GS-HW: Add channel masks to dirty rects, allows partial updates

This commit is contained in:
refractionpcsx2 2023-02-25 08:19:46 +00:00
parent 9a53f0f853
commit 0b3aac3d91
6 changed files with 103 additions and 32 deletions

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@ -152,6 +152,22 @@ bool GSUtil::HasCompatibleBits(u32 spsm, u32 dpsm)
return (s_maps.CompatibleBitsField[spsm][dpsm >> 5] & (1 << (dpsm & 0x1f))) != 0; return (s_maps.CompatibleBitsField[spsm][dpsm >> 5] & (1 << (dpsm & 0x1f))) != 0;
} }
u32 GSUtil::GetChannelMask(u32 spsm)
{
switch (spsm)
{
case PSM_PSMCT24:
case PSM_PSMZ24:
return 0x7;
case PSM_PSMT8H:
case PSM_PSMT4HH: // This sucks, I'm sorry, but we don't have a way to do half channels
case PSM_PSMT4HL: // So uuhh TODO I guess.
return 0x8;
default:
return 0xf;
}
}
CRCHackLevel GSUtil::GetRecommendedCRCHackLevel(GSRendererType type) CRCHackLevel GSUtil::GetRecommendedCRCHackLevel(GSRendererType type)
{ {
return (type == GSRendererType::DX11 || type == GSRendererType::DX12) ? CRCHackLevel::Full : CRCHackLevel::Partial; return (type == GSRendererType::DX11 || type == GSRendererType::DX12) ? CRCHackLevel::Full : CRCHackLevel::Partial;

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@ -32,6 +32,7 @@ public:
static bool HasSharedBits(u32 spsm, u32 dpsm); static bool HasSharedBits(u32 spsm, u32 dpsm);
static bool HasSharedBits(u32 sbp, u32 spsm, u32 dbp, u32 dpsm); static bool HasSharedBits(u32 sbp, u32 spsm, u32 dbp, u32 dpsm);
static bool HasCompatibleBits(u32 spsm, u32 dpsm); static bool HasCompatibleBits(u32 spsm, u32 dpsm);
static u32 GetChannelMask(u32 spsm);
static CRCHackLevel GetRecommendedCRCHackLevel(GSRendererType type); static CRCHackLevel GetRecommendedCRCHackLevel(GSRendererType type);
static GSRendererType GetPreferredRenderer(); static GSRendererType GetPreferredRenderer();

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@ -20,14 +20,16 @@
GSDirtyRect::GSDirtyRect() : GSDirtyRect::GSDirtyRect() :
r(GSVector4i::zero()), r(GSVector4i::zero()),
psm(PSM_PSMCT32), psm(PSM_PSMCT32),
bw(1) bw(1),
rgba({})
{ {
} }
GSDirtyRect::GSDirtyRect(GSVector4i& r, u32 psm, u32 bw) : GSDirtyRect::GSDirtyRect(GSVector4i& r, u32 psm, u32 bw, RGBAMask rgba) :
r(r), r(r),
psm(psm), psm(psm),
bw(bw) bw(bw),
rgba(rgba)
{ {
} }
@ -73,6 +75,21 @@ GSVector4i GSDirtyRectList::GetTotalRect(GIFRegTEX0 TEX0, const GSVector2i& size
return GSVector4i::zero(); return GSVector4i::zero();
} }
u32 GSDirtyRectList::GetDirtyChannels()
{
u32 channels = 0;
if (!empty())
{
for (auto& dirty_rect : *this)
{
channels |= dirty_rect.rgba._u32;
}
}
return channels;
}
GSVector4i GSDirtyRectList::GetDirtyRect(size_t index, GIFRegTEX0 TEX0, const GSVector4i& clamp) const GSVector4i GSDirtyRectList::GetDirtyRect(size_t index, GIFRegTEX0 TEX0, const GSVector4i& clamp) const
{ {
const GSVector4i r = (*this)[index].GetDirtyRect(TEX0); const GSVector4i r = (*this)[index].GetDirtyRect(TEX0);

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@ -17,15 +17,28 @@
#include "GS/GSLocalMemory.h" #include "GS/GSLocalMemory.h"
