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https://github.com/dolphin-emu/dolphin.git
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65af90669b
It's a relatively big commit (less big with -w), but it's hard to test any of this separately... The basic problem is that in netplay or movies, the state of the CPU must be deterministic, including when the game receives notification that the GPU has processed FIFO data. Dual core mode notifies the game whenever the GPU thread actually gets around to doing the work, so it isn't deterministic. Single core mode is because it notifies the game 'instantly' (after processing the data synchronously), but it's too slow for many systems and games. My old dc-netplay branch worked as follows: everything worked as normal except the state of the CP registers was a lie, and the CPU thread only delivered results when idle detection triggered (waiting for the GPU if they weren't ready at that point). Usually, a game is idle iff all the work for the frame has been done, except for a small amount of work depending on the GPU result, so neither the CPU or the GPU waiting on the other affected performance much. However, it's possible that the game could be waiting for some earlier interrupt, and any of several games which, for whatever reason, never went into a detectable idle (even when I tried to improve the detection) would never receive results at all. (The current method should have better compatibility, but it also has slightly higher overhead and breaks some other things, so I want to reimplement this, hopefully with less impact on the code, in the future.) With this commit, the basic idea is that the CPU thread acts as if the work has been done instantly, like single core mode, but actually hands it off asynchronously to the GPU thread (after backing up some data that the game might change in memory before it's actually done). Since the work isn't done, any feedback from the GPU to the CPU, such as real XFB/EFB copies (virtual are OK), EFB pokes, performance queries, etc. is broken; but most games work with these options disabled, and there is no need to try to detect what the CPU thread is doing. Technically: when the flag g_use_deterministic_gpu_thread (currently stuck on) is on, the CPU thread calls RunGpu like in single core mode. This function synchronously copies the data from the FIFO to the internal video buffer and updates the CP registers, interrupts, etc. However, instead of the regular ReadDataFromFifo followed by running the opcode decoder, it runs ReadDataFromFifoOnCPU -> OpcodeDecoder_Preprocess, which relatively quickly scans through the FIFO data, detects SetFinish calls etc., which are immediately fired, and saves certain associated data from memory (e.g. display lists) in AuxBuffers (a parallel stream to the main FIFO, which is a bit slow at the moment), before handing the data off to the GPU thread to actually render. That makes up the bulk of this commit. In various circumstances, including the aforementioned EFB pokes and performance queries as well as swap requests (i.e. the end of a frame - we don't want the CPU potentially pumping out frames too quickly and the GPU falling behind*), SyncGPU is called to wait for actual completion. The overhead mainly comes from OpcodeDecoder_Preprocess (which is, again, synchronous), as well as the actual copying. Currently, display lists and such are escrowed from main memory even though they usually won't change over the course of a frame, and textures are not even though they might, resulting in a small chance of graphical glitches. When the texture locking (i.e. fault on write) code lands, I can make this all correct and maybe a little faster. * This suggests an alternate determinism method of just delaying results until a short time before the end of each frame. For all I know this might mostly work - I haven't tried it - but if any significant work hinges on the competion of render to texture etc., the frame will be missed.
279 lines
6.7 KiB
C
279 lines
6.7 KiB
C
// Copyright 2013 Dolphin Emulator Project
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// Licensed under GPLv2
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// Refer to the license.txt file included.
