64d_rt0_%05x_%d.bmp", s_n, frame, m_context->FRAME.Block(), m_context->FRAME.PSM);
m_mem.SaveBMP(s, m_context->FRAME.Block(), m_context->FRAME.FBW, m_context->FRAME.PSM, GetFrameRect().width(), 512);//GetFrameSize(1).cy);
}
if(s_savez)
{
s = format("c:\\temp1\\_%05d_f%I64d_rz0_%05x_%d.bmp", s_n, frame, m_context->ZBUF.Block(), m_context->ZBUF.PSM);
m_mem.SaveBMP(s, m_context->ZBUF.Block(), m_context->FRAME.FBW, m_context->ZBUF.PSM, GetFrameRect().width(), 512);
}
s_n++;
}
GSRasterizerData data;
data.scissor = GSVector4i(m_context->scissor.in);
data.scissor.z = min(data.scissor.z, (int)m_context->FRAME.FBW * 64); // TODO: find a game that overflows and check which one is the right behaviour
data.primclass = primclass;
data.vertices = m_vertices;
data.count = m_count;
data.param = &p;
m_rl.Draw(&data);
GSRasterizerStats stats;
m_rl.GetStats(stats);
m_perfmon.Put(GSPerfMon::Draw, 1);
m_perfmon.Put(GSPerfMon::Prim, stats.prims);
m_perfmon.Put(GSPerfMon::Fillrate, stats.pixels);
GSVector4i r = GSVector4i(m_vt.m_min.p.xyxy(m_vt.m_max.p)).rintersect(data.scissor);
GIFRegBITBLTBUF BITBLTBUF;
BITBLTBUF.DBW = m_context->FRAME.FBW;
if(p.fm != 0xffffffff)
{
BITBLTBUF.DBP = m_context->FRAME.Block();
BITBLTBUF.DPSM = m_context->FRAME.PSM;
m_tc->InvalidateVideoMem(BITBLTBUF, r);
}
if(p.zm != 0xffffffff)
{
BITBLTBUF.DBP = m_context->ZBUF.Block();
BITBLTBUF.DPSM = m_context->ZBUF.PSM;
m_tc->InvalidateVideoMem(BITBLTBUF, r);
}
if(s_dump)
{
uint64 frame = m_perfmon.GetFrame();
string s;
if(s_save)
{
s = format("c:\\temp1\\_%05d_f%I64d_rt1_%05x_%d.bmp", s_n, frame, m_context->FRAME.Block(), m_context->FRAME.PSM);
m_mem.SaveBMP(s, m_context->FRAME.Block(), m_context->FRAME.FBW, m_context->FRAME.PSM, GetFrameRect().width(), 512);//GetFrameSize(1).cy);
}
if(s_savez)
{
s = format("c:\\temp1\\_%05d_f%I64d_rz1_%05x_%d.bmp", s_n, frame, m_context->ZBUF.Block(), m_context->ZBUF.PSM);
m_mem.SaveBMP(s, m_context->ZBUF.Block(), m_context->FRAME.FBW, m_context->ZBUF.PSM, GetFrameRect().width(), 512);
}
s_n++;
}
if(0)//stats.ticks > 5000000)
{
printf("* [%I64d | %012I64x] ticks %I64d prims %d (%d) pixels %d (%d)\n",
m_perfmon.GetFrame(), p.sel.key,
stats.ticks,
stats.prims, stats.prims > 0 ? (int)(stats.ticks / stats.prims) : -1,
stats.pixels, stats.pixels > 0 ? (int)(stats.ticks / stats.pixels) : -1);
}
}
void GSRendererSW::InvalidateVideoMem(const GIFRegBITBLTBUF& BITBLTBUF, const GSVector4i& r)
{
m_tc->InvalidateVideoMem(BITBLTBUF, r);
}
void GSRendererSW::GetScanlineParam(GSScanlineParam& p, GS_PRIM_CLASS primclass)
{
const GSDrawingEnvironment& env = m_env;
const GSDrawingContext* context = m_context;
p.vm = m_mem.m_vm8;
p.fbo = m_mem.GetOffset(context->FRAME.Block(), context->FRAME.FBW, context->FRAME.PSM);
p.zbo = m_mem.GetOffset(context->ZBUF.Block(), context->FRAME.FBW, context->ZBUF.PSM);
p.fzbo = m_mem.GetOffset4(context->FRAME, context->ZBUF);
p.sel.key = 0;
p.sel.fpsm = 3;
p.sel.zpsm = 3;
p.sel.atst = ATST_ALWAYS;
p.sel.tfx = TFX_NONE;
p.sel.ababcd = 255;
