ppsspp/GPU/GPUState.h

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// Copyright (c) 2012- PPSSPP 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 or later versions.
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// 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 git repository and contact information can be found at
// https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/.
#pragma once
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#include <cmath>
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#include "../Globals.h"
#include "ge_constants.h"
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#include "Common/Common.h"
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class PointerWrap;
// PSP uses a curious 24-bit float - it's basically the top 24 bits of a regular IEEE754 32-bit float.
// This is used for light positions, transform matrices, you name it.
inline float getFloat24(unsigned int data)
{
data <<= 8;
float f;
memcpy(&f, &data, 4);
return f;
}
// in case we ever want to generate PSP display lists...
inline unsigned int toFloat24(float f) {
unsigned int i;
memcpy(&i, &f, 4);
return i >> 8;
}
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struct GPUgstate
{
// Getting rid of this ugly union in favor of the accessor functions
// might be a good idea....
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union
{
u32 cmdmem[256];
struct
{
u32 nop,
vaddr,
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iaddr,
pad00,
prim,
bezier,
spline,
boundBox,
jump,
bjump,
call,
ret,
end,
pad01,
signal,
finish,
base,
pad02,
vertType,
offsetAddr,
origin,
region1,
region2,
lightingEnable,
lightEnable[4],
clipEnable,
cullfaceEnable,
textureMapEnable,
fogEnable,
ditherEnable,
alphaBlendEnable,
alphaTestEnable,
zTestEnable,
stencilTestEnable,
antiAliasEnable,
patchCullEnable,
colorTestEnable,
logicOpEnable,
pad03,
boneMatrixNumber,
boneMatrixData,
morphwgt[8], //dont use
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pad04[2],
patchdivision,
patchprimitive,
patchfacing,
pad04_a,
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worldmtxnum, // 0x3A
worldmtxdata, // 0x3B
viewmtxnum, // 0x3C
viewmtxdata, // 0x3D
projmtxnum, // 0x3E
projmtxdata, // 0x3F
texmtxnum, // 0x40
texmtxdata, // 0x41
viewportx1, // 0x42
viewporty1, // 0x43
viewportz1, // 0x44
viewportx2, // 0x45
viewporty2, // 0x46
viewportz2, // 0x47
texscaleu, // 0x48
texscalev, // 0x49
texoffsetu, // 0x4A
texoffsetv, // 0x4B
offsetx, // 0x4C
offsety, // 0x4D
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pad111[2],
shademodel, // 0x50
reversenormals, // 0x51
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pad222,
materialupdate, // 0x53
materialemissive, // 0x54
materialambient, // 0x55
materialdiffuse, // 0x56
materialspecular, // 0x57
materialalpha, // 0x58
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pad333[2],
materialspecularcoef, // 0x5B
ambientcolor, // 0x5C
ambientalpha, // 0x5D
lmode, // 0x5E
ltype[4], // 0x5F-0x62
lpos[12], // 0x63-0x6E
ldir[12], // 0x6F-0x7A
latt[12], // 0x7B-0x86
lconv[4], // 0x87-0x8A
lcutoff[4], // 0x8B-0x8E
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lcolor[12], // 0x8F-0x9A
cullmode, // 0x9B
fbptr, // 0x9C
fbwidth, // 0x9D
zbptr, // 0x9E
zbwidth, // 0x9F
texaddr[8], // 0xA0-0xA7
texbufwidth[8], // 0xA8-0xAF
clutaddr, // 0xB0
clutaddrupper, // 0xB1
transfersrc, // 0xB2
transfersrcw, // 0xB3
transferdst, // 0xB4
transferdstw, // 0xB5
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padxxx[2],
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texsize[8], // 0xB8-BF
texmapmode, // 0xC0
texshade, // 0xC1
texmode, // 0xC2
texformat, // 0xC3
loadclut, // 0xC4
clutformat, // 0xC5
texfilter, // 0xC6
texwrap, // 0xC7
texlevel, // 0xC8
texfunc, // 0xC9
texenvcolor, // 0xCA
texflush, // 0xCB
texsync, // 0xCC
fog1, // 0xCD
fog2, // 0xCE
fogcolor, // 0xCF
texlodslope, // 0xD0
padxxxxxx, // 0xD1
framebufpixformat, // 0xD2
clearmode, // 0xD3
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scissor1,
scissor2,
minz,
maxz,
colortest,
colorref,
colortestmask,
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alphatest,
stenciltest,
stencilop,
ztestfunc,
blend,
blendfixa,
blendfixb,
dith1,
dith2,
dith3,
dith4,
lop, // 0xE6
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zmsk,
pmskc,
pmska,
transferstart,
transfersrcpos,
transferdstpos,
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pad99,
transfersize; // 0xEE
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u32 pad05[0xFF- 0xEE];
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};
};
float worldMatrix[12];
float viewMatrix[12];
float projMatrix[16];
float tgenMatrix[12];
float boneMatrix[12 * 8]; // Eight bone matrices.