union RGBAMask
{
struct
{
u32 r : 1;
u32 g : 1;
u32 b : 1;
u32 a : 1;
} c;
u32 _u32;
};
class GSDirtyRect class GSDirtyRect
{ {
public: public:
GSVector4i r; GSVector4i r;
u32 psm; u32 psm;
u32 bw; u32 bw;
RGBAMask rgba;
GSDirtyRect(); GSDirtyRect();
GSDirtyRect(GSVector4i& r, u32 psm, u32 bw); GSDirtyRect(GSVector4i& r, u32 psm, u32 bw, RGBAMask rgba);
GSVector4i GetDirtyRect(GIFRegTEX0 TEX0) const; GSVector4i GetDirtyRect(GIFRegTEX0 TEX0) const;
}; };
@ -34,5 +47,6 @@ class GSDirtyRectList : public std::vector<GSDirtyRect>
public: public:
GSDirtyRectList() {} GSDirtyRectList() {}
GSVector4i GetTotalRect(GIFRegTEX0 TEX0, const GSVector2i& size) const; GSVector4i GetTotalRect(GIFRegTEX0 TEX0, const GSVector2i& size) const;
u32 GetDirtyChannels();
GSVector4i GetDirtyRect(size_t index, GIFRegTEX0 TEX0, const GSVector4i& clamp) const; GSVector4i GetDirtyRect(size_t index, GIFRegTEX0 TEX0, const GSVector4i& clamp) const;
}; };

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@ -83,15 +83,16 @@ void GSTextureCache::RemoveAll()
m_surface_offset_cache.clear(); m_surface_offset_cache.clear();
} }
void GSTextureCache::AddDirtyRectTarget(Target* target, GSVector4i rect, u32 psm, u32 bw) void GSTextureCache::AddDirtyRectTarget(Target* target, GSVector4i rect, u32 psm, u32 bw, RGBAMask rgba)
{ {
bool skipdirty = false; bool skipdirty = false;
bool canskip = true; bool canskip = true;
std::vector<GSDirtyRect>::iterator it = target->m_dirty.end(); std::vector<GSDirtyRect>::iterator it = target->m_dirty.end();
while (it != target->m_dirty.begin()) while (it != target->m_dirty.begin())
{ {
--it; --it;
if (it[0].bw == bw && it[0].psm == psm) if (it[0].bw == bw && it[0].psm == psm && it[0].rgba._u32 == rgba._u32)
{ {
if (it[0].r.rintersect(rect).eq(rect) && canskip) if (it[0].r.rintersect(rect).eq(rect) && canskip)
{ {
@ -112,7 +113,7 @@ void GSTextureCache::AddDirtyRectTarget(Target* target, GSVector4i rect, u32 psm
} }
if (!skipdirty) if (!skipdirty)
target->m_dirty.push_back(GSDirtyRect(rect, psm, bw)); target->m_dirty.push_back(GSDirtyRect(rect, psm, bw, rgba));
} }
GSTextureCache::Source* GSTextureCache::LookupDepthSource(const GIFRegTEX0& TEX0, const GIFRegTEXA& TEXA, const GIFRegCLAMP& CLAMP, const GSVector4i& r, bool palette) GSTextureCache::Source* GSTextureCache::LookupDepthSource(const GIFRegTEX0& TEX0, const GIFRegTEXA& TEXA, const GIFRegCLAMP& CLAMP, const GSVector4i& r, bool palette)
@ -382,7 +383,11 @@ GSTextureCache::Source* GSTextureCache::LookupSource(const GIFRegTEX0& TEX0, con
// Solution: consider the RT as 32 bits if the alpha was used in the past // Solution: consider the RT as 32 bits if the alpha was used in the past
const u32 t_psm = (t->m_dirty_alpha) ? t->m_TEX0.PSM & ~0x1 : t->m_TEX0.PSM; const u32 t_psm = (t->m_dirty_alpha) ? t->m_TEX0.PSM & ~0x1 : t->m_TEX0.PSM;
const bool t_clean = t->m_dirty.empty(); const u32 channels = t->m_dirty.GetDirtyChannels() & GSUtil::GetChannelMask(psm);
// If not all channels are clean/dirty, we need to update the target.
