gbi.h
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/**************************************************************************
* *
* Copyright (C) 1994, Silicon Graphics, Inc. *
* *
* These coded instructions, statements, and computer programs contain *
* unpublished proprietary information of Silicon Graphics, Inc., and *
* are protected by Federal copyright law. They may not be disclosed *
* to third parties or copied or duplicated in any form, in whole or *
* in part, without the prior written consent of Silicon Graphics, Inc. *
* *
**************************************************************************/
#ifndef _GBI_H_
#define _GBI_H_
#if !(defined(F3DEX_GBI)||defined(F3DLP_GBI))
# define VER20F
#endif
/*
* GBI の定義ファイル:
*
* F3DEX_GBI, LP_GBI を define してから,
* #include <ultra64.h> とすれば F3DEX, F3DLP 用の GBI を出力します.
*/
/**************************************************************************
*
* Graphics Binary Interface
*
**************************************************************************/
/*
* Graphics Commands, 'xxx' parts may be generated from ucode
*
* The command format is
*
* |00xxxxxx| = DMA 0,..,127
* |10xxxxxx| = Immediate Mode -65,..,-128
* |11xxxxxx| = RDP cmds -1,..,-64
*
* Note: in order for the RSP microcode to process RDP commands opaquely,
* we need to further identify those RDP commands that need DRAM address
* "fixup". To do this, we have the dummy command G_RDP_ADDR_FIXUP, and
* all |RDP commands| less than this are commands with embedded DRAM
* addresses. Further, the format of these commands should be similar so
* only one fixup routine is needed.
*
* Further explanation:
* The names of the commands are somewhat misleading. Here is clarification:
*
* - a 'DMA' type command has a pointer to additional data and
* causes a DMA transfer to bring that into DMEM.
*
* - an 'Immediate' type command isn't really 'immediate', in the
* traditional sense. This just means that the entire command fits
* in the 64-bit word, and the ucode can execute it 'immediately'
* without additional memory transfers.
*
* - an 'RDP' command is identified as such because the RDP
* commands can be passed-thru the RSP and sent to the RDP
* directly. One further confusing thing, is that some 'DP'
* macros below actually generate immediate commands, not
* not direct DP commands.
*
* IMPLEMENTATION NOTE:
* There is another group of RDP commands that includes the triangle commands
* generated by the RSP code. These are the raw commands the rasterizer
* hardware chews on, with slope info, etc. They will follow the RDP
* ordering...
*
* IMPLEMENTATION NOTE:
* The RDP hardware has some of these bit patterns wired up. If the hardware
* changes, we must adjust this table, likewise we can't change/add things
* once the hardware is frozen. (actually, the RDP hardware only looks at
* the lower 6 bits of the command byte)
*
*/
/* DMA commands: */
#define G_SPNOOP 0 /* handle 0 gracefully */
#define G_MTX 1
#define G_RESERVED0 2 /* not implemeted */
#define G_MOVEMEM 3 /* move a block of memory (up to 4 words) to dmem */
#define G_VTX 4
#define G_RESERVED1 5 /* not implemeted */
#define G_DL 6
#define G_RESERVED2 7 /* not implemeted */
#define G_RESERVED3 8 /* not implemeted */
#define G_SPRITE2D 9 /* sprite command */
/* IMMEDIATE commands: */
#define G_IMMFIRST -65
#define G_TRI1 (G_IMMFIRST-0)
#define G_CULLDL (G_IMMFIRST-1)
#define G_POPMTX (G_IMMFIRST-2)
#define G_MOVEWORD (G_IMMFIRST-3)
#define G_TEXTURE (G_IMMFIRST-4)
#define G_SETOTHERMODE_H (G_IMMFIRST-5)
#define G_SETOTHERMODE_L (G_IMMFIRST-6)
#define G_ENDDL (G_IMMFIRST-7)
#define G_SETGEOMETRYMODE (G_IMMFIRST-8)
#define G_CLEARGEOMETRYMODE (G_IMMFIRST-9)
#define G_LINE3D (G_IMMFIRST-10)
#ifdef VER20E
# define G_PERSPNORMALIZE (G_IMMFIRST-11)
# define G_RDPHALF_1 (G_IMMFIRST-12)
# define G_RDPHALF_2 (G_IMMFIRST-13)
# define G_RDPHALF_CONT (G_IMMFIRST-14)
#else
# define G_RDPHALF_1 (G_IMMFIRST-11)
# define G_RDPHALF_2 (G_IMMFIRST-12)
# if (defined(F3DEX_GBI)||defined(F3DLP_GBI))
# define G_MODIFYVTX (G_IMMFIRST-13)
# define G_TRI2 (G_IMMFIRST-14)
# define G_BRANCH_Z (G_IMMFIRST-15)
# define G_LOAD_UCODE (G_IMMFIRST-16)
# ifdef F3DNCom_GBI
# define G_WAITSIGNAL (G_IMMFIRST-17)
# endif
# else
# define G_RDPHALF_CONT (G_IMMFIRST-13)
# endif
#endif
/* RDP commands: */
#define G_NOOP 0xc0 /* 0 */
#define G_SETCIMG 0xff /* -1 */
#define G_SETZIMG 0xfe /* -2 */
#define G_SETTIMG 0xfd /* -3 */
#define G_SETCOMBINE 0xfc /* -4 */
#define G_SETENVCOLOR 0xfb /* -5 */
#define G_SETPRIMCOLOR 0xfa /* -6 */
#define G_SETBLENDCOLOR 0xf9 /* -7 */
#define G_SETFOGCOLOR 0xf8 /* -8 */
#define G_SETFILLCOLOR 0xf7 /* -9 */
#define G_FILLRECT 0xf6 /* -10 */
#define G_SETTILE 0xf5 /* -11 */
#define G_LOADTILE 0xf4 /* -12 */
#define G_LOADBLOCK 0xf3 /* -13 */
#define G_SETTILESIZE 0xf2 /* -14 */
#define G_LOADTLUT 0xf0 /* -16 */
#define G_RDPSETOTHERMODE 0xef /* -17 */
#define G_SETPRIMDEPTH 0xee /* -18 */
#define G_SETSCISSOR 0xed /* -19 */
#define G_SETCONVERT 0xec /* -20 */
#define G_SETKEYR 0xeb /* -21 */
#define G_SETKEYGB 0xea /* -22 */
#define G_RDPFULLSYNC 0xe9 /* -23 */
#define G_RDPTILESYNC 0xe8 /* -24 */
#define G_RDPPIPESYNC 0xe7 /* -25 */
#define G_RDPLOADSYNC 0xe6 /* -26 */
#define G_TEXRECTFLIP 0xe5 /* -27 */
#define G_TEXRECT 0xe4 /* -28 */
/*
* The following commands are the "generated" RDP commands; the user
* never sees them, the RSP microcode generates them.
*
* The layout of the bits is magical, to save work in the ucode.
* These id's are -56, -52, -54, -50, -55, -51, -53, -49, ...
* edge, shade, texture, zbuff bits: estz
*/
#define G_TRI_FILL 0xc8 /* fill triangle: 11001000 */
#define G_TRI_SHADE 0xcc /* shade triangle: 11001100 */
#define G_TRI_TXTR 0xca /* texture triangle: 11001010 */
#define G_TRI_SHADE_TXTR 0xce /* shade, texture triangle: 11001110 */
#define G_TRI_FILL_ZBUFF 0xc9 /* fill, zbuff triangle: 11001001 */
#define G_TRI_SHADE_ZBUFF 0xcd /* shade, zbuff triangle: 11001101 */
#define G_TRI_TXTR_ZBUFF 0xcb /* texture, zbuff triangle: 11001011 */
#define G_TRI_SHADE_TXTR_ZBUFF 0xcf /* shade, txtr, zbuff trngl: 11001111 */
/*
* A TRI_FILL triangle is just the edges. You need to set the DP
* to use primcolor, in order to see anything. (it is NOT a triangle
* that gets rendered in 'fill mode'. Triangles can't be rendered
* in 'fill mode')
*
* A TRI_SHADE is a gouraud triangle that has colors interpolated.
* Flat-shaded triangles (from the software) are still gouraud shaded,
* it's just the colors are all the same and the deltas are 0.
*
* Other triangle types, and combinations are more obvious.
*/
/* masks to build RDP triangle commands: */
#define G_RDP_TRI_FILL_MASK 0x08
#define G_RDP_TRI_SHADE_MASK 0x04
#define G_RDP_TRI_TXTR_MASK 0x02
#define G_RDP_TRI_ZBUFF_MASK 0x01
/*
* HACK:
* This is a dreadful hack. For version 1.0 hardware, there are still
* some 'bowtie' hangs. This parameter can be increased to avoid
* the hangs. Every increase of 4 chops one scanline off of every
* triangle. Values of 4,8,12 should be sufficient to avoid any
* bowtie hang.
*
* Change this value, then recompile ALL of your program (including static
* display lists!)
*
* THIS WILL BE REMOVED FOR HARDWARE VERSION 2.0!
*/
#define BOWTIE_VAL 0
/* gets added to RDP command, in order to test for addres fixup: */
#define G_RDP_ADDR_FIXUP 3 /* |RDP cmds| <= this, do addr fixup */
#ifdef _LANGUAGE_ASSEMBLY
#define G_RDP_TEXRECT_CHECK ((-1*G_TEXRECTFLIP)& 0xff)
#endif
/* macros for command parsing: */
#define GDMACMD(x) (x)
#define GIMMCMD(x) (G_IMMFIRST-(x))
#define GRDPCMD(x) (0xff-(x))
#define G_DMACMDSIZ 128
#define G_IMMCMDSIZ 64
#define G_RDPCMDSIZ 64
/*
* Coordinate shift values, number of bits of fraction
*/
#define G_TEXTURE_IMAGE_FRAC 2
#define G_TEXTURE_SCALE_FRAC 16
#define G_SCALE_FRAC 8
#define G_ROTATE_FRAC 16
/*
* Parameters to graphics commands
*/
/*
* Data packing macros
*/
/*
* Maximum z-buffer value, used to initialize the z-buffer.
* Note : this number is NOT the viewport z-scale constant.
* See the comment next to G_MAXZ for more info.
*/
#define G_MAXFBZ 0x3fff /* 3b exp, 11b mantissa */
#define GPACK_RGBA5551(r, g, b, a) ((((r)<<8) & 0xf800) | \
(((g)<<3) & 0x7c0) | \
(((b)>>2) & 0x3e) | ((a) & 0x1))
#define GPACK_ZDZ(z, dz) ((z) << 2 | (dz))
/*
* G_MTX: parameter flags
*/
#define G_MTX_MODELVIEW 0x00 /* matrix types */
#define G_MTX_PROJECTION 0x01
#define G_MTX_MUL 0x00 /* concat or load */
#define G_MTX_LOAD 0x02
#define G_MTX_NOPUSH 0x00 /* push or not */
#define G_MTX_PUSH 0x04
/*
* flags for G_SETGEOMETRYMODE
* (this rendering state is maintained in RSP)
*
* DO NOT USE THE LOW 8 BITS OF GEOMETRYMODE:
* The weird bit-ordering is for the micro-code: the lower byte
* can be OR'd in with G_TRI_SHADE (11001100) to construct
* the triangle command directly. Don't break it...
*
* DO NOT USE THE HIGH 8 BITS OF GEOMETRYMODE:
* The high byte is OR'd with 0x703 to form the clip code mask.
* If it is set to 0x04, this will cause near clipping to occur.
* If it is zero, near clipping will not occur.
*
* Further explanation:
* G_SHADE is necessary in order to see the color that you passed
* down with the vertex. If G_SHADE isn't set, you need to set the DP
* appropriately and use primcolor to see anything.
*
* G_SHADING_SMOOTH enabled means use all 3 colors of the triangle.
* If it is not set, then do 'flat shading', where only one vertex color
* is used (and all 3 vertices are set to that same color by the ucode)
* See the man page for gSP1Triangle().
*
*/
#define G_ZBUFFER 0x00000001
#define G_TEXTURE_ENABLE 0x00000002 /* Microcode use only */
#define G_SHADE 0x00000004 /* enable Gouraud interp */
/* rest of low byte reserved for setup ucode */
#define G_SHADING_SMOOTH 0x00000200 /* flat or smooth shaded */
#define G_CULL_FRONT 0x00001000
#define G_CULL_BACK 0x00002000
#define G_CULL_BOTH 0x00003000 /* To make code cleaner */
#define G_FOG 0x00010000
#define G_LIGHTING 0x00020000
#define G_TEXTURE_GEN 0x00040000
#define G_TEXTURE_GEN_LINEAR 0x00080000
#define G_LOD 0x00100000 /* NOT IMPLEMENTED */
#if (defined(F3DEX_GBI)||defined(F3DLP_GBI))
# define G_CLIPPING 0x00800000
#else
# define G_CLIPPING 0x00000000
#endif
#ifdef _LANGUAGE_ASSEMBLY
#define G_FOG_H (G_FOG/0x10000)
#define G_LIGHTING_H (G_LIGHTING/0x10000)
#define G_TEXTURE_GEN_H (G_TEXTURE_GEN/0x10000)
#define G_TEXTURE_GEN_LINEAR_H (G_TEXTURE_GEN_LINEAR/0x10000)
#define G_LOD_H (G_LOD/0x10000) /* NOT IMPLEMENTED */
# if (defined(F3DEX_GBI)||defined(F3DLP_GBI))
# define G_CLIPPING_H (G_CLIPPING/0x10000)
# endif
#endif
/* Need these defined for Sprite Microcode */
#ifdef _LANGUAGE_ASSEMBLY
#define G_TX_LOADTILE 7
#define G_TX_RENDERTILE 0
#define G_TX_NOMIRROR 0
#define G_TX_WRAP 0
#define G_TX_MIRROR 0x1
#define G_TX_CLAMP 0x2
#define G_TX_NOMASK 0
#define G_TX_NOLOD 0
#endif
/*
* G_SETIMG fmt: set image formats
*/
#define G_IM_FMT_RGBA 0
#define G_IM_FMT_YUV 1
#define G_IM_FMT_CI 2
#define G_IM_FMT_IA 3
#define G_IM_FMT_I 4
/*
* G_SETIMG siz: set image pixel size
*/
#define G_IM_SIZ_4b 0
#define G_IM_SIZ_8b 1
#define G_IM_SIZ_16b 2
#define G_IM_SIZ_32b 3
#define G_IM_SIZ_4b_BYTES 0
#define G_IM_SIZ_4b_TILE_BYTES G_IM_SIZ_4b_BYTES
#define G_IM_SIZ_4b_LINE_BYTES G_IM_SIZ_4b_BYTES
#define G_IM_SIZ_8b_BYTES 1
#define G_IM_SIZ_8b_TILE_BYTES G_IM_SIZ_8b_BYTES
#define G_IM_SIZ_8b_LINE_BYTES G_IM_SIZ_8b_BYTES
#define G_IM_SIZ_16b_BYTES 2
#define G_IM_SIZ_16b_TILE_BYTES G_IM_SIZ_16b_BYTES
#define G_IM_SIZ_16b_LINE_BYTES G_IM_SIZ_16b_BYTES
#define G_IM_SIZ_32b_BYTES 4
#define G_IM_SIZ_32b_TILE_BYTES 2
#define G_IM_SIZ_32b_LINE_BYTES 2
#define G_IM_SIZ_4b_LOAD_BLOCK G_IM_SIZ_16b
#define G_IM_SIZ_8b_LOAD_BLOCK G_IM_SIZ_16b
#define G_IM_SIZ_16b_LOAD_BLOCK G_IM_SIZ_16b
#define G_IM_SIZ_32b_LOAD_BLOCK G_IM_SIZ_32b
#define G_IM_SIZ_4b_SHIFT 2
#define G_IM_SIZ_8b_SHIFT 1
#define G_IM_SIZ_16b_SHIFT 0
#define G_IM_SIZ_32b_SHIFT 0
#define G_IM_SIZ_4b_INCR 3
#define G_IM_SIZ_8b_INCR 1
#define G_IM_SIZ_16b_INCR 0
#define G_IM_SIZ_32b_INCR 0
/*
* G_SETCOMBINE: color combine modes
*/
/* Color combiner constants: */
#define G_CCMUX_COMBINED 0
#define G_CCMUX_TEXEL0 1
#define G_CCMUX_TEXEL1 2
#define G_CCMUX_PRIMITIVE 3
#define G_CCMUX_SHADE 4
#define G_CCMUX_ENVIRONMENT 5
#define G_CCMUX_CENTER 6
#define G_CCMUX_SCALE 6
#define G_CCMUX_COMBINED_ALPHA 7
#define G_CCMUX_TEXEL0_ALPHA 8
#define G_CCMUX_TEXEL1_ALPHA 9
#define G_CCMUX_PRIMITIVE_ALPHA 10
#define G_CCMUX_SHADE_ALPHA 11
#define G_CCMUX_ENV_ALPHA 12
#define G_CCMUX_LOD_FRACTION 13
#define G_CCMUX_PRIM_LOD_FRAC 14
#define G_CCMUX_NOISE 7
#define G_CCMUX_K4 7
#define G_CCMUX_K5 15
#define G_CCMUX_1 6
#define G_CCMUX_0 31
/* Alpha combiner constants: */
#define G_ACMUX_COMBINED 0
#define G_ACMUX_TEXEL0 1
#define G_ACMUX_TEXEL1 2
#define G_ACMUX_PRIMITIVE 3
#define G_ACMUX_SHADE 4
#define G_ACMUX_ENVIRONMENT 5
#define G_ACMUX_LOD_FRACTION 0
#define G_ACMUX_PRIM_LOD_FRAC 6
#define G_ACMUX_1 6
#define G_ACMUX_0 7
/* typical CC cycle 1 modes */
#define G_CC_PRIMITIVE 0, 0, 0, PRIMITIVE, 0, 0, 0, PRIMITIVE
#define G_CC_SHADE 0, 0, 0, SHADE, 0, 0, 0, SHADE
#define G_CC_MODULATEI TEXEL0, 0, SHADE, 0, 0, 0, 0, SHADE
#define G_CC_MODULATEIA TEXEL0, 0, SHADE, 0, TEXEL0, 0, SHADE, 0
#define G_CC_MODULATEIDECALA TEXEL0, 0, SHADE, 0, 0, 0, 0, TEXEL0
#define G_CC_MODULATERGB G_CC_MODULATEI
#define G_CC_MODULATERGBA G_CC_MODULATEIA
#define G_CC_MODULATERGBDECALA G_CC_MODULATEIDECALA
#define G_CC_MODULATEI_PRIM TEXEL0, 0, PRIMITIVE, 0, 0, 0, 0, PRIMITIVE
#define G_CC_MODULATEIA_PRIM TEXEL0, 0, PRIMITIVE, 0, TEXEL0, 0, PRIMITIVE, 0
#define G_CC_MODULATEIDECALA_PRIM TEXEL0, 0, PRIMITIVE, 0, 0, 0, 0, TEXEL0
#define G_CC_MODULATERGB_PRIM G_CC_MODULATEI_PRIM
#define G_CC_MODULATERGBA_PRIM G_CC_MODULATEIA_PRIM
#define G_CC_MODULATERGBDECALA_PRIM G_CC_MODULATEIA_PRIM
#define G_CC_DECALRGB 0, 0, 0, TEXEL0, 0, 0, 0, SHADE
#define G_CC_DECALRGBA 0, 0, 0, TEXEL0, 0, 0, 0, TEXEL0
#define G_CC_BLENDI ENVIRONMENT, SHADE, TEXEL0, SHADE, 0, 0, 0, SHADE
#define G_CC_BLENDIA ENVIRONMENT, SHADE, TEXEL0, SHADE, TEXEL0, 0, SHADE, 0
#define G_CC_BLENDIDECALA ENVIRONMENT, SHADE, TEXEL0, SHADE, 0, 0, 0, TEXEL0
#define G_CC_BLENDRGBA TEXEL0, SHADE, TEXEL0_ALPHA, SHADE, 0, 0, 0, SHADE
#define G_CC_BLENDRGBDECALA TEXEL0, SHADE, TEXEL0_ALPHA, SHADE, 0, 0, 0, TEXEL0
#define G_CC_ADDRGB 1, 0, TEXEL0, SHADE, 0, 0, 0, SHADE
#define G_CC_ADDRGBDECALA 1, 0, TEXEL0, SHADE, 0, 0, 0, TEXEL0
#define G_CC_REFLECTRGB ENVIRONMENT, 0, TEXEL0, SHADE, 0, 0, 0, SHADE
#define G_CC_REFLECTRGBDECALA ENVIRONMENT, 0, TEXEL0, SHADE, 0, 0, 0, TEXEL0
#define G_CC_HILITERGB PRIMITIVE, SHADE, TEXEL0, SHADE, 0, 0, 0, SHADE
#define G_CC_HILITERGBA PRIMITIVE, SHADE, TEXEL0, SHADE, PRIMITIVE, SHADE, TEXEL0, SHADE
#define G_CC_HILITERGBDECALA PRIMITIVE, SHADE, TEXEL0, SHADE, 0, 0, 0, TEXEL0
#define G_CC_SHADEDECALA 0, 0, 0, SHADE, 0, 0, 0, TEXEL0
#define G_CC_BLENDPE PRIMITIVE, ENVIRONMENT, TEXEL0, ENVIRONMENT, TEXEL0, 0, SHADE, 0
#define G_CC_BLENDPEDECALA PRIMITIVE, ENVIRONMENT, TEXEL0, ENVIRONMENT, 0, 0, 0, TEXEL0
/* oddball modes */
#define _G_CC_BLENDPE ENVIRONMENT, PRIMITIVE, TEXEL0, PRIMITIVE, TEXEL0, 0, SHADE, 0
#define _G_CC_BLENDPEDECALA ENVIRONMENT, PRIMITIVE, TEXEL0, PRIMITIVE, 0, 0, 0, TEXEL0
#define _G_CC_TWOCOLORTEX PRIMITIVE, SHADE, TEXEL0, SHADE, 0, 0, 0, SHADE
/* used for 1-cycle sparse mip-maps, primitive color has color of lowest LOD */
#define _G_CC_SPARSEST PRIMITIVE, TEXEL0, LOD_FRACTION, TEXEL0, PRIMITIVE, TEXEL0, LOD_FRACTION, TEXEL0
#define G_CC_TEMPLERP TEXEL1, TEXEL0, PRIM_LOD_FRAC, TEXEL0, TEXEL1, TEXEL0, PRIM_LOD_FRAC, TEXEL0
/* typical CC cycle 1 modes, usually followed by other cycle 2 modes */
#define G_CC_TRILERP TEXEL1, TEXEL0, LOD_FRACTION, TEXEL0, TEXEL1, TEXEL0, LOD_FRACTION, TEXEL0
#define G_CC_INTERFERENCE TEXEL0, 0, TEXEL1, 0, TEXEL0, 0, TEXEL1, 0
/*
* One-cycle color convert operation
*/
#define G_CC_1CYUV2RGB TEXEL0, K4, K5, TEXEL0, 0, 0, 0, SHADE
/*
* NOTE: YUV2RGB expects TF step1 color conversion to occur in 2nd clock.
