pcsx2/plugins/GSdx/GSTextureCache.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, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA USA.
* http://www.gnu.org/copyleft/gpl.html
*
*/
#include "stdafx.h"
#include "GSTextureCache.h"
GSTextureCache::GSTextureCache(GSRenderer* r)
: m_renderer(r)
{
m_spritehack = !!theApp.GetConfig("UserHacks", 0) ? theApp.GetConfig("UserHacks_SpriteHack", 0) : 0;
UserHacks_HalfPixelOffset = !!theApp.GetConfig("UserHacks", 0) && !!theApp.GetConfig("UserHacks_HalfPixelOffset", 0);
m_paltex = !!theApp.GetConfig("paltex", 0);
m_temp = (uint8*)_aligned_malloc(1024 * 1024 * sizeof(uint32), 32);
}
GSTextureCache::~GSTextureCache()
{
RemoveAll();
_aligned_free(m_temp);
}
void GSTextureCache::RemoveAll()
{
m_src.RemoveAll();
for(int type = 0; type < 2; type++)
{
for_each(m_dst[type].begin(), m_dst[type].end(), delete_object());
m_dst[type].clear();
}
}
GSTextureCache::Source* GSTextureCache::LookupSource(const GIFRegTEX0& TEX0, const GIFRegTEXA& TEXA, const GSVector4i& r)
{
const GSLocalMemory::psm_t& psm = GSLocalMemory::m_psm[TEX0.PSM];
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//const GSLocalMemory::psm_t& cpsm = psm.pal > 0 ? GSLocalMemory::m_psm[TEX0.CPSM] : psm;
GIFRegTEXA plainTEXA;
plainTEXA.AEM = 1;
plainTEXA.TA0 = 0;
plainTEXA.TA1 = 0x80;
m_renderer->m_mem.m_clut.Read32(TEX0, plainTEXA);
const uint32* clut = m_renderer->m_mem.m_clut;
Source* src = NULL;
list<Source*>& m = m_src.m_map[TEX0.TBP0 >> 5];
for(list<Source*>::iterator i = m.begin(); i != m.end(); i++)
{
Source* s = *i;
if(((TEX0.u32[0] ^ s->m_TEX0.u32[0]) | ((TEX0.u32[1] ^ s->m_TEX0.u32[1]) & 3)) != 0) // TBP0 TBW PSM TW TH
{
continue;
}
if(s->m_palette == NULL && psm.pal > 0 && !GSVector4i::compare64(clut, s->m_clut, psm.pal * sizeof(clut[0])))
{
continue;
}
m.splice(m.begin(), m, i);
src = s;
break;
}
Target* dst = NULL;
#ifdef DISABLE_HW_TEXTURE_CACHE
if( 0 )
#else
if(src == NULL)
#endif
{
uint32 bp = TEX0.TBP0;
uint32 psm = TEX0.PSM;
// Arc the Lad finds the wrong surface here when looking for a depth stencil.
// Since we're currently not caching depth stencils (check ToDo in CreateSource) we should not look for it here.
// (Simply not doing this code at all makes a lot of previsouly missing stuff show (but breaks pretty much everything
// else.)
//for(int type = 0; type < 2 && dst == NULL; type++)
for(int type = 0; type < 1 && dst == NULL; type++) // Only look for render target, no depth stencil
{
for(list<Target*>::iterator i = m_dst[type].begin(); i != m_dst[type].end(); i++)
{
Target* t = *i;
if(t->m_used && t->m_dirty.empty() && GSUtil::HasSharedBits(bp, psm, t->m_TEX0.TBP0, t->m_TEX0.PSM))
{
dst = t;
break;
}
}
}
}
if(src == NULL)
{
#ifdef ENABLE_OGL_DEBUG
if (dst) {
GL_CACHE("TC: dst hit: %d (0x%x)",
dst->m_texture ? dst->m_texture->GetID() : 0,
TEX0.TBP0);
} else {
GL_CACHE("TC: src miss (0x%x)", TEX0.TBP0);
}
#endif
src = CreateSource(TEX0, TEXA, dst);
if(src == NULL)
{
return NULL;
}
#ifdef ENABLE_OGL_DEBUG
} else {
GL_CACHE("TC: src hit: %d (0x%x)",
src->m_texture ? src->m_texture->GetID() : 0,
TEX0.TBP0);
#endif
}
if (src->m_palette)
{
int size = psm.pal * sizeof(clut[0]);
if(src->m_initpalette || !GSVector4i::update(src->m_clut, clut, size))
{
src->m_palette->Update(GSVector4i(0, 0, psm.pal, 1), src->m_clut, size);
src->m_initpalette = false;
}
}
src->Update(r);
m_src.m_used = true;
return src;
}
