dolphin/Source/Core/VideoCommon/Src/PixelShaderGen.cpp

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// Copyright (C) 2003 Dolphin 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, version 2.0.
// 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 2.0 for more details.
// A copy of the GPL 2.0 should have been included with the program.
// If not, see http://www.gnu.org/licenses/
// Official SVN repository and contact information can be found at
// http://code.google.com/p/dolphin-emu/
#include <stdio.h>
#include <cmath>
#include <assert.h>
#include <locale.h>
#include "LightingShaderGen.h"
#include "PixelShaderGen.h"
#include "XFMemory.h" // for texture projection mode
#include "BPMemory.h"
#include "VideoConfig.h"
#include "NativeVertexFormat.h"
// old tev->pixelshader notes
//
// color for this stage (alpha, color) is given by bpmem.tevorders[0].colorchan0
// konstant for this stage (alpha, color) is given by bpmem.tevksel
// inputs are given by bpmem.combiners[0].colorC.a/b/c/d << could be current chan color
// according to GXTevColorArg table above
// output is given by .outreg
// tevtemp is set according to swapmodetables and
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template<class T> static void WriteStage(T& out, pixel_shader_uid_data& uid_data, int n, API_TYPE ApiType);
template<class T> static void SampleTexture(T& out, const char *destination, const char *texcoords, const char *texswap, int texmap, API_TYPE ApiType);
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template<class T> static void WriteAlphaTest(T& out, pixel_shader_uid_data& uid_data, API_TYPE ApiType,DSTALPHA_MODE dstAlphaMode, bool per_pixel_depth);
template<class T> static void WriteFog(T& out, pixel_shader_uid_data& uid_data);
static const char *tevKSelTableC[] = // KCSEL
{
"1.0f,1.0f,1.0f", // 1 = 0x00
"0.875f,0.875f,0.875f", // 7_8 = 0x01
"0.75f,0.75f,0.75f", // 3_4 = 0x02
"0.625f,0.625f,0.625f", // 5_8 = 0x03
"0.5f,0.5f,0.5f", // 1_2 = 0x04
"0.375f,0.375f,0.375f", // 3_8 = 0x05
"0.25f,0.25f,0.25f", // 1_4 = 0x06
"0.125f,0.125f,0.125f", // 1_8 = 0x07
"ERROR1", // 0x08
"ERROR2", // 0x09
"ERROR3", // 0x0a
"ERROR4", // 0x0b
I_KCOLORS"[0].rgb", // K0 = 0x0C
I_KCOLORS"[1].rgb", // K1 = 0x0D
I_KCOLORS"[2].rgb", // K2 = 0x0E
I_KCOLORS"[3].rgb", // K3 = 0x0F
I_KCOLORS"[0].rrr", // K0_R = 0x10
I_KCOLORS"[1].rrr", // K1_R = 0x11
I_KCOLORS"[2].rrr", // K2_R = 0x12
I_KCOLORS"[3].rrr", // K3_R = 0x13
I_KCOLORS"[0].ggg", // K0_G = 0x14
I_KCOLORS"[1].ggg", // K1_G = 0x15
I_KCOLORS"[2].ggg", // K2_G = 0x16
I_KCOLORS"[3].ggg", // K3_G = 0x17
I_KCOLORS"[0].bbb", // K0_B = 0x18
I_KCOLORS"[1].bbb", // K1_B = 0x19
I_KCOLORS"[2].bbb", // K2_B = 0x1A
I_KCOLORS"[3].bbb", // K3_B = 0x1B
I_KCOLORS"[0].aaa", // K0_A = 0x1C
I_KCOLORS"[1].aaa", // K1_A = 0x1D
I_KCOLORS"[2].aaa", // K2_A = 0x1E
I_KCOLORS"[3].aaa", // K3_A = 0x1F
};
static const char *tevKSelTableA[] = // KASEL
{
"1.0f", // 1 = 0x00
"0.875f",// 7_8 = 0x01
"0.75f", // 3_4 = 0x02
"0.625f",// 5_8 = 0x03
"0.5f", // 1_2 = 0x04
"0.375f",// 3_8 = 0x05
"0.25f", // 1_4 = 0x06
"0.125f",// 1_8 = 0x07
"ERROR5", // 0x08
"ERROR6", // 0x09
"ERROR7", // 0x0a
"ERROR8", // 0x0b
"ERROR9", // 0x0c
"ERROR10", // 0x0d
"ERROR11", // 0x0e
"ERROR12", // 0x0f
I_KCOLORS"[0].r", // K0_R = 0x10
I_KCOLORS"[1].r", // K1_R = 0x11
I_KCOLORS"[2].r", // K2_R = 0x12
I_KCOLORS"[3].r", // K3_R = 0x13
I_KCOLORS"[0].g", // K0_G = 0x14
I_KCOLORS"[1].g", // K1_G = 0x15
I_KCOLORS"[2].g", // K2_G = 0x16
I_KCOLORS"[3].g", // K3_G = 0x17
I_KCOLORS"[0].b", // K0_B = 0x18
I_KCOLORS"[1].b", // K1_B = 0x19
I_KCOLORS"[2].b", // K2_B = 0x1A
I_KCOLORS"[3].b", // K3_B = 0x1B
I_KCOLORS"[0].a", // K0_A = 0x1C
I_KCOLORS"[1].a", // K1_A = 0x1D
I_KCOLORS"[2].a", // K2_A = 0x1E
I_KCOLORS"[3].a", // K3_A = 0x1F
};
static const char *tevScaleTable[] = // CS
{
"1.0f", // SCALE_1
"2.0f", // SCALE_2
"4.0f", // SCALE_4
"0.5f", // DIVIDE_2
};
static const char *tevBiasTable[] = // TB
{
"", // ZERO,
"+0.5f", // ADDHALF,
"-0.5f", // SUBHALF,
"",
};
static const char *tevOpTable[] = { // TEV
"+", // TEVOP_ADD = 0,
"-", // TEVOP_SUB = 1,
};
static const char *tevCInputTable[] = // CC
{
"(prev.rgb)", // CPREV,
"(prev.aaa)", // APREV,
"(c0.rgb)", // C0,
"(c0.aaa)", // A0,
"(c1.rgb)", // C1,
"(c1.aaa)", // A1,
"(c2.rgb)", // C2,
"(c2.aaa)", // A2,
"(textemp.rgb)", // TEXC,
"(textemp.aaa)", // TEXA,
"(rastemp.rgb)", // RASC,
"(rastemp.aaa)", // RASA,
"float3(1.0f, 1.0f, 1.0f)", // ONE
"float3(0.5f, 0.5f, 0.5f)", // HALF
"(konsttemp.rgb)", //"konsttemp.rgb", // KONST
"float3(0.0f, 0.0f, 0.0f)", // ZERO
///aded extra values to map clamped values
"(cprev.rgb)", // CPREV,
"(cprev.aaa)", // APREV,
"(cc0.rgb)", // C0,
"(cc0.aaa)", // A0,
"(cc1.rgb)", // C1,
"(cc1.aaa)", // A1,
"(cc2.rgb)", // C2,
"(cc2.aaa)", // A2,
"(textemp.rgb)", // TEXC,
"(textemp.aaa)", // TEXA,
"(crastemp.rgb)", // RASC,
"(crastemp.aaa)", // RASA,
"float3(1.0f, 1.0f, 1.0f)", // ONE
"float3(0.5f, 0.5f, 0.5f)", // HALF
"(ckonsttemp.rgb)", //"konsttemp.rgb", // KONST
"float3(0.0f, 0.0f, 0.0f)", // ZERO
"PADERROR1", "PADERROR2", "PADERROR3", "PADERROR4"
};
static const char *tevAInputTable[] = // CA
{
"prev", // APREV,
"c0", // A0,
"c1", // A1,
"c2", // A2,
"textemp", // TEXA,
"rastemp", // RASA,
"konsttemp", // KONST, (hw1 had quarter)
"float4(0.0f, 0.0f, 0.0f, 0.0f)", // ZERO
///aded extra values to map clamped values
"cprev", // APREV,
"cc0", // A0,
"cc1", // A1,
"cc2", // A2,
"textemp", // TEXA,
"crastemp", // RASA,
"ckonsttemp", // KONST, (hw1 had quarter)
"float4(0.0f, 0.0f, 0.0f, 0.0f)", // ZERO
"PADERROR5", "PADERROR6", "PADERROR7", "PADERROR8",
"PADERROR9", "PADERROR10", "PADERROR11", "PADERROR12",
};
static const char *tevRasTable[] =
{
