dolphin/Source/Core/VideoCommon/PixelShaderManager.cpp

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// Copyright 2013 Dolphin Emulator Project
// Licensed under GPLv2
// Refer to the license.txt file included.
#include <cmath>
#include "Common/Common.h"
#include "VideoCommon/PixelShaderManager.h"
#include "VideoCommon/RenderBase.h"
#include "VideoCommon/Statistics.h"
#include "VideoCommon/VideoCommon.h"
#include "VideoCommon/VideoConfig.h"
static bool s_bFogRangeAdjustChanged;
static bool s_bViewPortChanged;
static int nLightsChanged[2]; // min,max
PixelShaderConstants PixelShaderManager::constants;
bool PixelShaderManager::dirty;
void PixelShaderManager::Init()
{
memset(&constants, 0, sizeof(constants));
Dirty();
}
void PixelShaderManager::Dirty()
{
s_bFogRangeAdjustChanged = true;
s_bViewPortChanged = true;
nLightsChanged[0] = 0; nLightsChanged[1] = 0x80;
SetColorChanged(0, 0);
SetColorChanged(0, 1);
SetColorChanged(0, 2);
SetColorChanged(0, 3);
SetColorChanged(1, 0);
SetColorChanged(1, 1);
SetColorChanged(1, 2);
SetColorChanged(1, 3);
SetAlpha();
SetDestAlpha();
SetZTextureBias();
SetViewportChanged();
SetIndTexScaleChanged(false);
SetIndTexScaleChanged(true);
SetIndMatrixChanged(0);
SetIndMatrixChanged(1);
SetIndMatrixChanged(2);
SetZTextureTypeChanged();
SetTexCoordChanged(0);
SetTexCoordChanged(1);
SetTexCoordChanged(2);
SetTexCoordChanged(3);
SetTexCoordChanged(4);
SetTexCoordChanged(5);
SetTexCoordChanged(6);
SetTexCoordChanged(7);
SetFogColorChanged();
SetFogParamChanged();
}
void PixelShaderManager::Shutdown()
{
}
void PixelShaderManager::SetConstants()
{
if (s_bFogRangeAdjustChanged)
{
// set by two components, so keep changed flag here
// TODO: try to split both registers and move this logic to the shader
if (!g_ActiveConfig.bDisableFog && bpmem.fogRange.Base.Enabled == 1)
{
//bpmem.fogRange.Base.Center : center of the viewport in x axis. observation: bpmem.fogRange.Base.Center = realcenter + 342;
int center = ((u32)bpmem.fogRange.Base.Center) - 342;
// normalize center to make calculations easy
float ScreenSpaceCenter = center / (2.0f * xfregs.viewport.wd);
ScreenSpaceCenter = (ScreenSpaceCenter * 2.0f) - 1.0f;
//bpmem.fogRange.K seems to be a table of precalculated coefficients for the adjust factor
//observations: bpmem.fogRange.K[0].LO appears to be the lowest value and bpmem.fogRange.K[4].HI the largest
// they always seems to be larger than 256 so my theory is :
// they are the coefficients from the center to the border of the screen
// so to simplify I use the hi coefficient as K in the shader taking 256 as the scale
// TODO: Shouldn't this be EFBToScaledXf?
constants.fogf[0][0] = ScreenSpaceCenter;
constants.fogf[0][1] = (float)Renderer::EFBToScaledX((int)(2.0f * xfregs.viewport.wd));
constants.fogf[0][2] = bpmem.fogRange.K[4].HI / 256.0f;
}
else
{
constants.fogf[0][0] = 0;
constants.fogf[0][1] = 1;
constants.fogf[0][2] = 1;
}
dirty = true;
s_bFogRangeAdjustChanged = false;
}
if (g_ActiveConfig.bEnablePixelLighting) // config check added because the code in here was crashing for me inside SetPSConstant4f
{
if (nLightsChanged[0] >= 0)
{
// TODO: Outdated comment
// lights don't have a 1 to 1 mapping, the color component needs to be converted to 4 floats
int istart = nLightsChanged[0] / 0x10;
int iend = (nLightsChanged[1] + 15) / 0x10;
const float* xfmemptr = (const float*)&xfmem[0x10 * istart + XFMEM_LIGHTS];
for (int i = istart; i < iend; ++i)
{
u32 color = *(const u32*)(xfmemptr + 3);
constants.plight_colors[i][0] = (color >> 24) & 0xFF;
constants.plight_colors[i][1] = (color >> 16) & 0xFF;
constants.plight_colors[i][2] = (color >> 8) & 0xFF;
constants.plight_colors[i][3] = (color) & 0xFF;
xfmemptr += 4;
for (int j = 0; j < 4; ++j, xfmemptr += 3)
{
if (j == 1 &&
fabs(xfmemptr[0]) < 0.00001f &&
fabs(xfmemptr[1]) < 0.00001f &&
fabs(xfmemptr[2]) < 0.00001f)
// dist attenuation, make sure not equal to 0!!!