* Therefore, CC looks for step1 results in TEXEL1
*/
#define G_CC_YUV2RGB TEXEL1, K4, K5, TEXEL1, 0, 0, 0, 0
/* typical CC cycle 2 modes */
#define G_CC_PASS2 0, 0, 0, COMBINED, 0, 0, 0, COMBINED
#define G_CC_MODULATEI2 COMBINED, 0, SHADE, 0, 0, 0, 0, SHADE
#define G_CC_MODULATEIA2 COMBINED, 0, SHADE, 0, COMBINED, 0, SHADE, 0
#define G_CC_MODULATERGB2 G_CC_MODULATEI2
#define G_CC_MODULATERGBA2 G_CC_MODULATEIA2
#define G_CC_MODULATEI_PRIM2 COMBINED, 0, PRIMITIVE, 0, 0, 0, 0, PRIMITIVE
#define G_CC_MODULATEIA_PRIM2 COMBINED, 0, PRIMITIVE, 0, COMBINED, 0, PRIMITIVE, 0
#define G_CC_MODULATERGB_PRIM2 G_CC_MODULATEI_PRIM2
#define G_CC_MODULATERGBA_PRIM2 G_CC_MODULATEIA_PRIM2
#define G_CC_DECALRGB2 0, 0, 0, COMBINED, 0, 0, 0, SHADE
/*
* ?
#define G_CC_DECALRGBA2 COMBINED, SHADE, COMBINED_ALPHA, SHADE, 0, 0, 0, SHADE
*/
#define G_CC_BLENDI2 ENVIRONMENT, SHADE, COMBINED, SHADE, 0, 0, 0, SHADE
#define G_CC_BLENDIA2 ENVIRONMENT, SHADE, COMBINED, SHADE, COMBINED, 0, SHADE, 0
#define G_CC_CHROMA_KEY2 TEXEL0, CENTER, SCALE, 0, 0, 0, 0, 0
#define G_CC_HILITERGB2 ENVIRONMENT, COMBINED, TEXEL0, COMBINED, 0, 0, 0, SHADE
#define G_CC_HILITERGBA2 ENVIRONMENT, COMBINED, TEXEL0, COMBINED, ENVIRONMENT, COMBINED, TEXEL0, COMBINED
#define G_CC_HILITERGBDECALA2 ENVIRONMENT, COMBINED, TEXEL0, COMBINED, 0, 0, 0, TEXEL0
#define G_CC_HILITERGBPASSA2 ENVIRONMENT, COMBINED, TEXEL0, COMBINED, 0, 0, 0, COMBINED
/*
* G_SETOTHERMODE_L sft: shift count
*/
#define G_MDSFT_ALPHACOMPARE 0
#define G_MDSFT_ZSRCSEL 2
#define G_MDSFT_RENDERMODE 3
#define G_MDSFT_BLENDER 16
/*
* G_SETOTHERMODE_H sft: shift count
*/
#define G_MDSFT_BLENDMASK 0 /* unsupported */
#define G_MDSFT_ALPHADITHER 4
#define G_MDSFT_RGBDITHER 6
#define G_MDSFT_COMBKEY 8
#define G_MDSFT_TEXTCONV 9
#define G_MDSFT_TEXTFILT 12
#define G_MDSFT_TEXTLUT 14
#define G_MDSFT_TEXTLOD 16
#define G_MDSFT_TEXTDETAIL 17
#define G_MDSFT_TEXTPERSP 19
#define G_MDSFT_CYCLETYPE 20
#define G_MDSFT_COLORDITHER 22 /* unsupported in HW 2.0 */
#define G_MDSFT_PIPELINE 23
/* G_SETOTHERMODE_H gPipelineMode */
#define G_PM_1PRIMITIVE (1 << G_MDSFT_PIPELINE)
#define G_PM_NPRIMITIVE (0 << G_MDSFT_PIPELINE)
/* G_SETOTHERMODE_H gSetCycleType */
#define G_CYC_1CYCLE (0 << G_MDSFT_CYCLETYPE)
#define G_CYC_2CYCLE (1 << G_MDSFT_CYCLETYPE)
#define G_CYC_COPY (2 << G_MDSFT_CYCLETYPE)
#define G_CYC_FILL (3 << G_MDSFT_CYCLETYPE)
/* G_SETOTHERMODE_H gSetTexturePersp */
#define G_TP_NONE (0 << G_MDSFT_TEXTPERSP)
#define G_TP_PERSP (1 << G_MDSFT_TEXTPERSP)
/* G_SETOTHERMODE_H gSetTextureDetail */
#define G_TD_CLAMP (0 << G_MDSFT_TEXTDETAIL)
#define G_TD_SHARPEN (1 << G_MDSFT_TEXTDETAIL)
#define G_TD_DETAIL (2 << G_MDSFT_TEXTDETAIL)
/* G_SETOTHERMODE_H gSetTextureLOD */
#define G_TL_TILE (0 << G_MDSFT_TEXTLOD)
#define G_TL_LOD (1 << G_MDSFT_TEXTLOD)
/* G_SETOTHERMODE_H gSetTextureLUT */
#define G_TT_NONE (0 << G_MDSFT_TEXTLUT)
#define G_TT_RGBA16 (2 << G_MDSFT_TEXTLUT)
#define G_TT_IA16 (3 << G_MDSFT_TEXTLUT)
/* G_SETOTHERMODE_H gSetTextureFilter */
#define G_TF_POINT (0 << G_MDSFT_TEXTFILT)
#define G_TF_AVERAGE (3 << G_MDSFT_TEXTFILT)
#define G_TF_BILERP (2 << G_MDSFT_TEXTFILT)
/* G_SETOTHERMODE_H gSetTextureConvert */
#define G_TC_CONV (0 << G_MDSFT_TEXTCONV)
#define G_TC_FILTCONV (5 << G_MDSFT_TEXTCONV)
#define G_TC_FILT (6 << G_MDSFT_TEXTCONV)
/* G_SETOTHERMODE_H gSetCombineKey */
#define G_CK_NONE (0 << G_MDSFT_COMBKEY)
#define G_CK_KEY (1 << G_MDSFT_COMBKEY)
/* G_SETOTHERMODE_H gSetColorDither */
#define G_CD_MAGICSQ (0 << G_MDSFT_RGBDITHER)
#define G_CD_BAYER (1 << G_MDSFT_RGBDITHER)
#define G_CD_NOISE (2 << G_MDSFT_RGBDITHER)
#ifndef _HW_VERSION_1
#define G_CD_DISABLE (3 << G_MDSFT_RGBDITHER)
#define G_CD_ENABLE G_CD_NOISE /* HW 1.0 compatibility mode */
#else
#define G_CD_ENABLE (1 << G_MDSFT_COLORDITHER)
#define G_CD_DISABLE (0 << G_MDSFT_COLORDITHER)
#endif
/* G_SETOTHERMODE_H gSetAlphaDither */
#define G_AD_PATTERN (0 << G_MDSFT_ALPHADITHER)
#define G_AD_NOTPATTERN (1 << G_MDSFT_ALPHADITHER)
#define G_AD_NOISE (2 << G_MDSFT_ALPHADITHER)
#define G_AD_DISABLE (3 << G_MDSFT_ALPHADITHER)
/* G_SETOTHERMODE_L gSetAlphaCompare */
#define G_AC_NONE (0 << G_MDSFT_ALPHACOMPARE)
#define G_AC_THRESHOLD (1 << G_MDSFT_ALPHACOMPARE)
#define G_AC_DITHER (3 << G_MDSFT_ALPHACOMPARE)
/* G_SETOTHERMODE_L gSetDepthSource */
#define G_ZS_PIXEL (0 << G_MDSFT_ZSRCSEL)
#define G_ZS_PRIM (1 << G_MDSFT_ZSRCSEL)
/* G_SETOTHERMODE_L gSetRenderMode */
#define AA_EN 0x8
#define Z_CMP 0x10
#define Z_UPD 0x20
#define IM_RD 0x40
#define CLR_ON_CVG 0x80
#define CVG_DST_CLAMP 0
#define CVG_DST_WRAP 0x100
#define CVG_DST_FULL 0x200
#define CVG_DST_SAVE 0x300
#define ZMODE_OPA 0
#define ZMODE_INTER 0x400
#define ZMODE_XLU 0x800
#define ZMODE_DEC 0xc00
#define CVG_X_ALPHA 0x1000
#define ALPHA_CVG_SEL 0x2000
#define FORCE_BL 0x4000
#define TEX_EDGE 0x0000 /* used to be 0x8000 */
#define G_BL_CLR_IN 0
#define G_BL_CLR_MEM 1
#define G_BL_CLR_BL 2
#define G_BL_CLR_FOG 3
#define G_BL_1MA 0
#define G_BL_A_MEM 1
#define G_BL_A_IN 0
#define G_BL_A_FOG 1
#define G_BL_A_SHADE 2
#define G_BL_1 2
#define G_BL_0 3
#define GBL_c1(m1a, m1b, m2a, m2b) \
(m1a) << 30 | (m1b) << 26 | (m2a) << 22 | (m2b) << 18
#define GBL_c2(m1a, m1b, m2a, m2b) \
(m1a) << 28 | (m1b) << 24 | (m2a) << 20 | (m2b) << 16
#define RM_AA_ZB_OPA_SURF(clk) \
AA_EN | Z_CMP | Z_UPD | IM_RD | CVG_DST_CLAMP | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_RA_ZB_OPA_SURF(clk) \
AA_EN | Z_CMP | Z_UPD | CVG_DST_CLAMP | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_AA_ZB_XLU_SURF(clk) \
AA_EN | Z_CMP | IM_RD | CVG_DST_WRAP | CLR_ON_CVG | \
FORCE_BL | ZMODE_XLU | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_ZB_OPA_DECAL(clk) \
AA_EN | Z_CMP | IM_RD | CVG_DST_WRAP | ALPHA_CVG_SEL | \
ZMODE_DEC | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_RA_ZB_OPA_DECAL(clk) \
AA_EN | Z_CMP | CVG_DST_WRAP | ALPHA_CVG_SEL | \
ZMODE_DEC | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_AA_ZB_XLU_DECAL(clk) \
AA_EN | Z_CMP | IM_RD | CVG_DST_WRAP | CLR_ON_CVG | \
FORCE_BL | ZMODE_DEC | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_ZB_OPA_INTER(clk) \
AA_EN | Z_CMP | Z_UPD | IM_RD | CVG_DST_CLAMP | \
ALPHA_CVG_SEL | ZMODE_INTER | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_RA_ZB_OPA_INTER(clk) \
AA_EN | Z_CMP | Z_UPD | CVG_DST_CLAMP | \
ALPHA_CVG_SEL | ZMODE_INTER | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_AA_ZB_XLU_INTER(clk) \
AA_EN | Z_CMP | IM_RD | CVG_DST_WRAP | CLR_ON_CVG | \
FORCE_BL | ZMODE_INTER | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_ZB_XLU_LINE(clk) \
AA_EN | Z_CMP | IM_RD | CVG_DST_CLAMP | CVG_X_ALPHA | \
ALPHA_CVG_SEL | FORCE_BL | ZMODE_XLU | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_ZB_DEC_LINE(clk) \
AA_EN | Z_CMP | IM_RD | CVG_DST_SAVE | CVG_X_ALPHA | \
ALPHA_CVG_SEL | FORCE_BL | ZMODE_DEC | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_ZB_TEX_EDGE(clk) \
AA_EN | Z_CMP | Z_UPD | IM_RD | CVG_DST_CLAMP | \
CVG_X_ALPHA | ALPHA_CVG_SEL | ZMODE_OPA | TEX_EDGE | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_AA_ZB_TEX_INTER(clk) \
AA_EN | Z_CMP | Z_UPD | IM_RD | CVG_DST_CLAMP | \
CVG_X_ALPHA | ALPHA_CVG_SEL | ZMODE_INTER | TEX_EDGE | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_AA_ZB_SUB_SURF(clk) \
AA_EN | Z_CMP | Z_UPD | IM_RD | CVG_DST_FULL | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_AA_ZB_PCL_SURF(clk) \
AA_EN | Z_CMP | Z_UPD | IM_RD | CVG_DST_CLAMP | \
ZMODE_OPA | G_AC_DITHER | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_ZB_OPA_TERR(clk) \
AA_EN | Z_CMP | Z_UPD | IM_RD | CVG_DST_CLAMP | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_ZB_TEX_TERR(clk) \
AA_EN | Z_CMP | Z_UPD | IM_RD | CVG_DST_CLAMP | \
CVG_X_ALPHA | ALPHA_CVG_SEL | ZMODE_OPA | TEX_EDGE | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_ZB_SUB_TERR(clk) \
AA_EN | Z_CMP | Z_UPD | IM_RD | CVG_DST_FULL | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_OPA_SURF(clk) \
AA_EN | IM_RD | CVG_DST_CLAMP | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_RA_OPA_SURF(clk) \
AA_EN | CVG_DST_CLAMP | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_AA_XLU_SURF(clk) \
AA_EN | IM_RD | CVG_DST_WRAP | CLR_ON_CVG | FORCE_BL | \
ZMODE_OPA | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_XLU_LINE(clk) \
AA_EN | IM_RD | CVG_DST_CLAMP | CVG_X_ALPHA | \
ALPHA_CVG_SEL | FORCE_BL | ZMODE_OPA | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_DEC_LINE(clk) \
AA_EN | IM_RD | CVG_DST_FULL | CVG_X_ALPHA | \
ALPHA_CVG_SEL | FORCE_BL | ZMODE_OPA | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_TEX_EDGE(clk) \
AA_EN | IM_RD | CVG_DST_CLAMP | \
CVG_X_ALPHA | ALPHA_CVG_SEL | ZMODE_OPA | TEX_EDGE | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_AA_SUB_SURF(clk) \
AA_EN | IM_RD | CVG_DST_FULL | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_AA_PCL_SURF(clk) \
AA_EN | IM_RD | CVG_DST_CLAMP | \
ZMODE_OPA | G_AC_DITHER | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_OPA_TERR(clk) \
AA_EN | IM_RD | CVG_DST_CLAMP | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_TEX_TERR(clk) \
AA_EN | IM_RD | CVG_DST_CLAMP | \
CVG_X_ALPHA | ALPHA_CVG_SEL | ZMODE_OPA | TEX_EDGE | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_AA_SUB_TERR(clk) \
AA_EN | IM_RD | CVG_DST_FULL | \
ZMODE_OPA | ALPHA_CVG_SEL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_ZB_OPA_SURF(clk) \
Z_CMP | Z_UPD | CVG_DST_FULL | ALPHA_CVG_SEL | \
ZMODE_OPA | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_ZB_XLU_SURF(clk) \
Z_CMP | IM_RD | CVG_DST_FULL | FORCE_BL | ZMODE_XLU | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_ZB_OPA_DECAL(clk) \
Z_CMP | CVG_DST_FULL | ALPHA_CVG_SEL | ZMODE_DEC | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_A_MEM)
#define RM_ZB_XLU_DECAL(clk) \
Z_CMP | IM_RD | CVG_DST_FULL | FORCE_BL | ZMODE_DEC | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_ZB_CLD_SURF(clk) \
Z_CMP | IM_RD | CVG_DST_SAVE | FORCE_BL | ZMODE_XLU | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_ZB_OVL_SURF(clk) \
Z_CMP | IM_RD | CVG_DST_SAVE | FORCE_BL | ZMODE_DEC | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_ZB_PCL_SURF(clk) \
Z_CMP | Z_UPD | CVG_DST_FULL | ZMODE_OPA | \
G_AC_DITHER | \
GBL_c##clk(G_BL_CLR_IN, G_BL_0, G_BL_CLR_IN, G_BL_1)
#define RM_OPA_SURF(clk) \
CVG_DST_CLAMP | FORCE_BL | ZMODE_OPA | \
GBL_c##clk(G_BL_CLR_IN, G_BL_0, G_BL_CLR_IN, G_BL_1)
#define RM_XLU_SURF(clk) \
IM_RD | CVG_DST_FULL | FORCE_BL | ZMODE_OPA | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_TEX_EDGE(clk) \
CVG_DST_CLAMP | CVG_X_ALPHA | ALPHA_CVG_SEL | FORCE_BL |\
ZMODE_OPA | TEX_EDGE | AA_EN | \
GBL_c##clk(G_BL_CLR_IN, G_BL_0, G_BL_CLR_IN, G_BL_1)
#define RM_CLD_SURF(clk) \
IM_RD | CVG_DST_SAVE | FORCE_BL | ZMODE_OPA | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_IN, G_BL_CLR_MEM, G_BL_1MA)
#define RM_PCL_SURF(clk) \
CVG_DST_FULL | FORCE_BL | ZMODE_OPA | \
G_AC_DITHER | \
GBL_c##clk(G_BL_CLR_IN, G_BL_0, G_BL_CLR_IN, G_BL_1)
#define RM_ADD(clk) \
IM_RD | CVG_DST_SAVE | FORCE_BL | ZMODE_OPA | \
GBL_c##clk(G_BL_CLR_IN, G_BL_A_FOG, G_BL_CLR_MEM, G_BL_1)
#define RM_NOOP(clk) \
GBL_c##clk(0, 0, 0, 0)
#define RM_VISCVG(clk) \
IM_RD | FORCE_BL | \
GBL_c##clk(G_BL_CLR_IN, G_BL_0, G_BL_CLR_BL, G_BL_A_MEM)
/* for rendering to an 8-bit framebuffer */
#define RM_OPA_CI(clk) \
CVG_DST_CLAMP | ZMODE_OPA | \
GBL_c##clk(G_BL_CLR_IN, G_BL_0, G_BL_CLR_IN, G_BL_1)
#define G_RM_AA_ZB_OPA_SURF RM_AA_ZB_OPA_SURF(1)
#define G_RM_AA_ZB_OPA_SURF2 RM_AA_ZB_OPA_SURF(2)
#define G_RM_AA_ZB_XLU_SURF RM_AA_ZB_XLU_SURF(1)
#define G_RM_AA_ZB_XLU_SURF2 RM_AA_ZB_XLU_SURF(2)
#define G_RM_AA_ZB_OPA_DECAL RM_AA_ZB_OPA_DECAL(1)
#define G_RM_AA_ZB_OPA_DECAL2 RM_AA_ZB_OPA_DECAL(2)
#define G_RM_AA_ZB_XLU_DECAL RM_AA_ZB_XLU_DECAL(1)
#define G_RM_AA_ZB_XLU_DECAL2 RM_AA_ZB_XLU_DECAL(2)
#define G_RM_AA_ZB_OPA_INTER RM_AA_ZB_OPA_INTER(1)
#define G_RM_AA_ZB_OPA_INTER2 RM_AA_ZB_OPA_INTER(2)
#define G_RM_AA_ZB_XLU_INTER RM_AA_ZB_XLU_INTER(1)