if (channels != 0 && channels != GSUtil::GetChannelMask(psm))
t->Update(false);
const bool t_clean = (t->m_dirty.GetDirtyChannels() & GSUtil::GetChannelMask(psm)) == 0;
const bool t_wraps = t->m_end_block > GSTextureCache::MAX_BP; const bool t_wraps = t->m_end_block > GSTextureCache::MAX_BP;
// Match if we haven't already got a tex in rt // Match if we haven't already got a tex in rt
@ -473,6 +478,8 @@ GSTextureCache::Source* GSTextureCache::LookupSource(const GIFRegTEX0& TEX0, con
if (tex_in_rt) if (tex_in_rt)
{ {
GSVector2i size_delta = { ((x_offset + (1 << TEX0.TW)) - dst->m_valid.z), ((y_offset + (1 << TEX0.TH)) - dst->m_valid.w) }; GSVector2i size_delta = { ((x_offset + (1 << TEX0.TW)) - dst->m_valid.z), ((y_offset + (1 << TEX0.TH)) - dst->m_valid.w) };
RGBAMask rgba;
rgba._u32 = GSUtil::GetChannelMask(psm);
if (size_delta.x > 0) if (size_delta.x > 0)
{ {
@ -483,7 +490,7 @@ GSTextureCache::Source* GSTextureCache::LookupSource(const GIFRegTEX0& TEX0, con
{ {
dst->UpdateValidity(dirty_rect); dst->UpdateValidity(dirty_rect);
AddDirtyRectTarget(dst, dirty_rect, dst->m_TEX0.PSM, dst->m_TEX0.TBW); AddDirtyRectTarget(dst, dirty_rect, dst->m_TEX0.PSM, dst->m_TEX0.TBW, rgba);
} }
} }
@ -496,7 +503,7 @@ GSTextureCache::Source* GSTextureCache::LookupSource(const GIFRegTEX0& TEX0, con
{ {
dst->UpdateValidity(dirty_rect); dst->UpdateValidity(dirty_rect);
AddDirtyRectTarget(dst, dirty_rect, dst->m_TEX0.PSM, dst->m_TEX0.TBW); AddDirtyRectTarget(dst, dirty_rect, dst->m_TEX0.PSM, dst->m_TEX0.TBW, rgba);
} }
} }
const GSVector2 up_s(dst->m_texture->GetScale()); const GSVector2 up_s(dst->m_texture->GetScale());
@ -834,11 +841,14 @@ GSTextureCache::Target* GSTextureCache::LookupTarget(const GIFRegTEX0& TEX0, con
const bool forced_preload = GSRendererHW::GetInstance()->m_force_preload > 0; const bool forced_preload = GSRendererHW::GetInstance()->m_force_preload > 0;
const GSVector4i newrect = GSVector4i(0, 0, real_w, real_h); const GSVector4i newrect = GSVector4i(0, 0, real_w, real_h);
const u32 rect_end = GSLocalMemory::m_psm[TEX0.PSM].info.bn(newrect.z - 1, newrect.w - 1, TEX0.TBP0, TEX0.TBW); const u32 rect_end = GSLocalMemory::m_psm[TEX0.PSM].info.bn(newrect.z - 1, newrect.w - 1, TEX0.TBP0, TEX0.TBW);
RGBAMask rgba;
rgba._u32 = GSUtil::GetChannelMask(TEX0.PSM);
if (!is_frame && !forced_preload && !preload) if (!is_frame && !forced_preload && !preload)
{ {
std::vector<GSState::GSUploadQueue>::iterator iter; std::vector<GSState::GSUploadQueue>::iterator iter;
GSVector4i eerect = GSVector4i::zero(); GSVector4i eerect = GSVector4i::zero();
for (iter = GSRendererHW::GetInstance()->m_draw_transfers.begin(); iter != GSRendererHW::GetInstance()->m_draw_transfers.end(); ) for (iter = GSRendererHW::GetInstance()->m_draw_transfers.begin(); iter != GSRendererHW::GetInstance()->m_draw_transfers.end(); )
{ {
// If the format, and location doesn't overlap // If the format, and location doesn't overlap
@ -855,7 +865,7 @@ GSTextureCache::Target* GSTextureCache::LookupTarget(const GIFRegTEX0& TEX0, con
sok.elems[1].rect = newrect; sok.elems[1].rect = newrect;
// Calculate the rect offset if the BP doesn't match. // Calculate the rect offset if the BP doesn't match.