p.sel.sprite = primclass == GS_SPRITE_CLASS ? 1 : 0;
p.fm = context->FRAME.FBMSK;
p.zm = context->ZBUF.ZMSK || context->TEST.ZTE == 0 ? 0xffffffff : 0;
if(context->TEST.ZTE && context->TEST.ZTST == ZTST_NEVER)
{
p.fm = 0xffffffff;
p.zm = 0xffffffff;
}
if(PRIM->TME)
{
m_mem.m_clut.Read32(context->TEX0, env.TEXA);
}
if(context->TEST.ATE)
{
if(!TryAlphaTest(p.fm, p.zm))
{
p.sel.atst = context->TEST.ATST;
p.sel.afail = context->TEST.AFAIL;
}
}
bool fwrite = p.fm != 0xffffffff;
bool ftest = p.sel.atst != ATST_ALWAYS || context->TEST.DATE && context->FRAME.PSM != PSM_PSMCT24;
p.sel.fwrite = fwrite;
p.sel.ftest = ftest;
if(fwrite || ftest)
{
p.sel.fpsm = GSUtil::EncodePSM(context->FRAME.PSM);
if((primclass == GS_LINE_CLASS || primclass == GS_TRIANGLE_CLASS) && m_vt.m_eq.rgba != 0xffff)
{
p.sel.iip = PRIM->IIP;
}
if(PRIM->TME)
{
p.sel.tfx = context->TEX0.TFX;
p.sel.tcc = context->TEX0.TCC;
p.sel.fst = PRIM->FST;
p.sel.ltf = IsLinear();
p.sel.tlu = GSLocalMemory::m_psm[context->TEX0.PSM].pal > 0;
p.sel.wms = context->CLAMP.WMS;
p.sel.wmt = context->CLAMP.WMT;
if(/*p.sel.iip == 0 &&*/ p.sel.tfx == TFX_MODULATE && p.sel.tcc && m_vt.m_eq.rgba == 0xffff && m_vt.m_min.c.eq(GSVector4i(128)))
{
// modulate does not do anything when vertex color is 0x80
p.sel.tfx = TFX_DECAL;
}
if(p.sel.fst == 0)
{
// skip per pixel division if q is constant
GSVertexSW* v = m_vertices;
if(m_vt.m_eq.q)
{
p.sel.fst = 1;
if(v[0].t.z != 1.0f)
{
GSVector4 w = v[0].t.zzzz().rcpnr();
for(int i = 0, j = m_count; i < j; i++)
{
v[i].t *= w;
}
}
}
else if(primclass == GS_SPRITE_CLASS)
{
p.sel.fst = 1;
for(int i = 0, j = m_count; i < j; i += 2)
{
GSVector4 w = v[i + 1].t.zzzz().rcpnr();
v[i + 0].t *= w;
v[i + 1].t *= w;
}
}
}
if(p.sel.ltf)
{
GSVector4 half(0x8000, 0x8000);
if(p.sel.fst)
{
// if q is constant we can do the half pel shift for bilinear sampling on the vertices
GSVertexSW* v = m_vertices;
for(int i = 0, j = m_count; i < j; i++)
{
v[i].t -= half;
}
}
}
GSVector4i r;
GetTextureMinMax(r, p.sel.ltf);
const GSTextureCacheSW::GSTexture* t = m_tc->Lookup(context->TEX0, env.TEXA, r);
if(!t) {ASSERT(0); return;}
p.tex = t->m_buff;
p.clut = m_mem.m_clut;
p.tw = t->m_tw;
}
p.sel.fge = PRIM->FGE;
if(context->FRAME.PSM != PSM_PSMCT24)
{
p.sel.date = context->TEST.DATE;
p.sel.datm = context->TEST.DATM;
}
if(!IsOpaque())
{
p.sel.abe = PRIM->ABE;
p.sel.ababcd = context->ALPHA.u32[0];
if(env.PABE.PABE)
{
p.sel.pabe = 1;
}
if(PRIM->AA1 && (primclass == GS_LINE_CLASS || primclass == GS_TRIANGLE_CLASS))
{
p.sel.aa1 = m_aa1 ? 1 : 0;
}
}
if(p.sel.date
|| p.sel.aba == 1 || p.sel.abb == 1 || p.sel.abc == 1 || p.sel.abd == 1
|| p.sel.atst != ATST_ALWAYS && p.sel.afail == AFAIL_RGB_ONLY
|| p.sel.fpsm == 0 && p.fm != 0 && p.fm != 0xffffffff
|| p.sel.fpsm == 1 && (p.fm & 0x00ffffff) != 0 && (p.fm & 0x00ffffff) != 0x00ffffff
|| p.sel.fpsm == 2 && (p.fm & 0x80f8f8f8) != 0 && (p.fm & 0x80f8f8f8) != 0x80f8f8f8)
{
p.sel.rfb = 1;
}
p.sel.colclamp = env.COLCLAMP.CLAMP;
p.sel.fba = context->FBA.FBA;