#define G_RM_AA_ZB_XLU_INTER2 RM_AA_ZB_XLU_INTER(2)
#define G_RM_AA_ZB_XLU_LINE RM_AA_ZB_XLU_LINE(1)
#define G_RM_AA_ZB_XLU_LINE2 RM_AA_ZB_XLU_LINE(2)
#define G_RM_AA_ZB_DEC_LINE RM_AA_ZB_DEC_LINE(1)
#define G_RM_AA_ZB_DEC_LINE2 RM_AA_ZB_DEC_LINE(2)
#define G_RM_AA_ZB_TEX_EDGE RM_AA_ZB_TEX_EDGE(1)
#define G_RM_AA_ZB_TEX_EDGE2 RM_AA_ZB_TEX_EDGE(2)
#define G_RM_AA_ZB_TEX_INTER RM_AA_ZB_TEX_INTER(1)
#define G_RM_AA_ZB_TEX_INTER2 RM_AA_ZB_TEX_INTER(2)
#define G_RM_AA_ZB_SUB_SURF RM_AA_ZB_SUB_SURF(1)
#define G_RM_AA_ZB_SUB_SURF2 RM_AA_ZB_SUB_SURF(2)
#define G_RM_AA_ZB_PCL_SURF RM_AA_ZB_PCL_SURF(1)
#define G_RM_AA_ZB_PCL_SURF2 RM_AA_ZB_PCL_SURF(2)
#define G_RM_AA_ZB_OPA_TERR RM_AA_ZB_OPA_TERR(1)
#define G_RM_AA_ZB_OPA_TERR2 RM_AA_ZB_OPA_TERR(2)
#define G_RM_AA_ZB_TEX_TERR RM_AA_ZB_TEX_TERR(1)
#define G_RM_AA_ZB_TEX_TERR2 RM_AA_ZB_TEX_TERR(2)
#define G_RM_AA_ZB_SUB_TERR RM_AA_ZB_SUB_TERR(1)
#define G_RM_AA_ZB_SUB_TERR2 RM_AA_ZB_SUB_TERR(2)
#define G_RM_RA_ZB_OPA_SURF RM_RA_ZB_OPA_SURF(1)
#define G_RM_RA_ZB_OPA_SURF2 RM_RA_ZB_OPA_SURF(2)
#define G_RM_RA_ZB_OPA_DECAL RM_RA_ZB_OPA_DECAL(1)
#define G_RM_RA_ZB_OPA_DECAL2 RM_RA_ZB_OPA_DECAL(2)
#define G_RM_RA_ZB_OPA_INTER RM_RA_ZB_OPA_INTER(1)
#define G_RM_RA_ZB_OPA_INTER2 RM_RA_ZB_OPA_INTER(2)
#define G_RM_AA_OPA_SURF RM_AA_OPA_SURF(1)
#define G_RM_AA_OPA_SURF2 RM_AA_OPA_SURF(2)
#define G_RM_AA_XLU_SURF RM_AA_XLU_SURF(1)
#define G_RM_AA_XLU_SURF2 RM_AA_XLU_SURF(2)
#define G_RM_AA_XLU_LINE RM_AA_XLU_LINE(1)
#define G_RM_AA_XLU_LINE2 RM_AA_XLU_LINE(2)
#define G_RM_AA_DEC_LINE RM_AA_DEC_LINE(1)
#define G_RM_AA_DEC_LINE2 RM_AA_DEC_LINE(2)
#define G_RM_AA_TEX_EDGE RM_AA_TEX_EDGE(1)
#define G_RM_AA_TEX_EDGE2 RM_AA_TEX_EDGE(2)
#define G_RM_AA_SUB_SURF RM_AA_SUB_SURF(1)
#define G_RM_AA_SUB_SURF2 RM_AA_SUB_SURF(2)
#define G_RM_AA_PCL_SURF RM_AA_PCL_SURF(1)
#define G_RM_AA_PCL_SURF2 RM_AA_PCL_SURF(2)
#define G_RM_AA_OPA_TERR RM_AA_OPA_TERR(1)
#define G_RM_AA_OPA_TERR2 RM_AA_OPA_TERR(2)
#define G_RM_AA_TEX_TERR RM_AA_TEX_TERR(1)
#define G_RM_AA_TEX_TERR2 RM_AA_TEX_TERR(2)
#define G_RM_AA_SUB_TERR RM_AA_SUB_TERR(1)
#define G_RM_AA_SUB_TERR2 RM_AA_SUB_TERR(2)
#define G_RM_RA_OPA_SURF RM_RA_OPA_SURF(1)
#define G_RM_RA_OPA_SURF2 RM_RA_OPA_SURF(2)
#define G_RM_ZB_OPA_SURF RM_ZB_OPA_SURF(1)
#define G_RM_ZB_OPA_SURF2 RM_ZB_OPA_SURF(2)
#define G_RM_ZB_XLU_SURF RM_ZB_XLU_SURF(1)
#define G_RM_ZB_XLU_SURF2 RM_ZB_XLU_SURF(2)
#define G_RM_ZB_OPA_DECAL RM_ZB_OPA_DECAL(1)
#define G_RM_ZB_OPA_DECAL2 RM_ZB_OPA_DECAL(2)
#define G_RM_ZB_XLU_DECAL RM_ZB_XLU_DECAL(1)
#define G_RM_ZB_XLU_DECAL2 RM_ZB_XLU_DECAL(2)
#define G_RM_ZB_CLD_SURF RM_ZB_CLD_SURF(1)
#define G_RM_ZB_CLD_SURF2 RM_ZB_CLD_SURF(2)
#define G_RM_ZB_OVL_SURF RM_ZB_OVL_SURF(1)
#define G_RM_ZB_OVL_SURF2 RM_ZB_OVL_SURF(2)
#define G_RM_ZB_PCL_SURF RM_ZB_PCL_SURF(1)
#define G_RM_ZB_PCL_SURF2 RM_ZB_PCL_SURF(2)
#define G_RM_OPA_SURF RM_OPA_SURF(1)
#define G_RM_OPA_SURF2 RM_OPA_SURF(2)
#define G_RM_XLU_SURF RM_XLU_SURF(1)
#define G_RM_XLU_SURF2 RM_XLU_SURF(2)
#define G_RM_CLD_SURF RM_CLD_SURF(1)
#define G_RM_CLD_SURF2 RM_CLD_SURF(2)
#define G_RM_TEX_EDGE RM_TEX_EDGE(1)
#define G_RM_TEX_EDGE2 RM_TEX_EDGE(2)
#define G_RM_PCL_SURF RM_PCL_SURF(1)
#define G_RM_PCL_SURF2 RM_PCL_SURF(2)
#define G_RM_ADD RM_ADD(1)
#define G_RM_ADD2 RM_ADD(2)
#define G_RM_NOOP RM_NOOP(1)
#define G_RM_NOOP2 RM_NOOP(2)
#define G_RM_VISCVG RM_VISCVG(1)
#define G_RM_VISCVG2 RM_VISCVG(2)
#define G_RM_OPA_CI RM_OPA_CI(1)
#define G_RM_OPA_CI2 RM_OPA_CI(2)
#define G_RM_FOG_SHADE_A GBL_c1(G_BL_CLR_FOG, G_BL_A_SHADE, G_BL_CLR_IN, G_BL_1MA)
#define G_RM_FOG_PRIM_A GBL_c1(G_BL_CLR_FOG, G_BL_A_FOG, G_BL_CLR_IN, G_BL_1MA)
#define G_RM_PASS GBL_c1(G_BL_CLR_IN, G_BL_0, G_BL_CLR_IN, G_BL_1)
/*
* G_SETCONVERT: K0-5
*/
#define G_CV_K0 175
#define G_CV_K1 -43
#define G_CV_K2 -89
#define G_CV_K3 222
#define G_CV_K4 114
#define G_CV_K5 42
/*
* G_SETSCISSOR: interlace mode
*/
#define G_SC_NON_INTERLACE 0
#define G_SC_ODD_INTERLACE 3
#define G_SC_EVEN_INTERLACE 2
/* flags to inhibit pushing of the display list (on branch) */
#define G_DL_PUSH 0x00
#define G_DL_NOPUSH 0x01
/*
* BEGIN C-specific section: (typedef's)
*/
#if defined(_LANGUAGE_C) || defined(_LANGUAGE_C_PLUS_PLUS)
/*
* Data Structures
*
* NOTE:
* The DMA transfer hardware requires 64-bit aligned, 64-bit multiple-
* sized transfers. This important hardware optimization is unfortunately
* reflected in the programming interface, with some structures
* padded and alignment enforced.
*
* Since structures are aligned to the boundary of the "worst-case"
* element, we can't depend on the C compiler to align things
* properly.
*
* 64-bit structure alignment is enforced by wrapping structures with
* unions that contain a dummy "long long int". Why this works is
* explained in the ANSI C Spec, or on page 186 of the second edition
* of K&R, "The C Programming Language".
*
* The price we pay for this is a little awkwardness referencing the
* structures through the union. There is no memory penalty, since
* all the structures are at least 64-bits the dummy alignment field
* does not increase the size of the union.
*
* Static initialization of these union structures works because
* the ANSI C spec states that static initialization for unions
* works by using the first union element. We put the dummy alignment
* field last for this reason.
*
* (it's possible a newer 64-bit compiler from MIPS might make this
* easier with a flag, but we can't wait for it...)
*
*/
/*
* Vertex (set up for use with colors)
*/
typedef struct {
short ob[3]; /* x, y, z */
unsigned short flag;
short tc[2]; /* texture coord */
unsigned char cn[4]; /* color & alpha */
} Vtx_t;
/*
* Vertex (set up for use with normals)
*/
typedef struct {
short ob[3]; /* x, y, z */
unsigned short flag;
short tc[2]; /* texture coord */
signed char n[3]; /* normal */
unsigned char a; /* alpha */
} Vtx_tn;
typedef union {
Vtx_t v; /* Use this one for colors */
Vtx_tn n; /* Use this one for normals */
long long int force_structure_alignment;
} Vtx;
/*
* Sprite structure
*/
#ifdef VER20E
typedef struct {
void *SourceImagePointer;
void *TlutPointer;
int Stride;
int SubImageWidth;
int SubImageHeight;
int SourceImageType;
int SourceImageBitSize;
int ScaleX;
int ScaleY;
int FlipTextureX;
int FlipTextureY;
int SourceImageOffsetS;
int SourceImageOffsetT;
int PScreenX;
int PScreenY;
int SpriteZ;
int YFlipMirror;
/* 17 * 4 bytes for above */
/* Space for temporary variables */
int dummy[13];
} uSprite_t;
#else /* Ver 2.0f and later */
typedef struct {
void *SourceImagePointer;
void *TlutPointer;
short Stride;
short SubImageWidth;
short SubImageHeight;
char SourceImageType;
char SourceImageBitSize;
short ScaleX;
short ScaleY;
char FlipTextureX;
char FlipTextureY;
short SourceImageOffsetS;
short SourceImageOffsetT;
short PScreenX;
short PScreenY;
/* 30 bytes for above */
/* padding to bring structure size to 64 bit allignment */
char dummy[2];
} uSprite_t;
#endif
typedef union {
uSprite_t s;
/* Need to make sure this is 64 bit aligned */
long long int force_structure_allignment[4];
} uSprite;
/*
* Triangle face
*/
typedef struct {
unsigned char flag;
unsigned char v[3];
} Tri;
/*
* 4x4 matrix, fixed point s15.16 format.
* First 8 words are integer portion of the 4x4 matrix
* Last 8 words are the fraction portion of the 4x4 matrix
*/
typedef long Mtx_t[4][4];
typedef union {
Mtx_t m;
long long int force_structure_alignment;
} Mtx;
/*
* Viewport
*/
/*
*
* This magic value is the maximum INTEGER z-range of the hardware
* (there are also 16-bits of fraction, which are introduced during
* any transformations). This is not just a good idea, it's the law.
* Feeding the hardware eventual z-coordinates (after any transforms
* or scaling) bigger than this, will not work.
*
* This number is DIFFERENT than G_MAXFBZ, which is the maximum value
* you want to use to initialize the z-buffer.
*
* The reason these are different is mildly interesting, but too long
* to explain here. It is basically the result of optimizations in the
* hardware. A more generic API might hide this detail from the users,
* but we don't have the ucode to do that...
*
*/
#define G_MAXZ 0x03ff /* 10 bits of integer screen-Z precision */
/*
* The viewport structure elements have 2 bits of fraction, necessary
* to accomodate the sub-pixel positioning scaling for the hardware.
* This can also be exploited to handle odd-sized viewports.
*
* Accounting for these fractional bits, using the default projection
* and viewing matrices, the viewport structure is initialized thusly:
*
* (SCREEN_WD/2)*4, (SCREEN_HT/2)*4, G_MAXZ, 0,
* (SCREEN_WD/2)*4, (SCREEN_HT/2)*4, 0, 0,
*/
typedef struct {
short vscale[4]; /* scale, 2 bits fraction */
short vtrans[4]; /* translate, 2 bits fraction */
/* both the above arrays are padded to 64-bit boundary */
} Vp_t;
typedef union {
Vp_t vp;
long long int force_structure_alignment;
} Vp;
/*
* MOVEMEM indices
*
* Each of these indexes an entry in a dmem table
* which points to a 1-4 word block of dmem in
* which to store a 1-4 word DMA.
*
*/
#define G_MV_VIEWPORT 0x80
#define G_MV_LOOKATY 0x82
#define G_MV_LOOKATX 0x84
#define G_MV_L0 0x86
#define G_MV_L1 0x88
#define G_MV_L2 0x8a
#define G_MV_L3 0x8c
#define G_MV_L4 0x8e
#define G_MV_L5 0x90
#define G_MV_L6 0x92
#define G_MV_L7 0x94
#define G_MV_TXTATT 0x96
#define G_MV_MATRIX_1 0x9e /* NOTE: this is in moveword table */
#define G_MV_MATRIX_2 0x98
#define G_MV_MATRIX_3 0x9a
#define G_MV_MATRIX_4 0x9c
/*
* MOVEWORD indices
*
* Each of these indexes an entry in a dmem table
* which points to a word in dmem in dmem where
* an immediate word will be stored.
*
*/
#define G_MW_MATRIX 0x00 /* NOTE: also used by movemem */
#define G_MW_NUMLIGHT 0x02
#define G_MW_CLIP 0x04
#define G_MW_SEGMENT 0x06
#define G_MW_FOG 0x08
#define G_MW_LIGHTCOL 0x0a
#define G_MW_POINTS 0x0c
#ifndef VER20E
# define G_MW_PERSPNORM 0x0e
#endif
/*
* These are offsets from the address in the dmem table
*/
#define G_MWO_NUMLIGHT 0x00
#define G_MWO_CLIP_RNX 0x04
#define G_MWO_CLIP_RNY 0x0c
#define G_MWO_CLIP_RPX 0x14
#define G_MWO_CLIP_RPY 0x1c
#define G_MWO_SEGMENT_0 0x00
#define G_MWO_SEGMENT_1 0x01
#define G_MWO_SEGMENT_2 0x02
#define G_MWO_SEGMENT_3 0x03
#define G_MWO_SEGMENT_4 0x04
#define G_MWO_SEGMENT_5 0x05
#define G_MWO_SEGMENT_6 0x06
#define G_MWO_SEGMENT_7 0x07
#define G_MWO_SEGMENT_8 0x08
#define G_MWO_SEGMENT_9 0x09
#define G_MWO_SEGMENT_A 0x0a
#define G_MWO_SEGMENT_B 0x0b
#define G_MWO_SEGMENT_C 0x0c
#define G_MWO_SEGMENT_D 0x0d
#define G_MWO_SEGMENT_E 0x0e
#define G_MWO_SEGMENT_F 0x0f
#define G_MWO_FOG 0x00
#define G_MWO_aLIGHT_1 0x00
#define G_MWO_bLIGHT_1 0x04
#define G_MWO_aLIGHT_2 0x20
#define G_MWO_bLIGHT_2 0x24
#define G_MWO_aLIGHT_3 0x40
#define G_MWO_bLIGHT_3 0x44
#define G_MWO_aLIGHT_4 0x60
#define G_MWO_bLIGHT_4 0x64
#define G_MWO_aLIGHT_5 0x80
#define G_MWO_bLIGHT_5 0x84
#define G_MWO_aLIGHT_6 0xa0
#define G_MWO_bLIGHT_6 0xa4
#define G_MWO_aLIGHT_7 0xc0
#define G_MWO_bLIGHT_7 0xc4
#define G_MWO_aLIGHT_8 0xe0
#define G_MWO_bLIGHT_8 0xe4
#define G_MWO_MATRIX_XX_XY_I 0x00
#define G_MWO_MATRIX_XZ_XW_I 0x04
#define G_MWO_MATRIX_YX_YY_I 0x08
#define G_MWO_MATRIX_YZ_YW_I 0x0c
#define G_MWO_MATRIX_ZX_ZY_I 0x10
#define G_MWO_MATRIX_ZZ_ZW_I 0x14
#define G_MWO_MATRIX_WX_WY_I 0x18
#define G_MWO_MATRIX_WZ_WW_I 0x1c
#define G_MWO_MATRIX_XX_XY_F 0x20
#define G_MWO_MATRIX_XZ_XW_F 0x24
#define G_MWO_MATRIX_YX_YY_F 0x28
#define G_MWO_MATRIX_YZ_YW_F 0x2c
#define G_MWO_MATRIX_ZX_ZY_F 0x30
#define G_MWO_MATRIX_ZZ_ZW_F 0x34
#define G_MWO_MATRIX_WX_WY_F 0x38
#define G_MWO_MATRIX_WZ_WW_F 0x3c
/* L[PX].Rej 側で変換することで EX/LX との互換性をとる */
#define G_MWO_POINT_RGBA 0x10 /* =0x08 in L[PX].Rej */
#define G_MWO_POINT_ST 0x14 /* =0x0c in L[PX].Rej */
#define G_MWO_POINT_XYSCREEN 0x18 /* =0x00 in L[PX].Rej */
#define G_MWO_POINT_ZSCREEN 0x1c /* =0x04 in L[PX].Rej */
/*
* Light structure.
*
* Note: only directional (infinite) lights are currently supported.
*
* Note: the weird order is for the DMEM alignment benefit of
* the microcode.