GSTextureCache::Target* GSTextureCache::LookupTarget(const GIFRegTEX0& TEX0, int w, int h, int type, bool used)
{
uint32 bp = TEX0.TBP0;
Target* dst = NULL;
for(list<Target*>::iterator i = m_dst[type].begin(); i != m_dst[type].end(); i++)
{
Target* t = *i;
if(bp == t->m_TEX0.TBP0)
{
m_dst[type].splice(m_dst[type].begin(), m_dst[type], i);
dst = t;
#ifdef ENABLE_OGL_DEBUG
// Likely the root cause of tons and tons of bug
if (dst->m_TEX0.PSM != TEX0.PSM) {
GL_INS("TC: ERROR: use a target with format 0x%x as 0x%x without any conversion", dst->m_TEX0.PSM, TEX0.PSM);
}
#endif
dst->m_TEX0 = TEX0;
break;
}
}
if(dst == NULL)
{
GL_CACHE("TC: Lookup Target(T%d) %dx%d, miss (0x%x)", type, w, h, bp);
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dst = CreateTarget(TEX0, w, h, type);
if(dst == NULL)
{
return NULL;
}
}
else
{
GL_CACHE("TC: Lookup Target(T%d) %dx%d, hit: %d (0x%x)", type, w, h, dst->m_texture->GetID(), bp);
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dst->Update();
}
if(m_renderer->CanUpscale())
{
int multiplier = m_renderer->GetUpscaleMultiplier();
if(multiplier > 1) // it's limited to a maximum of 4 on reading the config
{
dst->m_texture->SetScale(GSVector2((float)multiplier, (float)multiplier));
}
else
{
GSVector4i fr = m_renderer->GetFrameRect();
int ww = (int)(fr.left + m_renderer->GetDisplayRect().width());
int hh = (int)(fr.top + m_renderer->GetDisplayRect().height());
if(hh <= m_renderer->GetDeviceSize().y / 2)
{
hh *= 2;
}
// This vp2 fix doesn't work most of the time
if(hh < 512 && m_renderer->m_context->SCISSOR.SCAY1 == 511) // vp2
{
hh = 512;
}
if(ww > 0 && hh > 0)
{
dst->m_texture->SetScale(GSVector2((float)w / ww, (float)h / hh));
}
}
}
if(used)
{
dst->m_used = true;
}
return dst;
}
GSTextureCache::Target* GSTextureCache::LookupTarget(const GIFRegTEX0& TEX0, int w, int h)
{
uint32 bp = TEX0.TBP0;
Target* dst = NULL;
for(list<Target*>::iterator i = m_dst[RenderTarget].begin(); i != m_dst[RenderTarget].end(); i++)
{
Target* t = *i;
if(bp == t->m_TEX0.TBP0)
{
dst = t;
GL_CACHE("TC: Lookup Frame %dx%d, perfect hit: %d (0x%x)", w, h, dst->m_texture->GetID(), bp);
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break;
}
else
{
// HACK: try to find something close to the base pointer
if(t->m_TEX0.TBP0 <= bp && bp < t->m_TEX0.TBP0 + 0xe00UL && (!dst || t->m_TEX0.TBP0 >= dst->m_TEX0.TBP0))
{
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GL_CACHE("TC: Lookup Frame %dx%d, close hit: %d (0x%x, took 0x%x)", w, h, t->m_texture->GetID(), bp, t->m_TEX0.TBP0);
dst = t;
}
}
}
if(dst == NULL)
{
GL_CACHE("TC: Lookup Frame %dx%d, miss (0x%x)", w, h, bp);
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dst = CreateTarget(TEX0, w, h, RenderTarget);
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if(dst == NULL)
{
return NULL;
}
m_renderer->m_dev->ClearRenderTarget(dst->m_texture, 0); // new frame buffers after reset should be cleared, don't display memory garbage
}
else
{
dst->Update();
}
dst->m_used = true;
return dst;
}
// Goal: invalidate data sent to the GPU when the source (GS memory) is modified
// Called each time you want to write to the GS memory
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void GSTextureCache::InvalidateVideoMem(GSOffset* off, const GSVector4i& rect, bool target)
{
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if(!off) return; // Fixme. Crashes Dual Hearts, maybe others as well. Was fine before r1549.