"colors_0",
"colors_1",
"ERROR13", //2
"ERROR14", //3
"ERROR15", //4
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"float4(alphabump,alphabump,alphabump,alphabump)", // use bump alpha
"(float4(alphabump,alphabump,alphabump,alphabump)*(255.0f/248.0f))", //normalized
"float4(0.0f, 0.0f, 0.0f, 0.0f)", // zero
};
//static const char *tevTexFunc[] = { "tex2D", "texRECT" };
static const char *tevCOutputTable[] = { "prev.rgb", "c0.rgb", "c1.rgb", "c2.rgb" };
static const char *tevAOutputTable[] = { "prev.a", "c0.a", "c1.a", "c2.a" };
static const char *tevIndAlphaSel[] = {"", "x", "y", "z"};
//static const char *tevIndAlphaScale[] = {"", "*32", "*16", "*8"};
static const char *tevIndAlphaScale[] = {"*(248.0f/255.0f)", "*(224.0f/255.0f)", "*(240.0f/255.0f)", "*(248.0f/255.0f)"};
static const char *tevIndBiasField[] = {"", "x", "y", "xy", "z", "xz", "yz", "xyz"}; // indexed by bias
static const char *tevIndBiasAdd[] = {"-128.0f", "1.0f", "1.0f", "1.0f" }; // indexed by fmt
static const char *tevIndWrapStart[] = {"0.0f", "256.0f", "128.0f", "64.0f", "32.0f", "16.0f", "0.001f" };
static const char *tevIndFmtScale[] = {"255.0f", "31.0f", "15.0f", "7.0f" };
static char swapModeTable[4][5];
static char text[16384];
struct RegisterState
{
bool ColorNeedOverflowControl;
bool AlphaNeedOverflowControl;
bool AuxStored;
};
static RegisterState RegisterStates[4];
static void BuildSwapModeTable()
{
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static const char *swapColors = "rgba";
for (int i = 0; i < 4; i++)
{
swapModeTable[i][0] = swapColors[bpmem.tevksel[i*2].swap1];
swapModeTable[i][1] = swapColors[bpmem.tevksel[i*2].swap2];
swapModeTable[i][2] = swapColors[bpmem.tevksel[i*2+1].swap1];
swapModeTable[i][3] = swapColors[bpmem.tevksel[i*2+1].swap2];
swapModeTable[i][4] = '\0';
}
}
const char* WriteRegister(API_TYPE ApiType, const char *prefix, const u32 num)
{
if (ApiType == API_OPENGL)
return ""; // Nothing to do here
static char result[64];
sprintf(result, " : register(%s%d)", prefix, num);
return result;
}
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const char *WriteLocation(API_TYPE ApiType)
{
if (g_ActiveConfig.backend_info.bSupportsGLSLUBO)
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return "";
static char result[64];
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sprintf(result, "uniform ");
return result;
}
template<class T>
void GeneratePixelShader(T& out, DSTALPHA_MODE dstAlphaMode, API_TYPE ApiType, u32 components)
{
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// Non-uid template parameters will write to the dummy data (=> gets optimized out)
pixel_shader_uid_data dummy_data;
pixel_shader_uid_data& uid_data = (&out.template GetUidData<pixel_shader_uid_data>() != NULL)
? out.template GetUidData<pixel_shader_uid_data>() : dummy_data;
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out.SetBuffer(text);
if (out.GetBuffer() != NULL)
setlocale(LC_NUMERIC, "C"); // Reset locale for compilation
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text[sizeof(text) - 1] = 0x7C; // canary
unsigned int numStages = bpmem.genMode.numtevstages + 1;
unsigned int numTexgen = bpmem.genMode.numtexgens;
bool per_pixel_depth = bpmem.ztex2.op != ZTEXTURE_DISABLE && !bpmem.zcontrol.early_ztest && bpmem.zmode.testenable;
out.Write("//Pixel Shader for TEV stages\n");
out.Write("//%i TEV stages, %i texgens, XXX IND stages\n",
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numStages, numTexgen/*, bpmem.genMode.numindstages*/);
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uid_data.dstAlphaMode = dstAlphaMode;
uid_data.genMode.numindstages = bpmem.genMode.numindstages;
uid_data.genMode.numtevstages = bpmem.genMode.numtevstages;
uid_data.genMode.numtexgens = bpmem.genMode.numtexgens;
if (ApiType == API_OPENGL)
{
// Fmod implementation gleaned from Nvidia
// At http://http.developer.nvidia.com/Cg/fmod.html
out.Write("float fmod( float x, float y )\n");
out.Write("{\n");
out.Write("\tfloat z = fract( abs( x / y) ) * abs( y );\n");
out.Write("\treturn (x < 0) ? -z : z;\n");
out.Write("}\n\n");
// Declare samplers
for (int i = 0; i < 8; ++i)
out.Write("uniform sampler2D samp%d;\n", i);
}
else
{
// Declare samplers
for (int i = 0; i < 8; ++i)
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out.Write("%s samp%d %s;\n", (ApiType == API_D3D11) ? "sampler" : "uniform sampler2D", i, WriteRegister(ApiType, "s", i));
if (ApiType == API_D3D11)
{
out.Write("\n");
for (int i = 0; i < 8; ++i)
{
out.Write("Texture2D Tex%d : register(t%d);\n", i, i);
}
}
}
out.Write("\n");
if (g_ActiveConfig.backend_info.bSupportsGLSLUBO)
out.Write("layout(std140) uniform PSBlock {\n");
out.Write("\t%sfloat4 " I_COLORS"[4] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_COLORS)); // TODO: first element not used??
out.Write("\t%sfloat4 " I_KCOLORS"[4] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_KCOLORS));
out.Write("\t%sfloat4 " I_ALPHA"[1] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_ALPHA)); // TODO: Why is this an array...-.-
out.Write("\t%sfloat4 " I_TEXDIMS"[8] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_TEXDIMS));
out.Write("\t%sfloat4 " I_ZBIAS"[2] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_ZBIAS));
out.Write("\t%sfloat4 " I_INDTEXSCALE"[2] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_INDTEXSCALE));
out.Write("\t%sfloat4 " I_INDTEXMTX"[6] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_INDTEXMTX));
out.Write("\t%sfloat4 " I_FOG"[3] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_FOG));
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// For pixel lighting - TODO: Should only be defined when per pixel lighting is enabled!