p.sel.dthe = env.DTHE.DTHE;
}
bool zwrite = p.zm != 0xffffffff;
bool ztest = context->TEST.ZTE && context->TEST.ZTST > 1;
p.sel.zwrite = zwrite;
p.sel.ztest = ztest;
if(zwrite || ztest)
{
p.sel.zpsm = GSUtil::EncodePSM(context->ZBUF.PSM);
p.sel.ztst = ztest ? context->TEST.ZTST : 1;
p.sel.zoverflow = GSVector4i(m_vt.m_max.p).z == 0x80000000;
}
}
template<uint32 prim, uint32 tme, uint32 fst>
void GSRendererSW::VertexKick(bool skip)
{
const GSDrawingContext* context = m_context;
GSVector4i xy = GSVector4i::load((int)m_v.XYZ.u32[0]);
xy = xy.insert16<3>(m_v.FOG.F);
xy = xy.upl16();
xy -= context->XYOFFSET;
GSVertexSW v;
v.p = GSVector4(xy) * g_pos_scale;
v.c = GSVector4(GSVector4i::load((int)m_v.RGBAQ.u32[0]).u8to32() << 7);
if(tme)
{
float q;
if(fst)
{
v.t = GSVector4(((GSVector4i)m_v.UV).upl16() << (16 - 4));
q = 1.0f;
}
else
{
v.t = GSVector4(m_v.ST.S, m_v.ST.T);
v.t *= GSVector4(0x10000 << context->TEX0.TW, 0x10000 << context->TEX0.TH);
q = m_v.RGBAQ.Q;
}
v.t = v.t.xyxy(GSVector4::load(q));
}
GSVertexSW& dst = m_vl.AddTail();
dst = v;
dst.p.z = (float)min(m_v.XYZ.Z, 0xffffff00); // max value which can survive the uint32 => float => uint32 conversion
int count = 0;
if(GSVertexSW* v = DrawingKick<prim>(skip, count))
{
if(!m_dump)
{
GSVector4 pmin, pmax;
switch(prim)
{
case GS_POINTLIST:
pmin = v[0].p;
pmax = v[0].p;
break;
case GS_LINELIST:
case GS_LINESTRIP:
case GS_SPRITE:
pmin = v[0].p.minv(v[1].p);
pmax = v[0].p.maxv(v[1].p);
break;
case GS_TRIANGLELIST:
case GS_TRIANGLESTRIP:
case GS_TRIANGLEFAN:
pmin = v[0].p.minv(v[1].p).minv(v[2].p);
pmax = v[0].p.maxv(v[1].p).maxv(v[2].p);
break;
}
GSVector4 scissor = context->scissor.ex;
GSVector4 test = (pmax < scissor) | (pmin > scissor.zwxy());
switch(prim)
{
case GS_TRIANGLELIST:
case GS_TRIANGLESTRIP:
case GS_TRIANGLEFAN:
case GS_SPRITE:
test |= pmin.ceil() == pmax.ceil();
break;
}
switch(prim)
{
case GS_TRIANGLELIST:
case GS_TRIANGLESTRIP:
case GS_TRIANGLEFAN:
// are in line or just two of them are the same (cross product == 0)
GSVector4 tmp = (v[1].p - v[0].p) * (v[2].p - v[0].p).yxwz();
test |= tmp == tmp.yxwz();
break;
}
if(test.mask() & 3)
{
return;
}
}
switch(prim)
{
case GS_POINTLIST:
break;
case GS_LINELIST:
case GS_LINESTRIP:
if(PRIM->IIP == 0) {v[0].c = v[1].c;}
break;
case GS_TRIANGLELIST:
case GS_TRIANGLESTRIP:
case GS_TRIANGLEFAN:
if(PRIM->IIP == 0) {v[0].c = v[2].c; v[1].c = v[2].c;}
break;
case GS_SPRITE:
break;
}
if(m_count < 30 && m_count >= 3)
{
GSVertexSW* v = &m_vertices[m_count - 3];
int tl = 0;
int br = 0;
bool isquad = false;
switch(prim)
{
case GS_TRIANGLESTRIP:
case GS_TRIANGLEFAN:
case GS_TRIANGLELIST:
isquad = GSVertexSW::IsQuad(v, tl, br);
break;
}
if(isquad)
{
m_count -= 3;
if(m_count > 0)
{
tl += m_count;
br += m_count;
Flush();
}
if(tl != 0) m_vertices[0] = m_vertices[tl];
if(br != 1) m_vertices[1] = m_vertices[br];
m_count = 2;
uint32 tmp = PRIM->PRIM;
PRIM->PRIM = GS_SPRITE;
Flush();
PRIM->PRIM = tmp;
m_perfmon.Put(GSPerfMon::Quad, 1);
return;
}
}
m_count += count;
}
}