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uint32 bp = off->bp;
uint32 bw = off->bw;
uint32 psm = off->psm;
if(!target)
{
// Remove Source that have same BP as the render target (color&dss)
// rendering will dirty the copy
const list<Source*>& m = m_src.m_map[bp >> 5];
for(list<Source*>::const_iterator i = m.begin(); i != m.end(); )
{
list<Source*>::const_iterator j = i++;
Source* s = *j;
if(GSUtil::HasSharedBits(bp, psm, s->m_TEX0.TBP0, s->m_TEX0.PSM))
{
m_src.RemoveAt(s);
}
}
if ((bw == 20) && (psm == 2)) {
// try to detect render target bigger than 1024 Texels
uint32 bbp = bp + 0x140;
const list<Source*>& m = m_src.m_map[bbp >> 5];
for(list<Source*>::const_iterator i = m.begin(); i != m.end(); )
{
list<Source*>::const_iterator j = i++;
Source* s = *j;
if(GSUtil::HasSharedBits(bbp, psm, s->m_TEX0.TBP0, s->m_TEX0.PSM))
{
m_src.RemoveAt(s);
}
}
}
}
GSVector4i r;
uint32* pages = (uint32*)m_temp;
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off->GetPages(rect, pages, &r);
bool found = false;
for(const uint32* p = pages; *p != GSOffset::EOP; p++)
{
uint32 page = *p;
const list<Source*>& m = m_src.m_map[page];
for(list<Source*>::const_iterator i = m.begin(); i != m.end(); )
{
list<Source*>::const_iterator j = i++;
Source* s = *j;
if(GSUtil::HasSharedBits(psm, s->m_TEX0.PSM))
{
uint32* RESTRICT valid = s->m_valid;
bool b = bp == s->m_TEX0.TBP0;
if(!s->m_target)
{
// Invalidate data of input texture
if(s->m_repeating)
{
vector<GSVector2i>& l = s->m_p2t[page];
for(vector<GSVector2i>::iterator k = l.begin(); k != l.end(); k++)
{
valid[k->x] &= k->y;
}
}
else
{
valid[page] = 0;
}
s->m_complete = false;
found |= b;
}
else
{
// render target used as input texture
// TODO
if(b)
{
m_src.RemoveAt(s);
}
}
}
}
}
if(!target) return;
for(int type = 0; type < 2; type++)
{
for(list<Target*>::iterator i = m_dst[type].begin(); i != m_dst[type].end(); )
{
list<Target*>::iterator j = i++;
Target* t = *j;
if(GSUtil::HasSharedBits(bp, psm, t->m_TEX0.TBP0, t->m_TEX0.PSM))
{
if(!found && GSUtil::HasCompatibleBits(psm, t->m_TEX0.PSM))
{
t->m_dirty.push_back(GSDirtyRect(r, psm));
t->m_TEX0.TBW = bw;
}
else
{
m_dst[type].erase(j);
GL_CACHE("TC: Remove Target(%d) %d (0x%x)", type,
t->m_texture ? t->m_texture->GetID() : 0,
t->m_TEX0.TBP0);
delete t;
continue;
}
}
if(GSUtil::HasSharedBits(psm, t->m_TEX0.PSM) && bp < t->m_TEX0.TBP0)
{
uint32 rowsize = bw * 8192;
uint32 offset = (uint32)((t->m_TEX0.TBP0 - bp) * 256);
if(rowsize > 0 && offset % rowsize == 0)
{
int y = GSLocalMemory::m_psm[psm].pgs.y * offset / rowsize;
if(r.bottom > y)
{
// TODO: do not add this rect above too
t->m_dirty.push_back(GSDirtyRect(GSVector4i(r.left, r.top - y, r.right, r.bottom - y), psm));
t->m_TEX0.TBW = bw;
continue;
}
}
}
}
}
}
// Goal: retrive the data from the GPU to the GS memory.
// Called each time you want to read from the GS memory
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void GSTextureCache::InvalidateLocalMem(GSOffset* off, const GSVector4i& r)
{
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uint32 bp = off->bp;
uint32 psm = off->psm;
//uint32 bw = off->bw;
// No depth handling please.
if (psm == PSM_PSMZ32 || psm == PSM_PSMZ24 || psm == PSM_PSMZ16 || psm == PSM_PSMZ16S)
return;
// This is a shorter but potentially slower version of the below, commented out code.
// It works for all the games mentioned below and fixes a couple of other ones as well
// (Busen0: Wizardry and Chaos Legion).
// Also in a few games the below code ran the Grandia3 case when it shouldn't :p
for(list<Target*>::iterator i = m_dst[RenderTarget].begin(); i != m_dst[RenderTarget].end(); )
{
list<Target*>::iterator j = i++;
Target* t = *j;
if (t->m_TEX0.PSM != PSM_PSMZ32 && t->m_TEX0.PSM != PSM_PSMZ24 && t->m_TEX0.PSM != PSM_PSMZ16 && t->m_TEX0.PSM != PSM_PSMZ16S)
{
if(GSUtil::HasSharedBits(bp, psm, t->m_TEX0.TBP0, t->m_TEX0.PSM))
{
// GH Note: Read will do a StretchRect and then will sizzle data to the GS memory
// t->m_valid will do the full target texture whereas r.intersect(t->m_valid) will be limited
// to the useful part for the transfer.
// 1/ Logically intersect must be enough, except if we miss some call to InvalidateLocalMem
// or it need the depth part too
// 2/ Read function is slow but I suspect the swizzle part to be costly. Maybe a compute shader
// that do the swizzle at the same time of the Stretching could save CPU computation.