// We ignore the high bits of the framebuffer in fbwidth - even 0x08000000 renders to vRAM.
u32 getFrameBufRawAddress() const { return (fbptr & 0xFFFFFF); }
// 0x44000000 is uncached VRAM.
u32 getFrameBufAddress() const { return 0x44000000 | getFrameBufRawAddress(); }
GEBufferFormat FrameBufFormat() const { return static_cast<GEBufferFormat>(framebufpixformat & 3); }
int FrameBufStride() const { return fbwidth&0x7FC; }
u32 getDepthBufRawAddress() const { return (zbptr & 0xFFFFFF); }
u32 getDepthBufAddress() const { return 0x44000000 | getDepthBufRawAddress(); }
int DepthBufStride() const { return zbwidth&0x7FC; }
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// Pixel Pipeline
bool isModeClear() const { return clearmode & 1; }
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bool isFogEnabled() const { return fogEnable & 1; }
// Cull
bool isCullEnabled() const { return cullfaceEnable & 1; }
int getCullMode() const { return cullmode & 1; }
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// Color Mask
bool isClearModeColorMask() const { return (clearmode&0x100) != 0; }
bool isClearModeAlphaMask() const { return (clearmode&0x200) != 0; }
bool isClearModeDepthMask() const { return (clearmode&0x400) != 0; }
u32 getClearModeColorMask() const { return ((clearmode&0x100) ? 0 : 0xFFFFFF) | ((clearmode&0x200) ? 0 : 0xFF000000); }
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// Blend
GEBlendSrcFactor getBlendFuncA() const { return (GEBlendSrcFactor)(blend & 0xF); }
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GEBlendDstFactor getBlendFuncB() const { return (GEBlendDstFactor)((blend >> 4) & 0xF); }
u32 getFixA() const { return blendfixa & 0xFFFFFF; }
u32 getFixB() const { return blendfixb & 0xFFFFFF; }
GEBlendMode getBlendEq() const { return static_cast<GEBlendMode>((blend >> 8) & 0x7); }
bool isAlphaBlendEnabled() const { return alphaBlendEnable & 1; }
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// AntiAlias
bool isAntiAliasEnabled() const { return antiAliasEnable & 1; }
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// Dither
bool isDitherEnabled() const { return ditherEnable & 1; }
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// Color Mask
u32 getColorMask() const { return (pmskc & 0xFFFFFF) | ((pmska & 0xFF) << 24); }
bool isLogicOpEnabled() const { return logicOpEnable & 1; }
GELogicOp getLogicOp() const { return static_cast<GELogicOp>(lop & 0xF); }
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// Depth Test
bool isDepthTestEnabled() const { return zTestEnable & 1; }
bool isDepthWriteEnabled() const { return !(zmsk & 1); }
GEComparison getDepthTestFunction() const { return static_cast<GEComparison>(ztestfunc & 0x7); }
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u16 getDepthRangeMin() const { return minz & 0xFFFF; }
u16 getDepthRangeMax() const { return maxz & 0xFFFF; }
// Stencil Test
bool isStencilTestEnabled() const { return stencilTestEnable & 1; }
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GEComparison getStencilTestFunction() const { return static_cast<GEComparison>(stenciltest & 0x7); }
int getStencilTestRef() const { return (stenciltest>>8) & 0xFF; }
int getStencilTestMask() const { return (stenciltest>>16) & 0xFF; }
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GEStencilOp getStencilOpSFail() const { return static_cast<GEStencilOp>(stencilop & 0x7); }
GEStencilOp getStencilOpZFail() const { return static_cast<GEStencilOp>((stencilop>>8) & 0x7); }
GEStencilOp getStencilOpZPass() const { return static_cast<GEStencilOp>((stencilop>>16) & 0x7); }