const GSVector4i targetr = (iter->blit.DBP == TEX0.TBP0 && GSUtil::HasCompatibleBits(iter->blit.DPSM, TEX0.PSM)) ? iter->rect : ComputeSurfaceOffset(sok).b2a_offset; const GSVector4i targetr = (iter->blit.DBP == TEX0.TBP0) ? iter->rect : ComputeSurfaceOffset(sok).b2a_offset;
if (eerect.rempty()) if (eerect.rempty())
eerect = targetr; eerect = targetr;
else else
@ -874,8 +884,9 @@ GSTextureCache::Target* GSTextureCache::LookupTarget(const GIFRegTEX0& TEX0, con
if (!eerect.rempty()) if (!eerect.rempty())
{ {
GL_INS("Preloading the RT DATA"); GL_INS("Preloading the RT DATA");
dst->UpdateValidity(eerect); eerect = eerect.rintersect(newrect);
AddDirtyRectTarget(dst, eerect, TEX0.PSM, TEX0.TBW); dst->UpdateValidity(newrect);
AddDirtyRectTarget(dst, eerect, TEX0.PSM, TEX0.TBW, rgba);
dst->Update(true); dst->Update(true);
} }
} }
@ -883,7 +894,7 @@ GSTextureCache::Target* GSTextureCache::LookupTarget(const GIFRegTEX0& TEX0, con
{ {
GL_INS("Preloading the RT DATA"); GL_INS("Preloading the RT DATA");
dst->UpdateValidity(newrect); dst->UpdateValidity(newrect);
AddDirtyRectTarget(dst, newrect, TEX0.PSM, TEX0.TBW); AddDirtyRectTarget(dst, newrect, TEX0.PSM, TEX0.TBW, rgba);
dst->Update(true); dst->Update(true);
} }
} }
@ -961,21 +972,23 @@ void GSTextureCache::ScaleTargetForDisplay(Target* t, const GIFRegTEX0& dispfb,
g_gs_device->Recycle(old_texture); g_gs_device->Recycle(old_texture);
t->m_texture = new_texture; t->m_texture = new_texture;
RGBAMask rgba;
rgba._u32 = GSUtil::GetChannelMask(t->m_TEX0.PSM);
// We unconditionally preload the frame here, because otherwise we'll end up with blackness for one frame (when the expand happens). // We unconditionally preload the frame here, because otherwise we'll end up with blackness for one frame (when the expand happens).
const int preload_width = t->m_TEX0.TBW * 64; const int preload_width = t->m_TEX0.TBW * 64;
if (old_width < preload_width && old_height < needed_height) if (old_width < preload_width && old_height < needed_height)
{ {
const GSVector4i right(old_width, 0, preload_width, needed_height); const GSVector4i right(old_width, 0, preload_width, needed_height);
const GSVector4i bottom(0, old_height, old_width, needed_height); const GSVector4i bottom(0, old_height, old_width, needed_height);
AddDirtyRectTarget(t, right, t->m_TEX0.PSM, t->m_TEX0.TBW); AddDirtyRectTarget(t, right, t->m_TEX0.PSM, t->m_TEX0.TBW, rgba);
AddDirtyRectTarget(t, bottom, t->m_TEX0.PSM, t->m_TEX0.TBW); AddDirtyRectTarget(t, bottom, t->m_TEX0.PSM, t->m_TEX0.TBW, rgba);
} }
else else
{ {
const GSVector4i newrect = GSVector4i((old_height < scaled_needed_height) ? 0 : old_width, const GSVector4i newrect = GSVector4i((old_height < scaled_needed_height) ? 0 : old_width,
(old_width < preload_width) ? 0 : old_height, (old_width < preload_width) ? 0 : old_height,
preload_width, needed_height); preload_width, needed_height);
AddDirtyRectTarget(t, newrect, t->m_TEX0.PSM, t->m_TEX0.TBW); AddDirtyRectTarget(t, newrect, t->m_TEX0.PSM, t->m_TEX0.TBW, rgba);
} }
// Inject the new height back into the cache. // Inject the new height back into the cache.