// note: r.rintersect breaks Wizardry and Chaos Legion
// Read(t, t->m_valid) works in all tested games but is very slow in GUST titles ><
if (r.x == 0 && r.y == 0) // Full screen read?
Read(t, t->m_valid);
else // Block level read?
Read(t, r.rintersect(t->m_valid));
}
}
}
//GSTextureCache::Target* rt2 = NULL;
//int ymin = INT_MAX;
//for(list<Target*>::iterator i = m_dst[RenderTarget].begin(); i != m_dst[RenderTarget].end(); )
//{
// list<Target*>::iterator j = i++;
// Target* t = *j;
// if (t->m_TEX0.PSM != PSM_PSMZ32 && t->m_TEX0.PSM != PSM_PSMZ24 && t->m_TEX0.PSM != PSM_PSMZ16 && t->m_TEX0.PSM != PSM_PSMZ16S)
// {
// if(GSUtil::HasSharedBits(bp, psm, t->m_TEX0.TBP0, t->m_TEX0.PSM))
// {
// if(GSUtil::HasCompatibleBits(psm, t->m_TEX0.PSM))
// {
// Read(t, r.rintersect(t->m_valid));
// return;
// }
// else if(psm == PSM_PSMCT32 && (t->m_TEX0.PSM == PSM_PSMCT16 || t->m_TEX0.PSM == PSM_PSMCT16S))
// {
// // ffx-2 riku changing to her default (shoots some reflecting glass at the end), 16-bit rt read as 32-bit
// Read(t, GSVector4i(r.left, r.top, r.right, r.top + (r.bottom - r.top) * 2).rintersect(t->m_valid));
// return;
// }
// else
// {
// if (psm == PSM_PSMT4HH && t->m_TEX0.PSM == PSM_PSMCT32)
// {
// // Silent Hill Origins shadows: Read 8 bit using only the HIGH bits (4 bit) texture as 32 bit.
// Read(t, r.rintersect(t->m_valid));
// return;
// }
// else
// {
// //printf("Trashing render target. We have a %d type texture and we are trying to write into a %d type texture\n", t->m_TEX0.PSM, psm);
// m_dst[RenderTarget].erase(j);
// delete t;
// }
// }
// }
// // Grandia3, FFX, FFX-2 pause menus. t->m_TEX0.TBP0 magic number checks because otherwise kills xs2 videos
// if( (GSUtil::HasSharedBits(psm, t->m_TEX0.PSM) && (bp > t->m_TEX0.TBP0) )
// && ((t->m_TEX0.TBP0 == 0) || (t->m_TEX0.TBP0==3328) || (t->m_TEX0.TBP0==3584) ))
// {
// //printf("first : %d-%d child : %d-%d\n", psm, bp, t->m_TEX0.PSM, t->m_TEX0.TBP0);
// uint32 rowsize = bw * 8192;
// uint32 offset = (uint32)((bp - t->m_TEX0.TBP0) * 256);
// if(rowsize > 0 && offset % rowsize == 0)
// {
// int y = GSLocalMemory::m_psm[psm].pgs.y * offset / rowsize;
// if(y < ymin && y < 512)
// {
// rt2 = t;
// ymin = y;
// }
// }
// }
// }
//}
//if(rt2)
//{
// Read(rt2, GSVector4i(r.left, r.top + ymin, r.right, r.bottom + ymin));
//}
// TODO: ds
}
void GSTextureCache::IncAge()
{
int maxage = m_src.m_used ? 3 : 30;
// You can't use m_map[page] because Source* are duplicated on several pages.
for(hash_set<Source*>::iterator i = m_src.m_surfaces.begin(); i != m_src.m_surfaces.end(); )
{
hash_set<Source*>::iterator j = i++;
Source* s = *j;
if(++s->m_age > maxage)
{
m_src.RemoveAt(s);
}
}
m_src.m_used = false;
// Clearing of Rendertargets causes flickering in many scene transitions.
// Sigh, this seems to be used to invalidate surfaces. So set a huge maxage to avoid flicker,
// but still invalidate surfaces. (Disgaea 2 fmv when booting the game through the BIOS)
// Original maxage was 4 here, Xenosaga 2 needs at least 240, else it flickers on scene transitions.
maxage = 400; // ffx intro scene changes leave the old image untouched for a couple of frames and only then start using it
for(int type = 0; type < 2; type++)
{
for(list<Target*>::iterator i = m_dst[type].begin(); i != m_dst[type].end(); )
{
list<Target*>::iterator j = i++;
Target* t = *j;
if(++t->m_age > maxage)
{
m_dst[type].erase(j);
GL_CACHE("TC: Remove Target(T%d): %d (0x%x) due to age", type,
t->m_texture ? t->m_texture->GetID() : 0,
t->m_TEX0.TBP0);
delete t;
}
}
}
}
//Fixme: Several issues in here. Not handling depth stencil, pitch conversion doesnt work.