out.Write("\t%sfloat4 " I_PLIGHTS"[40] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_PLIGHTS));
out.Write("\t%sfloat4 " I_PMATERIALS"[4] %s;\n", WriteLocation(ApiType), WriteRegister(ApiType, "c", C_PMATERIALS));
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if (g_ActiveConfig.backend_info.bSupportsGLSLUBO)
out.Write("};\n");
if (ApiType == API_OPENGL)
{
out.Write("out float4 ocol0;\n");
if (dstAlphaMode == DSTALPHA_DUAL_SOURCE_BLEND)
out.Write("out float4 ocol1;\n");
if (per_pixel_depth)
out.Write("#define depth gl_FragDepth\n");
out.Write("float4 rawpos = gl_FragCoord;\n");
out.Write("VARYIN float4 colors_02;\n");
out.Write("VARYIN float4 colors_12;\n");
out.Write("float4 colors_0 = colors_02;\n");
out.Write("float4 colors_1 = colors_12;\n");
// compute window position if needed because binding semantic WPOS is not widely supported
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// Let's set up attributes
if (xfregs.numTexGen.numTexGens < 7)
{
for (int i = 0; i < 8; ++i)
{
out.Write("VARYIN float3 uv%d_2;\n", i);
out.Write("float3 uv%d = uv%d_2;\n", i, i);
}
out.Write("VARYIN float4 clipPos_2;\n");
out.Write("float4 clipPos = clipPos_2;\n");
if (g_ActiveConfig.bEnablePixelLighting && g_ActiveConfig.backend_info.bSupportsPixelLighting)
{
out.Write("VARYIN float4 Normal_2;\n");
out.Write("float4 Normal = Normal_2;\n");
}
}
else
{
// wpos is in w of first 4 texcoords
if (g_ActiveConfig.bEnablePixelLighting && g_ActiveConfig.backend_info.bSupportsPixelLighting)
{
for (int i = 0; i < 8; ++i)
{
out.Write("VARYIN float4 uv%d_2;\n", i);
out.Write("float4 uv%d = uv%d_2;\n", i, i);
}
}
else
{
for (unsigned int i = 0; i < xfregs.numTexGen.numTexGens; ++i)
{
out.Write("VARYIN float%d uv%d_2;\n", i < 4 ? 4 : 3 , i);
out.Write("float%d uv%d = uv%d_2;\n", i < 4 ? 4 : 3 , i, i);
}
}
out.Write("float4 clipPos;\n");
}
out.Write("void main()\n{\n");
}
else
{
out.Write("void main(\n");
if(ApiType != API_D3D11)
{
out.Write(" out float4 ocol0 : COLOR0,%s%s\n in float4 rawpos : %s,\n",
dstAlphaMode == DSTALPHA_DUAL_SOURCE_BLEND ? "\n out float4 ocol1 : COLOR1," : "",
per_pixel_depth ? "\n out float depth : DEPTH," : "",
ApiType & API_D3D9_SM20 ? "POSITION" : "VPOS");
}
else
{
out.Write(" out float4 ocol0 : SV_Target0,%s%s\n in float4 rawpos : SV_Position,\n",
dstAlphaMode == DSTALPHA_DUAL_SOURCE_BLEND ? "\n out float4 ocol1 : SV_Target1," : "",
per_pixel_depth ? "\n out float depth : SV_Depth," : "");
}
out.Write(" in float4 colors_0 : COLOR0,\n");
out.Write(" in float4 colors_1 : COLOR1");
// compute window position if needed because binding semantic WPOS is not widely supported
if (numTexgen < 7)
{
for (unsigned int i = 0; i < numTexgen; ++i)
out.Write(",\n in float3 uv%d : TEXCOORD%d", i, i);
out.Write(",\n in float4 clipPos : TEXCOORD%d", numTexgen);
if(g_ActiveConfig.bEnablePixelLighting && g_ActiveConfig.backend_info.bSupportsPixelLighting)
out.Write(",\n in float4 Normal : TEXCOORD%d", numTexgen + 1);
out.Write(" ) {\n");
}
else
{
// wpos is in w of first 4 texcoords
if(g_ActiveConfig.bEnablePixelLighting && g_ActiveConfig.backend_info.bSupportsPixelLighting)
{
for (int i = 0; i < 8; ++i)
out.Write(",\n in float4 uv%d : TEXCOORD%d", i, i);
}
else
{
for (unsigned int i = 0; i < xfregs.numTexGen.numTexGens; ++i)
out.Write(",\n in float%d uv%d : TEXCOORD%d", i < 4 ? 4 : 3 , i, i);
}
out.Write(" ) {\n");
out.Write("\tfloat4 clipPos = float4(0.0f, 0.0f, 0.0f, 0.0f);");
}
}
out.Write(" float4 c0 = " I_COLORS"[1], c1 = " I_COLORS"[2], c2 = " I_COLORS"[3], prev = float4(0.0f, 0.0f, 0.0f, 0.0f), textemp = float4(0.0f, 0.0f, 0.0f, 0.0f), rastemp = float4(0.0f, 0.0f, 0.0f, 0.0f), konsttemp = float4(0.0f, 0.0f, 0.0f, 0.0f);\n"
" float3 comp16 = float3(1.0f, 255.0f, 0.0f), comp24 = float3(1.0f, 255.0f, 255.0f*255.0f);\n"
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" float alphabump=0.0f;\n"
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" float3 tevcoord=float3(0.0f, 0.0f, 0.0f);\n"
" float2 wrappedcoord=float2(0.0f,0.0f), tempcoord=float2(0.0f,0.0f);\n"
" float4 cc0=float4(0.0f,0.0f,0.0f,0.0f), cc1=float4(0.0f,0.0f,0.0f,0.0f);\n"
" float4 cc2=float4(0.0f,0.0f,0.0f,0.0f), cprev=float4(0.0f,0.0f,0.0f,0.0f);\n"
" float4 crastemp=float4(0.0f,0.0f,0.0f,0.0f),ckonsttemp=float4(0.0f,0.0f,0.0f,0.0f);\n\n");
if (g_ActiveConfig.bEnablePixelLighting && g_ActiveConfig.backend_info.bSupportsPixelLighting)
{
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uid_data.xfregs_numTexGen_numTexGens = xfregs.numTexGen.numTexGens;
if (xfregs.numTexGen.numTexGens < 7)
{
out.Write("\tfloat3 _norm0 = normalize(Normal.xyz);\n\n");
out.Write("\tfloat3 pos = float3(clipPos.x,clipPos.y,Normal.w);\n");
}
else
{
out.Write("\tfloat3 _norm0 = normalize(float3(uv4.w,uv5.w,uv6.w));\n\n");
out.Write("\tfloat3 pos = float3(uv0.w,uv1.w,uv7.w);\n");
}
out.Write("\tfloat4 mat, lacc;\n"
"\tfloat3 ldir, h;\n"
"\tfloat dist, dist2, attn;\n");
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out.SetConstantsUsed(C_PLIGHTS, C_PLIGHTS+39); // TODO: Can be optimized further
out.SetConstantsUsed(C_PMATERIALS, C_PMATERIALS+3);
uid_data.components = components;
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GenerateLightingShader<T>(out, uid_data.lighting, components, I_PMATERIALS, I_PLIGHTS, "colors_", "colors_");
}
if (numTexgen < 7)
out.Write("\tclipPos = float4(rawpos.x, rawpos.y, clipPos.z, clipPos.w);\n");
else
out.Write("\tfloat4 clipPos = float4(rawpos.x, rawpos.y, uv2.w, uv3.w);\n");
// HACK to handle cases where the tex gen is not enabled
if (numTexgen == 0)
{
out.Write("\tfloat3 uv0 = float3(0.0f, 0.0f, 0.0f);\n");
}
else
{
out.SetConstantsUsed(C_TEXDIMS, C_TEXDIMS+numTexgen-1);
for (unsigned int i = 0; i < numTexgen; ++i)
{
// optional perspective divides
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uid_data.texMtxInfo[i].projection = xfregs.texMtxInfo[i].projection;