*
*/
typedef struct {
unsigned char col[3]; /* diffuse light value (rgba) */
char pad1;
unsigned char colc[3]; /* copy of diffuse light value (rgba) */
char pad2;
signed char dir[3]; /* direction of light (normalized) */
char pad3;
} Light_t;
typedef struct {
unsigned char col[3]; /* ambient light value (rgba) */
char pad1;
unsigned char colc[3]; /* copy of ambient light value (rgba) */
char pad2;
} Ambient_t;
typedef struct {
int x1,y1,x2,y2; /* texture offsets for highlight 1/2 */
} Hilite_t;
typedef union {
Light_t l;
long long int force_structure_alignment[2];
} Light;
typedef union {
Ambient_t l;
long long int force_structure_alignment[1];
} Ambient;
typedef struct {
Ambient a;
Light l[7];
} Lightsn;
typedef struct {
Ambient a;
Light l[1];
} Lights0;
typedef struct {
Ambient a;
Light l[1];
} Lights1;
typedef struct {
Ambient a;
Light l[2];
} Lights2;
typedef struct {
Ambient a;
Light l[3];
} Lights3;
typedef struct {
Ambient a;
Light l[4];
} Lights4;
typedef struct {
Ambient a;
Light l[5];
} Lights5;
typedef struct {
Ambient a;
Light l[6];
} Lights6;
typedef struct {
Ambient a;
Light l[7];
} Lights7;
typedef struct {
Light l[2];
} LookAt;
typedef union {
Hilite_t h;
long int force_structure_alignment[4];
} Hilite;
#define gdSPDefLights0(ar,ag,ab) \
{ {{ {ar,ag,ab},0,{ar,ag,ab},0}}, \
{{{ { 0, 0, 0},0,{ 0, 0, 0},0,{ 0, 0, 0},0}}} }
#define gdSPDefLights1(ar,ag,ab,r1,g1,b1,x1,y1,z1) \
{ {{ {ar,ag,ab},0,{ar,ag,ab},0}}, \
{{{ {r1,g1,b1},0,{r1,g1,b1},0,{x1,y1,z1},0}}} }
#define gdSPDefLights2(ar,ag,ab,r1,g1,b1,x1,y1,z1,r2,g2,b2,x2,y2,z2) \
{ {{ {ar,ag,ab},0,{ar,ag,ab},0}}, \
{{{ {r1,g1,b1},0,{r1,g1,b1},0,{x1,y1,z1},0}}, \
{{ {r2,g2,b2},0,{r2,g2,b2},0,{x2,y2,z2},0}}} }
#define gdSPDefLights3(ar,ag,ab,r1,g1,b1,x1,y1,z1,r2,g2,b2,x2,y2,z2,r3,g3,b3,x3,y3,z3) \
{ {{ {ar,ag,ab},0,{ar,ag,ab},0}}, \
{{{ {r1,g1,b1},0,{r1,g1,b1},0,{x1,y1,z1},0}}, \
{{ {r2,g2,b2},0,{r2,g2,b2},0,{x2,y2,z2},0}}, \
{{ {r3,g3,b3},0,{r3,g3,b3},0,{x3,y3,z3},0}}} }
#define gdSPDefLights4(ar,ag,ab,r1,g1,b1,x1,y1,z1,r2,g2,b2,x2,y2,z2,r3,g3,b3,x3,y3,z3,r4,g4,b4,x4,y4,z4) \
{ {{ {ar,ag,ab},0,{ar,ag,ab},0}}, \
{{{ {r1,g1,b1},0,{r1,g1,b1},0,{x1,y1,z1},0}}, \
{{ {r2,g2,b2},0,{r2,g2,b2},0,{x2,y2,z2},0}}, \
{{ {r3,g3,b3},0,{r3,g3,b3},0,{x3,y3,z3},0}}, \
{{ {r4,g4,b4},0,{r4,g4,b4},0,{x4,y4,z4},0}}} }
#define gdSPDefLights5(ar,ag,ab,r1,g1,b1,x1,y1,z1,r2,g2,b2,x2,y2,z2,r3,g3,b3,x3,y3,z3,r4,g4,b4,x4,y4,z4,r5,g5,b5,x5,y5,z5) \
{ {{ {ar,ag,ab},0,{ar,ag,ab},0}}, \
{{{ {r1,g1,b1},0,{r1,g1,b1},0,{x1,y1,z1},0}}, \
{{ {r2,g2,b2},0,{r2,g2,b2},0,{x2,y2,z2},0}}, \
{{ {r3,g3,b3},0,{r3,g3,b3},0,{x3,y3,z3},0}}, \
{{ {r4,g4,b4},0,{r4,g4,b4},0,{x4,y4,z4},0}}, \
{{ {r5,g5,b5},0,{r5,g5,b5},0,{x5,y5,z5},0}}} }
#define gdSPDefLights6(ar,ag,ab,r1,g1,b1,x1,y1,z1,r2,g2,b2,x2,y2,z2,r3,g3,b3,x3,y3,z3,r4,g4,b4,x4,y4,z4,r5,g5,b5,x5,y5,z5,r6,g6,b6,x6,y6,z6) \
{ {{ {ar,ag,ab},0,{ar,ag,ab},0}}, \
{{{ {r1,g1,b1},0,{r1,g1,b1},0,{x1,y1,z1},0}}, \
{{ {r2,g2,b2},0,{r2,g2,b2},0,{x2,y2,z2},0}}, \
{{ {r3,g3,b3},0,{r3,g3,b3},0,{x3,y3,z3},0}}, \
{{ {r4,g4,b4},0,{r4,g4,b4},0,{x4,y4,z4},0}}, \
{{ {r5,g5,b5},0,{r5,g5,b5},0,{x5,y5,z5},0}}, \
{{ {r6,g6,b6},0,{r6,g6,b6},0,{x6,y6,z6},0}}} }
#define gdSPDefLights7(ar,ag,ab,r1,g1,b1,x1,y1,z1,r2,g2,b2,x2,y2,z2,r3,g3,b3,x3,y3,z3,r4,g4,b4,x4,y4,z4,r5,g5,b5,x5,y5,z5,r6,g6,b6,x6,y6,z6,r7,g7,b7,x7,y7,z7) \
{ {{ {ar,ag,ab},0,{ar,ag,ab},0}}, \
{{{ {r1,g1,b1},0,{r1,g1,b1},0,{x1,y1,z1},0}}, \
{{ {r2,g2,b2},0,{r2,g2,b2},0,{x2,y2,z2},0}}, \
{{ {r3,g3,b3},0,{r3,g3,b3},0,{x3,y3,z3},0}}, \
{{ {r4,g4,b4},0,{r4,g4,b4},0,{x4,y4,z4},0}}, \
{{ {r5,g5,b5},0,{r5,g5,b5},0,{x5,y5,z5},0}}, \
{{ {r6,g6,b6},0,{r6,g6,b6},0,{x6,y6,z6},0}}, \
{{ {r7,g7,b7},0,{r7,g7,b7},0,{x7,y7,z7},0}}} }
#define gdSPDefLookAt(rightx,righty,rightz,upx,upy,upz) \
{ {{ {{0,0,0},0,{0,0,0},0,{rightx,righty,rightz},0}}, \
{ {{0,0x80,0},0,{0,0x80,0},0,{upx,upy,upz},0}}} }
/*
* Graphics DMA Packet
*/
typedef struct {
int cmd:8;
unsigned int par:8;
unsigned int len:16;
unsigned int addr;
} Gdma;
/*
* Graphics Immediate Mode Packet types
*/
typedef struct {
int cmd:8;
int pad:24;
Tri tri;
} Gtri;
typedef struct {
int cmd:8;
int pad1:24;
int pad2:24;
unsigned char param:8;
} Gpopmtx;
/*
* typedef struct {
* int cmd:8;
* int pad0:24;
* int pad1:4;
* int number:4;
* int base:24;
* } Gsegment;
*/
typedef struct {
int cmd:8;
int pad0:8;
int mw_index:8;
int number:8;
int pad1:8;
int base:24;
} Gsegment;
typedef struct {
int cmd:8;
int pad0:8;
int sft:8;
int len:8;
unsigned int data:32;
} GsetothermodeL;
typedef struct {
int cmd:8;
int pad0:8;
int sft:8;
int len:8;
unsigned int data:32;
} GsetothermodeH;
typedef struct {
unsigned char cmd;
unsigned char lodscale;
unsigned char tile;
unsigned char on;
unsigned short s;
unsigned short t;
} Gtexture;
typedef struct {
int cmd:8;
int pad:24;
Tri line;
} Gline3D;
typedef struct {
int cmd:8;
int pad1:24;
short int pad2;
short int scale;
} Gperspnorm;
/*
* RDP Packet types
*/
typedef struct {
int cmd:8;
unsigned int fmt:3;
unsigned int siz:2;
unsigned int pad:7;
unsigned int wd:12; /* really only 10 bits, extra */
unsigned int dram; /* to account for 1024 */
} Gsetimg;
typedef struct {
int cmd:8;
unsigned int muxs0:24;
unsigned int muxs1:32;
} Gsetcombine;
typedef struct {
int cmd:8;
unsigned char pad;
unsigned char prim_min_level;
unsigned char prim_level;
unsigned long color;
} Gsetcolor;
typedef struct {
int cmd:8;
int x0:10;
int x0frac:2;
int y0:10;
int y0frac:2;
unsigned int pad:8;
int x1:10;
int x1frac:2;
int y1:10;
int y1frac:2;
} Gfillrect;
typedef struct {
int cmd:8;
unsigned int fmt:3;
unsigned int siz:2;
unsigned int pad0:1;
unsigned int line:9;
unsigned int tmem:9;
unsigned int pad1:5;
unsigned int tile:3;
unsigned int palette:4;
unsigned int ct:1;
unsigned int mt:1;
unsigned int maskt:4;
unsigned int shiftt:4;
unsigned int cs:1;
unsigned int ms:1;
unsigned int masks:4;
unsigned int shifts:4;
} Gsettile;
typedef struct {
int cmd:8;
unsigned int sl:12;
unsigned int tl:12;
int pad:5;
unsigned int tile:3;
unsigned int sh:12;
unsigned int th:12;
} Gloadtile;
typedef Gloadtile Gloadblock;
typedef Gloadtile Gsettilesize;
typedef Gloadtile Gloadtlut;
typedef struct {
unsigned int cmd:8; /* command */
unsigned int xl:12; /* X coordinate of upper left */
unsigned int yl:12; /* Y coordinate of upper left */
unsigned int pad1:5; /* Padding */
unsigned int tile:3; /* Tile descriptor index */
unsigned int xh:12; /* X coordinate of lower right */
unsigned int yh:12; /* Y coordinate of lower right */
unsigned int s:16; /* S texture coord at top left */
unsigned int t:16; /* T texture coord at top left */
unsigned int dsdx:16;/* Change in S per change in X */
unsigned int dtdy:16;/* Change in T per change in Y */
} Gtexrect;
#define MakeTexRect(xh,yh,flip,tile,xl,yl,s,t,dsdx,dtdy) \
G_TEXRECT, xh, yh, 0, flip, 0, tile, xl, yl, s, t, dsdx, dtdy
/*
* Textured rectangles are 128 bits not 64 bits
*/
typedef struct {
unsigned long w0;
unsigned long w1;
unsigned long w2;
unsigned long w3;
} TexRect;
/*
* Generic Gfx Packet
*/
typedef struct {
unsigned int w0;
unsigned int w1;
} Gwords;
/*
* This union is the fundamental type of the display list.
* It is, by law, exactly 64 bits in size.
*/
typedef union {
Gwords words;
Gdma dma;
Gtri tri;
Gline3D line;
Gpopmtx popmtx;
Gsegment segment;
GsetothermodeH setothermodeH;
GsetothermodeL setothermodeL;
Gtexture texture;
Gperspnorm perspnorm;
Gsetimg setimg;
Gsetcombine setcombine;
Gsetcolor setcolor;
Gfillrect fillrect; /* use for setscissor also */
Gsettile settile;
Gloadtile loadtile; /* use for loadblock also, th is dxt */
Gsettilesize settilesize;
Gloadtlut loadtlut;
long long int force_structure_alignment;
} Gfx;
/*
* Macros to assemble the graphics display list
*/
/*
* DMA macros
*/
#define gDma0p(pkt, c, s, l) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL((c), 24, 8) | _SHIFTL((l), 0, 24); \
_g->words.w1 = (unsigned int)(s); \
}
#define gsDma0p(c, s, l) \
{ \
_SHIFTL((c), 24, 8) | _SHIFTL((l), 0, 24), (unsigned int)(s) \
}
#define gDma1p(pkt, c, s, l, p) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL((c), 24, 8) | _SHIFTL((p), 16, 8) | \
_SHIFTL((l), 0, 16)); \
_g->words.w1 = (unsigned int)(s); \
}
#define gsDma1p(c, s, l, p) \
{ \
(_SHIFTL((c), 24, 8) | _SHIFTL((p), 16, 8) | \
_SHIFTL((l), 0, 16)), \
(unsigned int)(s) \
}
#define gSPNoOp(pkt) gDma0p(pkt, G_SPNOOP, 0, 0)
#define gsSPNoOp() gsDma0p(G_SPNOOP, 0, 0)
#define gSPMatrix(pkt, m, p) gDma1p(pkt, G_MTX, m, sizeof(Mtx), p)
#define gsSPMatrix(m, p) gsDma1p(G_MTX, m, sizeof(Mtx), p)
/*-YASU-*
頂点バッファを 32 にするために
G_VTX のフォーマットを以下の様に一部変更する (64 頂点まで対応可)
+--------+--------+------+---------------+
G_VTX | cmd:8 | v0:8 | n:6 | length:10 |
+-+---+--+--------+------+---------------+
| |seg| address |
+-+---+----------------------------------+
8/30
F3DEX と F3DLP における gbi の互換性のため F3DLP を F3DEX に合わせる
*-YASU-*/
#if (defined(F3DEX_GBI)||defined(F3DLP_GBI))
# define gSPVertex(pkt, v, n, v0) \
gDma1p(pkt, G_VTX, v, ((n)<<10)|(sizeof(Vtx)*(n)-1), (v0)*2)
# define gsSPVertex(v, n, v0) \
gsDma1p(G_VTX, v, ((n)<<10)|(sizeof(Vtx)*(n)-1), (v0)*2)
#else
# define gSPVertex(pkt, v, n, v0) \
gDma1p(pkt, G_VTX, v, sizeof(Vtx)*(n),((n)-1)<<4|(v0))
# define gsSPVertex(v, n, v0) \
gsDma1p(G_VTX, v, sizeof(Vtx)*(n), ((n)-1)<<4|(v0))
#endif
#define gSPViewport(pkt, v) gDma1p(pkt, G_MOVEMEM, v, sizeof(Vp), G_MV_VIEWPORT)
#define gsSPViewport(v) gsDma1p(G_MOVEMEM, v, sizeof(Vp), G_MV_VIEWPORT)
#define gSPDisplayList(pkt,dl) gDma1p(pkt,G_DL,dl,0,G_DL_PUSH)
#define gsSPDisplayList( dl) gsDma1p( G_DL,dl,0,G_DL_PUSH)
#define gSPBranchList(pkt,dl) gDma1p(pkt,G_DL,dl,0,G_DL_NOPUSH)
#define gsSPBranchList( dl) gsDma1p( G_DL,dl,0,G_DL_NOPUSH)
#define gSPSprite2D(pkt, s) gDma1p(pkt, G_SPRITE2D, s, sizeof(uSprite), 0)
#define gsSPSprite2D(s) gsDma1p(G_SPRITE2D, s, sizeof(uSprite), 0)
/*
* RSP short command (no DMA required) macros
*/
#define gImmp0(pkt, c) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL((c), 24, 8); \
}
#define gsImmp0(c) \
{ \
_SHIFTL((c), 24, 8) \
}
#define gImmp1(pkt, c, p0) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL((c), 24, 8); \
_g->words.w1 = (unsigned int)(p0); \
}
#define gsImmp1(c, p0) \
{ \
_SHIFTL((c), 24, 8), (unsigned int)(p0) \
}
#define gImmp2(pkt, c, p0, p1) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL((c), 24, 8); \
_g->words.w1 = _SHIFTL((p0), 16, 16) | _SHIFTL((p1), 8, 8); \
}
#define gsImmp2(c, p0, p1) \
{ \
_SHIFTL((c), 24, 8), _SHIFTL((p0), 16, 16) | _SHIFTL((p1), 8, 8)\
}
#define gImmp3(pkt, c, p0, p1, p2) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL((c), 24, 8); \
_g->words.w1 = (_SHIFTL((p0), 16, 16) | _SHIFTL((p1), 8, 8) | \
_SHIFTL((p2), 0, 8)); \
}
#define gsImmp3(c, p0, p1, p2) \
{ \
_SHIFTL((c), 24, 8), (_SHIFTL((p0), 16, 16) | \
_SHIFTL((p1), 8, 8) | _SHIFTL((p2), 0, 8))\
}
#define gImmp21(pkt, c, p0, p1, dat) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL((c), 24, 8) | _SHIFTL((p0), 8, 16) | \
_SHIFTL((p1), 0, 8)); \
_g->words.w1 = (unsigned int) (dat); \
}
#define gsImmp21(c, p0, p1, dat) \
{ \
_SHIFTL((c), 24, 8) | _SHIFTL((p0), 8, 16) | _SHIFTL((p1), 0, 8),\
(unsigned int) (dat) \
}
#define gMoveWd(pkt, index, offset, data) \
gImmp21(pkt, G_MOVEWORD, offset, index, data)
#define gsMoveWd( index, offset, data) \
gsImmp21( G_MOVEWORD, offset, index, data)
/*
* Note: the SP1Triangle() and line macros multiply the vertex indices
* by 10, this is an optimization for the microcode.
*/
#if (defined(F3DLP_GBI)||defined(F3DEX_GBI))
#define __gsSP1Triangle_w1(v0, v1, v2) \
(_SHIFTL((v0)*2,16,8)|_SHIFTL((v1)*2,8,8)|_SHIFTL((v2)*2,0,8))
#define __gsSP1Triangle_w1f(v0, v1, v2, flag) \
(((flag) == 0) ? __gsSP1Triangle_w1(v0, v1, v2): \
((flag) == 1) ? __gsSP1Triangle_w1(v1, v2, v0): \
__gsSP1Triangle_w1(v2, v0, v1))
#define __gsSPLine3D_w1(v0, v1, wd) \
(_SHIFTL((v0)*2,16,8)|_SHIFT((v1)*2,8,8)|_SHIFT((wd),0,8))
#define __gsSPLine3D_w1f(v0, v1, wd, flag) \
(((flag) == 0) ? __gsSPLine3D_w1(v0, v1, wd): \
__gsSPLine3D_w1(v1, v0, wd))
#else
#define __gsSP1Triangle_w1f(v0, v1, v2, flag) \
(_SHIFTL((flag), 24,8)|_SHIFTL((v0)*10,16,8)| \
_SHIFTL((v1)*10, 8,8)|_SHIFTL((v2)*10, 0,8))
#define __gsSPLine3D_w1f(v0, v1, wd, flag) \
(_SHIFTL((flag), 24,8)|_SHIFTL((v0)*10,16,8)| \
_SHIFTL((v1)*10, 8,8)|_SHIFTL((wd), 0,8))
#endif
/***
*** 1 Triangle
***/
#define gSP1Triangle(pkt, v0, v1, v2, flag) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_TRI1, 24, 8); \
_g->words.w1 = __gsSP1Triangle_w1f(v0, v1, v2, flag); \
}
#define gsSP1Triangle(v0, v1, v2, flag) \
{ \
_SHIFTL(G_TRI1, 24, 8), \
__gsSP1Triangle_w1f(v0, v1, v2, flag) \
}
/***
*** Line
***/
#define gSPLine3D(pkt, v0, v1, flag) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_LINE3D, 24, 8); \
_g->words.w1 = __gsSPLine3D_w1f(v0, v1, 0, flag); \
}
#define gsSPLine3D(v0, v1, flag) \
{ \
_SHIFTL(G_LINE3D, 24, 8), \
__gsSPLine3D_w1f(v0, v1, 0, flag) \
}
/***
*** LineW
***/
#define gSPLineW3D(pkt, v0, v1, wd, flag) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_LINE3D, 24, 8); \
_g->words.w1 = __gsSPLine3D_w1f(v0, v1, wd, flag); \
}
#define gsSPLineW3D(v0, v1, wd, flag) \
{ \
_SHIFTL(G_LINE3D, 24, 8), \
__gsSPLine3D_w1f(v0, v1, wd, flag) \
}
#if (defined(F3DLP_GBI)||defined(F3DEX_GBI))
/***
*** 2 Triangles
***/
#define gSP2Triangles(pkt, v00, v01, v02, flag0, v10, v11, v12, flag1) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_TRI2, 24, 8)| \
__gsSP1Triangle_w1f(v00, v01, v02, flag0)); \
_g->words.w1 = __gsSP1Triangle_w1f(v10, v11, v12, flag1); \
}
#define gsSP2Triangles(v00, v01, v02, flag0, v10, v11, v12, flag1) \
{ \
(_SHIFTL(G_TRI2, 24, 8)| \
__gsSP1Triangle_w1f(v00, v01, v02, flag0)), \
__gsSP1Triangle_w1f(v10, v11, v12, flag1) \
}
/***
*** 1 Quadrangle
***/
#if 1 /* no more support in ver 0.96 and later */
#define gSP1Quadrangle(pkt, v0, v1, v2, v3, flag) \
gSP2Triangles(pkt, v1, v2, v3, 0, v1, v3, v0, 0)
#define gsSP1Quadrangle(v0, v1, v2, v3, flag) \
gsSP2Triangles(v1, v2, v3, 0, v1, v3, v0, 0)
#else
#define __gsSP1Quadrangle_w1(v0, v1, v2, v3) \
(_SHIFTL((v0)*2, 24, 8)|_SHIFTL((v1)*2, 16, 8)| \
_SHIFTL((v2)*2, 8, 8)|_SHIFTL((v3)*2, 0, 8))
#define __gsSP1Quadrangle_w1f(v0, v1, v2, v3, flag) \
(((flag) == 0) ? __gsSP1Quadrangle_w1(v3, v0, v1, v2): \
((flag) == 1) ? __gsSP1Quadrangle_w1(v0, v1, v2, v3): \
((flag) == 2) ? __gsSP1Quadrangle_w1(v1, v2, v3, v0): \
__gsSP1Quadrangle_w1(v2, v3, v0, v1))
#define gSP1Quadrangle(pkt, v0, v1, v2, v3, flag) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_QUAD3D, 24, 8); \
_g->words.w1 = __gsSP1Quadrangle_w1f(v0, v1, v2, v3, flag); \
}
#define gsSP1Quadrangle(v0, v1, v2, v3, flag) \
{ \
_SHIFTL(G_QUAD3D, 24, 8), \
__gsSP1Quadrangle_w1f(v0, v1, v2, v3, flag) \
}
#endif /* 1 */
#endif /* F3DEX_GBI/F3DLP_GBI */
#if (defined(F3DEX_GBI)||defined(F3DLP_GBI))
#define gSPCullDisplayList(pkt,vstart,vend) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_CULLDL, 24, 8) | \
_SHIFTL((vstart)*2, 0, 16); \
_g->words.w1 = _SHIFTL((vend)*2, 0, 16); \
}
#define gsSPCullDisplayList(vstart,vend) \
{ \
_SHIFTL(G_CULLDL, 24, 8) | _SHIFTL((vstart)*2, 0, 16), \
_SHIFTL((vend)*2, 0, 16) \
}
#else
#define gSPCullDisplayList(pkt,vstart,vend) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_CULLDL, 24, 8) | \
((0x0f & (vstart))*40); \
_g->words.w1 = (unsigned int)((0x0f & ((vend)+1))*40); \
}
#define gsSPCullDisplayList(vstart,vend) \
{ \
_SHIFTL(G_CULLDL, 24, 8) | ((0x0f & (vstart))*40), \
((0x0f & ((vend)+1))*40) \
}
#endif
#define gSPSegment(pkt, segment, base) \
gMoveWd(pkt, G_MW_SEGMENT, (segment*4), base)
#define gsSPSegment(segment, base) \
gsMoveWd( G_MW_SEGMENT, (segment*4), base)
/*
* Clipping Macros
*/
#define FR_NEG_FRUSTRATIO_1 0x00000001
#define FR_POS_FRUSTRATIO_1 0x0000ffff
#define FR_NEG_FRUSTRATIO_2 0x00000002
#define FR_POS_FRUSTRATIO_2 0x0000fffe
#define FR_NEG_FRUSTRATIO_3 0x00000003
#define FR_POS_FRUSTRATIO_3 0x0000fffd
#define FR_NEG_FRUSTRATIO_4 0x00000004
#define FR_POS_FRUSTRATIO_4 0x0000fffc
#define FR_NEG_FRUSTRATIO_5 0x00000005
#define FR_POS_FRUSTRATIO_5 0x0000fffb
#define FR_NEG_FRUSTRATIO_6 0x00000006
#define FR_POS_FRUSTRATIO_6 0x0000fffa
/*
* r should be one of: FRUSTRATIO_1, FRUSTRATIO_2, FRUSTRATIO_3, ... FRUSTRATIO_6
*/
#define gSPClipRatio(pkt, r) \
{ \
gMoveWd(pkt, G_MW_CLIP, G_MWO_CLIP_RNX, FR_NEG_##r); \
gMoveWd(pkt, G_MW_CLIP, G_MWO_CLIP_RNY, FR_NEG_##r); \
gMoveWd(pkt, G_MW_CLIP, G_MWO_CLIP_RPX, FR_POS_##r); \
gMoveWd(pkt, G_MW_CLIP, G_MWO_CLIP_RPY, FR_POS_##r); \
}
#define gsSPClipRatio(r) \
gsMoveWd(G_MW_CLIP, G_MWO_CLIP_RNX, FR_NEG_##r), \
gsMoveWd(G_MW_CLIP, G_MWO_CLIP_RNY, FR_NEG_##r), \
gsMoveWd(G_MW_CLIP, G_MWO_CLIP_RPX, FR_POS_##r), \
gsMoveWd(G_MW_CLIP, G_MWO_CLIP_RPY, FR_POS_##r)
/*
* Insert values into Matrix
*
* where = element of matrix (byte offset)
* num = new element (32 bit value replacing 2 int or 2 frac matrix
* componants
*/
#define gSPInsertMatrix(pkt, where, num) \
gMoveWd(pkt, G_MW_MATRIX, where, num)
#define gsSPInsertMatrix(where, num) \
gsMoveWd(G_MW_MATRIX, where, num)
/*
* Load new matrix directly
*
* mptr = pointer to matrix
*/
#define gSPForceMatrix(pkt, mptr) \
{ \
gDma1p(pkt, G_MOVEMEM, mptr, 16, G_MV_MATRIX_1); \
gDma1p(pkt, G_MOVEMEM, (char *)(mptr)+16, 16, G_MV_MATRIX_2); \
gDma1p(pkt, G_MOVEMEM, (char *)(mptr)+32, 16, G_MV_MATRIX_3); \
gDma1p(pkt, G_MOVEMEM, (char *)(mptr)+48, 16, G_MV_MATRIX_4); \
}
#define gsSPForceMatrix(mptr) \
gsDma1p( G_MOVEMEM, mptr, 16, G_MV_MATRIX_1), \
gsDma1p( G_MOVEMEM, (char *)(mptr)+16, 16, G_MV_MATRIX_2), \
gsDma1p( G_MOVEMEM, (char *)(mptr)+32, 16, G_MV_MATRIX_3), \
gsDma1p( G_MOVEMEM, (char *)(mptr)+48, 16, G_MV_MATRIX_4)
/*
* Insert values into Points
*
* point = point number 0-15
* where = which element of point to modify (byte offset into point)
* num = new value (32 bit)
*/
#if (defined(F3DEX_GBI)||defined(F3DLP_GBI))
# define gSPModifyVertex(pkt, vtx, where, val) \
{ \
Gfx *_g = (Gfx *)(pkt); \
_g->words.w0 = (_SHIFTL(G_MODIFYVTX,24,8)| \
_SHIFTL((where),16,8)|_SHIFTL((vtx)*2,0,16)); \
_g->words.w1 = (unsigned int)(val); \
}
# define gsSPModifyVertex(vtx, where, val) \
{ \
_SHIFTL(G_MODIFYVTX,24,8)| \
_SHIFTL((where),16,8)|_SHIFTL((vtx)*2,0,16), \
(unsigned int)(val) \
}
#else
# define gSPModifyVertex(pkt, vtx, where, val) \
gMoveWd(pkt, G_MW_POINTS, (vtx)*40+(where), val)
# define gsSPModifyVertex(vtx, where, val) \
gsMoveWd(G_MW_POINTS, (vtx)*40+(where), val)
#endif
#if (defined(F3DEX_GBI)||defined(F3DLP_GBI))
/*
* gSPBranchLessZ Branch DL if (vtx.z) less than or equal (zval).