GSTextureCache::Source* GSTextureCache::CreateSource(const GIFRegTEX0& TEX0, const GIFRegTEXA& TEXA, Target* dst)
{
const GSLocalMemory::psm_t& psm = GSLocalMemory::m_psm[TEX0.PSM];
Source* src = new Source(m_renderer, TEX0, TEXA, m_temp);
int tw = 1 << TEX0.TW;
int th = 1 << TEX0.TH;
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//int tp = TEX0.TBW << 6;
bool hack = false;
if(m_spritehack && (TEX0.PSM == PSM_PSMT8 || TEX0.PSM == PSM_PSMT8H))
{
src->m_spritehack_t = true;
if(m_spritehack == 2 && TEX0.CPSM != PSM_PSMCT16)
src->m_spritehack_t = false;
}
else
src->m_spritehack_t = false;
if (dst)
{
// TODO: clean up this mess
src->m_target = true;
if(dst->m_type != RenderTarget)
{
GL_CACHE("TC: Remove dst because not a RT %d (0x%x)",
dst->m_texture ? dst->m_texture->GetID() : 0,
dst->m_TEX0.TBP0);
// TODO
delete src;
return NULL;
}
dst->Update();
GSTexture* tmp = NULL;
if(dst->m_texture->IsMSAA())
{
tmp = dst->m_texture;
dst->m_texture = m_renderer->m_dev->Resolve(dst->m_texture);
}
// do not round here!!! if edge becomes a black pixel and addressing mode is clamp => everything outside the clamped area turns into black (kh2 shadows)
int w = (int)(dst->m_texture->GetScale().x * tw);
int h = (int)(dst->m_texture->GetScale().y * th);
GSVector2i dstsize = dst->m_texture->GetSize();
// pitch conversion
if(dst->m_TEX0.TBW != TEX0.TBW) // && dst->m_TEX0.PSM == TEX0.PSM
{
// This is so broken :p
////Better not do the code below, "fixes" like every game that ever gets here..
////Edit: Ratchet and Clank needs this to show most of it's graphics at all.
////Someone else fix this please, I can't :p
////delete src; return NULL;
//// sfex3 uses this trick (bw: 10 -> 5, wraps the right side below the left)
//ASSERT(dst->m_TEX0.TBW > TEX0.TBW); // otherwise scale.x need to be reduced to make the larger texture fit (TODO)
//src->m_texture = m_renderer->m_dev->CreateRenderTarget(dstsize.x, dstsize.y, false);
//GSVector4 size = GSVector4(dstsize).xyxy();
//GSVector4 scale = GSVector4(dst->m_texture->GetScale()).xyxy();
//int blockWidth = 64;
//int blockHeight = TEX0.PSM == PSM_PSMCT32 || TEX0.PSM == PSM_PSMCT24 ? 32 : 64;
//GSVector4i br(0, 0, blockWidth, blockHeight);
//int sw = (int)dst->m_TEX0.TBW << 6;
//int dw = (int)TEX0.TBW << 6;
//int dh = 1 << TEX0.TH;
//if(sw != 0)
//for(int dy = 0; dy < dh; dy += blockHeight)
//{
// for(int dx = 0; dx < dw; dx += blockWidth)
// {
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// int off = dy * dw / blockHeight + dx;
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// int sx = off % sw;
// int sy = off / sw;
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// GSVector4 sRect = GSVector4(GSVector4i(sx, sy).xyxy() + br) * scale / size;
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// GSVector4 dRect = GSVector4(GSVector4i(dx, dy).xyxy() + br) * scale;
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// m_renderer->m_dev->StretchRect(dst->m_texture, sRect, src->m_texture, dRect);
// // TODO: this is quite a lot of StretchRect, do it with one Draw
// }
//}
}
else if(tw < 1024)
{
// FIXME: timesplitters blurs the render target by blending itself over a couple of times
hack = true;
//if(tw == 256 && th == 128 && (TEX0.TBP0 == 0 || TEX0.TBP0 == 0x00e00))
//{
// delete src;
// return NULL;
//}
}
// width/height conversion
GSVector2 scale = dst->m_texture->GetScale();
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GSVector4 dRect(0, 0, w, h);
if(w > dstsize.x)
{
scale.x = (float)dstsize.x / tw;
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dRect.z = (float)dstsize.x * scale.x / dst->m_texture->GetScale().x;
w = dstsize.x;
}
if(h > dstsize.y)
{
scale.y = (float)dstsize.y / th;
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dRect.w = (float)dstsize.y * scale.y / dst->m_texture->GetScale().y;
h = dstsize.y;
}
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GSVector4 sRect(0, 0, w, h);
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GSTexture* sTex = src->m_texture ? src->m_texture : dst->m_texture;
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GSTexture* dTex = m_renderer->m_dev->CreateRenderTarget(w, h, false);
// GH: by default (m_paltex == 0) GSdx converts texture to the 32 bit format
// However it is different here. We want to reuse a Render Target as a texture.