constants.plights[4*i+j][0] = 0.00001f;
else
constants.plights[4*i+j][0] = xfmemptr[0];
constants.plights[4*i+j][1] = xfmemptr[1];
constants.plights[4*i+j][2] = xfmemptr[2];
}
}
dirty = true;
nLightsChanged[0] = nLightsChanged[1] = -1;
}
}
if (s_bViewPortChanged)
{
constants.zbias[1][0] = xfregs.viewport.farZ;
constants.zbias[1][1] = xfregs.viewport.zRange;
dirty = true;
s_bViewPortChanged = false;
}
}
void PixelShaderManager::SetColorChanged(int type, int num)
{
int4* c = type ? constants.kcolors : constants.colors;
c[num][0] = bpmem.tevregs[num].red;
c[num][3] = bpmem.tevregs[num].alpha;
c[num][2] = bpmem.tevregs[num].blue;
c[num][1] = bpmem.tevregs[num].green;
dirty = true;
PRIM_LOG("pixel %scolor%d: %d %d %d %d\n", type?"k":"", num, c[num][0], c[num][1], c[num][2], c[num][3]);
}
void PixelShaderManager::SetAlpha()
{
constants.alpha[0] = bpmem.alpha_test.ref0;
constants.alpha[1] = bpmem.alpha_test.ref1;
dirty = true;
}
void PixelShaderManager::SetDestAlpha()
{
constants.alpha[3] = bpmem.dstalpha.alpha;
dirty = true;
}
void PixelShaderManager::SetTexDims(int texmapid, u32 width, u32 height, u32 wraps, u32 wrapt)
{
// TODO: move this check out to callee. There we could just call this function on texture changes
// or better, use textureSize() in glsl
if (constants.texdims[texmapid][0] != 1.0f/width || constants.texdims[texmapid][1] != 1.0f/height)
dirty = true;
constants.texdims[texmapid][0] = 1.0f/width;
constants.texdims[texmapid][1] = 1.0f/height;
}
void PixelShaderManager::SetZTextureBias()
{
constants.zbias[1][3] = bpmem.ztex1.bias;
dirty = true;
}
void PixelShaderManager::SetViewportChanged()
{
s_bViewPortChanged = true;
s_bFogRangeAdjustChanged = true; // TODO: Shouldn't be necessary with an accurate fog range adjust implementation
}
void PixelShaderManager::SetIndTexScaleChanged(bool high)
{
constants.indtexscale[high][0] = bpmem.texscale[high].ss0;
constants.indtexscale[high][1] = bpmem.texscale[high].ts0;
constants.indtexscale[high][2] = bpmem.texscale[high].ss1;
constants.indtexscale[high][3] = bpmem.texscale[high].ts1;
dirty = true;
}
void PixelShaderManager::SetIndMatrixChanged(int matrixidx)
{
int scale = ((u32)bpmem.indmtx[matrixidx].col0.s0 << 0) |
((u32)bpmem.indmtx[matrixidx].col1.s1 << 2) |
((u32)bpmem.indmtx[matrixidx].col2.s2 << 4);
// xyz - static matrix
// w - dynamic matrix scale / 128
constants.indtexmtx[2*matrixidx ][0] = bpmem.indmtx[matrixidx].col0.ma;
constants.indtexmtx[2*matrixidx ][1] = bpmem.indmtx[matrixidx].col1.mc;
constants.indtexmtx[2*matrixidx ][2] = bpmem.indmtx[matrixidx].col2.me;
constants.indtexmtx[2*matrixidx ][3] = 17 - scale;
constants.indtexmtx[2*matrixidx+1][0] = bpmem.indmtx[matrixidx].col0.mb;
constants.indtexmtx[2*matrixidx+1][1] = bpmem.indmtx[matrixidx].col1.md;
constants.indtexmtx[2*matrixidx+1][2] = bpmem.indmtx[matrixidx].col2.mf;