*
* dl = DL branch to
* vtx = Vertex
* zval = Screen depth
* near = Near plane
* far = Far plane
* flag = G_BZ_PERSP or G_BZ_ORTHO
*/
#define G_BZ_PERSP 0
#define G_BZ_ORTHO 1
#define G_DEPTOZSrg(zval, near, far, flag, zmin, zmax) \
(((unsigned int)FTOFIX32(((flag) == G_BZ_PERSP ? \
(1.0f-(float)(near)/(float)(zval)) / \
(1.0f-(float)(near)/(float)(far )) : \
((float)(zval) - (float)(near)) / \
((float)(far ) - (float)(near))))) * \
(((int)((zmax) - (zmin)))&~1) + (int)FTOFIX32(zmin))
#define G_DEPTOZS(zval, near, far, flag) \
G_DEPTOZSrg(zval, near, far, flag, 0, G_MAXZ)
#define gSPBranchLessZrg(pkt, dl, vtx, zval, near, far, flag, zmin, zmax) \
{ \
Gfx *_g = (Gfx *)(pkt); \
_g->words.w0 = _SHIFTL(G_RDPHALF_1,24,8); \
_g->words.w1 = (unsigned int)(dl); \
_g = (Gfx *)(pkt); \
_g->words.w0 = (_SHIFTL(G_BRANCH_Z,24,8)| \
_SHIFTL((vtx)*5,12,12)|_SHIFTL((vtx)*2,0,12)); \
_g->words.w1 = G_DEPTOZSrg(zval, near, far, flag, zmin, zmax); \
}
#define gsSPBranchLessZrg(dl, vtx, zval, near, far, flag, zmin, zmax) \
{ _SHIFTL(G_RDPHALF_1,24,8), \
(unsigned int)(dl), }, \
{ _SHIFTL(G_BRANCH_Z,24,8)|_SHIFTL((vtx)*5,12,12)|_SHIFTL((vtx)*2,0,12),\
G_DEPTOZSrg(zval, near, far, flag, zmin, zmax), }
#define gSPBranchLessZ(pkt, dl, vtx, zval, near, far, flag) \
gSPBranchLessZrg(pkt, dl, vtx, zval, near, far, flag, 0, G_MAXZ)
#define gsSPBranchLessZ(dl, vtx, zval, near, far, flag) \
gsSPBranchLessZrg(dl, vtx, zval, near, far, flag, 0, G_MAXZ)
/*
* gSPBranchLessZraw Branch DL if (vtx.z) less than or equal (raw zval).
*
* dl = DL branch to
* vtx = Vertex
* zval = Raw value of screen depth
*/
#define gSPBranchLessZraw(pkt, dl, vtx, zval) \
{ \
Gfx *_g = (Gfx *)(pkt); \
_g->words.w0 = _SHIFTL(G_RDPHALF_1,24,8); \
_g->words.w1 = (unsigned int)(dl); \
_g = (Gfx *)(pkt); \
_g->words.w0 = (_SHIFTL(G_BRANCH_Z,24,8)| \
_SHIFTL((vtx)*5,12,12)|_SHIFTL((vtx)*2,0,12)); \
_g->words.w1 = (unsigned int)(zval); \
}
#define gsSPBranchLessZraw(dl, vtx, zval) \
{ _SHIFTL(G_RDPHALF_1,24,8), \
(unsigned int)(dl), }, \
{ _SHIFTL(G_BRANCH_Z,24,8)|_SHIFTL((vtx)*5,12,12)|_SHIFTL((vtx)*2,0,12),\
(unsigned int)(zval), }
#ifdef F3DNCom_GBI
/*
* gSPWaitSignal Wait for signal to continue.
*/
#define gSPWaitSignal(pkt, signal) \
{ \
Gfx *_g = (Gfx *)(pkt); \
_g->words.w0 = _SHIFTL(G_WAITSIGNAL,24,8); \
_g->words.w1 = (unsigned int)(signal); \
}
#define gsSPWaitSignal(signal) \
{ \
_SHIFTL(G_WAITSIGNAL,24,8), (unsigned int)(signal) \
}
/*
* osSetRSPSignal(signal)
*/
#define osSetRSPSignal(signal) IO_WRITE(0x04000ffc, (signal))
#endif
/*
* gSPLoadUcode RSP loads specified ucode.
*
* uc_start = ucode text section start
* uc_dstart = ucode data section start
*/
#define gSPLoadUcodeEx(pkt, uc_start, uc_dstart, uc_dsize) \
{ \
Gfx *_g = (Gfx *)(pkt); \
_g->words.w0 = _SHIFTL(G_RDPHALF_1,24,8); \
_g->words.w1 = (unsigned int)(uc_dstart); \
_g = (Gfx *)(pkt); \
_g->words.w0 = (_SHIFTL(G_LOAD_UCODE,24,8)| \
_SHIFTL((int)(uc_dsize)-1,0,16)); \
_g->words.w1 = (unsigned int)(uc_start); \
}
#define gsSPLoadUcodeEx(uc_start, uc_dstart, uc_dsize) \
{ _SHIFTL(G_RDPHALF_1,24,8), \
(unsigned int)(uc_dstart), }, \
{ _SHIFTL(G_LOAD_UCODE,24,8)| \
_SHIFTL((int)(uc_dsize)-1,0,16), \
(unsigned int)(uc_start), }
#define gSPLoadUcode(pkt, uc_start, uc_dstart) \
gSPLoadUcodeEx((pkt), (uc_start), (uc_dstart), SP_UCODE_DATA_SIZE)
#define gsSPLoadUcode(uc_start, uc_dstart) \
gsSPLoadUcodeEx((uc_start), (uc_dstart), SP_UCODE_DATA_SIZE)
#define gSPLoadUcodeL(pkt, ucode) \
gSPLoadUcode((pkt), OS_K0_TO_PHYSICAL(&##ucode##TextStart), \
OS_K0_TO_PHYSICAL(&##ucode##DataStart))
#define gsSPLoadUcodeL(ucode) \
gsSPLoadUcode(OS_K0_TO_PHYSICAL(&##ucode##TextStart), \
OS_K0_TO_PHYSICAL(&##ucode##DataStart))
#endif
/*
* Lighting Macros
*/
#define NUML(n) (((n)+1)*32 + 0x80000000)
#define NUMLIGHTS_0 1
#define NUMLIGHTS_1 1
#define NUMLIGHTS_2 2
#define NUMLIGHTS_3 3
#define NUMLIGHTS_4 4
#define NUMLIGHTS_5 5
#define NUMLIGHTS_6 6
#define NUMLIGHTS_7 7
/*
* n should be one of: NUMLIGHTS_0, NUMLIGHTS_1, ..., NUMLIGHTS_7
* NOTE: in addition to the number of directional lights specified,
* there is always 1 ambient light
*/
#define gSPNumLights(pkt, n) \
gMoveWd(pkt, G_MW_NUMLIGHT, G_MWO_NUMLIGHT, NUML(n))
#define gsSPNumLights(n) \
gsMoveWd( G_MW_NUMLIGHT, G_MWO_NUMLIGHT, NUML(n))
#define LIGHT_1 1
#define LIGHT_2 2
#define LIGHT_3 3
#define LIGHT_4 4
#define LIGHT_5 5
#define LIGHT_6 6
#define LIGHT_7 7
#define LIGHT_8 8
/*
* l should point to a Light struct
* n should be one of: LIGHT_1, LIGHT_2, ..., LIGHT_8
* NOTE: the highest numbered light is always the ambient light (eg if there are
* 3 directional lights defined: gsSPNumLights(NUMLIGHTS_3), then lights
* LIGHT_1 through LIGHT_3 will be the directional lights and light
* LIGHT_4 will be the ambient light.
*/
#define gSPLight(pkt, l, n) gDma1p(pkt, G_MOVEMEM, l, sizeof(Light),((n)-1)*2+G_MV_L0)
#define gsSPLight(l, n) gsDma1p( G_MOVEMEM, l, sizeof(Light),((n)-1)*2+G_MV_L0)
/*
* gSPLightColor changes color of light without recalculating light direction
* col is a 32 bit word with r,g,b,a (alpha is ignored)
* n should be one of LIGHT_1, LIGHT_2, ..., LIGHT_8
*/
#define gSPLightColor(pkt, n, col) \
{ \
gMoveWd(pkt, G_MW_LIGHTCOL, G_MWO_a##n, col); \
gMoveWd(pkt, G_MW_LIGHTCOL, G_MWO_b##n, col); \
}
#define gsSPLightColor(n, col) \
gsMoveWd(G_MW_LIGHTCOL, G_MWO_a##n, col), \
gsMoveWd(G_MW_LIGHTCOL, G_MWO_b##n, col)
/* These macros use a structure "name" which is init'd with the gdSPDefLights macros*/
#define gSPSetLights0(pkt,name) \
{ \
gSPNumLights(pkt,NUMLIGHTS_0); \
gSPLight(pkt,&name.l[0],1); \
gSPLight(pkt,&name.a,2); \
}
#define gsSPSetLights0(name) \
gsSPNumLights(NUMLIGHTS_0), \
gsSPLight(&name.l[0],1), \
gsSPLight(&name.a,2)
#define gSPSetLights1(pkt,name) \
{ \
gSPNumLights(pkt,NUMLIGHTS_1); \
gSPLight(pkt,&name.l[0],1); \
gSPLight(pkt,&name.a,2); \
}
#define gsSPSetLights1(name) \
gsSPNumLights(NUMLIGHTS_1), \
gsSPLight(&name.l[0],1), \
gsSPLight(&name.a,2)
#define gSPSetLights2(pkt,name) \
{ \
gSPNumLights(pkt,NUMLIGHTS_2); \
gSPLight(pkt,&name.l[0],1); \
gSPLight(pkt,&name.l[1],2); \
gSPLight(pkt,&name.a,3); \
}
#define gsSPSetLights2(name) \
gsSPNumLights(NUMLIGHTS_2), \
gsSPLight(&name.l[0],1), \
gsSPLight(&name.l[1],2), \
gsSPLight(&name.a,3)
#define gSPSetLights3(pkt,name) \
{ \
gSPNumLights(pkt,NUMLIGHTS_3); \
gSPLight(pkt,&name.l[0],1); \
gSPLight(pkt,&name.l[1],2); \
gSPLight(pkt,&name.l[2],3); \
gSPLight(pkt,&name.a,4); \
}
#define gsSPSetLights3(name) \
gsSPNumLights(NUMLIGHTS_3), \
gsSPLight(&name.l[0],1), \
gsSPLight(&name.l[1],2), \
gsSPLight(&name.l[2],3), \
gsSPLight(&name.a,4)
#define gSPSetLights4(pkt,name) \
{ \
gSPNumLights(pkt,NUMLIGHTS_4); \
gSPLight(pkt,&name.l[0],1); \
gSPLight(pkt,&name.l[1],2); \
gSPLight(pkt,&name.l[2],3); \
gSPLight(pkt,&name.l[3],4); \
gSPLight(pkt,&name.a,5); \
}
#define gsSPSetLights4(name) \
gsSPNumLights(NUMLIGHTS_4), \
gsSPLight(&name.l[0],1), \
gsSPLight(&name.l[1],2), \
gsSPLight(&name.l[2],3), \
gsSPLight(&name.l[3],4), \
gsSPLight(&name.a,5)
#define gSPSetLights5(pkt,name) \
{ \
gSPNumLights(pkt,NUMLIGHTS_5); \
gSPLight(pkt,&name.l[0],1); \
gSPLight(pkt,&name.l[1],2); \
gSPLight(pkt,&name.l[2],3); \
gSPLight(pkt,&name.l[3],4); \
gSPLight(pkt,&name.l[4],5); \
gSPLight(pkt,&name.a,6); \
}
#define gsSPSetLights5(name) \
gsSPNumLights(NUMLIGHTS_5), \
gsSPLight(&name.l[0],1), \
gsSPLight(&name.l[1],2), \
gsSPLight(&name.l[2],3), \
gsSPLight(&name.l[3],4), \
gsSPLight(&name.l[4],5), \
gsSPLight(&name.a,6)
#define gSPSetLights6(pkt,name) \
{ \
gSPNumLights(pkt,NUMLIGHTS_6); \
gSPLight(pkt,&name.l[0],1); \
gSPLight(pkt,&name.l[1],2); \
gSPLight(pkt,&name.l[2],3); \
gSPLight(pkt,&name.l[3],4); \
gSPLight(pkt,&name.l[4],5); \
gSPLight(pkt,&name.l[5],6); \
gSPLight(pkt,&name.a,7); \
}
#define gsSPSetLights6(name) \
gsSPNumLights(NUMLIGHTS_6), \
gsSPLight(&name.l[0],1), \
gsSPLight(&name.l[1],2), \
gsSPLight(&name.l[2],3), \
gsSPLight(&name.l[3],4), \
gsSPLight(&name.l[4],5), \
gsSPLight(&name.l[5],6), \
gsSPLight(&name.a,7)
#define gSPSetLights7(pkt,name) \
{ \
gSPNumLights(pkt,NUMLIGHTS_7); \
gSPLight(pkt,&name.l[0],1); \
gSPLight(pkt,&name.l[1],2); \
gSPLight(pkt,&name.l[2],3); \
gSPLight(pkt,&name.l[3],4); \
gSPLight(pkt,&name.l[4],5); \
gSPLight(pkt,&name.l[5],6); \
gSPLight(pkt,&name.l[6],7); \
gSPLight(pkt,&name.a,8); \
}
#define gsSPSetLights7(name) \
gsSPNumLights(NUMLIGHTS_7), \
gsSPLight(&name.l[0],1), \
gsSPLight(&name.l[1],2), \
gsSPLight(&name.l[2],3), \
gsSPLight(&name.l[3],4), \
gsSPLight(&name.l[4],5), \
gsSPLight(&name.l[5],6), \
gsSPLight(&name.l[6],7), \
gsSPLight(&name.a,8)
/*
* Reflection/Hiliting Macros
*/
#define gSPLookAtX(pkt, l) gDma1p(pkt, G_MOVEMEM, l, sizeof(Light),G_MV_LOOKATX)
#define gsSPLookAtX(l) gsDma1p( G_MOVEMEM, l, sizeof(Light),G_MV_LOOKATX)
#define gSPLookAtY(pkt, l) gDma1p(pkt, G_MOVEMEM, l, sizeof(Light),G_MV_LOOKATY)
#define gsSPLookAtY(l) gsDma1p( G_MOVEMEM, l, sizeof(Light),G_MV_LOOKATY)
#define gSPLookAt(pkt, la) \
{ \
gSPLookAtX(pkt,la) \
gSPLookAtY(pkt,((char *)la)+16) \
}
#define gsSPLookAt(la) \
gsSPLookAtX(la), \
gsSPLookAtY(((char *)la)+16)
#define gDPSetHilite1Tile(pkt, tile, hilite, width, height) \
gDPSetTileSize(pkt, tile, (hilite)->h.x1 & 0xfff, (hilite)->h.y1 & 0xfff, \
((((width)-1)*4)+(hilite)->h.x1) & 0xfff, ((((height)-1)*4)+(hilite)->h.y1) & 0xfff)
#define gsDPSetHilite1Tile(tile, hilite, width, height) \
gsDPSetTileSize(tile, (hilite)->h.x1 & 0xfff, (hilite)->h.y1 & 0xfff, \
((((width)-1)*4)+(hilite)->h.x1) & 0xfff, ((((height)-1)*4)+(hilite)->h.y1) & 0xfff)
#define gDPSetHilite2Tile(pkt, tile, hilite, width, height) \
gDPSetTileSize(pkt, tile, (hilite)->h.x2 & 0xfff, (hilite)->h.y2 & 0xfff, \
((((width)-1)*4)+(hilite)->h.x2) & 0xfff, ((((height)-1)*4)+(hilite)->h.y2) & 0xfff)
#define gsDPSetHilite2Tile(tile, hilite, width, height) \
gsDPSetTileSize(tile, (hilite)->h.x2 & 0xfff, (hilite)->h.y2 & 0xfff, \
((((width)-1)*4)+(hilite)->h.x2) & 0xfff, ((((height)-1)*4)+(hilite)->h.y2) & 0xfff)
/*
* FOG macros
* fm = z multiplier
* fo = z offset
* FOG FORMULA: alpha(fog) = (eyespace z) * fm + fo CLAMPED 0 to 255
* note: (eyespace z) ranges -1 to 1
*
* Alternate method of setting fog:
* min, max: range 0 to 1000: 0=nearplane, 1000=farplane
* min is where fog begins (usually less than max and often 0)
* max is where fog is thickest (usually 1000)
*
*/
#define gSPFogFactor(pkt, fm, fo) \
gMoveWd(pkt, G_MW_FOG, G_MWO_FOG, \
(_SHIFTL(fm,16,16) | _SHIFTL(fo,0,16)))
#define gsSPFogFactor(fm, fo) \
gsMoveWd(G_MW_FOG, G_MWO_FOG, \
(_SHIFTL(fm,16,16) | _SHIFTL(fo,0,16)))
#define gSPFogPosition(pkt, min, max) \
gMoveWd(pkt, G_MW_FOG, G_MWO_FOG, \
(_SHIFTL((128000/(max-min)),16,16) | \
_SHIFTL(((500-min)*256/(max-min)),0,16)))
#define gsSPFogPosition(min, max) \
gsMoveWd(G_MW_FOG, G_MWO_FOG, \
(_SHIFTL((128000/(max-min)),16,16) | \
_SHIFTL(((500-min)*256/(max-min)),0,16)))
/*
* Macros to turn texture on/off
*/
#define gSPTexture(pkt, s, t, level, tile, on) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_TEXTURE, 24, 8) | \
_SHIFTL(BOWTIE_VAL, 16, 8) | \
_SHIFTL(level, 11, 3) | _SHIFTL(tile, 8, 3) | \
_SHIFTL(on, 0, 8)); \
_g->words.w1 = (_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16)); \
}
#define gsSPTexture(s, t, level, tile, on) \
{ \
(_SHIFTL(G_TEXTURE, 24, 8) | _SHIFTL(BOWTIE_VAL, 16, 8) | \
_SHIFTL(level, 11, 3) | _SHIFTL(tile, 8, 3) | _SHIFTL(on, 0, 8)),\
(_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16)) \
}
/*
* Different version of SPTexture macro, has an additional parameter
* which is currently reserved in the microcode.