@ -1011,6 +1024,8 @@ void GSTextureCache::ExpandTarget(const GIFRegBITBLTBUF& BITBLTBUF, const GSVect
TEX0.PSM = BITBLTBUF.DPSM; TEX0.PSM = BITBLTBUF.DPSM;
Target* dst = nullptr; Target* dst = nullptr;
auto& list = m_dst[RenderTarget]; auto& list = m_dst[RenderTarget];
RGBAMask rgba;
rgba._u32 = GSUtil::GetChannelMask(TEX0.PSM);
for (auto i = list.begin(); i != list.end(); ++i) for (auto i = list.begin(); i != list.end(); ++i)
{ {
@ -1043,7 +1058,7 @@ void GSTextureCache::ExpandTarget(const GIFRegBITBLTBUF& BITBLTBUF, const GSVect
// which are being expanded one-line-at-a-time. // which are being expanded one-line-at-a-time.
if (dst->ResizeTexture(upsc_width, upsc_height, false)) if (dst->ResizeTexture(upsc_width, upsc_height, false))
{ {
AddDirtyRectTarget(dst, r, TEX0.PSM, TEX0.TBW); AddDirtyRectTarget(dst, r, TEX0.PSM, TEX0.TBW, rgba);
GetTargetHeight(TEX0.TBP0, TEX0.TBW, TEX0.PSM, aligned_height); GetTargetHeight(TEX0.TBP0, TEX0.TBW, TEX0.PSM, aligned_height);
dst->UpdateValidity(r); dst->UpdateValidity(r);
dst->UpdateValidBits(GSLocalMemory::m_psm[TEX0.PSM].fmsk); dst->UpdateValidBits(GSLocalMemory::m_psm[TEX0.PSM].fmsk);
@ -1055,7 +1070,7 @@ void GSTextureCache::ExpandTarget(const GIFRegBITBLTBUF& BITBLTBUF, const GSVect
const GSVector4i clamped_r( const GSVector4i clamped_r(
r.rintersect(GSVector4i(0, 0, static_cast<int>(dst->m_texture->GetWidth() / dst->m_texture->GetScale().x), r.rintersect(GSVector4i(0, 0, static_cast<int>(dst->m_texture->GetWidth() / dst->m_texture->GetScale().x),
static_cast<int>(dst->m_texture->GetHeight() / dst->m_texture->GetScale().y)))); static_cast<int>(dst->m_texture->GetHeight() / dst->m_texture->GetScale().y))));
AddDirtyRectTarget(dst, clamped_r, TEX0.PSM, TEX0.TBW); AddDirtyRectTarget(dst, clamped_r, TEX0.PSM, TEX0.TBW, rgba);
dst->UpdateValidity(clamped_r); dst->UpdateValidity(clamped_r);
dst->UpdateValidBits(GSLocalMemory::m_psm[TEX0.PSM].fmsk); dst->UpdateValidBits(GSLocalMemory::m_psm[TEX0.PSM].fmsk);
} }
@ -1241,6 +1256,8 @@ void GSTextureCache::InvalidateVideoMem(const GSOffset& off, const GSVector4i& r
// Ideally in the future we can turn this on unconditionally, but for now it breaks too much. // Ideally in the future we can turn this on unconditionally, but for now it breaks too much.
const bool check_inside_target = (GSConfig.UserHacks_TargetPartialInvalidation || GSConfig.UserHacks_TextureInsideRt); const bool check_inside_target = (GSConfig.UserHacks_TargetPartialInvalidation || GSConfig.UserHacks_TextureInsideRt);
RGBAMask rgba;
rgba._u32 = GSUtil::GetChannelMask(psm);
for (int type = 0; type < 2; type++) for (int type = 0; type < 2; type++)
{ {
@ -1275,7 +1292,7 @@ void GSTextureCache::InvalidateVideoMem(const GSOffset& off, const GSVector4i& r
if (eewrite) if (eewrite)
t->m_age = 0; t->m_age = 0;
AddDirtyRectTarget(t, r, psm, bw); AddDirtyRectTarget(t, r, psm, bw, rgba);
} }
else else
{ {
@ -1290,7 +1307,7 @@ void GSTextureCache::InvalidateVideoMem(const GSOffset& off, const GSVector4i& r
// Compatible formats and same width, probably updating the same texture, so just mark it as dirty. // Compatible formats and same width, probably updating the same texture, so just mark it as dirty.