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#pragma once
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#include "Common/CommonTypes.h"
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#include "VideoCommon/CPMemory.h"
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// Lighting
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#define XF_TEXPROJ_ST 0
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#define XF_TEXPROJ_STQ 1
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#define XF_TEXINPUT_AB11 0
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#define XF_TEXINPUT_ABC1 1
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#define XF_TEXGEN_REGULAR 0
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#define XF_TEXGEN_EMBOSS_MAP 1 // used when bump mapping
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#define XF_TEXGEN_COLOR_STRGBC0 2
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#define XF_TEXGEN_COLOR_STRGBC1 3
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#define XF_SRCGEOM_INROW 0 // input is abc
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#define XF_SRCNORMAL_INROW 1 // input is abc
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#define XF_SRCCOLORS_INROW 2
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#define XF_SRCBINORMAL_T_INROW 3 // input is abc
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#define XF_SRCBINORMAL_B_INROW 4 // input is abc
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#define XF_SRCTEX0_INROW 5
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#define XF_SRCTEX1_INROW 6
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#define XF_SRCTEX2_INROW 7
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#define XF_SRCTEX3_INROW 8
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#define XF_SRCTEX4_INROW 9
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#define XF_SRCTEX5_INROW 10
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#define XF_SRCTEX6_INROW 11
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#define XF_SRCTEX7_INROW 12
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#define GX_SRC_REG 0
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#define GX_SRC_VTX 1
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#define LIGHTDIF_NONE 0
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#define LIGHTDIF_SIGN 1
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#define LIGHTDIF_CLAMP 2
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#define LIGHTATTN_SPEC 0 // specular attenuation
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#define LIGHTATTN_SPOT 1 // distance/spotlight attenuation
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#define LIGHTATTN_NONE 2
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#define LIGHTATTN_DIR 3
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#define GX_PERSPECTIVE 0
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#define GX_ORTHOGRAPHIC 1
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#define XFMEM_POSMATRICES 0x000
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#define XFMEM_POSMATRICES_END 0x100
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#define XFMEM_NORMALMATRICES 0x400
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#define XFMEM_NORMALMATRICES_END 0x460
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#define XFMEM_POSTMATRICES 0x500
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#define XFMEM_POSTMATRICES_END 0x600
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#define XFMEM_LIGHTS 0x600
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#define XFMEM_LIGHTS_END 0x680
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#define XFMEM_ERROR 0x1000
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#define XFMEM_DIAG 0x1001
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#define XFMEM_STATE0 0x1002
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#define XFMEM_STATE1 0x1003
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#define XFMEM_CLOCK 0x1004
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#define XFMEM_CLIPDISABLE 0x1005
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#define XFMEM_SETGPMETRIC 0x1006
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#define XFMEM_VTXSPECS 0x1008
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#define XFMEM_SETNUMCHAN 0x1009
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#define XFMEM_SETCHAN0_AMBCOLOR 0x100a
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#define XFMEM_SETCHAN1_AMBCOLOR 0x100b
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#define XFMEM_SETCHAN0_MATCOLOR 0x100c
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#define XFMEM_SETCHAN1_MATCOLOR 0x100d
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#define XFMEM_SETCHAN0_COLOR 0x100e
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#define XFMEM_SETCHAN1_COLOR 0x100f
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#define XFMEM_SETCHAN0_ALPHA 0x1010
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#define XFMEM_SETCHAN1_ALPHA 0x1011
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#define XFMEM_DUALTEX 0x1012
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#define XFMEM_SETMATRIXINDA 0x1018
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#define XFMEM_SETMATRIXINDB 0x1019
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#define XFMEM_SETVIEWPORT 0x101a
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#define XFMEM_SETZSCALE 0x101c
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#define XFMEM_SETZOFFSET 0x101f
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#define XFMEM_SETPROJECTION 0x1020
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/*#define XFMEM_SETPROJECTIONB 0x1021
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#define XFMEM_SETPROJECTIONC 0x1022
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#define XFMEM_SETPROJECTIOND 0x1023
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#define XFMEM_SETPROJECTIONE 0x1024
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#define XFMEM_SETPROJECTIONF 0x1025
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#define XFMEM_SETPROJECTIONORTHO1 0x1026
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#define XFMEM_SETPROJECTIONORTHO2 0x1027*/
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#define XFMEM_SETNUMTEXGENS 0x103f
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#define XFMEM_SETTEXMTXINFO 0x1040
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#define XFMEM_SETPOSMTXINFO 0x1050
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union LitChannel
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{
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struct
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{
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u32 matsource : 1;
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u32 enablelighting : 1;
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u32 lightMask0_3 : 4;
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u32 ambsource : 1;
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u32 diffusefunc : 2; // LIGHTDIF_X
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u32 attnfunc : 2; // LIGHTATTN_X
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u32 lightMask4_7 : 4;
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};
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struct
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{
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u32 hex : 15;
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u32 unused : 17;
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};
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struct
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{
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u32 dummy0 : 7;
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u32 lightparams : 4;
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u32 dummy1 : 21;
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};
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unsigned int GetFullLightMask() const
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{
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return enablelighting ? (lightMask0_3 | (lightMask4_7 << 4)) : 0;
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}
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};
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union INVTXSPEC
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{
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struct
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{
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u32 numcolors : 2;
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u32 numnormals : 2; // 0 - nothing, 1 - just normal, 2 - normals and binormals
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u32 numtextures : 4;
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u32 unused : 24;
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};
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u32 hex;