*/
#define gSPTextureL(pkt, s, t, level, xparam, tile, on) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_TEXTURE, 24, 8) | \
_SHIFTL(xparam, 16, 8) | \
_SHIFTL(level, 11, 3) | _SHIFTL(tile, 8, 3) | \
_SHIFTL(on, 0, 8)); \
_g->words.w1 = (_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16)); \
}
#define gsSPTextureL(s, t, level, xparam, tile, on) \
{ \
(_SHIFTL(G_TEXTURE, 24, 8) | _SHIFTL(xparam, 16, 8) | \
_SHIFTL(level, 11, 3) | _SHIFTL(tile, 8, 3) | _SHIFTL(on, 0, 8)),\
(_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16)) \
}
#ifndef VER20E
# define gSPPerspNormalize(pkt, s) gMoveWd(pkt, G_MW_PERSPNORM, 0, (s))
# define gsSPPerspNormalize(s) gsMoveWd( G_MW_PERSPNORM, 0, (s))
#else
# define gSPPerspNormalize(pkt, s) gImmp1(pkt, G_PERSPNORMALIZE, s)
# define gsSPPerspNormalize(s) gsImmp1(G_PERSPNORMALIZE, s)
#endif
#define gSPPopMatrix(pkt, n) gImmp1(pkt, G_POPMTX, n)
#define gsSPPopMatrix(n) gsImmp1(G_POPMTX, n)
#define gSPEndDisplayList(pkt) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_ENDDL, 24, 8); \
_g->words.w1 = 0; \
}
#define gsSPEndDisplayList() \
{ \
_SHIFTL(G_ENDDL, 24, 8), 0 \
}
#define gSPSetGeometryMode(pkt, word) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_SETGEOMETRYMODE, 24, 8); \
_g->words.w1 = (unsigned int)(word); \
}
#define gsSPSetGeometryMode(word) \
{ \
_SHIFTL(G_SETGEOMETRYMODE, 24, 8), (unsigned int)(word) \
}
#define gSPClearGeometryMode(pkt, word) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_CLEARGEOMETRYMODE, 24, 8); \
_g->words.w1 = (unsigned int)(word); \
}
#define gsSPClearGeometryMode(word) \
{ \
_SHIFTL(G_CLEARGEOMETRYMODE, 24, 8), (unsigned int)(word) \
}
#define gSPSetOtherMode(pkt, cmd, sft, len, data) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(cmd, 24, 8) | _SHIFTL(sft, 8, 8) | \
_SHIFTL(len, 0, 8)); \
_g->words.w1 = (unsigned int)(data); \
}
#define gsSPSetOtherMode(cmd, sft, len, data) \
{ \
_SHIFTL(cmd, 24, 8) | _SHIFTL(sft, 8, 8) | _SHIFTL(len, 0, 8), \
(unsigned int)(data) \
}
/*
* RDP setothermode register commands - register shadowed in RSP
*/
#define gDPPipelineMode(pkt, mode) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_PIPELINE, 1, mode)
#define gsDPPipelineMode(mode) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_PIPELINE, 1, mode)
#define gDPSetCycleType(pkt, type) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_CYCLETYPE, 2, type)
#define gsDPSetCycleType(type) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_CYCLETYPE, 2, type)
#define gDPSetTexturePersp(pkt, type) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_TEXTPERSP, 1, type)
#define gsDPSetTexturePersp(type) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_TEXTPERSP, 1, type)
#define gDPSetTextureDetail(pkt, type) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_TEXTDETAIL, 2, type)
#define gsDPSetTextureDetail(type) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_TEXTDETAIL, 2, type)
#define gDPSetTextureLOD(pkt, type) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_TEXTLOD, 1, type)
#define gsDPSetTextureLOD(type) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_TEXTLOD, 1, type)
#define gDPSetTextureLUT(pkt, type) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_TEXTLUT, 2, type)
#define gsDPSetTextureLUT(type) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_TEXTLUT, 2, type)
#define gDPSetTextureFilter(pkt, type) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_TEXTFILT, 2, type)
#define gsDPSetTextureFilter(type) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_TEXTFILT, 2, type)
#define gDPSetTextureConvert(pkt, type) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_TEXTCONV, 3, type)
#define gsDPSetTextureConvert(type) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_TEXTCONV, 3, type)
#define gDPSetCombineKey(pkt, type) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_COMBKEY, 1, type)
#define gsDPSetCombineKey(type) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_COMBKEY, 1, type)
#ifndef _HW_VERSION_1
#define gDPSetColorDither(pkt, mode) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_RGBDITHER, 2, mode)
#define gsDPSetColorDither(mode) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_RGBDITHER, 2, mode)
#else
#define gDPSetColorDither(pkt, mode) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_COLORDITHER, 1, mode)
#define gsDPSetColorDither(mode) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_COLORDITHER, 1, mode)
#endif
#ifndef _HW_VERSION_1
#define gDPSetAlphaDither(pkt, mode) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_H, G_MDSFT_ALPHADITHER, 2, mode)
#define gsDPSetAlphaDither(mode) \
gsSPSetOtherMode(G_SETOTHERMODE_H, G_MDSFT_ALPHADITHER, 2, mode)
#endif
/* 'blendmask' is not supported anymore.
* The bits are reserved for future use.
* Fri May 26 13:45:55 PDT 1995
*/
#define gDPSetBlendMask(pkt, mask) gDPNoOp(pkt)
#define gsDPSetBlendMask(mask) gsDPNoOp()
#define gDPSetAlphaCompare(pkt, type) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_L, G_MDSFT_ALPHACOMPARE, 2, type)
#define gsDPSetAlphaCompare(type) \
gsSPSetOtherMode(G_SETOTHERMODE_L, G_MDSFT_ALPHACOMPARE, 2, type)
#define gDPSetDepthSource(pkt, src) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_L, G_MDSFT_ZSRCSEL, 1, src)
#define gsDPSetDepthSource(src) \
gsSPSetOtherMode(G_SETOTHERMODE_L, G_MDSFT_ZSRCSEL, 1, src)
#define gDPSetRenderMode(pkt, c0, c1) \
gSPSetOtherMode(pkt, G_SETOTHERMODE_L, G_MDSFT_RENDERMODE, 29, \
(c0) | (c1))
#define gsDPSetRenderMode(c0, c1) \
gsSPSetOtherMode(G_SETOTHERMODE_L, G_MDSFT_RENDERMODE, 29, \
(c0) | (c1))
#define gSetImage(pkt, cmd, fmt, siz, width, i) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(cmd, 24, 8) | _SHIFTL(fmt, 21, 3) | \
_SHIFTL(siz, 19, 2) | _SHIFTL((width)-1, 0, 12); \
_g->words.w1 = (unsigned int)(i); \
}
#define gsSetImage(cmd, fmt, siz, width, i) \
{ \
_SHIFTL(cmd, 24, 8) | _SHIFTL(fmt, 21, 3) | \
_SHIFTL(siz, 19, 2) | _SHIFTL((width)-1, 0, 12), \
(unsigned int)(i) \
}
#define gDPSetColorImage(pkt, f, s, w, i) gSetImage(pkt, G_SETCIMG, f, s, w, i)
#define gsDPSetColorImage(f, s, w, i) gsSetImage(G_SETCIMG, f, s, w, i)
/* use these for new code */
#define gDPSetDepthImage(pkt, i) gSetImage(pkt, G_SETZIMG, 0, 0, 1, i)
#define gsDPSetDepthImage(i) gsSetImage(G_SETZIMG, 0, 0, 1, i)
/* kept for compatibility */
#define gDPSetMaskImage(pkt, i) gDPSetDepthImage(pkt, i)
#define gsDPSetMaskImage(i) gsDPSetDepthImage(i)
#define gDPSetTextureImage(pkt, f, s, w, i) gSetImage(pkt, G_SETTIMG, f, s, w, i)
#define gsDPSetTextureImage(f, s, w, i) gsSetImage(G_SETTIMG, f, s, w, i)
/*
* RDP macros
*/
#define gDPSetCombine(pkt, muxs0, muxs1) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_SETCOMBINE, 24, 8) | _SHIFTL(muxs0, 0, 24);\
_g->words.w1 = (unsigned int)(muxs1); \
}
#define gsDPSetCombine(muxs0, muxs1) \
{ \
_SHIFTL(G_SETCOMBINE, 24, 8) | _SHIFTL(muxs0, 0, 24), \
(unsigned int)(muxs1) \
}
#define GCCc0w0(saRGB0, mRGB0, saA0, mA0) \
(_SHIFTL((saRGB0), 20, 4) | _SHIFTL((mRGB0), 15, 5) | \
_SHIFTL((saA0), 12, 3) | _SHIFTL((mA0), 9, 3))
#define GCCc1w0(saRGB1, mRGB1) \
(_SHIFTL((saRGB1), 5, 4) | _SHIFTL((mRGB1), 0, 5))
#define GCCc0w1(sbRGB0, aRGB0, sbA0, aA0) \
(_SHIFTL((sbRGB0), 28, 4) | _SHIFTL((aRGB0), 15, 3) | \
_SHIFTL((sbA0), 12, 3) | _SHIFTL((aA0), 9, 3))
#define GCCc1w1(sbRGB1, saA1, mA1, aRGB1, sbA1, aA1) \
(_SHIFTL((sbRGB1), 24, 4) | _SHIFTL((saA1), 21, 3) | \
_SHIFTL((mA1), 18, 3) | _SHIFTL((aRGB1), 6, 3) | \
_SHIFTL((sbA1), 3, 3) | _SHIFTL((aA1), 0, 3))
#define gDPSetCombineLERP(pkt, a0, b0, c0, d0, Aa0, Ab0, Ac0, Ad0, \
a1, b1, c1, d1, Aa1, Ab1, Ac1, Ad1) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_SETCOMBINE, 24, 8) | \
_SHIFTL(GCCc0w0(G_CCMUX_##a0, G_CCMUX_##c0, \
G_ACMUX_##Aa0, G_ACMUX_##Ac0) | \
GCCc1w0(G_CCMUX_##a1, G_CCMUX_##c1), \
0, 24); \
_g->words.w1 = (unsigned int)(GCCc0w1(G_CCMUX_##b0, \
G_CCMUX_##d0, \
G_ACMUX_##Ab0, \
G_ACMUX_##Ad0) | \
GCCc1w1(G_CCMUX_##b1, \
G_ACMUX_##Aa1, \
G_ACMUX_##Ac1, \
G_CCMUX_##d1, \
G_ACMUX_##Ab1, \
G_ACMUX_##Ad1)); \
}
#define gsDPSetCombineLERP(a0, b0, c0, d0, Aa0, Ab0, Ac0, Ad0, \
a1, b1, c1, d1, Aa1, Ab1, Ac1, Ad1) \
{ \
_SHIFTL(G_SETCOMBINE, 24, 8) | \
_SHIFTL(GCCc0w0(G_CCMUX_##a0, G_CCMUX_##c0, \
G_ACMUX_##Aa0, G_ACMUX_##Ac0) | \
GCCc1w0(G_CCMUX_##a1, G_CCMUX_##c1), 0, 24), \
(unsigned int)(GCCc0w1(G_CCMUX_##b0, G_CCMUX_##d0, \
G_ACMUX_##Ab0, G_ACMUX_##Ad0) | \
GCCc1w1(G_CCMUX_##b1, G_ACMUX_##Aa1, \
G_ACMUX_##Ac1, G_CCMUX_##d1, \
G_ACMUX_##Ab1, G_ACMUX_##Ad1)) \
}
/*
* SetCombineMode macros are NOT redunant. It allow the C preprocessor
* to substitute single parameter which includes commas in the token and
* rescan for higher parameter count macro substitution.
*
* eg. gsDPSetCombineMode(G_CC_MODULATE, G_CC_MODULATE) turns into
* gsDPSetCombineLERP(TEXEL0, 0, SHADE, 0, TEXEL0, 0, SHADE, 0,
* TEXEL0, 0, SHADE, 0, TEXEL0, 0, SHADE, 0)
*/
#define gDPSetCombineMode(pkt, a, b) gDPSetCombineLERP(pkt, a, b)
#define gsDPSetCombineMode(a, b) gsDPSetCombineLERP(a, b)
#define gDPSetColor(pkt, c, d) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(c, 24, 8); \
_g->words.w1 = (unsigned int)(d); \
}
#define gsDPSetColor(c, d) \
{ \
_SHIFTL(c, 24, 8), (unsigned int)(d) \
}
#define DPRGBColor(pkt, cmd, r, g, b, a) \
gDPSetColor(pkt, cmd, \
(_SHIFTL(r, 24, 8) | _SHIFTL(g, 16, 8) | \
_SHIFTL(b, 8, 8) | _SHIFTL(a, 0, 8)))
#define sDPRGBColor(cmd, r, g, b, a) \
gsDPSetColor(cmd, \
(_SHIFTL(r, 24, 8) | _SHIFTL(g, 16, 8) | \
_SHIFTL(b, 8, 8) | _SHIFTL(a, 0, 8)))
#define gDPSetEnvColor(pkt, r, g, b, a) \
DPRGBColor(pkt, G_SETENVCOLOR, r,g,b,a)
#define gsDPSetEnvColor(r, g, b, a) \
sDPRGBColor(G_SETENVCOLOR, r,g,b,a)
#define gDPSetBlendColor(pkt, r, g, b, a) \
DPRGBColor(pkt, G_SETBLENDCOLOR, r,g,b,a)
#define gsDPSetBlendColor(r, g, b, a) \
sDPRGBColor(G_SETBLENDCOLOR, r,g,b,a)
#define gDPSetFogColor(pkt, r, g, b, a) \
DPRGBColor(pkt, G_SETFOGCOLOR, r,g,b,a)
#define gsDPSetFogColor(r, g, b, a) \
sDPRGBColor(G_SETFOGCOLOR, r,g,b,a)
#define gDPSetFillColor(pkt, d) \
gDPSetColor(pkt, G_SETFILLCOLOR, (d))
#define gsDPSetFillColor(d) \
gsDPSetColor(G_SETFILLCOLOR, (d))
#define gDPSetPrimDepth(pkt, z, dz) \
gDPSetColor(pkt, G_SETPRIMDEPTH, \
_SHIFTL(z, 16, 16) | _SHIFTL(dz, 0, 16))
#define gsDPSetPrimDepth(z, dz) \
gsDPSetColor(G_SETPRIMDEPTH, _SHIFTL(z, 16, 16) | \
_SHIFTL(dz, 0, 16))
#define gDPSetPrimColor(pkt, m, l, r, g, b, a) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_SETPRIMCOLOR, 24, 8) | \
_SHIFTL(m, 8, 8) | _SHIFTL(l, 0, 8)); \
_g->words.w1 = (_SHIFTL(r, 24, 8) | _SHIFTL(g, 16, 8) | \
_SHIFTL(b, 8, 8) | _SHIFTL(a, 0, 8)); \
}
#define gsDPSetPrimColor(m, l, r, g, b, a) \
{ \
(_SHIFTL(G_SETPRIMCOLOR, 24, 8) | _SHIFTL(m, 8, 8) | \
_SHIFTL(l, 0, 8)), \
(_SHIFTL(r, 24, 8) | _SHIFTL(g, 16, 8) | _SHIFTL(b, 8, 8) | \
_SHIFTL(a, 0, 8)) \
}
/*
* Texturing macros
*/
#define G_TX_LOADTILE 7
#define G_TX_RENDERTILE 0
#define G_TX_NOMIRROR 0
#define G_TX_WRAP 0
#define G_TX_MIRROR 0x1
#define G_TX_CLAMP 0x2
#define G_TX_NOMASK 0
#define G_TX_NOLOD 0
#ifndef MAX
#define MAX(a, b) ((a) > (b) ? (a) : (b))
#endif
#ifndef MIN
#define MIN(a, b) ((a) < (b) ? (a) : (b))
#endif
/*
* Dxt is the inverse of the number of 64-bit words in a line of
* the texture being loaded using the load_block command. If
* there are any 1's to the right of the 11th fractional bit,
* dxt should be rounded up. The following macros accomplish
* this. The 4b macros are a special case since 4-bit textures
* are loaded as 8-bit textures. Dxt is fixed point 1.11. RJM
*/
#define G_TX_DXT_FRAC 11
/*
* For RCP 2.0, the maximum number of texels that can be loaded
* using a load_block command is 2048. In order to load the total
* 4kB of Tmem, change the texel size when loading to be G_IM_SIZ_16b,
* then change the tile to the proper texel size after the load.
* The g*DPLoadTextureBlock macros already do this, so this change
* will be transparent if you use these macros. If you use
* the g*DPLoadBlock macros directly, you will need to handle this
* tile manipulation yourself. RJM.
*/
#ifdef _HW_VERSION_1
#define G_TX_LDBLK_MAX_TXL 4095
#else
#define G_TX_LDBLK_MAX_TXL 2047
#endif /* _HW_VERSION_1 */
#define TXL2WORDS(txls, b_txl) MAX(1, ((txls)*(b_txl)/8))
#define CALC_DXT(width, b_txl) \
(((1 << G_TX_DXT_FRAC) + TXL2WORDS(width, b_txl) - 1) / \
TXL2WORDS(width, b_txl))
#define TXL2WORDS_4b(txls) MAX(1, ((txls)/16))
#define CALC_DXT_4b(width) \
(((1 << G_TX_DXT_FRAC) + TXL2WORDS_4b(width) - 1) / \
TXL2WORDS_4b(width))
#define gDPLoadTileGeneric(pkt, c, tile, uls, ult, lrs, lrt) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(c, 24, 8) | _SHIFTL(uls, 12, 12) | \
_SHIFTL(ult, 0, 12); \
_g->words.w1 = _SHIFTL(tile, 24, 3) | _SHIFTL(lrs, 12, 12) | \
_SHIFTL(lrt, 0, 12); \
}
#define gsDPLoadTileGeneric(c, tile, uls, ult, lrs, lrt) \
{ \
_SHIFTL(c, 24, 8) | _SHIFTL(uls, 12, 12) | _SHIFTL(ult, 0, 12), \
_SHIFTL(tile, 24, 3) | _SHIFTL(lrs, 12, 12) | _SHIFTL(lrt, 0, 12)\
}
#define gDPSetTileSize(pkt, t, uls, ult, lrs, lrt) \
gDPLoadTileGeneric(pkt, G_SETTILESIZE, t, uls, ult, lrs, lrt)
#define gsDPSetTileSize(t, uls, ult, lrs, lrt) \
gsDPLoadTileGeneric(G_SETTILESIZE, t, uls, ult, lrs, lrt)
#define gDPLoadTile(pkt, t, uls, ult, lrs, lrt) \
gDPLoadTileGeneric(pkt, G_LOADTILE, t, uls, ult, lrs, lrt)
#define gsDPLoadTile(t, uls, ult, lrs, lrt) \
gsDPLoadTileGeneric(G_LOADTILE, t, uls, ult, lrs, lrt)
#define gDPSetTile(pkt, fmt, siz, line, tmem, tile, palette, cmt, \
maskt, shiftt, cms, masks, shifts) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_SETTILE, 24, 8) | _SHIFTL(fmt, 21, 3) |\
_SHIFTL(siz, 19, 2) | _SHIFTL(line, 9, 9) | \
_SHIFTL(tmem, 0, 9); \
_g->words.w1 = _SHIFTL(tile, 24, 3) | _SHIFTL(palette, 20, 4) | \
_SHIFTL(cmt, 18, 2) | _SHIFTL(maskt, 14, 4) | \
_SHIFTL(shiftt, 10, 4) |_SHIFTL(cms, 8, 2) | \
_SHIFTL(masks, 4, 4) | _SHIFTL(shifts, 0, 4); \
}
#define gsDPSetTile(fmt, siz, line, tmem, tile, palette, cmt, \
maskt, shiftt, cms, masks, shifts) \
{ \
(_SHIFTL(G_SETTILE, 24, 8) | _SHIFTL(fmt, 21, 3) | \
_SHIFTL(siz, 19, 2) | _SHIFTL(line, 9, 9) | _SHIFTL(tmem, 0, 9)),\
(_SHIFTL(tile, 24, 3) | _SHIFTL(palette, 20, 4) | \
_SHIFTL(cmt, 18, 2) | _SHIFTL(maskt, 14, 4) | \
_SHIFTL(shiftt, 10, 4) | _SHIFTL(cms, 8, 2) | \
_SHIFTL(masks, 4, 4) | _SHIFTL(shifts, 0, 4)) \
}
/*
* For RCP 2.0, the maximum number of texels that can be loaded
* using a load_block command is 2048. In order to load the total
* 4kB of Tmem, change the texel size when loading to be G_IM_SIZ_16b,
* then change the tile to the proper texel size after the load.
* The g*DPLoadTextureBlock macros already do this, so this change
* will be transparent if you use these macros. If you use
* the g*DPLoadBlock macros directly, you will need to handle this
* tile manipulation yourself. RJM.