// Because the texture is already on the GPU, CPU can't convert it.
bool linear = true;
if (psm.pal > 0) {
src->m_palette = m_renderer->m_dev->CreateTexture(256, 1);
// Palette is used to interpret the alpha channel of the RT as an index.
// Star Ocean 3 uses it to emulate a stencil buffer.
// It is a very bad idea to force bilinear filtering on it.
linear = false;
}
if(!src->m_texture)
{
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src->m_texture = dTex;
}
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if((sRect == dRect).alltrue())
{
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m_renderer->m_dev->CopyRect(sTex, dTex, GSVector4i(0, 0, w, h));
}
else
{
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sRect.z /= sTex->GetWidth();
sRect.w /= sTex->GetHeight();
m_renderer->m_dev->StretchRect(sTex, sRect, dTex, dRect, 0, linear);
}
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if(dTex != src->m_texture)
{
m_renderer->m_dev->Recycle(src->m_texture);
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src->m_texture = dTex;
}
if( src->m_texture )
src->m_texture->SetScale(scale);
else
ASSERT(0);
if(tmp != NULL)
{
// tmp is texture before a MultiSample resolve
m_renderer->m_dev->Recycle(dst->m_texture);
dst->m_texture = tmp;
}
// Offset hack. Can be enabled via GSdx options.
// The offset will be used in Draw().
float modx = 0.0f;
float mody = 0.0f;
if(UserHacks_HalfPixelOffset && hack)
{
switch(m_renderer->GetUpscaleMultiplier())
{
case 2: modx = 2.2f; mody = 2.2f; dst->m_texture->LikelyOffset = true; break;
case 3: modx = 3.1f; mody = 3.1f; dst->m_texture->LikelyOffset = true; break;
case 4: modx = 4.2f; mody = 4.2f; dst->m_texture->LikelyOffset = true; break;
case 5: modx = 5.3f; mody = 5.3f; dst->m_texture->LikelyOffset = true; break;
case 6: modx = 6.2f; mody = 6.2f; dst->m_texture->LikelyOffset = true; break;
default: modx = 0.0f; mody = 0.0f; dst->m_texture->LikelyOffset = false; break;
}
}
dst->m_texture->OffsetHack_modx = modx;
dst->m_texture->OffsetHack_mody = mody;
}
else
{
if (m_paltex && psm.pal > 0)
{
src->m_texture = m_renderer->m_dev->CreateTexture(tw, th, Get8bitFormat());
src->m_palette = m_renderer->m_dev->CreateTexture(256, 1);
}
else
src->m_texture = m_renderer->m_dev->CreateTexture(tw, th);
}
if(src->m_texture == NULL)
{
ASSERT(0);
delete src;
return NULL;
}
if(psm.pal > 0)
{
memcpy(src->m_clut, (const uint32*)m_renderer->m_mem.m_clut, psm.pal * sizeof(uint32));
}
m_src.Add(src, TEX0, m_renderer->m_context->offset.tex);
return src;
}
GSTextureCache::Target* GSTextureCache::CreateTarget(const GIFRegTEX0& TEX0, int w, int h, int type)
{
Target* t = new Target(m_renderer, TEX0, m_temp);
// FIXME: initial data should be unswizzled from local mem in Update() if dirty
t->m_type = type;
if(type == RenderTarget)
{
t->m_texture = m_renderer->m_dev->CreateRenderTarget(w, h, true);
t->m_used = true; // FIXME
}
else if(type == DepthStencil)
{
t->m_texture = m_renderer->m_dev->CreateDepthStencil(w, h, true);
}
if(t->m_texture == NULL)
{
ASSERT(0);
delete t;
return NULL;
}
m_dst[type].push_front(t);
return t;
}
// GSTextureCache::Surface
GSTextureCache::Surface::Surface(GSRenderer* r, uint8* temp)
: m_renderer(r)
, m_texture(NULL)
, m_age(0)
, m_temp(temp)
{
m_TEX0.TBP0 = 0x3fff;
}
GSTextureCache::Surface::~Surface()
{
m_renderer->m_dev->Recycle(m_texture);
}
void GSTextureCache::Surface::Update()