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};
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union TexMtxInfo
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{
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struct
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{
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u32 unknown : 1;
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u32 projection : 1; // XF_TEXPROJ_X
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u32 inputform : 2; // XF_TEXINPUT_X
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u32 texgentype : 3; // XF_TEXGEN_X
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u32 sourcerow : 5; // XF_SRCGEOM_X
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u32 embosssourceshift : 3; // what generated texcoord to use
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u32 embosslightshift : 3; // light index that is used
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};
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u32 hex;
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};
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union PostMtxInfo
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{
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struct
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{
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u32 index : 6; // base row of dual transform matrix
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u32 unused : 2;
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u32 normalize : 1; // normalize before send operation
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};
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u32 hex;
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};
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union NumColorChannel
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{
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struct
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{
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u32 numColorChans : 2;
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};
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u32 hex;
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};
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union NumTexGen
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{
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struct
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{
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u32 numTexGens : 4;
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};
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u32 hex;
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};
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union DualTexInfo
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{
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struct
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{
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u32 enabled : 1;
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};
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u32 hex;
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};
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struct Light
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{
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u32 useless[3];
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u8 color[4];
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float cosatt[3]; // cos attenuation
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float distatt[3]; // dist attenuation
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union
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{
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struct
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{
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float dpos[3];
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float ddir[3]; // specular lights only
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};
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struct
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{
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float sdir[3];
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float shalfangle[3]; // specular lights only
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};
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};
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};
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struct Viewport
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{
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float wd;
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float ht;
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float zRange;
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float xOrig;
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float yOrig;
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float farZ;
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};
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struct Projection
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{
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float rawProjection[6];
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u32 type; // only GX_PERSPECTIVE or GX_ORTHOGRAPHIC are allowed
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};
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struct XFMemory
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{
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u32 posMatrices[256]; // 0x0000 - 0x00ff
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u32 unk0[768]; // 0x0100 - 0x03ff
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u32 normalMatrices[96]; // 0x0400 - 0x045f
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u32 unk1[160]; // 0x0460 - 0x04ff
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u32 postMatrices[256]; // 0x0500 - 0x05ff
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Light lights[8]; // 0x0600 - 0x067f
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u32 unk2[2432]; // 0x0680 - 0x0fff
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u32 error; // 0x1000
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u32 diag; // 0x1001
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u32 state0; // 0x1002
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u32 state1; // 0x1003
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u32 xfClock; // 0x1004
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u32 clipDisable; // 0x1005
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u32 perf0; // 0x1006
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u32 perf1; // 0x1007
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INVTXSPEC hostinfo; // 0x1008 number of textures,colors,normals from vertex input
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NumColorChannel numChan; // 0x1009
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u32 ambColor[2]; // 0x100a, 0x100b
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u32 matColor[2]; // 0x100c, 0x100d
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LitChannel color[2]; // 0x100e, 0x100f
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LitChannel alpha[2]; // 0x1010, 0x1011
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DualTexInfo dualTexTrans; // 0x1012
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u32 unk3; // 0x1013
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u32 unk4; // 0x1014
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u32 unk5; // 0x1015
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u32 unk6; // 0x1016
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u32 unk7; // 0x1017
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TMatrixIndexA MatrixIndexA; // 0x1018
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TMatrixIndexB MatrixIndexB; // 0x1019
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Viewport viewport; // 0x101a - 0x101f
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Projection projection; // 0x1020 - 0x1026
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u32 unk8[24]; // 0x1027 - 0x103e
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NumTexGen numTexGen; // 0x103f
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TexMtxInfo texMtxInfo[8]; // 0x1040 - 0x1047
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u32 unk9[8]; // 0x1048 - 0x104f
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PostMtxInfo postMtxInfo[8]; // 0x1050 - 0x1057
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};
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extern XFMemory xfmem;
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void LoadXFReg(u32 transferSize, u32 address);
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void LoadIndexedXF(u32 val, int array);
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void PreprocessIndexedXF(u32 val, int refarray);
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