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// Alpha Test
bool isAlphaTestEnabled() const { return alphaTestEnable & 1; }
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GEComparison getAlphaTestFunction() const { return static_cast<GEComparison>(alphatest & 0x7); }
int getAlphaTestRef() const { return (alphatest >> 8) & 0xFF; }
int getAlphaTestMask() const { return (alphatest >> 16) & 0xFF; }
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// Color Test
bool isColorTestEnabled() const { return colorTestEnable & 1; }
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GEComparison getColorTestFunction() const { return static_cast<GEComparison>(colortest & 0x3); }
u32 getColorTestRef() const { return colorref & 0xFFFFFF; }
u32 getColorTestMask() const { return colortestmask & 0xFFFFFF; }
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// Texturing
// TODO: Verify getTextureAddress() alignment?
u32 getTextureAddress(int level) const { return (texaddr[level] & 0xFFFFF0) | ((texbufwidth[level] << 8) & 0x0F000000); }
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int getTextureWidth(int level) const { return 1 << (texsize[level] & 0xf);}
int getTextureHeight(int level) const { return 1 << ((texsize[level] >> 8) & 0xf);}
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u16 getTextureDimension(int level) const { return texsize[level] & 0xf0f;}
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GETexLevelMode getTexLevelMode() const { return static_cast<GETexLevelMode>(texlevel & 0x3); }
bool isTextureMapEnabled() const { return textureMapEnable & 1; }
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GETexFunc getTextureFunction() const { return static_cast<GETexFunc>(texfunc & 0x7); }
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bool isColorDoublingEnabled() const { return (texfunc & 0x10000) != 0; }
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bool isTextureAlphaUsed() const { return (texfunc & 0x100) != 0; }
GETextureFormat getTextureFormat() const { return static_cast<GETextureFormat>(texformat & 0xF); }
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bool isTextureFormatIndexed() const { return (texformat & 4) != 0; } // GE_TFMT_CLUT4 - GE_TFMT_CLUT32 are 0b1xx.
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int getTextureEnvColR() const { return texenvcolor&0xFF; }
int getTextureEnvColG() const { return (texenvcolor>>8)&0xFF; }
int getTextureEnvColB() const { return (texenvcolor>>16)&0xFF; }
u32 getClutAddress() const { return (clutaddr & 0x00FFFFFF) | ((clutaddrupper << 8) & 0x0F000000); }
int getClutLoadBytes() const { return (loadclut & 0x3F) * 32; }
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int getClutLoadBlocks() const { return (loadclut & 0x3F); }
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GEPaletteFormat getClutPaletteFormat() const { return static_cast<GEPaletteFormat>(clutformat & 3); }
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int getClutIndexShift() const { return (clutformat >> 2) & 0x1F; }
int getClutIndexMask() const { return (clutformat >> 8) & 0xFF; }
int getClutIndexStartPos() const { return ((clutformat >> 16) & 0x1F) << 4; }
int transformClutIndex(int index) const { return ((index >> getClutIndexShift()) & getClutIndexMask()) | getClutIndexStartPos(); }
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bool isClutIndexSimple() const { return (clutformat & ~3) == 0xC500FF00; } // Meaning, no special mask, shift, or start pos.