if (xfregs.texMtxInfo[i].projection == XF_TEXPROJ_STQ)
{
out.Write("\tif (uv%d.z != 0.0f)", i);
out.Write("\t\tuv%d.xy = uv%d.xy / uv%d.z;\n", i, i, i);
}
out.Write("uv%d.xy = uv%d.xy * " I_TEXDIMS"[%d].zw;\n", i, i, i);
}
}
// indirect texture map lookup
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int nIndirectStagesUsed = 0;
if (bpmem.genMode.numindstages > 0)
{
for (unsigned int i = 0; i < numStages; ++i)
{
if (bpmem.tevind[i].IsActive() && bpmem.tevind[i].bt < bpmem.genMode.numindstages)
nIndirectStagesUsed |= 1 << bpmem.tevind[i].bt;
}
}
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uid_data.nIndirectStagesUsed = nIndirectStagesUsed;
for (u32 i = 0; i < bpmem.genMode.numindstages; ++i)
{
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if (nIndirectStagesUsed & (1 << i))
{
unsigned int texcoord = bpmem.tevindref.getTexCoord(i);
unsigned int texmap = bpmem.tevindref.getTexMap(i);
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uid_data.tevindref.SetValues(i, texcoord, texmap);
if (texcoord < numTexgen)
{
out.SetConstantsUsed(C_INDTEXSCALE+i/2,C_INDTEXSCALE+i/2);
out.Write("\ttempcoord = uv%d.xy * " I_INDTEXSCALE"[%d].%s;\n", texcoord, i/2, (i&1)?"zw":"xy");
}
else
out.Write("\ttempcoord = float2(0.0f, 0.0f);\n");
char buffer[32];
sprintf(buffer, "float3 indtex%d", i);
SampleTexture<T>(out, buffer, "tempcoord", "abg", texmap, ApiType);
}
}
RegisterStates[0].AlphaNeedOverflowControl = false;
RegisterStates[0].ColorNeedOverflowControl = false;
RegisterStates[0].AuxStored = false;
for(int i = 1; i < 4; i++)
{
RegisterStates[i].AlphaNeedOverflowControl = true;
RegisterStates[i].ColorNeedOverflowControl = true;
RegisterStates[i].AuxStored = false;
}
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// Uid fields for BuildSwapModeTable are set in WriteStage
BuildSwapModeTable();
for (unsigned int i = 0; i < numStages; i++)
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WriteStage<T>(out, uid_data, i, ApiType); // build the equation for this stage
if (numStages)
{
// The results of the last texenv stage are put onto the screen,
// regardless of the used destination register
if(bpmem.combiners[numStages - 1].colorC.dest != 0)
{
bool retrieveFromAuxRegister = !RegisterStates[bpmem.combiners[numStages - 1].colorC.dest].ColorNeedOverflowControl && RegisterStates[bpmem.combiners[numStages - 1].colorC.dest].AuxStored;
out.Write("\tprev.rgb = %s%s;\n", retrieveFromAuxRegister ? "c" : "" , tevCOutputTable[bpmem.combiners[numStages - 1].colorC.dest]);
RegisterStates[0].ColorNeedOverflowControl = RegisterStates[bpmem.combiners[numStages - 1].colorC.dest].ColorNeedOverflowControl;
}
if(bpmem.combiners[numStages - 1].alphaC.dest != 0)
{
bool retrieveFromAuxRegister = !RegisterStates[bpmem.combiners[numStages - 1].alphaC.dest].AlphaNeedOverflowControl && RegisterStates[bpmem.combiners[numStages - 1].alphaC.dest].AuxStored;
out.Write("\tprev.a = %s%s;\n", retrieveFromAuxRegister ? "c" : "" , tevAOutputTable[bpmem.combiners[numStages - 1].alphaC.dest]);
RegisterStates[0].AlphaNeedOverflowControl = RegisterStates[bpmem.combiners[numStages - 1].alphaC.dest].AlphaNeedOverflowControl;
}
}
// emulation of unsigned 8 overflow when casting if needed
if(RegisterStates[0].AlphaNeedOverflowControl || RegisterStates[0].ColorNeedOverflowControl)
out.Write("\tprev = frac(prev * (255.0f/256.0f)) * (256.0f/255.0f);\n");
AlphaTest::TEST_RESULT Pretest = bpmem.alpha_test.TestResult();
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uid_data.Pretest = Pretest;
if (Pretest == AlphaTest::UNDETERMINED)
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WriteAlphaTest<T>(out, uid_data, ApiType, dstAlphaMode, per_pixel_depth);
// the screen space depth value = far z + (clip z / clip w) * z range
if(ApiType == API_OPENGL || ApiType == API_D3D11)
out.Write("float zCoord = rawpos.z;\n");
else
{
out.SetConstantsUsed(C_ZBIAS+1, C_ZBIAS+1);
// dx9 doesn't support 4 component position, so we have to calculate it again
out.Write("float zCoord = " I_ZBIAS"[1].x + (clipPos.z / clipPos.w) * " I_ZBIAS"[1].y;\n");
}
// Note: depth textures are disabled if early depth test is enabled
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uid_data.ztex.op = bpmem.ztex2.op;
uid_data.per_pixel_depth = per_pixel_depth;
uid_data.fog.fsel = bpmem.fog.c_proj_fsel.fsel;
// depth texture can safely be ignored if the result won't be written to the depth buffer (early_ztest) and isn't used for fog either
bool skip_ztexture = !per_pixel_depth && !bpmem.fog.c_proj_fsel.fsel;
if (bpmem.ztex2.op != ZTEXTURE_DISABLE && !skip_ztexture)
{
// use the texture input of the last texture stage (textemp), hopefully this has been read and is in correct format...
out.SetConstantsUsed(C_ZBIAS, C_ZBIAS+1);
out.Write("zCoord = dot(" I_ZBIAS"[0].xyzw, textemp.xyzw) + " I_ZBIAS"[1].w %s;\n",
(bpmem.ztex2.op == ZTEXTURE_ADD) ? "+ zCoord" : "");
// U24 overflow emulation
out.Write("zCoord = zCoord * (16777215.0f/16777216.0f);\n");
out.Write("zCoord = frac(zCoord);\n");
out.Write("zCoord = zCoord * (16777216.0f/16777215.0f);\n");
// Note: depth texture output is only written to depth buffer if late depth test is used
// final depth value is used for fog calculation, though
if (per_pixel_depth)
out.Write("depth = zCoord;\n");
}
if (dstAlphaMode == DSTALPHA_ALPHA_PASS)
{
out.SetConstantsUsed(C_ALPHA, C_ALPHA);
out.Write("\tocol0 = float4(prev.rgb, " I_ALPHA"[0].a);\n");
}
else
{
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WriteFog<T>(out, uid_data);
out.Write("\tocol0 = prev;\n");
}
// On D3D11, use dual-source color blending to perform dst alpha in a
// single pass
if (dstAlphaMode == DSTALPHA_DUAL_SOURCE_BLEND)
{
out.SetConstantsUsed(C_ALPHA, C_ALPHA);
// Colors will be blended against the alpha from ocol1...
out.Write("\tocol1 = prev;\n");
// ...and the alpha from ocol0 will be written to the framebuffer.