constants.indtexmtx[2*matrixidx+1][3] = 17 - scale;
dirty = true;
PRIM_LOG("indmtx%d: scale=%d, mat=(%d %d %d; %d %d %d)\n",
matrixidx, scale,
bpmem.indmtx[matrixidx].col0.ma, bpmem.indmtx[matrixidx].col1.mc, bpmem.indmtx[matrixidx].col2.me,
bpmem.indmtx[matrixidx].col0.mb, bpmem.indmtx[matrixidx].col1.md, bpmem.indmtx[matrixidx].col2.mf);
}
void PixelShaderManager::SetZTextureTypeChanged()
{
switch (bpmem.ztex2.type)
{
case TEV_ZTEX_TYPE_U8:
constants.zbias[0][0] = 0;
constants.zbias[0][1] = 0;
constants.zbias[0][2] = 0;
constants.zbias[0][3] = 1;
break;
case TEV_ZTEX_TYPE_U16:
constants.zbias[0][0] = 1;
constants.zbias[0][1] = 0;
constants.zbias[0][2] = 0;
constants.zbias[0][3] = 256;
break;
case TEV_ZTEX_TYPE_U24:
constants.zbias[0][0] = 65536;
constants.zbias[0][1] = 256;
constants.zbias[0][2] = 1;
constants.zbias[0][3] = 0;
break;
default:
break;
}
dirty = true;
}
void PixelShaderManager::SetTexCoordChanged(u8 texmapid)
{
TCoordInfo& tc = bpmem.texcoords[texmapid];
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constants.texdims[texmapid][2] = (float)(tc.s.scale_minus_1 + 1);
constants.texdims[texmapid][3] = (float)(tc.t.scale_minus_1 + 1);
dirty = true;
}
void PixelShaderManager::SetFogColorChanged()
{
constants.fogcolor[0] = bpmem.fog.color.r;
constants.fogcolor[1] = bpmem.fog.color.g;
constants.fogcolor[2] = bpmem.fog.color.b;
dirty = true;
}
void PixelShaderManager::SetFogParamChanged()
{
if (!g_ActiveConfig.bDisableFog)
{
constants.fogf[1][0] = bpmem.fog.a.GetA();
constants.fogi[1] = bpmem.fog.b_magnitude;
constants.fogf[1][2] = bpmem.fog.c_proj_fsel.GetC();
constants.fogi[3] = bpmem.fog.b_shift;
}
else
{
constants.fogf[1][0] = 0.f;
constants.fogi[1] = 1;
constants.fogf[1][2] = 0.f;
constants.fogi[3] = 1;
}
dirty = true;
}
void PixelShaderManager::SetFogRangeAdjustChanged()
{
s_bFogRangeAdjustChanged = true;
}
void PixelShaderManager::InvalidateXFRange(int start, int end)
{
if (start < XFMEM_LIGHTS_END && end > XFMEM_LIGHTS)
{
int _start = start < XFMEM_LIGHTS ? XFMEM_LIGHTS : start-XFMEM_LIGHTS;
int _end = end < XFMEM_LIGHTS_END ? end-XFMEM_LIGHTS : XFMEM_LIGHTS_END-XFMEM_LIGHTS;
if (nLightsChanged[0] == -1 )
{
nLightsChanged[0] = _start;
nLightsChanged[1] = _end;
}
else
{
if (nLightsChanged[0] > _start) nLightsChanged[0] = _start;
if (nLightsChanged[1] < _end) nLightsChanged[1] = _end;
}
}
}
void PixelShaderManager::SetMaterialColorChanged(int index, u32 color)
{
if (g_ActiveConfig.bEnablePixelLighting)
{
constants.pmaterials[index][0] = (color >> 24) & 0xFF;
constants.pmaterials[index][1] = (color >> 16) & 0xFF;
constants.pmaterials[index][2] = (color >> 8) & 0xFF;
constants.pmaterials[index][3] = (color) & 0xFF;
dirty = true;
}
}
void PixelShaderManager::DoState(PointerWrap &p)
{
p.Do(constants);
p.Do(dirty);
if (p.GetMode() == PointerWrap::MODE_READ)
{
Dirty();
}
}