bool isTextureSwizzled() const { return texmode & 1; }
bool isClutSharedForMipmaps() const { return (texmode & 0x100) == 0; }
int getTextureMaxLevel() const { return (texmode >> 16) & 0x7; }
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// Lighting
bool isLightingEnabled() const { return lightingEnable & 1; }
bool isLightChanEnabled(int chan) const { return lightEnable[chan] & 1; }
GELightComputation getLightComputation(int chan) const { return static_cast<GELightComputation>(ltype[chan] & 0x3); }
bool isUsingPoweredDiffuseLight(int chan) const { return getLightComputation(chan) == GE_LIGHTCOMP_BOTHWITHPOWDIFFUSE; }
bool isUsingSpecularLight(int chan) const { return getLightComputation(chan) != GE_LIGHTCOMP_ONLYDIFFUSE; }
bool isUsingSecondaryColor() const { return lmode & 1; }
GELightType getLightType(int chan) const { return static_cast<GELightType>((ltype[chan] >> 8) & 3); }
bool isDirectionalLight(int chan) const { return getLightType(chan) == GE_LIGHTTYPE_DIRECTIONAL; }
bool isPointLight(int chan) const { return getLightType(chan) == GE_LIGHTTYPE_POINT; }
bool isSpotLight(int chan) const { return getLightType(chan) == GE_LIGHTTYPE_SPOT; }
GEShadeMode getShadeMode() const { return static_cast<GEShadeMode>(shademodel & 1); }
unsigned int getAmbientR() const { return ambientcolor&0xFF; }
unsigned int getAmbientG() const { return (ambientcolor>>8)&0xFF; }
unsigned int getAmbientB() const { return (ambientcolor>>16)&0xFF; }
unsigned int getAmbientA() const { return ambientalpha&0xFF; }
unsigned int getMaterialAmbientR() const { return materialambient&0xFF; }
unsigned int getMaterialAmbientG() const { return (materialambient>>8)&0xFF; }
unsigned int getMaterialAmbientB() const { return (materialambient>>16)&0xFF; }
unsigned int getMaterialAmbientA() const { return materialalpha&0xFF; }
unsigned int getMaterialAmbientRGBA() const { return (materialambient & 0x00FFFFFF) | (materialalpha << 24); }
unsigned int getMaterialDiffuseR() const { return materialdiffuse&0xFF; }
unsigned int getMaterialDiffuseG() const { return (materialdiffuse>>8)&0xFF; }
unsigned int getMaterialDiffuseB() const { return (materialdiffuse>>16)&0xFF; }
unsigned int getMaterialEmissiveR() const { return materialemissive&0xFF; }
unsigned int getMaterialEmissiveG() const { return (materialemissive>>8)&0xFF; }
unsigned int getMaterialEmissiveB() const { return (materialemissive>>16)&0xFF; }
unsigned int getMaterialSpecularR() const { return materialspecular&0xFF; }
unsigned int getMaterialSpecularG() const { return (materialspecular>>8)&0xFF; }
unsigned int getMaterialSpecularB() const { return (materialspecular>>16)&0xFF; }
unsigned int getLightAmbientColorR(int chan) const { return lcolor[chan*3]&0xFF; }
unsigned int getLightAmbientColorG(int chan) const { return (lcolor[chan*3]>>8)&0xFF; }
unsigned int getLightAmbientColorB(int chan) const { return (lcolor[chan*3]>>16)&0xFF; }
unsigned int getDiffuseColorR(int chan) const { return lcolor[1+chan*3]&0xFF; }
unsigned int getDiffuseColorG(int chan) const { return (lcolor[1+chan*3]>>8)&0xFF; }
unsigned int getDiffuseColorB(int chan) const { return (lcolor[1+chan*3]>>16)&0xFF; }
unsigned int getSpecularColorR(int chan) const { return lcolor[2+chan*3]&0xFF; }
unsigned int getSpecularColorG(int chan) const { return (lcolor[2+chan*3]>>8)&0xFF; }
unsigned int getSpecularColorB(int chan) const { return (lcolor[2+chan*3]>>16)&0xFF; }
int getPatchDivisionU() const { return patchdivision & 0x7F; }
int getPatchDivisionV() const { return (patchdivision >> 8) & 0x7F; }
// UV gen
GETexMapMode getUVGenMode() const { return static_cast<GETexMapMode>(texmapmode & 3);} // 2 bits
GETexProjMapMode getUVProjMode() const { return static_cast<GETexProjMapMode>((texmapmode >> 8) & 3);} // 2 bits
int getUVLS0() const { return texshade & 0x3; } // 2 bits
int getUVLS1() const { return (texshade >> 8) & 0x3; } // 2 bits
bool isTexCoordClampedS() const { return texwrap & 1; }
bool isTexCoordClampedT() const { return (texwrap >> 8) & 1; }
int getScissorX1() const { return scissor1 & 0x3FF; }
int getScissorY1() const { return (scissor1 >> 10) & 0x3FF; }
int getScissorX2() const { return scissor2 & 0x3FF; }
int getScissorY2() const { return (scissor2 >> 10) & 0x3FF; }
int getRegionX1() const { return region1 & 0x3FF; }
int getRegionY1() const { return (region1 >> 10) & 0x3FF; }
int getRegionX2() const { return (region2 & 0x3FF); }
int getRegionY2() const { return (region2 >> 10) & 0x3FF; }
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float getViewportX1() const { return fabsf(getFloat24(viewportx1) * 2.0f); }
float getViewportY1() const { return fabsf(getFloat24(viewporty1) * 2.0f); }
// Fixed 16 point.