out.Write("\tocol0.a = " I_ALPHA"[0].a;\n");
}
out.Write("}\n");
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if (text[sizeof(text) - 1] != 0x7C)
PanicAlert("PixelShader generator - buffer too small, canary has been eaten!");
if (out.GetBuffer() != NULL)
setlocale(LC_NUMERIC, ""); // restore locale
}
//table with the color compare operations
static const char *TEVCMPColorOPTable[16] =
{
"float3(0.0f, 0.0f, 0.0f)",//0
"float3(0.0f, 0.0f, 0.0f)",//1
"float3(0.0f, 0.0f, 0.0f)",//2
"float3(0.0f, 0.0f, 0.0f)",//3
"float3(0.0f, 0.0f, 0.0f)",//4
"float3(0.0f, 0.0f, 0.0f)",//5
"float3(0.0f, 0.0f, 0.0f)",//6
"float3(0.0f, 0.0f, 0.0f)",//7
" %s + ((%s.r >= %s.r + (0.25f/255.0f)) ? %s : float3(0.0f, 0.0f, 0.0f))",//#define TEVCMP_R8_GT 8
" %s + ((abs(%s.r - %s.r) < (0.5f/255.0f)) ? %s : float3(0.0f, 0.0f, 0.0f))",//#define TEVCMP_R8_EQ 9
" %s + (( dot(%s.rgb, comp16) >= (dot(%s.rgb, comp16) + (0.25f/255.0f))) ? %s : float3(0.0f, 0.0f, 0.0f))",//#define TEVCMP_GR16_GT 10
" %s + (abs(dot(%s.rgb, comp16) - dot(%s.rgb, comp16)) < (0.5f/255.0f) ? %s : float3(0.0f, 0.0f, 0.0f))",//#define TEVCMP_GR16_EQ 11
" %s + (( dot(%s.rgb, comp24) >= (dot(%s.rgb, comp24) + (0.25f/255.0f))) ? %s : float3(0.0f, 0.0f, 0.0f))",//#define TEVCMP_BGR24_GT 12
" %s + (abs(dot(%s.rgb, comp24) - dot(%s.rgb, comp24)) < (0.5f/255.0f) ? %s : float3(0.0f, 0.0f, 0.0f))",//#define TEVCMP_BGR24_EQ 13
" %s + (max(sign(%s.rgb - %s.rgb - (0.25f/255.0f)), float3(0.0f, 0.0f, 0.0f)) * %s)",//#define TEVCMP_RGB8_GT 14
" %s + ((float3(1.0f, 1.0f, 1.0f) - max(sign(abs(%s.rgb - %s.rgb) - (0.5f/255.0f)), float3(0.0f, 0.0f, 0.0f))) * %s)"//#define TEVCMP_RGB8_EQ 15
};
//table with the alpha compare operations
static const char *TEVCMPAlphaOPTable[16] =
{
"0.0f",//0
"0.0f",//1
"0.0f",//2
"0.0f",//3
"0.0f",//4
"0.0f",//5
"0.0f",//6
"0.0f",//7
" %s.a + ((%s.r >= (%s.r + (0.25f/255.0f))) ? %s.a : 0.0f)",//#define TEVCMP_R8_GT 8
" %s.a + (abs(%s.r - %s.r) < (0.5f/255.0f) ? %s.a : 0.0f)",//#define TEVCMP_R8_EQ 9
" %s.a + ((dot(%s.rgb, comp16) >= (dot(%s.rgb, comp16) + (0.25f/255.0f))) ? %s.a : 0.0f)",//#define TEVCMP_GR16_GT 10
" %s.a + (abs(dot(%s.rgb, comp16) - dot(%s.rgb, comp16)) < (0.5f/255.0f) ? %s.a : 0.0f)",//#define TEVCMP_GR16_EQ 11
" %s.a + ((dot(%s.rgb, comp24) >= (dot(%s.rgb, comp24) + (0.25f/255.0f))) ? %s.a : 0.0f)",//#define TEVCMP_BGR24_GT 12
" %s.a + (abs(dot(%s.rgb, comp24) - dot(%s.rgb, comp24)) < (0.5f/255.0f) ? %s.a : 0.0f)",//#define TEVCMP_BGR24_EQ 13
" %s.a + ((%s.a >= (%s.a + (0.25f/255.0f))) ? %s.a : 0.0f)",//#define TEVCMP_A8_GT 14
" %s.a + (abs(%s.a - %s.a) < (0.5f/255.0f) ? %s.a : 0.0f)"//#define TEVCMP_A8_EQ 15
};
template<class T>
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static void WriteStage(T& out, pixel_shader_uid_data& uid_data, int n, API_TYPE ApiType)
{
int texcoord = bpmem.tevorders[n/2].getTexCoord(n&1);
bool bHasTexCoord = (u32)texcoord < bpmem.genMode.numtexgens;
bool bHasIndStage = bpmem.tevind[n].IsActive() && bpmem.tevind[n].bt < bpmem.genMode.numindstages;
// HACK to handle cases where the tex gen is not enabled
if (!bHasTexCoord)
texcoord = 0;
out.Write("// TEV stage %d\n", n);
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uid_data.bHasIndStage |= bHasIndStage << n;
if (n < 8) { uid_data.tevorders_n_texcoord1 |= texcoord << (3 * n); }
else uid_data.tevorders_n_texcoord2 |= texcoord << (3 * n - 24);
if (bHasIndStage)
{
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uid_data.tevind_n.bs |= bpmem.tevind[n].bs << (2*n);
uid_data.tevind_n.bt |= bpmem.tevind[n].bt << (2*n);
uid_data.tevind_n.fmt |= bpmem.tevind[n].fmt << (2*n);
out.Write("// indirect op\n");
// perform the indirect op on the incoming regular coordinates using indtex%d as the offset coords
if (bpmem.tevind[n].bs != ITBA_OFF)
{
out.Write("alphabump = indtex%d.%s %s;\n",
bpmem.tevind[n].bt,
tevIndAlphaSel[bpmem.tevind[n].bs],
tevIndAlphaScale[bpmem.tevind[n].fmt]);
}
// format
out.Write("float3 indtevcrd%d = indtex%d * %s;\n", n, bpmem.tevind[n].bt, tevIndFmtScale[bpmem.tevind[n].fmt]);
// bias
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uid_data.tevind_n.Set_bias(n, bpmem.tevind[n].bias);
if (bpmem.tevind[n].bias != ITB_NONE )
out.Write("indtevcrd%d.%s += %s;\n", n, tevIndBiasField[bpmem.tevind[n].bias], tevIndBiasAdd[bpmem.tevind[n].fmt]);
// multiply by offset matrix and scale
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uid_data.tevind_n.Set_mid(n, bpmem.tevind[n].mid);
if (bpmem.tevind[n].mid != 0)
{
if (bpmem.tevind[n].mid <= 3)
{
int mtxidx = 2*(bpmem.tevind[n].mid-1);
out.SetConstantsUsed(C_INDTEXMTX+mtxidx, C_INDTEXMTX+mtxidx);
out.Write("float2 indtevtrans%d = float2(dot(" I_INDTEXMTX"[%d].xyz, indtevcrd%d), dot(" I_INDTEXMTX"[%d].xyz, indtevcrd%d));\n",
n, mtxidx, n, mtxidx+1, n);
}
else if (bpmem.tevind[n].mid <= 7 && bHasTexCoord)
{ // s matrix
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_assert_(bpmem.tevind[n].mid >= 5);
int mtxidx = 2*(bpmem.tevind[n].mid-5);
out.SetConstantsUsed(C_INDTEXMTX+mtxidx, C_INDTEXMTX+mtxidx);
out.Write("float2 indtevtrans%d = " I_INDTEXMTX"[%d].ww * uv%d.xy * indtevcrd%d.xx;\n", n, mtxidx, texcoord, n);
}
else if (bpmem.tevind[n].mid <= 11 && bHasTexCoord)
{ // t matrix
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_assert_(bpmem.tevind[n].mid >= 9);
int mtxidx = 2*(bpmem.tevind[n].mid-9);
out.SetConstantsUsed(C_INDTEXMTX+mtxidx, C_INDTEXMTX+mtxidx);
out.Write("float2 indtevtrans%d = " I_INDTEXMTX"[%d].ww * uv%d.xy * indtevcrd%d.yy;\n", n, mtxidx, texcoord, n);
}
else
out.Write("float2 indtevtrans%d = float2(0.0f, 0.0f);\n", n);
}
else
out.Write("float2 indtevtrans%d = float2(0.0f, 0.0f);\n", n);