*/
#define gDPLoadBlock(pkt, tile, uls, ult, lrs, dxt) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_LOADBLOCK, 24, 8) | \
_SHIFTL(uls, 12, 12) | _SHIFTL(ult, 0, 12)); \
_g->words.w1 = (_SHIFTL(tile, 24, 3) | \
_SHIFTL((MIN(lrs,G_TX_LDBLK_MAX_TXL)), 12, 12) |\
_SHIFTL(dxt, 0, 12)); \
}
#define gsDPLoadBlock(tile, uls, ult, lrs, dxt) \
{ \
(_SHIFTL(G_LOADBLOCK, 24, 8) | _SHIFTL(uls, 12, 12) | \
_SHIFTL(ult, 0, 12)), \
(_SHIFTL(tile, 24, 3) | \
_SHIFTL((MIN(lrs,G_TX_LDBLK_MAX_TXL)), 12, 12) | \
_SHIFTL(dxt, 0, 12)) \
}
#define gDPLoadTLUTCmd(pkt, tile, count) \
{ \
Gfx *_g = (Gfx *)pkt; \
\
_g->words.w0 = _SHIFTL(G_LOADTLUT, 24, 8); \
_g->words.w1 = _SHIFTL((tile), 24, 3) | _SHIFTL((count), 14, 10);\
}
#define gsDPLoadTLUTCmd(tile, count) \
{ \
_SHIFTL(G_LOADTLUT, 24, 8), \
_SHIFTL((tile), 24, 3) | _SHIFTL((count), 14, 10) \
}
#define gDPLoadTextureBlock(pkt, timg, fmt, siz, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz##_LOAD_BLOCK, 1, timg); \
gDPSetTile(pkt, fmt, siz##_LOAD_BLOCK, 0, 0, G_TX_LOADTILE, \
0 , cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT) -1, \
CALC_DXT(width, siz##_BYTES)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, \
(((width) * siz##_LINE_BYTES)+7)>>3, 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
#define gDPLoadTextureBlockYuv(pkt, timg, fmt, siz, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz##_LOAD_BLOCK, 1, timg); \
gDPSetTile(pkt, fmt, siz##_LOAD_BLOCK, 0, 0, G_TX_LOADTILE, \
0 , cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT) -1, \
CALC_DXT(width, siz##_BYTES)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, \
(((width) * 1)+7)>>3, 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
/* Load fix rww 27jun95 */
/* The S at the end means odd lines are already word Swapped */
#define gDPLoadTextureBlockS(pkt, timg, fmt, siz, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz##_LOAD_BLOCK, 1, timg); \
gDPSetTile(pkt, fmt, siz##_LOAD_BLOCK, 0, 0, G_TX_LOADTILE, \
0 , cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1,0); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, \
(((width) * siz##_LINE_BYTES)+7)>>3, 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
/*
* Allow tmem address and render tile to be specified.
* The S at the end means odd lines are already word Swapped
*/
#define gDPLoadMultiBlockS(pkt, timg, tmem, rtile, fmt, siz, width, \
height, pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz##_LOAD_BLOCK, 1, timg); \
gDPSetTile(pkt, fmt, siz##_LOAD_BLOCK, 0, tmem, G_TX_LOADTILE, \
0 , cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1,0); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, \
(((width) * siz##_LINE_BYTES)+7)>>3, tmem, \
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
#define gDPLoadTextureBlockYuvS(pkt, timg, fmt, siz, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz##_LOAD_BLOCK, 1, timg); \
gDPSetTile(pkt, fmt, siz##_LOAD_BLOCK, 0, 0, G_TX_LOADTILE, \
0 , cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1,0); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, \
(((width) * 1)+7)>>3, 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
/*
* allows tmem address to be specified
*/
#define _gDPLoadTextureBlock(pkt, timg, tmem, fmt, siz, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz##_LOAD_BLOCK, 1, timg); \
gDPSetTile(pkt, fmt, siz##_LOAD_BLOCK, 0, tmem, G_TX_LOADTILE, \
0, cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1, \
CALC_DXT(width, siz##_BYTES)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, (((width) * siz##_LINE_BYTES)+7)>>3, \
tmem, G_TX_RENDERTILE, pal, cmt, \
maskt, shiftt, cms, masks, shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
/*
* allows tmem address and render tile to be specified
*/
#define _gDPLoadTextureBlockTile(pkt, timg, tmem, rtile, fmt, siz, width, \
height, pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz##_LOAD_BLOCK, 1, timg); \
gDPSetTile(pkt, fmt, siz##_LOAD_BLOCK, 0, tmem, G_TX_LOADTILE, 0,\
cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1, \
CALC_DXT(width, siz##_BYTES)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, (((width) * siz##_LINE_BYTES)+7)>>3, \
tmem, rtile, pal, cmt, \
maskt, shiftt, cms, masks, shifts); \
gDPSetTileSize(pkt, rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
/*
* allows tmem address and render tile to be specified
*/
#define gDPLoadMultiBlock(pkt, timg, tmem, rtile, fmt, siz, width, \
height, pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz##_LOAD_BLOCK, 1, timg); \
gDPSetTile(pkt, fmt, siz##_LOAD_BLOCK, 0, tmem, G_TX_LOADTILE, 0,\
cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1, \
CALC_DXT(width, siz##_BYTES)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, (((width) * siz##_LINE_BYTES)+7)>>3, \
tmem, rtile, pal, cmt, \
maskt, shiftt, cms, masks, shifts); \
gDPSetTileSize(pkt, rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
#define gsDPLoadTextureBlock(timg, fmt, siz, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, siz##_LOAD_BLOCK, 1, timg), \
gsDPSetTile(fmt, siz##_LOAD_BLOCK, 0, 0, \
G_TX_LOADTILE, 0 , cmt, maskt, shiftt, cms, \
masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1, \
CALC_DXT(width, siz##_BYTES)), \
gsDPPipeSync(), \
gsDPSetTile(fmt, siz, ((((width) * siz##_LINE_BYTES)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
/* Here is the static form of the pre-swapped texture block loading */
/* See gDPLoadTextureBlockS() for reference. Basically, just don't
calculate DxT, use 0 */
#define gsDPLoadTextureBlockS(timg, fmt, siz, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, siz##_LOAD_BLOCK, 1, timg), \
gsDPSetTile(fmt, siz##_LOAD_BLOCK, 0, 0, G_TX_LOADTILE, 0 , \
cmt, maskt,shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1, 0 ),\
gsDPPipeSync(), \
gsDPSetTile(fmt, siz, ((((width) * siz##_LINE_BYTES)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
/*
* Allow tmem address to be specified
*/
#define _gsDPLoadTextureBlock(timg, tmem, fmt, siz, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, siz##_LOAD_BLOCK, 1, timg), \
gsDPSetTile(fmt, siz##_LOAD_BLOCK, 0, tmem, G_TX_LOADTILE, \
0 , cmt, maskt, shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1, \
CALC_DXT(width, siz##_BYTES)), \
gsDPPipeSync(), \
gsDPSetTile(fmt, siz, \
((((width) * siz##_LINE_BYTES)+7)>>3), tmem, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
/*
* Allow tmem address and render_tile to be specified
*/
#define _gsDPLoadTextureBlockTile(timg, tmem, rtile, fmt, siz, width, \
height, pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, siz##_LOAD_BLOCK, 1, timg), \
gsDPSetTile(fmt, siz##_LOAD_BLOCK, 0, tmem, G_TX_LOADTILE, \
0 , cmt, maskt, shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1, \
CALC_DXT(width, siz##_BYTES)), \
gsDPPipeSync(), \
gsDPSetTile(fmt, siz, \
((((width) * siz##_LINE_BYTES)+7)>>3), tmem, \
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
/*
* Allow tmem address and render_tile to be specified, useful when loading
* mutilple tiles at a time.
*/
#define gsDPLoadMultiBlock(timg, tmem, rtile, fmt, siz, width, \
height, pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, siz##_LOAD_BLOCK, 1, timg), \
gsDPSetTile(fmt, siz##_LOAD_BLOCK, 0, tmem, G_TX_LOADTILE, \
0 , cmt, maskt, shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1, \
CALC_DXT(width, siz##_BYTES)), \
gsDPPipeSync(), \
gsDPSetTile(fmt, siz, \
((((width) * siz##_LINE_BYTES)+7)>>3), tmem, \
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
/*
* Allows tmem and render tile to be specified. Useful when loading
* several tiles at a time.
*
* Here is the static form of the pre-swapped texture block loading
* See gDPLoadTextureBlockS() for reference. Basically, just don't
* calculate DxT, use 0
*/
#define gsDPLoadMultiBlockS(timg, tmem, rtile, fmt, siz, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, siz##_LOAD_BLOCK, 1, timg), \
gsDPSetTile(fmt, siz##_LOAD_BLOCK, 0, tmem, G_TX_LOADTILE, 0 , \
cmt, maskt,shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, \
(((width)*(height) + siz##_INCR) >> siz##_SHIFT)-1, 0 ),\
gsDPPipeSync(), \
gsDPSetTile(fmt, siz, ((((width) * siz##_LINE_BYTES)+7)>>3), tmem,\
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
#define gDPLoadTextureBlock_4b(pkt, timg, fmt, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, G_IM_SIZ_16b, 1, timg); \
gDPSetTile(pkt, fmt, G_IM_SIZ_16b, 0, 0, G_TX_LOADTILE, 0, \
cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height)+3)>>2)-1, \
CALC_DXT_4b(width)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
/* Load fix rww 27jun95 */
/* The S at the end means odd lines are already word Swapped */
#define gDPLoadTextureBlock_4bS(pkt, timg, fmt, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, G_IM_SIZ_16b, 1, timg); \
gDPSetTile(pkt, fmt, G_IM_SIZ_16b, 0, 0, G_TX_LOADTILE, 0, \
cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height)+3)>>2)-1, 0 ); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
/*
* 4-bit load block. Useful when loading multiple tiles
*/
#define gDPLoadMultiBlock_4b(pkt, timg, tmem, rtile, fmt, width, height,\
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, G_IM_SIZ_16b, 1, timg); \
gDPSetTile(pkt, fmt, G_IM_SIZ_16b, 0, tmem, G_TX_LOADTILE, 0, \
cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height)+3)>>2)-1, \
CALC_DXT_4b(width)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), tmem, \
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
/*
* 4-bit load block. Allows tmem and render tile to be specified. Useful when
* loading multiple tiles. The S means odd lines are already word swapped.
*/
#define gDPLoadMultiBlock_4bS(pkt, timg, tmem, rtile, fmt, width, height,\
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, G_IM_SIZ_16b, 1, timg); \
gDPSetTile(pkt, fmt, G_IM_SIZ_16b, 0, tmem, G_TX_LOADTILE, 0, \
cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height)+3)>>2)-1, 0 ); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), tmem, \
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
#define _gDPLoadTextureBlock_4b(pkt, timg, tmem, fmt, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, G_IM_SIZ_16b, 1, timg); \
gDPSetTile(pkt, fmt, G_IM_SIZ_16b, 0, tmem, G_TX_LOADTILE, 0, \
cmt, maskt, shiftt, cms, masks, shifts); \
gDPLoadSync(pkt); \
gDPLoadBlock(pkt, G_TX_LOADTILE, 0, 0, \
(((width)*(height)+3)>>2)-1, \
CALC_DXT_4b(width)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), tmem, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC) \
}
#define gsDPLoadTextureBlock_4b(timg, fmt, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, G_IM_SIZ_16b, 1, timg), \
gsDPSetTile(fmt, G_IM_SIZ_16b, 0, 0, G_TX_LOADTILE, 0 , cmt, \
maskt, shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, (((width)*(height)+3)>>2)-1, \
CALC_DXT_4b(width)), \
gsDPPipeSync(), \
gsDPSetTile(fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
#define gsDPLoadTextureBlock_4bS(timg, fmt, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, G_IM_SIZ_16b, 1, timg), \
gsDPSetTile(fmt, G_IM_SIZ_16b, 0, 0, G_TX_LOADTILE, 0 , cmt, \
maskt, shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, (((width)*(height)+3)>>2)-1,0),\
gsDPPipeSync(), \
gsDPSetTile(fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
/*
* 4-bit load block. Allows tmem address and render tile to be specified.
* Useful when loading multiple tiles.
*/
#define gsDPLoadMultiBlock_4b(timg, tmem, rtile, fmt, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, G_IM_SIZ_16b, 1, timg), \
gsDPSetTile(fmt, G_IM_SIZ_16b, 0, tmem, G_TX_LOADTILE, 0 , cmt, \
maskt, shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, (((width)*(height)+3)>>2)-1, \
CALC_DXT_4b(width)), \
gsDPPipeSync(), \
gsDPSetTile(fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), tmem, \
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
/*
* 4-bit load block. Allows tmem address and render tile to be specified.
* Useful when loading multiple tiles. S means odd lines are already swapped.
*/
#define gsDPLoadMultiBlock_4bS(timg, tmem, rtile, fmt, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, G_IM_SIZ_16b, 1, timg), \
gsDPSetTile(fmt, G_IM_SIZ_16b, 0, tmem, G_TX_LOADTILE, 0 , cmt, \
maskt, shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, (((width)*(height)+3)>>2)-1,0),\
gsDPPipeSync(), \
gsDPSetTile(fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), tmem, \
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(rtile, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
/*
* Allows tmem address to be specified
*/
#define _gsDPLoadTextureBlock_4b(timg, tmem, fmt, width, height, \
pal, cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, G_IM_SIZ_16b, 1, timg), \
gsDPSetTile(fmt, G_IM_SIZ_16b, 0, tmem, G_TX_LOADTILE, 0 , cmt, \
maskt, shiftt, cms, masks, shifts), \
gsDPLoadSync(), \
gsDPLoadBlock(G_TX_LOADTILE, 0, 0, (((width)*(height)+3)>>2)-1, \
CALC_DXT_4b(width)), \
gsDPPipeSync(), \
gsDPSetTile(fmt, G_IM_SIZ_4b, ((((width)>>1)+7)>>3), tmem, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(G_TX_RENDERTILE, 0, 0, \
((width)-1) << G_TEXTURE_IMAGE_FRAC, \
((height)-1) << G_TEXTURE_IMAGE_FRAC)
#ifndef _HW_VERSION_1
#define gDPLoadTextureTile(pkt, timg, fmt, siz, width, height, \
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz, width, timg); \
gDPSetTile(pkt, fmt, siz, \
(((((lrs)-(uls)+1) * siz##_TILE_BYTES)+7)>>3), 0, \
G_TX_LOADTILE, 0 , cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPLoadSync(pkt); \
gDPLoadTile( pkt, G_TX_LOADTILE, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, \
(((((lrs)-(uls)+1) * siz##_LINE_BYTES)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC) \
}
#else /******** WORKAROUND hw 1 load tile bug ********/
#define gDPLoadTextureTile(pkt, timg, fmt, siz, width, height, \
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt) \
\
{ \
int _loadtile_i, _loadtile_nw; Gfx *_loadtile_temp = pkt; \
guDPLoadTextureTile(_loadtile_temp, timg, fmt, siz, \
width, height, \
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt); \
_loadtile_nw = guGetDPLoadTextureTileSz(ult, lrt) - 1; \
for(_loadtile_i = 0; _loadtile_i < _loadtile_nw; _loadtile_i++) \
pkt; \
}
#endif /* HW_VERSION_1 */
/*
* Load texture tile. Allows tmem address and render tile to be specified.
* Useful for loading multiple tiles.
*/
#define gDPLoadMultiTile(pkt, timg, tmem, rtile, fmt, siz, width, height,\
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, siz, width, timg); \
gDPSetTile(pkt, fmt, siz, \
(((((lrs)-(uls)+1) * siz##_TILE_BYTES)+7)>>3), tmem, \
G_TX_LOADTILE, 0 , cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPLoadSync(pkt); \
gDPLoadTile( pkt, G_TX_LOADTILE, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, siz, \
(((((lrs)-(uls)+1) * siz##_LINE_BYTES)+7)>>3), tmem, \
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, rtile, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC) \
}
#define gsDPLoadTextureTile(timg, fmt, siz, width, height, \
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, siz, width, timg), \
gsDPSetTile(fmt, siz, \
(((((lrs)-(uls)+1) * siz##_TILE_BYTES)+7)>>3), 0, \
G_TX_LOADTILE, 0 , cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPLoadSync(), \
gsDPLoadTile( G_TX_LOADTILE, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC), \
gsDPPipeSync(), \
gsDPSetTile(fmt, siz, \
(((((lrs)-(uls)+1) * siz##_LINE_BYTES)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks,\
shifts), \
gsDPSetTileSize(G_TX_RENDERTILE, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC)
/*
* Load texture tile. Allows tmem address and render tile to be specified.
* Useful for loading multiple tiles.
*/
#define gsDPLoadMultiTile(timg, tmem, rtile, fmt, siz, width, height, \
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, siz, width, timg), \
gsDPSetTile(fmt, siz, \
(((((lrs)-(uls)+1) * siz##_TILE_BYTES)+7)>>3), \
tmem, G_TX_LOADTILE, 0 , cmt, maskt, shiftt, cms, \
masks, shifts), \
gsDPLoadSync(), \
gsDPLoadTile( G_TX_LOADTILE, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC), \
gsDPPipeSync(), \
gsDPSetTile(fmt, siz, \
(((((lrs)-(uls)+1) * siz##_LINE_BYTES)+7)>>3), \
tmem, rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(rtile, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC)
#define gDPLoadTextureTile_4b(pkt, timg, fmt, width, height, \
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, G_IM_SIZ_8b, ((width)>>1), timg); \
gDPSetTile(pkt, fmt, G_IM_SIZ_8b, \
(((((lrs)-(uls)+1)>>1)+7)>>3), 0, \
G_TX_LOADTILE, 0 , cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPLoadSync(pkt); \
gDPLoadTile( pkt, G_TX_LOADTILE, \
(uls)<<(G_TEXTURE_IMAGE_FRAC-1), \
(ult)<<(G_TEXTURE_IMAGE_FRAC), \
(lrs)<<(G_TEXTURE_IMAGE_FRAC-1), \
(lrt)<<(G_TEXTURE_IMAGE_FRAC)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, G_IM_SIZ_4b, \
(((((lrs)-(uls)+1)>>1)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, \
masks, shifts); \
gDPSetTileSize(pkt, G_TX_RENDERTILE, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC) \
}
/*
* Load texture tile. Allows tmem address and render tile to be specified.
* Useful for loading multiple tiles.
*/
#define gDPLoadMultiTile_4b(pkt, timg, tmem, rtile, fmt, width, height, \
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt) \
{ \
gDPSetTextureImage(pkt, fmt, G_IM_SIZ_8b, ((width)>>1), timg); \
gDPSetTile(pkt, fmt, G_IM_SIZ_8b, \
(((((lrs)-(uls)+1)>>1)+7)>>3), tmem, \
G_TX_LOADTILE, 0 , cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPLoadSync(pkt); \
gDPLoadTile( pkt, G_TX_LOADTILE, \
(uls)<<(G_TEXTURE_IMAGE_FRAC-1), \
(ult)<<(G_TEXTURE_IMAGE_FRAC), \
(lrs)<<(G_TEXTURE_IMAGE_FRAC-1), \
(lrt)<<(G_TEXTURE_IMAGE_FRAC)); \
gDPPipeSync(pkt); \
gDPSetTile(pkt, fmt, G_IM_SIZ_4b, \
(((((lrs)-(uls)+1)>>1)+7)>>3), tmem, \
rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts); \
gDPSetTileSize(pkt, rtile, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC) \
}
#define gsDPLoadTextureTile_4b(timg, fmt, width, height, \
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, G_IM_SIZ_8b, ((width)>>1), timg), \
gsDPSetTile(fmt, G_IM_SIZ_8b, (((((lrs)-(uls)+1)>>1)+7)>>3), 0, \
G_TX_LOADTILE, 0 , cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPLoadSync(), \
gsDPLoadTile( G_TX_LOADTILE, \
(uls)<<(G_TEXTURE_IMAGE_FRAC-1), \
(ult)<<(G_TEXTURE_IMAGE_FRAC), \
(lrs)<<(G_TEXTURE_IMAGE_FRAC-1), \
(lrt)<<(G_TEXTURE_IMAGE_FRAC)), \
gsDPPipeSync(), \
gsDPSetTile(fmt, G_IM_SIZ_4b, (((((lrs)-(uls)+1)>>1)+7)>>3), 0, \
G_TX_RENDERTILE, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(G_TX_RENDERTILE, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC)
/*
* Load texture tile. Allows tmem address and render tile to be specified.
* Useful for loading multiple tiles.