int getOffsetX16() const { return offsetx & 0xFFFF; }
// Fixed 16 point.
int getOffsetY16() const { return offsety & 0xFFFF; }
float getOffsetX() const { return (float)getOffsetX16() / 16.0f; }
float getOffsetY() const { return (float)getOffsetY16() / 16.0f; }
// Vertex type
bool isModeThrough() const { return (vertType & GE_VTYPE_THROUGH) != 0; }
bool areNormalsReversed() const { return reversenormals & 1; }
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bool isSkinningEnabled() const { return ((vertType & GE_VTYPE_WEIGHT_MASK) != GE_VTYPE_WEIGHT_NONE); }
GEPatchPrimType getPatchPrimitiveType() const { return static_cast<GEPatchPrimType>(patchprimitive & 3); }
// Transfers
u32 getTransferSrcAddress() const { return (transfersrc & 0xFFFFF0) | ((transfersrcw & 0xFF0000) << 8); }
// Bits 0xf800 are ignored, > 0x400 is treated as 0.
u32 getTransferSrcStride() const { int stride = transfersrcw & 0x7F8; return stride > 0x400 ? 0 : stride; }
int getTransferSrcX() const { return (transfersrcpos >> 0) & 0x3FF; }
int getTransferSrcY() const { return (transfersrcpos >> 10) & 0x3FF; }
u32 getTransferDstAddress() const { return (transferdst & 0xFFFFF0) | ((transferdstw & 0xFF0000) << 8); }
// Bits 0xf800 are ignored, > 0x400 is treated as 0.
u32 getTransferDstStride() const { int stride = transferdstw & 0x7F8; return stride > 0x400 ? 0 : stride; }
int getTransferDstX() const { return (transferdstpos >> 0) & 0x3FF; }
int getTransferDstY() const { return (transferdstpos >> 10) & 0x3FF; }
int getTransferWidth() const { return ((transfersize >> 0) & 0x3FF) + 1; }
int getTransferHeight() const { return ((transfersize >> 10) & 0x3FF) + 1; }
int getTransferBpp() const { return (transferstart & 1) ? 4 : 2; }
void FastLoadBoneMatrix(u32 addr);
// Real data in the context ends here
void Save(u32_le *ptr);
void Restore(u32_le *ptr);
};
enum SkipDrawReasonFlags {
SKIPDRAW_SKIPFRAME = 1,
SKIPDRAW_NON_DISPLAYED_FB = 2, // Skip drawing to FBO:s that have not been displayed.
SKIPDRAW_BAD_FB_TEXTURE = 4,
SKIPDRAW_WINDOW_MINIMIZED = 8, // Don't draw when the host window is minimized.
};
bool vertTypeIsSkinningEnabled(u32 vertType);
inline int vertTypeGetNumBoneWeights(u32 vertType) { return 1 + ((vertType & GE_VTYPE_WEIGHTCOUNT_MASK) >> GE_VTYPE_WEIGHTCOUNT_SHIFT); }
inline int vertTypeGetWeightMask(u32 vertType) { return vertType & GE_VTYPE_WEIGHT_MASK; }
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inline int vertTypeGetTexCoordMask(u32 vertType) { return vertType & GE_VTYPE_TC_MASK; }
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// The rest is cached simplified/converted data for fast access.