// ---------
// Wrapping
// ---------
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uid_data.tevind_n.Set_sw(n, bpmem.tevind[n].sw);
uid_data.tevind_n.Set_tw(n, bpmem.tevind[n].tw);
uid_data.tevind_n.fb_addprev |= bpmem.tevind[n].fb_addprev << n;
// wrap S
if (bpmem.tevind[n].sw == ITW_OFF)
out.Write("wrappedcoord.x = uv%d.x;\n", texcoord);
else if (bpmem.tevind[n].sw == ITW_0)
out.Write("wrappedcoord.x = 0.0f;\n");
else
out.Write("wrappedcoord.x = fmod( uv%d.x, %s );\n", texcoord, tevIndWrapStart[bpmem.tevind[n].sw]);
// wrap T
if (bpmem.tevind[n].tw == ITW_OFF)
out.Write("wrappedcoord.y = uv%d.y;\n", texcoord);
else if (bpmem.tevind[n].tw == ITW_0)
out.Write("wrappedcoord.y = 0.0f;\n");
else
out.Write("wrappedcoord.y = fmod( uv%d.y, %s );\n", texcoord, tevIndWrapStart[bpmem.tevind[n].tw]);
if (bpmem.tevind[n].fb_addprev) // add previous tevcoord
out.Write("tevcoord.xy += wrappedcoord + indtevtrans%d;\n", n);
else
out.Write("tevcoord.xy = wrappedcoord + indtevtrans%d;\n", n);
}
TevStageCombiner::ColorCombiner &cc = bpmem.combiners[n].colorC;
TevStageCombiner::AlphaCombiner &ac = bpmem.combiners[n].alphaC;
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uid_data.combiners[n].colorC.hex = cc.hex & 0xFFFFFF;
uid_data.combiners[n].alphaC.hex = ac.hex & 0xFFFFFF;
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if(cc.a == TEVCOLORARG_RASA || cc.a == TEVCOLORARG_RASC
|| cc.b == TEVCOLORARG_RASA || cc.b == TEVCOLORARG_RASC
|| cc.c == TEVCOLORARG_RASA || cc.c == TEVCOLORARG_RASC
|| cc.d == TEVCOLORARG_RASA || cc.d == TEVCOLORARG_RASC
|| ac.a == TEVALPHAARG_RASA || ac.b == TEVALPHAARG_RASA
|| ac.c == TEVALPHAARG_RASA || ac.d == TEVALPHAARG_RASA)
{
const int i = bpmem.combiners[n].alphaC.rswap;
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uid_data.tevksel_n_swap |= bpmem.tevksel[i*2 ].swap1 << (i*2);
uid_data.tevksel_n_swap |= bpmem.tevksel[i*2+1].swap1 << (i*2 + 1);
uid_data.tevksel_n_swap |= bpmem.tevksel[i*2 ].swap2 << (i*2 + 16);
uid_data.tevksel_n_swap |= bpmem.tevksel[i*2+1].swap2 << (i*2 + 17);
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char *rasswap = swapModeTable[bpmem.combiners[n].alphaC.rswap];
out.Write("rastemp = %s.%s;\n", tevRasTable[bpmem.tevorders[n / 2].getColorChan(n & 1)], rasswap);
out.Write("crastemp = frac(rastemp * (255.0f/256.0f)) * (256.0f/255.0f);\n");
}
if (bpmem.tevorders[n/2].getEnable(n&1))
{
if (!bHasIndStage)
{
// calc tevcord
if(bHasTexCoord)
out.Write("tevcoord.xy = uv%d.xy;\n", texcoord);
else
out.Write("tevcoord.xy = float2(0.0f, 0.0f);\n");
}
const int i = bpmem.combiners[n].alphaC.tswap;
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uid_data.tevksel_n_swap |= bpmem.tevksel[i*2 ].swap1 << (i*2);
uid_data.tevksel_n_swap |= bpmem.tevksel[i*2+1].swap1 << (i*2 + 1);
uid_data.tevksel_n_swap |= bpmem.tevksel[i*2 ].swap2 << (i*2 + 16);
uid_data.tevksel_n_swap |= bpmem.tevksel[i*2+1].swap2 << (i*2 + 17);
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char *texswap = swapModeTable[bpmem.combiners[n].alphaC.tswap];
int texmap = bpmem.tevorders[n/2].getTexMap(n&1);
SampleTexture<T>(out, "textemp", "tevcoord", texswap, texmap, ApiType);
}
else
out.Write("textemp = float4(1.0f, 1.0f, 1.0f, 1.0f);\n");
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if (cc.a == TEVCOLORARG_KONST || cc.b == TEVCOLORARG_KONST || cc.c == TEVCOLORARG_KONST || cc.d == TEVCOLORARG_KONST
|| ac.a == TEVALPHAARG_KONST || ac.b == TEVALPHAARG_KONST || ac.c == TEVALPHAARG_KONST || ac.d == TEVALPHAARG_KONST)
{
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int kc = bpmem.tevksel[n / 2].getKC(n & 1);
int ka = bpmem.tevksel[n / 2].getKA(n & 1);
out.Write("konsttemp = float4(%s, %s);\n", tevKSelTableC[kc], tevKSelTableA[ka]);
if(kc > 7 || ka > 7)
{
out.Write("ckonsttemp = frac(konsttemp * (255.0f/256.0f)) * (256.0f/255.0f);\n");
}
else
{
out.Write("ckonsttemp = konsttemp;\n");
}
if (kc > 7)
out.SetConstantsUsed(C_KCOLORS+((kc-0xc)%4),C_KCOLORS+((kc-0xc)%4));
if (ka > 7)
out.SetConstantsUsed(C_KCOLORS+((ka-0xc)%4),C_KCOLORS+((ka-0xc)%4));
}
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if(cc.a == TEVCOLORARG_CPREV || cc.a == TEVCOLORARG_APREV
|| cc.b == TEVCOLORARG_CPREV || cc.b == TEVCOLORARG_APREV
|| cc.c == TEVCOLORARG_CPREV || cc.c == TEVCOLORARG_APREV
|| ac.a == TEVALPHAARG_APREV || ac.b == TEVALPHAARG_APREV || ac.c == TEVALPHAARG_APREV)
{
if(RegisterStates[0].AlphaNeedOverflowControl || RegisterStates[0].ColorNeedOverflowControl)
{
out.Write("cprev = frac(prev * (255.0f/256.0f)) * (256.0f/255.0f);\n");
RegisterStates[0].AlphaNeedOverflowControl = false;
RegisterStates[0].ColorNeedOverflowControl = false;
}
else
{
out.Write("cprev = prev;\n");
}
RegisterStates[0].AuxStored = true;
}
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if(cc.a == TEVCOLORARG_C0 || cc.a == TEVCOLORARG_A0
|| cc.b == TEVCOLORARG_C0 || cc.b == TEVCOLORARG_A0
|| cc.c == TEVCOLORARG_C0 || cc.c == TEVCOLORARG_A0
|| ac.a == TEVALPHAARG_A0 || ac.b == TEVALPHAARG_A0 || ac.c == TEVALPHAARG_A0)
{
out.SetConstantsUsed(C_COLORS+1,C_COLORS+1);
if(RegisterStates[1].AlphaNeedOverflowControl || RegisterStates[1].ColorNeedOverflowControl)
{
out.Write("cc0 = frac(c0 * (255.0f/256.0f)) * (256.0f/255.0f);\n");
RegisterStates[1].AlphaNeedOverflowControl = false;
RegisterStates[1].ColorNeedOverflowControl = false;
}
else
{
out.Write("cc0 = c0;\n");
}
RegisterStates[1].AuxStored = true;
}
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if(cc.a == TEVCOLORARG_C1 || cc.a == TEVCOLORARG_A1
|| cc.b == TEVCOLORARG_C1 || cc.b == TEVCOLORARG_A1
|| cc.c == TEVCOLORARG_C1 || cc.c == TEVCOLORARG_A1
|| ac.a == TEVALPHAARG_A1 || ac.b == TEVALPHAARG_A1 || ac.c == TEVALPHAARG_A1)