*/
#define gsDPLoadMultiTile_4b(timg, tmem, rtile, fmt, width, height, \
uls, ult, lrs, lrt, pal, \
cms, cmt, masks, maskt, shifts, shiftt) \
\
gsDPSetTextureImage(fmt, G_IM_SIZ_8b, ((width)>>1), timg), \
gsDPSetTile(fmt, G_IM_SIZ_8b, (((((lrs)-(uls)+1)>>1)+7)>>3), \
tmem, G_TX_LOADTILE, 0 , cmt, maskt, shiftt, cms, \
masks, shifts), \
gsDPLoadSync(), \
gsDPLoadTile( G_TX_LOADTILE, \
(uls)<<(G_TEXTURE_IMAGE_FRAC-1), \
(ult)<<(G_TEXTURE_IMAGE_FRAC), \
(lrs)<<(G_TEXTURE_IMAGE_FRAC-1), \
(lrt)<<(G_TEXTURE_IMAGE_FRAC)), \
gsDPPipeSync(), \
gsDPSetTile(fmt, G_IM_SIZ_4b, (((((lrs)-(uls)+1)>>1)+7)>>3), \
tmem, rtile, pal, cmt, maskt, shiftt, cms, masks, \
shifts), \
gsDPSetTileSize(rtile, \
(uls)<<G_TEXTURE_IMAGE_FRAC, \
(ult)<<G_TEXTURE_IMAGE_FRAC, \
(lrs)<<G_TEXTURE_IMAGE_FRAC, \
(lrt)<<G_TEXTURE_IMAGE_FRAC)
/*
* Load a 16-entry palette (for 4-bit CI textures)
* Assumes a 16 entry tlut is being loaded, palette # is 0-15
*/
#ifndef _HW_VERSION_1
#define gDPLoadTLUT_pal16(pkt, pal, dram) \
{ \
gDPSetTextureImage(pkt, G_IM_FMT_RGBA, G_IM_SIZ_16b, 1, dram); \
gDPTileSync(pkt); \
gDPSetTile(pkt, 0, 0, 0, (256+(((pal)&0xf)*16)), \
G_TX_LOADTILE, 0 , 0, 0, 0, 0, 0, 0); \
gDPLoadSync(pkt); \
gDPLoadTLUTCmd(pkt, G_TX_LOADTILE, 15); \
gDPPipeSync(pkt) \
}
#else /* **** WORKAROUND hardware 1 load_tlut bug ****** */
#define gDPLoadTLUT_pal16(pkt, pal, dram) \
\
_gDPLoadTextureBlock(pkt, dram, (256+(((pal)&0xf)*16)), \
G_IM_FMT_RGBA, G_IM_SIZ_16b, 4*16, 1, \
pal, 0, 0, 0, 0, 0, 0)
#endif /* _HW_VERSION_1 */
/*
* Load a 16-entry palette (for 4-bit CI textures)
* Assumes a 16 entry tlut is being loaded, palette # is 0-15
*/
#ifndef _HW_VERSION_1
#define gsDPLoadTLUT_pal16(pal, dram) \
\
gsDPSetTextureImage(G_IM_FMT_RGBA, G_IM_SIZ_16b, 1, dram), \
gsDPTileSync(), \
gsDPSetTile(0, 0, 0, (256+(((pal)&0xf)*16)), \
G_TX_LOADTILE, 0 , 0, 0, 0, 0, 0, 0), \
gsDPLoadSync(), \
gsDPLoadTLUTCmd(G_TX_LOADTILE, 15), \
gsDPPipeSync()
#else /* **** WORKAROUND hardware 1 load_tlut bug ****** */
#define gsDPLoadTLUT_pal16(pal, dram) \
\
_gsDPLoadTextureBlock(dram, (256+(((pal)&0xf)*16)), \
G_IM_FMT_RGBA, G_IM_SIZ_16b, 4*16, 1, \
pal, 0, 0, 0, 0, 0, 0)
#endif /* _HW_VERSION_1 */
/*
* Load a 256-entry palette (for 8-bit CI textures)
* Assumes a 256 entry tlut is being loaded, palette # is not used
*/
#ifndef _HW_VERSION_1
#define gDPLoadTLUT_pal256(pkt, dram) \
{ \
gDPSetTextureImage(pkt, G_IM_FMT_RGBA, G_IM_SIZ_16b, 1, dram); \
gDPTileSync(pkt); \
gDPSetTile(pkt, 0, 0, 0, 256, \
G_TX_LOADTILE, 0 , 0, 0, 0, 0, 0, 0); \
gDPLoadSync(pkt); \
gDPLoadTLUTCmd(pkt, G_TX_LOADTILE, 255); \
gDPPipeSync(pkt) \
}
#else /* **** WORKAROUND hardware 1 load_tlut bug ****** */
#define gDPLoadTLUT_pal256(pkt, dram) \
\
_gDPLoadTextureBlock(pkt, dram, 256, \
G_IM_FMT_RGBA, G_IM_SIZ_16b, 4*256, 1, \
0, 0, 0, 0, 0, 0, 0)
#endif /* _HW_VERSION_1 */
#ifndef _HW_VERSION_1
#define gsDPLoadTLUT_pal256(dram) \
\
gsDPSetTextureImage(G_IM_FMT_RGBA, G_IM_SIZ_16b, 1, dram), \
gsDPTileSync(), \
gsDPSetTile(0, 0, 0, 256, \
G_TX_LOADTILE, 0 , 0, 0, 0, 0, 0, 0), \
gsDPLoadSync(), \
gsDPLoadTLUTCmd(G_TX_LOADTILE, 255), \
gsDPPipeSync()
#else /* **** WORKAROUND hardware 1 load_tlut bug ****** */
#define gsDPLoadTLUT_pal256(dram) \
\
_gsDPLoadTextureBlock(dram, 256, \
G_IM_FMT_RGBA, G_IM_SIZ_16b, 4*256, 1, \
0, 0, 0, 0, 0, 0, 0)
#endif /* _HW_VERSION_1 */
#ifndef _HW_VERSION_1
#define gDPLoadTLUT(pkt, count, tmemaddr, dram) \
{ \
gDPSetTextureImage(pkt, G_IM_FMT_RGBA, G_IM_SIZ_16b, 1, dram); \
gDPTileSync(pkt); \
gDPSetTile(pkt, 0, 0, 0, tmemaddr, \
G_TX_LOADTILE, 0 , 0, 0, 0, 0, 0, 0); \
gDPLoadSync(pkt); \
gDPLoadTLUTCmd(pkt, G_TX_LOADTILE, ((count)-1)); \
gDPPipeSync(pkt); \
}
#else /* **** WORKAROUND hardware 1 load_tlut bug ****** */
#define gDPLoadTLUT(pkt, count, tmemaddr, dram) \
\
_gDPLoadTextureBlock(pkt, dram, tmemaddr, \
G_IM_FMT_RGBA, G_IM_SIZ_16b, 4, count, \
0, 0, 0, 0, 0, 0, 0)
#endif /* _HW_VERSION_1 */
#ifndef _HW_VERSION_1
#define gsDPLoadTLUT(count, tmemaddr, dram) \
\
gsDPSetTextureImage(G_IM_FMT_RGBA, G_IM_SIZ_16b, 1, dram), \
gsDPTileSync(), \
gsDPSetTile(0, 0, 0, tmemaddr, \
G_TX_LOADTILE, 0 , 0, 0, 0, 0, 0, 0), \
gsDPLoadSync(), \
gsDPLoadTLUTCmd(G_TX_LOADTILE, ((count)-1)), \
gsDPPipeSync()
#else /* **** WORKAROUND hardware 1 load_tlut bug ****** */
#define gsDPLoadTLUT(count, tmemaddr, dram) \
\
_gsDPLoadTextureBlock(dram, tmemaddr, \
G_IM_FMT_RGBA, G_IM_SIZ_16b, 4, count, \
0, 0, 0, 0, 0, 0, 0)
#endif /* _HW_VERSION_1 */
#define gDPSetScissor(pkt, mode, ulx, uly, lrx, lry) \
{ \
Gfx *_g = (Gfx *)pkt; \
\
_g->words.w0 = _SHIFTL(G_SETSCISSOR, 24, 8) | \
_SHIFTL((int)((float)(ulx)*4.0F), 12, 12) | \
_SHIFTL((int)((float)(uly)*4.0F), 0, 12); \
_g->words.w1 = _SHIFTL(mode, 24, 2) | \
_SHIFTL((int)((float)(lrx)*4.0F), 12, 12) | \
_SHIFTL((int)((float)(lry)*4.0F), 0, 12); \
}
#define gDPSetScissorFrac(pkt, mode, ulx, uly, lrx, lry) \
{ \
Gfx *_g = (Gfx *)pkt; \
\
_g->words.w0 = _SHIFTL(G_SETSCISSOR, 24, 8) | \
_SHIFTL((int)((ulx)), 12, 12) | \
_SHIFTL((int)((uly)), 0, 12); \
_g->words.w1 = _SHIFTL(mode, 24, 2) | \
_SHIFTL((int)((lrx)), 12, 12) | \
_SHIFTL((int)((lry)), 0, 12); \
}
#define gsDPSetScissor(mode, ulx, uly, lrx, lry) \
{ \
_SHIFTL(G_SETSCISSOR, 24, 8) | \
_SHIFTL((int)((float)(ulx)*4.0F), 12, 12) | \
_SHIFTL((int)((float)(uly)*4.0F), 0, 12), \
_SHIFTL(mode, 24, 2) | \
_SHIFTL((int)((float)(lrx)*4.0F), 12, 12) | \
_SHIFTL((int)((float)(lry)*4.0F), 0, 12) \
}
#define gsDPSetScissorFrac(mode, ulx, uly, lrx, lry) \
{ \
_SHIFTL(G_SETSCISSOR, 24, 8) | \
_SHIFTL((int)((ulx)), 12, 12) | \
_SHIFTL((int)((uly)), 0, 12), \
_SHIFTL(mode, 24, 2) | \
_SHIFTL((int)(lrx), 12, 12) | \
_SHIFTL((int)(lry), 0, 12) \
}
/* Fraction never used in fill */
#define gDPFillRectangle(pkt, ulx, uly, lrx, lry) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_FILLRECT, 24, 8) | \
_SHIFTL((lrx), 14, 10) | _SHIFTL((lry), 2, 10));\
_g->words.w1 = (_SHIFTL((ulx), 14, 10) | _SHIFTL((uly), 2, 10));\
}
#define gsDPFillRectangle(ulx, uly, lrx, lry) \
{ \
(_SHIFTL(G_FILLRECT, 24, 8) | _SHIFTL((lrx), 14, 10) | \
_SHIFTL((lry), 2, 10)), \
(_SHIFTL((ulx), 14, 10) | _SHIFTL((uly), 2, 10)) \
}
/* like gDPFillRectangle but accepts negative arguments */
#define gDPScisFillRectangle(pkt, ulx, uly, lrx, lry) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_FILLRECT, 24, 8) | \
_SHIFTL(MAX((lrx),0), 14, 10) | \
_SHIFTL(MAX((lry),0), 2, 10)); \
_g->words.w1 = (_SHIFTL(MAX((ulx),0), 14, 10) | \
_SHIFTL(MAX((uly),0), 2, 10)); \
}
#define gDPSetConvert(pkt, k0, k1, k2, k3, k4, k5) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_SETCONVERT, 24, 8) | \
_SHIFTL(k0, 13, 9) | _SHIFTL(k1, 4, 9) | \
_SHIFTR(k2, 5, 4)); \
_g->words.w1 = (_SHIFTL(k2, 27, 5) | _SHIFTL(k3, 18, 9) | \
_SHIFTL(k4, 9, 9) | _SHIFTL(k5, 0, 9)); \
}
#define gsDPSetConvert(k0, k1, k2, k3, k4, k5) \
{ \
(_SHIFTL(G_SETCONVERT, 24, 8) | \
_SHIFTL(k0, 13, 9) | _SHIFTL(k1, 4, 9) | _SHIFTL(k2, 5, 4)), \
(_SHIFTL(k2, 27, 5) | _SHIFTL(k3, 18, 9) | _SHIFTL(k4, 9, 9) | \
_SHIFTL(k5, 0, 9)) \
}
#define gDPSetKeyR(pkt, cR, sR, wR) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(G_SETKEYR, 24, 8); \
_g->words.w1 = (_SHIFTL(wR, 16, 12) | _SHIFTL(cR, 8, 8) | \
_SHIFTL(sR, 0, 8)); \
}
#define gsDPSetKeyR(cR, sR, wR) \
{ \
_SHIFTL(G_SETKEYR, 24, 8), \
_SHIFTL(wR, 16, 12) | _SHIFTL(cR, 8, 8) | _SHIFTL(sR, 0, 8) \
}
#define gDPSetKeyGB(pkt, cG, sG, wG, cB, sB, wB) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_SETKEYGB, 24, 8) | \
_SHIFTL(wG, 12, 12) | _SHIFTL(wB, 0, 12)); \
_g->words.w1 = (_SHIFTL(cG, 24, 8) | _SHIFTL(sG, 16, 8) | \
_SHIFTL(cB, 8, 8) | _SHIFTL(sB, 0, 8)); \
}
#define gsDPSetKeyGB(cG, sG, wG, cB, sB, wB) \
{ \
(_SHIFTL(G_SETKEYGB, 24, 8) | _SHIFTL(wG, 12, 12) | \
_SHIFTL(wB, 0, 12)), \
(_SHIFTL(cG, 24, 8) | _SHIFTL(sG, 16, 8) | _SHIFTL(cB, 8, 8) | \
_SHIFTL(sB, 0, 8)) \
}
#define gDPNoParam(pkt, cmd) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(cmd, 24, 8); \
_g->words.w1 = 0; \
}
#define gsDPNoParam(cmd) \
{ \
_SHIFTL(cmd, 24, 8), 0 \
}
#define gDPParam(pkt, cmd, param) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(cmd, 24, 8); \
_g->words.w1 = (param); \
}
#define gsDPParam(cmd, param) \
{ \
_SHIFTL(cmd, 24, 8), (param) \
}
/* Notice that textured rectangles are 128-bit commands, therefore
* gsDPTextureRectangle() should not be used in display lists
* under normal circumstances (use gsSPTextureRectangle()).
* That is also why there is no gDPTextureRectangle() macros.
*/
#define gsDPTextureRectangle(xl, yl, xh, yh, tile, s, t, dsdx, dtdy) \
{ \
(_SHIFTL(G_TEXRECT, 24, 8) | _SHIFTL(xh, 12, 12) | \
_SHIFTL(yh, 0, 12)), \
(_SHIFTL(tile, 24, 3) | _SHIFTL(xl, 12, 12) | _SHIFTL(yl, 0, 12)), \
}, \
{ \
_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16), \
_SHIFTL(dsdx, 16, 16) | _SHIFTL(dtdy, 0, 16) \
}
#define gsDPTextureRectangleFlip(xl, yl, xh, yh, tile, s, t, dsdx, dtdy) \
{ \
(_SHIFTL(G_TEXRECTFLIP, 24, 8) | _SHIFTL(xh, 12, 12) | \
_SHIFTL(yh, 0, 12)), \
(_SHIFTL(tile, 24, 3) | _SHIFTL(xl, 12, 12) | _SHIFTL(yl, 0, 12)), \
}, \
{ \
_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16), \
_SHIFTL(dsdx, 16, 16) | _SHIFTL(dtdy, 0, 16) \
}
#define gsSPTextureRectangle(xl, yl, xh, yh, tile, s, t, dsdx, dtdy) \
(_SHIFTL(G_TEXRECT, 24, 8) | _SHIFTL(xh, 12, 12) | _SHIFTL(yh, 0, 12)),\
(_SHIFTL(tile, 24, 3) | _SHIFTL(xl, 12, 12) | _SHIFTL(yl, 0, 12)), \
gsImmp1(G_RDPHALF_1, (_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16))), \
gsImmp1(G_RDPHALF_2, (_SHIFTL(dsdx, 16, 16) | _SHIFTL(dtdy, 0, 16)))
#define gSPTextureRectangle(pkt, xl, yl, xh, yh, tile, s, t, dsdx, dtdy)\
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_TEXRECT, 24, 8) | _SHIFTL(xh, 12, 12) | \
_SHIFTL(yh, 0, 12)); \
_g->words.w1 = (_SHIFTL(tile, 24, 3) | _SHIFTL(xl, 12, 12) | \
_SHIFTL(yl, 0, 12)); \
gImmp1(pkt, G_RDPHALF_1, (_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16))); \
gImmp1(pkt, G_RDPHALF_2, (_SHIFTL(dsdx, 16, 16) | _SHIFTL(dtdy, 0, 16)));\
}
/* like gSPTextureRectangle but accepts negative position arguments */
#define gSPScisTextureRectangle(pkt, xl, yl, xh, yh, tile, s, t, dsdx, dtdy) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_TEXRECT, 24, 8) | \
_SHIFTL(MAX((xh),0), 12, 12) | \
_SHIFTL(MAX((yh),0), 0, 12)); \
_g->words.w1 = (_SHIFTL((tile), 24, 3) | \
_SHIFTL(MAX((xl),0), 12, 12) | \
_SHIFTL(MAX((yl),0), 0, 12)); \
gImmp1(pkt, G_RDPHALF_1, \
(_SHIFTL(((s) - \
(((xl) < 0) ? \
(((dsdx) < 0) ? \
(MAX((((xl)*(dsdx))>>7),0)) : \
(MIN((((xl)*(dsdx))>>7),0))) : 0)), 16, 16) | \
_SHIFTL(((t) - \
(((yl) < 0) ? \
(((dtdy) < 0) ? \
(MAX((((yl)*(dtdy))>>7),0)) : \
(MIN((((yl)*(dtdy))>>7),0))) : 0)), 0, 16))); \
gImmp1(pkt, G_RDPHALF_2, (_SHIFTL((dsdx), 16, 16) | \
_SHIFTL((dtdy), 0, 16))); \
}
#define gsSPTextureRectangleFlip(xl, yl, xh, yh, tile, s, t, dsdx, dtdy) \
(_SHIFTL(G_TEXRECTFLIP, 24, 8) | _SHIFTL(xh, 12, 12) | \
_SHIFTL(yh, 0, 12)), \
(_SHIFTL(tile, 24, 3) | _SHIFTL(xl, 12, 12) | _SHIFTL(yl, 0, 12)), \
gsImmp1(G_RDPHALF_1, (_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16))), \
gsImmp1(G_RDPHALF_2, (_SHIFTL(dsdx, 16, 16) | _SHIFTL(dtdy, 0, 16)))
#define gSPTextureRectangleFlip(pkt, xl, yl, xh, yh, tile, s, t, dsdx, dtdy) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = (_SHIFTL(G_TEXRECTFLIP, 24, 8) | _SHIFTL(xh, 12, 12) |\
_SHIFTL(yh, 0, 12)); \
_g->words.w1 = (_SHIFTL(tile, 24, 3) | _SHIFTL(xl, 12, 12) | \
_SHIFTL(yl, 0, 12)); \
gImmp1(pkt, G_RDPHALF_1, (_SHIFTL(s, 16, 16) | _SHIFTL(t, 0, 16))); \
gImmp1(pkt, G_RDPHALF_2, (_SHIFTL(dsdx, 16, 16) | _SHIFTL(dtdy, 0, 16))); \
}
#define gsDPWord(wordhi, wordlo) \
gsImmp1(G_RDPHALF_1, (unsigned int)(wordhi)), \
gsImmp1(G_RDPHALF_2, (unsigned int)(wordlo))
#define gDPWord(pkt, wordhi, wordlo) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
gImmp1(pkt, G_RDPHALF_1, (unsigned int)(wordhi)); \
gImmp1(pkt, G_RDPHALF_2, (unsigned int)(wordlo)); \
}
#ifdef F3DNCom_GBI
/*
この値を目印に DP コマンドの切目を探す.
7 バイトの値が偶然に一致する確率は 1/(2^56) となる.
100K バイトの fifo バッファを用意して 1/60 フレーム処理をすると
約 3000 年に 1 度起こる計算となる.
*/
#define GDP_XTAG_HI 0x00123456
#define GDP_XTAG_LOW 0x789abcde
#define gDPParamXTag(pkt, cmd) \
{ \
Gfx *_g = (Gfx *)(pkt); \
\
_g->words.w0 = _SHIFTL(cmd, 24, 8) | GDP_XTAG_HI; \
_g->words.w1 = GDP_XTAG_LOW; \
}
#define gsDPParamXTag(cmd) \
{ \
_SHIFTL(cmd, 24, 8) | GDP_XTAG_HI, GDP_XTAG_LOW \
}
#define gDPFullSync(pkt) gDPParamXTag(pkt, G_RDPFULLSYNC)
#define gsDPFullSync() gsDPParamXTag(G_RDPFULLSYNC)
#define gDPTileSync(pkt) gDPParamXTag(pkt, G_RDPTILESYNC)
#define gsDPTileSync() gsDPParamXTag(G_RDPTILESYNC)
#define gDPPipeSync(pkt) gDPParamXTag(pkt, G_RDPPIPESYNC)
#define gsDPPipeSync() gsDPParamXTag(G_RDPPIPESYNC)
#define gDPLoadSync(pkt) gDPParamXTag(pkt, G_RDPLOADSYNC)
#define gsDPLoadSync() gsDPParamXTag(G_RDPLOADSYNC)
#define gDPNoOp(pkt) gDPParamXTag(pkt, G_NOOP)
#define gsDPNoOp() gsDPParamXTag(G_NOOP)
#else
#define gDPFullSync(pkt) gDPNoParam(pkt, G_RDPFULLSYNC)
#define gsDPFullSync() gsDPNoParam(G_RDPFULLSYNC)
#define gDPTileSync(pkt) gDPNoParam(pkt, G_RDPTILESYNC)
#define gsDPTileSync() gsDPNoParam(G_RDPTILESYNC)
#define gDPPipeSync(pkt) gDPNoParam(pkt, G_RDPPIPESYNC)
#define gsDPPipeSync() gsDPNoParam(G_RDPPIPESYNC)
#define gDPLoadSync(pkt) gDPNoParam(pkt, G_RDPLOADSYNC)
#define gsDPLoadSync() gsDPNoParam(G_RDPLOADSYNC)
#define gDPNoOp(pkt) gDPNoParam(pkt, G_NOOP)
#define gsDPNoOp() gsDPNoParam(G_NOOP)
#endif
#define gDPNoOpTag(pkt, tag) gDPParam(pkt, G_NOOP, tag)
#define gsDPNoOpTag(tag) gsDPParam(G_NOOP, tag)
#endif /* _LANGUAGE_C */
#endif /* _GBI_H_ */