if (bw == t->m_TEX0.TBW && GSLocalMemory::m_psm[psm].bpp == GSLocalMemory::m_psm[t->m_TEX0.PSM].bpp) if (bw == t->m_TEX0.TBW && GSLocalMemory::m_psm[psm].bpp == GSLocalMemory::m_psm[t->m_TEX0.PSM].bpp)
{ {
AddDirtyRectTarget(t, rect, psm, bw); AddDirtyRectTarget(t, rect, psm, bw, rgba);
GL_CACHE("TC: Direct Dirty in the middle [aggressive] of Target(%s) %d [PSM:%s BP:0x%x->0x%x BW:%u rect(%d,%d=>%d,%d)] write[PSM:%s BP:0x%x BW:%u rect(%d,%d=>%d,%d)]", GL_CACHE("TC: Direct Dirty in the middle [aggressive] of Target(%s) %d [PSM:%s BP:0x%x->0x%x BW:%u rect(%d,%d=>%d,%d)] write[PSM:%s BP:0x%x BW:%u rect(%d,%d=>%d,%d)]",
to_string(type), to_string(type),
t->m_texture ? t->m_texture->GetID() : 0, t->m_texture ? t->m_texture->GetID() : 0,
@ -1324,7 +1341,7 @@ void GSTextureCache::InvalidateVideoMem(const GSOffset& off, const GSVector4i& r
SurfaceOffset so = ComputeSurfaceOffset(off, r, t); SurfaceOffset so = ComputeSurfaceOffset(off, r, t);
if (so.is_valid) if (so.is_valid)
{ {
AddDirtyRectTarget(t, so.b2a_offset, psm, bw); AddDirtyRectTarget(t, so.b2a_offset, psm, bw, rgba);
GL_CACHE("TC: Dirty in the middle [aggressive] of Target(%s) %d [PSM:%s BP:0x%x->0x%x BW:%u rect(%d,%d=>%d,%d)] write[PSM:%s BP:0x%x BW:%u rect(%d,%d=>%d,%d)]", GL_CACHE("TC: Dirty in the middle [aggressive] of Target(%s) %d [PSM:%s BP:0x%x->0x%x BW:%u rect(%d,%d=>%d,%d)] write[PSM:%s BP:0x%x BW:%u rect(%d,%d=>%d,%d)]",
to_string(type), to_string(type),
t->m_texture ? t->m_texture->GetID() : 0, t->m_texture ? t->m_texture->GetID() : 0,
@ -1401,7 +1418,7 @@ void GSTextureCache::InvalidateVideoMem(const GSOffset& off, const GSVector4i& r
t->m_age = 0; t->m_age = 0;
const GSVector4i dirty_r = GSVector4i(r.left, r.top - y, r.right, r.bottom - y); const GSVector4i dirty_r = GSVector4i(r.left, r.top - y, r.right, r.bottom - y);
AddDirtyRectTarget(t, dirty_r, psm, bw); AddDirtyRectTarget(t, dirty_r, psm, bw, rgba);
continue; continue;
} }
} }
@ -1432,7 +1449,7 @@ void GSTextureCache::InvalidateVideoMem(const GSOffset& off, const GSVector4i& r
t->m_age = 0; t->m_age = 0;
const GSVector4i dirty_r = GSVector4i(r.left, r.top + y, r.right, r.bottom + y); const GSVector4i dirty_r = GSVector4i(r.left, r.top + y, r.right, r.bottom + y);
AddDirtyRectTarget(t, dirty_r, psm, bw); AddDirtyRectTarget(t, dirty_r, psm, bw, rgba);
continue; continue;
} }
} }
@ -1454,7 +1471,7 @@ void GSTextureCache::InvalidateVideoMem(const GSOffset& off, const GSVector4i& r
if (eewrite) if (eewrite)
t->m_age = 0; t->m_age = 0;
AddDirtyRectTarget(t, so.b2a_offset, t->m_TEX0.PSM, t->m_TEX0.TBW); AddDirtyRectTarget(t, so.b2a_offset, t->m_TEX0.PSM, t->m_TEX0.TBW, rgba);
} }
} }
#endif #endif
@ -1809,7 +1826,7 @@ bool GSTextureCache::Move(u32 SBP, u32 SBW, u32 SPSM, int sx, int sy, u32 DBP, u
// Make sure the copy doesn't go out of bounds (it shouldn't). // Make sure the copy doesn't go out of bounds (it shouldn't).