{
out.SetConstantsUsed(C_COLORS+2,C_COLORS+2);
if(RegisterStates[2].AlphaNeedOverflowControl || RegisterStates[2].ColorNeedOverflowControl)
{
out.Write("cc1 = frac(c1 * (255.0f/256.0f)) * (256.0f/255.0f);\n");
RegisterStates[2].AlphaNeedOverflowControl = false;
RegisterStates[2].ColorNeedOverflowControl = false;
}
else
{
out.Write("cc1 = c1;\n");
}
RegisterStates[2].AuxStored = true;
}
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if(cc.a == TEVCOLORARG_C2 || cc.a == TEVCOLORARG_A2
|| cc.b == TEVCOLORARG_C2 || cc.b == TEVCOLORARG_A2
|| cc.c == TEVCOLORARG_C2 || cc.c == TEVCOLORARG_A2
|| ac.a == TEVALPHAARG_A2 || ac.b == TEVALPHAARG_A2 || ac.c == TEVALPHAARG_A2)
{
out.SetConstantsUsed(C_COLORS+3,C_COLORS+3);
if(RegisterStates[3].AlphaNeedOverflowControl || RegisterStates[3].ColorNeedOverflowControl)
{
out.Write("cc2 = frac(c2 * (255.0f/256.0f)) * (256.0f/255.0f);\n");
RegisterStates[3].AlphaNeedOverflowControl = false;
RegisterStates[3].ColorNeedOverflowControl = false;
}
else
{
out.Write("cc2 = c2;\n");
}
RegisterStates[3].AuxStored = true;
}
RegisterStates[cc.dest].ColorNeedOverflowControl = (cc.clamp == 0);
RegisterStates[cc.dest].AuxStored = false;
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if (cc.d == TEVCOLORARG_C0 || cc.d == TEVCOLORARG_A0 || ac.d == TEVALPHAARG_A0)
out.SetConstantsUsed(C_COLORS+1,C_COLORS+1);
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if (cc.d == TEVCOLORARG_C1 || cc.d == TEVCOLORARG_A1 || ac.d == TEVALPHAARG_A1)
out.SetConstantsUsed(C_COLORS+2,C_COLORS+2);
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if (cc.d == TEVCOLORARG_C2 || cc.d == TEVCOLORARG_A2 || ac.d == TEVALPHAARG_A2)
out.SetConstantsUsed(C_COLORS+3,C_COLORS+3);
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if (cc.dest >= GX_TEVREG0 && cc.dest <= GX_TEVREG2)
out.SetConstantsUsed(C_COLORS+cc.dest, C_COLORS+cc.dest);
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if (ac.dest >= GX_TEVREG0 && ac.dest <= GX_TEVREG2)
out.SetConstantsUsed(C_COLORS+ac.dest, C_COLORS+ac.dest);
out.Write("// color combine\n");
if (cc.clamp)
out.Write("%s = saturate(", tevCOutputTable[cc.dest]);
else
out.Write("%s = ", tevCOutputTable[cc.dest]);
// combine the color channel
if (cc.bias != TevBias_COMPARE) // if not compare
{
//normal color combiner goes here
if (cc.shift > TEVSCALE_1)
out.Write("%s*(", tevScaleTable[cc.shift]);
if(!(cc.d == TEVCOLORARG_ZERO && cc.op == TEVOP_ADD))
out.Write("%s%s", tevCInputTable[cc.d], tevOpTable[cc.op]);
if (cc.a == cc.b)
out.Write("%s", tevCInputTable[cc.a + 16]);
else if (cc.c == TEVCOLORARG_ZERO)
out.Write("%s", tevCInputTable[cc.a + 16]);
else if (cc.c == TEVCOLORARG_ONE)
out.Write("%s", tevCInputTable[cc.b + 16]);
else if (cc.a == TEVCOLORARG_ZERO)
out.Write("%s*%s", tevCInputTable[cc.b + 16], tevCInputTable[cc.c + 16]);
else if (cc.b == TEVCOLORARG_ZERO)
out.Write("%s*(float3(1.0f, 1.0f, 1.0f)-%s)", tevCInputTable[cc.a + 16], tevCInputTable[cc.c + 16]);
else
out.Write("lerp(%s, %s, %s)", tevCInputTable[cc.a + 16], tevCInputTable[cc.b + 16], tevCInputTable[cc.c + 16]);
out.Write("%s", tevBiasTable[cc.bias]);
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if (cc.shift > TEVSCALE_1)
out.Write(")");
}
else
{
int cmp = (cc.shift<<1)|cc.op|8; // comparemode stored here
out.Write(TEVCMPColorOPTable[cmp],//lookup the function from the op table
tevCInputTable[cc.d],
tevCInputTable[cc.a + 16],
tevCInputTable[cc.b + 16],
tevCInputTable[cc.c + 16]);
}
if (cc.clamp)
out.Write(")");
out.Write(";\n");
RegisterStates[ac.dest].AlphaNeedOverflowControl = (ac.clamp == 0);
RegisterStates[ac.dest].AuxStored = false;
out.Write("// alpha combine\n");
if (ac.clamp)
out.Write("%s = saturate(", tevAOutputTable[ac.dest]);
else
out.Write("%s = ", tevAOutputTable[ac.dest]);
if (ac.bias != TevBias_COMPARE) // if not compare
{
//normal alpha combiner goes here
if (ac.shift > TEVSCALE_1)
out.Write("%s*(", tevScaleTable[ac.shift]);
if(!(ac.d == TEVALPHAARG_ZERO && ac.op == TEVOP_ADD))
out.Write("%s.a%s", tevAInputTable[ac.d], tevOpTable[ac.op]);
if (ac.a == ac.b)
out.Write("%s.a", tevAInputTable[ac.a + 8]);
else if (ac.c == TEVALPHAARG_ZERO)
out.Write("%s.a", tevAInputTable[ac.a + 8]);
else if (ac.a == TEVALPHAARG_ZERO)
out.Write("%s.a*%s.a", tevAInputTable[ac.b + 8], tevAInputTable[ac.c + 8]);
else if (ac.b == TEVALPHAARG_ZERO)
out.Write("%s.a*(1.0f-%s.a)", tevAInputTable[ac.a + 8], tevAInputTable[ac.c + 8]);
else
out.Write("lerp(%s.a, %s.a, %s.a)", tevAInputTable[ac.a + 8], tevAInputTable[ac.b + 8], tevAInputTable[ac.c + 8]);
out.Write("%s",tevBiasTable[ac.bias]);
if (ac.shift>0)
out.Write(")");
}
else
{
//compare alpha combiner goes here
int cmp = (ac.shift<<1)|ac.op|8; // comparemode stored here
out.Write(TEVCMPAlphaOPTable[cmp],
tevAInputTable[ac.d],
tevAInputTable[ac.a + 8],
tevAInputTable[ac.b + 8],
tevAInputTable[ac.c + 8]);
}
if (ac.clamp)
out.Write(")");
out.Write(";\n\n");
out.Write("// TEV done\n");
}
template<class T>
void SampleTexture(T& out, const char *destination, const char *texcoords, const char *texswap, int texmap, API_TYPE ApiType)
{
out.SetConstantsUsed(C_TEXDIMS+texmap,C_TEXDIMS+texmap);
if (ApiType == API_D3D11)
out.Write("%s=Tex%d.Sample(samp%d,%s.xy * " I_TEXDIMS"[%d].xy).%s;\n", destination, texmap,texmap, texcoords, texmap, texswap);
else
out.Write("%s=%s(samp%d,%s.xy * " I_TEXDIMS"[%d].xy).%s;\n", destination, ApiType == API_OPENGL ? "texture" : "tex2D", texmap, texcoords, texmap, texswap);
}
static const char *tevAlphaFuncsTable[] =
{
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"(false)", // NEVER
"(prev.a <= %s - (0.25f/255.0f))", // LESS