{
m_age = 0;
}
// GSTextureCache::Source
GSTextureCache::Source::Source(GSRenderer* r, const GIFRegTEX0& TEX0, const GIFRegTEXA& TEXA, uint8* temp)
: Surface(r, temp)
, m_palette(NULL)
, m_initpalette(true)
, m_target(false)
, m_complete(false)
, m_p2t(NULL)
{
m_TEX0 = TEX0;
m_TEXA = TEXA;
memset(m_valid, 0, sizeof(m_valid));
m_clut = (uint32*)_aligned_malloc(256 * sizeof(uint32), 32);
memset(m_clut, 0, 256*sizeof(uint32));
m_write.rect = (GSVector4i*)_aligned_malloc(3 * sizeof(GSVector4i), 32);
m_write.count = 0;
m_repeating = m_TEX0.IsRepeating();
if(m_repeating)
{
m_p2t = r->m_mem.GetPage2TileMap(m_TEX0);
}
}
GSTextureCache::Source::~Source()
{
m_renderer->m_dev->Recycle(m_palette);
_aligned_free(m_clut);
_aligned_free(m_write.rect);
}
void GSTextureCache::Source::Update(const GSVector4i& rect)
{
Surface::Update();
if(m_complete || m_target)
{
return;
}
GSVector2i bs = GSLocalMemory::m_psm[m_TEX0.PSM].bs;
int tw = std::max<int>(1 << m_TEX0.TW, bs.x);
int th = std::max<int>(1 << m_TEX0.TH, bs.y);
GSVector4i r = rect.ralign<Align_Outside>(bs);
if(r.eq(GSVector4i(0, 0, tw, th)))
{
m_complete = true; // lame, but better than nothing
}
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const GSOffset* off = m_renderer->m_context->offset.tex;
uint32 blocks = 0;
if(m_repeating)
{
for(int y = r.top; y < r.bottom; y += bs.y)
{
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uint32 base = off->block.row[y >> 3];
for(int x = r.left, i = (y << 7) + x; x < r.right; x += bs.x, i += bs.x)
{
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uint32 block = base + off->block.col[x >> 3];
if(block < MAX_BLOCKS)
{
uint32 addr = i >> 3;
uint32 row = addr >> 5;
uint32 col = 1 << (addr & 31);
if((m_valid[row] & col) == 0)
{
m_valid[row] |= col;
Write(GSVector4i(x, y, x + bs.x, y + bs.y));
blocks++;
}
}
}
}
}
else
{
for(int y = r.top; y < r.bottom; y += bs.y)
{
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uint32 base = off->block.row[y >> 3];
for(int x = r.left; x < r.right; x += bs.x)
{
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uint32 block = base + off->block.col[x >> 3];
if(block < MAX_BLOCKS)
{
uint32 row = block >> 5;
uint32 col = 1 << (block & 31);
if((m_valid[row] & col) == 0)
{
m_valid[row] |= col;
Write(GSVector4i(x, y, x + bs.x, y + bs.y));
blocks++;
}
}
}
}
}
if(blocks > 0)
{
m_renderer->m_perfmon.Put(GSPerfMon::Unswizzle, bs.x * bs.y * blocks << (m_palette ? 2 : 0));
Flush(m_write.count);
}
}
void GSTextureCache::Source::Write(const GSVector4i& r)
{
m_write.rect[m_write.count++] = r;
while(m_write.count >= 2)
{
GSVector4i& a = m_write.rect[m_write.count - 2];
GSVector4i& b = m_write.rect[m_write.count - 1];
if((a == b.zyxw()).mask() == 0xfff0)
{
a.right = b.right; // extend right
m_write.count--;
}
else if((a == b.xwzy()).mask() == 0xff0f)
{
a.bottom = b.bottom; // extend down
m_write.count--;
}
else
{
break;
}
}
if(m_write.count > 2)
{
Flush(1);
}
}
void GSTextureCache::Source::Flush(uint32 count)
{
// This function as written will not work for paletted formats copied from framebuffers
// because they are 8 or 4 bit formats on the GS and the GS local memory module reads
// these into an 8 bit format while the D3D surfaces are 32 bit.
// However the function is never called for these cases. This is just for information
// should someone wish to use this function for these cases later.