if ((scaled_dx + scaled_w) > dst->m_texture->GetWidth() || (scaled_dy + scaled_h) > dst->m_texture->GetHeight()) if ((scaled_dx + scaled_w) > dst->m_texture->GetWidth() || (scaled_dy + scaled_h) > dst->m_texture->GetHeight())
return false; return false;
GL_CACHE("HW Move 0x%x to 0x%x <%d,%d->%d,%d> -> <%d,%d->%d,%d>", SBP, DBP, sx, sy, sx + w, sy, h, dx, dy, dx + w, dy + h);
g_gs_device->CopyRect(src->m_texture, dst->m_texture, g_gs_device->CopyRect(src->m_texture, dst->m_texture,
GSVector4i(scaled_sx, scaled_sy, scaled_sx + scaled_w, scaled_sy + scaled_h), GSVector4i(scaled_sx, scaled_sy, scaled_sx + scaled_w, scaled_sy + scaled_h),
scaled_dx, scaled_dy); scaled_dx, scaled_dy);
@ -3315,19 +3332,25 @@ void GSTextureCache::Target::Update(bool reset_age)
for (size_t i = 0; i < m_dirty.size(); i++) for (size_t i = 0; i < m_dirty.size(); i++)
{ {
const GSVector4i r(m_dirty.GetDirtyRect(i, m_TEX0, total_rect)); const GSVector4i r(m_dirty.GetDirtyRect(i, m_TEX0, total_rect));
if (r.rempty()) if (r.rempty())
continue; continue;
const GSVector4 sRect(GSVector4(r - t_offset) / t_sizef); const GSVector4 sRect(GSVector4(r - t_offset) / t_sizef);
const GSVector4 dRect(GSVector4(r) * GSVector4(m_texture->GetScale()).xyxy()); const GSVector4 dRect(GSVector4(r) * GSVector4(m_texture->GetScale()).xyxy());
// Copy the new GS memory content into the destination texture. // Copy the new GS memory content into the destination texture.
if (m_type == RenderTarget) if (m_type == RenderTarget)
{ {
GL_INS("ERROR: Update RenderTarget 0x%x bw:%d (%d,%d => %d,%d)", m_TEX0.TBP0, m_TEX0.TBW, r.x, r.y, r.z, r.w); GL_INS("ERROR: Update RenderTarget 0x%x bw:%d (%d,%d => %d,%d)", m_TEX0.TBP0, m_TEX0.TBW, r.x, r.y, r.z, r.w);
if (m_dirty[i].rgba._u32 != 0xf)
// Bilinear filtering this is probably not a good thing, at least in native, but upscaling Nearest can be gross and messy. {
g_gs_device->StretchRect(t, sRect, m_texture, dRect, ShaderConvert::COPY, g_gs_renderer->CanUpscale()); g_gs_device->StretchRect(t, sRect, m_texture, dRect, m_dirty[i].rgba.c.r, m_dirty[i].rgba.c.g, m_dirty[i].rgba.c.b, m_dirty[i].rgba.c.a);
}
else
{
// Bilinear filtering this is probably not a good thing, at least in native, but upscaling Nearest can be gross and messy.
g_gs_device->StretchRect(t, sRect, m_texture, dRect, ShaderConvert::COPY, g_gs_renderer->CanUpscale());
}
} }
else if (m_type == DepthStencil) else if (m_type == DepthStencil)
{ {

View File

@ -408,7 +408,7 @@ public:
void Read(Source* t, const GSVector4i& r); void Read(Source* t, const GSVector4i& r);
void RemoveAll(); void RemoveAll();
void ReadbackAll(); void ReadbackAll();
void AddDirtyRectTarget(Target* target, GSVector4i rect, u32 psm, u32 bw); void AddDirtyRectTarget(Target* target, GSVector4i rect, u32 psm, u32 bw, RGBAMask rgba);
GSTexture* LookupPaletteSource(u32 CBP, u32 CPSM, u32 CBW, GSVector2i& offset, const GSVector2i& size); GSTexture* LookupPaletteSource(u32 CBP, u32 CPSM, u32 CBW, GSVector2i& offset, const GSVector2i& size);