"(abs( prev.a - %s ) < (0.5f/255.0f))", // EQUAL
"(prev.a < %s + (0.25f/255.0f))", // LEQUAL
"(prev.a >= %s + (0.25f/255.0f))", // GREATER
"(abs( prev.a - %s ) >= (0.5f/255.0f))", // NEQUAL
"(prev.a > %s - (0.25f/255.0f))", // GEQUAL
"(true)" // ALWAYS
};
static const char *tevAlphaFunclogicTable[] =
{
" && ", // and
" || ", // or
" != ", // xor
" == " // xnor
};
template<class T>
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static void WriteAlphaTest(T& out, pixel_shader_uid_data& uid_data, API_TYPE ApiType, DSTALPHA_MODE dstAlphaMode, bool per_pixel_depth)
{
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static const char *alphaRef[2] =
{
I_ALPHA"[0].r",
I_ALPHA"[0].g"
};
out.SetConstantsUsed(C_ALPHA, C_ALPHA);
// using discard then return works the same in cg and dx9 but not in dx11
out.Write("\tif(!( ");
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uid_data.alpha_test.comp0 = bpmem.alpha_test.comp0;
uid_data.alpha_test.logic = bpmem.alpha_test.comp1;
uid_data.alpha_test.logic = bpmem.alpha_test.logic;
// Lookup the first component from the alpha function table
int compindex = bpmem.alpha_test.comp0;
out.Write(tevAlphaFuncsTable[compindex], alphaRef[0]);
out.Write("%s", tevAlphaFunclogicTable[bpmem.alpha_test.logic]);//lookup the logic op
// Lookup the second component from the alpha function table
compindex = bpmem.alpha_test.comp1;
out.Write(tevAlphaFuncsTable[compindex], alphaRef[1]);
out.Write(")) {\n");
out.Write("\t\tocol0 = float4(0.0f, 0.0f, 0.0f, 0.0f);\n");
if (dstAlphaMode == DSTALPHA_DUAL_SOURCE_BLEND)
out.Write("\t\tocol1 = float4(0.0f, 0.0f, 0.0f, 0.0f);\n");
if(per_pixel_depth)
out.Write("\t\tdepth = 1.f;\n");
// HAXX: zcomploc (aka early_ztest) is a way to control whether depth test is done before
// or after texturing and alpha test. PC GPUs have no way to support this
// feature properly as of 2012: depth buffer and depth test are not
// programmable and the depth test is always done after texturing.
// Most importantly, PC GPUs do not allow writing to the z buffer without
// writing a color value (unless color writing is disabled altogether).
// We implement "depth test before texturing" by discarding the fragment
// when the alpha test fail. This is not a correct implementation because
// even if the depth test fails the fragment could be alpha blended, but
// we don't have a choice.
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uid_data.alpha_test.use_zcomploc_hack = bpmem.zcontrol.early_ztest && bpmem.zmode.updateenable;
if (!(bpmem.zcontrol.early_ztest && bpmem.zmode.updateenable))
{
out.Write("\t\tdiscard;\n");
if (ApiType != API_D3D11)
out.Write("\t\treturn;\n");
}
out.Write("}\n");
}
static const char *tevFogFuncsTable[] =
{
"", //No Fog
"", //?
"", //Linear
"", //?
"\tfog = 1.0f - pow(2.0f, -8.0f * fog);\n", //exp
"\tfog = 1.0f - pow(2.0f, -8.0f * fog * fog);\n", //exp2
"\tfog = pow(2.0f, -8.0f * (1.0f - fog));\n", //backward exp
"\tfog = 1.0f - fog;\n fog = pow(2.0f, -8.0f * fog * fog);\n" //backward exp2
};
template<class T>
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static void WriteFog(T& out, pixel_shader_uid_data& uid_data)
{
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uid_data.fog.fsel = bpmem.fog.c_proj_fsel.fsel;
if(bpmem.fog.c_proj_fsel.fsel == 0)
return; // no Fog
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uid_data.fog.proj = bpmem.fog.c_proj_fsel.proj;
out.SetConstantsUsed(C_FOG, C_FOG+1);
if (bpmem.fog.c_proj_fsel.proj == 0)
{
// perspective
// ze = A/(B - (Zs >> B_SHF)
out.Write("\tfloat ze = " I_FOG"[1].x / (" I_FOG"[1].y - (zCoord / " I_FOG"[1].w));\n");
}
else
{
// orthographic
// ze = a*Zs (here, no B_SHF)
out.Write("\tfloat ze = " I_FOG"[1].x * zCoord;\n");
}
// x_adjust = sqrt((x-center)^2 + k^2)/k
// ze *= x_adjust
// this is completely theoretical as the real hardware seems to use a table intead of calculating the values.
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uid_data.fog.RangeBaseEnabled = bpmem.fogRange.Base.Enabled;
if(bpmem.fogRange.Base.Enabled)
{
out.SetConstantsUsed(C_FOG+2, C_FOG+2);
out.Write("\tfloat x_adjust = (2.0f * (clipPos.x / " I_FOG"[2].y)) - 1.0f - " I_FOG"[2].x;\n");
out.Write("\tx_adjust = sqrt(x_adjust * x_adjust + " I_FOG"[2].z * " I_FOG"[2].z) / " I_FOG"[2].z;\n");
out.Write("\tze *= x_adjust;\n");
}
out.Write("\tfloat fog = saturate(ze - " I_FOG"[1].z);\n");
if (bpmem.fog.c_proj_fsel.fsel > 3)
{
out.Write("%s", tevFogFuncsTable[bpmem.fog.c_proj_fsel.fsel]);
}
else
{
if (bpmem.fog.c_proj_fsel.fsel != 2)
WARN_LOG(VIDEO, "Unknown Fog Type! %08x", bpmem.fog.c_proj_fsel.fsel);
}
out.Write("\tprev.rgb = lerp(prev.rgb, " I_FOG"[0].rgb, fog);\n");
}
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void GetPixelShaderUid(PixelShaderUid& object, DSTALPHA_MODE dstAlphaMode, API_TYPE ApiType, u32 components)
{
GeneratePixelShader<PixelShaderUid>(object, dstAlphaMode, ApiType, components);
if (g_ActiveConfig.bEnableShaderDebugging)
{
PixelShaderCode code;
GeneratePixelShaderCode(code, dstAlphaMode, API_OPENGL, components);
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CheckForUidMismatch<PixelShaderUid,PixelShaderCode>(code, object, "Pixel", "p");
}
}
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void GeneratePixelShaderCode(PixelShaderCode& object, DSTALPHA_MODE dstAlphaMode, API_TYPE ApiType, u32 components)
{
GeneratePixelShader<PixelShaderCode>(object, dstAlphaMode, ApiType, components);
}
void GetPixelShaderConstantProfile(PixelShaderConstantProfile& object, DSTALPHA_MODE dstAlphaMode, API_TYPE ApiType, u32 components)
{
GeneratePixelShader<PixelShaderConstantProfile>(object, dstAlphaMode, ApiType, components);
}