// Does not need to be saved when saving/restoring context.
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struct UVScale {
float uScale, vScale;
float uOff, vOff;
};
enum TextureChangeReason {
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TEXCHANGE_UNCHANGED = 0x00,
TEXCHANGE_UPDATED = 0x01,
TEXCHANGE_PARAMSONLY = 0x02,
};
struct GPUStateCache
{
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u32 vertexAddr;
u32 indexAddr;
u32 offsetAddr;
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u8 textureChanged;
bool textureFullAlpha;
bool textureSimpleAlpha;
bool vertexFullAlpha;
bool framebufChanged;
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int skipDrawReason;
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UVScale uv;
bool flipTexture;
bool bgraTexture;
bool needShaderTexClamp;
bool allowShaderBlend;
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float morphWeights[8];
u32 curTextureWidth;
u32 curTextureHeight;
u32 actualTextureHeight;
// Only applied when needShaderTexClamp = true.
u32 curTextureXOffset;
u32 curTextureYOffset;
float vpWidth;
float vpHeight;
float vpDepth;
// Only used by Direct3D, not saved.
float vpXOffset;
float vpYOffset;
float vpWidthScale;
float vpHeightScale;
u32 curRTWidth;
u32 curRTHeight;
u32 curRTRenderWidth;
u32 curRTRenderHeight;
u32 cutRTOffsetX;
u32 getRelativeAddress(u32 data) const;
void DoState(PointerWrap &p);
};
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// TODO: Implement support for these.
struct GPUStatistics {
void Reset() {
// Never add a vtable :)
memset(this, 0, sizeof(*this));
}
void ResetFrame() {
numDrawCalls = 0;
numCachedDrawCalls = 0;
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numVertsSubmitted = 0;
numCachedVertsDrawn = 0;
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numUncachedVertsDrawn = 0;
numTrackedVertexArrays = 0;
numTextureInvalidations = 0;
numTextureSwitches = 0;
numShaderSwitches = 0;
numFlushes = 0;
numTexturesDecoded = 0;
numAlphaTestedDraws = 0;
numNonAlphaTestedDraws = 0;
msProcessingDisplayLists = 0;
vertexGPUCycles = 0;
otherGPUCycles = 0;
memset(gpuCommandsAtCallLevel, 0, sizeof(gpuCommandsAtCallLevel));
}
// Per frame statistics
int numDrawCalls;
int numCachedDrawCalls;
int numFlushes;
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int numVertsSubmitted;
int numCachedVertsDrawn;
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int numUncachedVertsDrawn;
int numTrackedVertexArrays;
int numTextureInvalidations;
int numTextureSwitches;
int numShaderSwitches;
int numTexturesDecoded;
double msProcessingDisplayLists;
int vertexGPUCycles;
int otherGPUCycles;
int gpuCommandsAtCallLevel[4];
int numAlphaTestedDraws;
int numNonAlphaTestedDraws;
// Total statistics, updated by the GPU core in UpdateStats
int numVBlanks;
int numFlips;
int numTextures;
int numVertexShaders;
int numFragmentShaders;
int numShaders;
int numFBOs;
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};
bool GPU_Init();
void GPU_Shutdown();
void GPU_Reinitialize();
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void InitGfxState();
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void ShutdownGfxState();
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void ReapplyGfxState();
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class GPUInterface;
class GPUDebugInterface;
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extern GPUgstate gstate;
extern GPUStateCache gstate_c;
extern GPUInterface *gpu;
extern GPUDebugInterface *gpuDebug;
extern GPUStatistics gpuStats;
inline u32 GPUStateCache::getRelativeAddress(u32 data) const {
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u32 baseExtended = ((gstate.base & 0x000F0000) << 8) | data;
return (gstate_c.offsetAddr + baseExtended) & 0x0FFFFFFF;
}