const GSLocalMemory::psm_t& psm = GSLocalMemory::m_psm[m_TEX0.PSM];
int tw = 1 << m_TEX0.TW;
int th = 1 << m_TEX0.TH;
GSVector4i tr(0, 0, tw, th);
int pitch = max(tw, psm.bs.x) * sizeof(uint32);
GSLocalMemory& mem = m_renderer->m_mem;
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const GSOffset* off = m_renderer->m_context->offset.tex;
GSLocalMemory::readTexture rtx = psm.rtx;
GIFRegTEXA plainTEXA;
plainTEXA.AEM = 1;
plainTEXA.TA0 = 0;
plainTEXA.TA1 = 0x80;
if(m_palette)
{
pitch >>= 2;
rtx = psm.rtxP;
}
uint8* buff = m_temp;
for(uint32 i = 0; i < count; i++)
{
GSVector4i r = m_write.rect[i];
if((r > tr).mask() & 0xff00)
{
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(mem.*rtx)(off, r, buff, pitch, m_TEXA);
m_texture->Update(r.rintersect(tr), buff, pitch);
}
else
{
GSTexture::GSMap m;
if(m_texture->Map(m, &r))
{
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(mem.*rtx)(off, r, m.bits, m.pitch, plainTEXA);
m_texture->Unmap();
}
else
{
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(mem.*rtx)(off, r, buff, pitch, plainTEXA);
m_texture->Update(r, buff, pitch);
}
}
}
if(count < m_write.count)
{
// Warning src and destination overlap. Memmove must be used instead of memcpy
memmove(&m_write.rect[0], &m_write.rect[count], (m_write.count - count) * sizeof(m_write.rect[0]));
}
m_write.count -= count;
}
// GSTextureCache::Target
GSTextureCache::Target::Target(GSRenderer* r, const GIFRegTEX0& TEX0, uint8* temp)
: Surface(r, temp)
, m_type(-1)
, m_used(false)
{
m_TEX0 = TEX0;
m_valid = GSVector4i::zero();
}
void GSTextureCache::Target::Update()
{
Surface::Update();
// FIXME: the union of the rects may also update wrong parts of the render target (but a lot faster :)
GSVector4i r = m_dirty.GetDirtyRectAndClear(m_TEX0, m_texture->GetSize());
if(r.rempty()) return;
if(m_type == RenderTarget)
{
int w = r.width();
int h = r.height();
if(GSTexture* t = m_renderer->m_dev->CreateTexture(w, h))
{
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const GSOffset* off = m_renderer->m_mem.GetOffset(m_TEX0.TBP0, m_TEX0.TBW, m_TEX0.PSM);
GIFRegTEXA TEXA;
TEXA.AEM = 1;
TEXA.TA0 = 0;
TEXA.TA1 = 0x80;
GSTexture::GSMap m;
if(t->Map(m))
{
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m_renderer->m_mem.ReadTexture(off, r, m.bits, m.pitch, TEXA);
t->Unmap();
}
else
{
int pitch = ((w + 3) & ~3) * 4;
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m_renderer->m_mem.ReadTexture(off, r, m_temp, pitch, TEXA);
t->Update(r.rsize(), m_temp, pitch);
}
// m_renderer->m_perfmon.Put(GSPerfMon::Unswizzle, w * h * 4);
m_renderer->m_dev->StretchRect(t, m_texture, GSVector4(r) * GSVector4(m_texture->GetScale()).xyxy());
m_renderer->m_dev->Recycle(t);
}
}
else if(m_type == DepthStencil)
{
// do the most likely thing a direct write would do, clear it
if((m_renderer->m_game.flags & CRC::ZWriteMustNotClear) == 0)
{
m_renderer->m_dev->ClearDepth(m_texture, 0);
}
}
}
// GSTextureCache::SourceMap
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void GSTextureCache::SourceMap::Add(Source* s, const GIFRegTEX0& TEX0, const GSOffset* off)
{
m_surfaces.insert(s);
if(s->m_target)
{
// TODO
// GH: I don't know why but it seems we only consider the first page for a render target
m_map[TEX0.TBP0 >> 5].push_front(s);
return;
}
// Remaining code will compute a list of pages that are dirty (in a similar fashion as GSOffset::GetPages)
// (Maybe GetPages could be used instead, perf opt?)
// The source pointer will be stored/duplicated in all m_map[array of pages]
const GSLocalMemory::psm_t& psm = GSLocalMemory::m_psm[TEX0.PSM];
GSVector2i bs = (TEX0.TBP0 & 31) == 0 ? psm.pgs : psm.bs;
int tw = 1 << TEX0.TW;
int th = 1 << TEX0.TH;
for(int y = 0; y < th; y += bs.y)
{
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uint32 base = off->block.row[y >> 3];
for(int x = 0; x < tw; x += bs.x)
{
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uint32 page = (base + off->block.col[x >> 3]) >> 5;
if(page < MAX_PAGES)
{
m_pages[page >> 5] |= 1 << (page & 31);
}
}
}
for(size_t i = 0; i < countof(m_pages); i++)
{
if(uint32 p = m_pages[i])
{
m_pages[i] = 0;
list<Source*>* m = &m_map[i << 5];
unsigned long j;
while(_BitScanForward(&j, p))
{
p ^= 1 << j;
m[j].push_front(s);
}
}
}
}
void GSTextureCache::SourceMap::RemoveAll()
{
for_each(m_surfaces.begin(), m_surfaces.end(), delete_object());
m_surfaces.clear();
for(size_t i = 0; i < countof(m_map); i++)
{
m_map[i].clear();
}
}
void GSTextureCache::SourceMap::RemoveAt(Source* s)
{
m_surfaces.erase(s);
GL_CACHE("TC: Remove Src Texture: %d (0x%x)",
s->m_texture ? s->m_texture->GetID() : 0,
s->m_TEX0.TBP0);
// Source (except render target) is duplicated for each page they use.
for(size_t start = s->m_TEX0.TBP0 >> 5, end = s->m_target ? start : countof(m_map) - 1; start <= end; start++)
{
list<Source*>& m = m_map[start];
for(list<Source*>::iterator i = m.begin(); i != m.end(); )
{
list<Source*>::iterator j = i++;
if(*j == s) {m.erase(j); break;}
}
}
delete s;
}