x86: cpa: move clflush_cache_range()
[wrt350n-kernel.git] / drivers / char / drm / r300_reg.h
blob3ae57ecc7afd84b30b6557a4e01d0be30c45fc5c
1 /**************************************************************************
3 Copyright (C) 2004-2005 Nicolai Haehnle et al.
5 Permission is hereby granted, free of charge, to any person obtaining a
6 copy of this software and associated documentation files (the "Software"),
7 to deal in the Software without restriction, including without limitation
8 on the rights to use, copy, modify, merge, publish, distribute, sub
9 license, and/or sell copies of the Software, and to permit persons to whom
10 the Software is furnished to do so, subject to the following conditions:
12 The above copyright notice and this permission notice (including the next
13 paragraph) shall be included in all copies or substantial portions of the
14 Software.
16 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18 FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
19 THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM,
20 DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
21 OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
22 USE OR OTHER DEALINGS IN THE SOFTWARE.
24 **************************************************************************/
26 #ifndef _R300_REG_H
27 #define _R300_REG_H
29 #define R300_MC_INIT_MISC_LAT_TIMER 0x180
30 # define R300_MC_MISC__MC_CPR_INIT_LAT_SHIFT 0
31 # define R300_MC_MISC__MC_VF_INIT_LAT_SHIFT 4
32 # define R300_MC_MISC__MC_DISP0R_INIT_LAT_SHIFT 8
33 # define R300_MC_MISC__MC_DISP1R_INIT_LAT_SHIFT 12
34 # define R300_MC_MISC__MC_FIXED_INIT_LAT_SHIFT 16
35 # define R300_MC_MISC__MC_E2R_INIT_LAT_SHIFT 20
36 # define R300_MC_MISC__MC_SAME_PAGE_PRIO_SHIFT 24
37 # define R300_MC_MISC__MC_GLOBW_INIT_LAT_SHIFT 28
39 #define R300_MC_INIT_GFX_LAT_TIMER 0x154
40 # define R300_MC_MISC__MC_G3D0R_INIT_LAT_SHIFT 0
41 # define R300_MC_MISC__MC_G3D1R_INIT_LAT_SHIFT 4
42 # define R300_MC_MISC__MC_G3D2R_INIT_LAT_SHIFT 8
43 # define R300_MC_MISC__MC_G3D3R_INIT_LAT_SHIFT 12
44 # define R300_MC_MISC__MC_TX0R_INIT_LAT_SHIFT 16
45 # define R300_MC_MISC__MC_TX1R_INIT_LAT_SHIFT 20
46 # define R300_MC_MISC__MC_GLOBR_INIT_LAT_SHIFT 24
47 # define R300_MC_MISC__MC_GLOBW_FULL_LAT_SHIFT 28
50 * This file contains registers and constants for the R300. They have been
51 * found mostly by examining command buffers captured using glxtest, as well
52 * as by extrapolating some known registers and constants from the R200.
53 * I am fairly certain that they are correct unless stated otherwise
54 * in comments.
57 #define R300_SE_VPORT_XSCALE 0x1D98
58 #define R300_SE_VPORT_XOFFSET 0x1D9C
59 #define R300_SE_VPORT_YSCALE 0x1DA0
60 #define R300_SE_VPORT_YOFFSET 0x1DA4
61 #define R300_SE_VPORT_ZSCALE 0x1DA8
62 #define R300_SE_VPORT_ZOFFSET 0x1DAC
66 * Vertex Array Processing (VAP) Control
67 * Stolen from r200 code from Christoph Brill (It's a guess!)
69 #define R300_VAP_CNTL 0x2080
71 /* This register is written directly and also starts data section
72 * in many 3d CP_PACKET3's
74 #define R300_VAP_VF_CNTL 0x2084
75 # define R300_VAP_VF_CNTL__PRIM_TYPE__SHIFT 0
76 # define R300_VAP_VF_CNTL__PRIM_NONE (0<<0)
77 # define R300_VAP_VF_CNTL__PRIM_POINTS (1<<0)
78 # define R300_VAP_VF_CNTL__PRIM_LINES (2<<0)
79 # define R300_VAP_VF_CNTL__PRIM_LINE_STRIP (3<<0)
80 # define R300_VAP_VF_CNTL__PRIM_TRIANGLES (4<<0)
81 # define R300_VAP_VF_CNTL__PRIM_TRIANGLE_FAN (5<<0)
82 # define R300_VAP_VF_CNTL__PRIM_TRIANGLE_STRIP (6<<0)
83 # define R300_VAP_VF_CNTL__PRIM_LINE_LOOP (12<<0)
84 # define R300_VAP_VF_CNTL__PRIM_QUADS (13<<0)
85 # define R300_VAP_VF_CNTL__PRIM_QUAD_STRIP (14<<0)
86 # define R300_VAP_VF_CNTL__PRIM_POLYGON (15<<0)
88 # define R300_VAP_VF_CNTL__PRIM_WALK__SHIFT 4
89 /* State based - direct writes to registers trigger vertex
90 generation */
91 # define R300_VAP_VF_CNTL__PRIM_WALK_STATE_BASED (0<<4)
92 # define R300_VAP_VF_CNTL__PRIM_WALK_INDICES (1<<4)
93 # define R300_VAP_VF_CNTL__PRIM_WALK_VERTEX_LIST (2<<4)
94 # define R300_VAP_VF_CNTL__PRIM_WALK_VERTEX_EMBEDDED (3<<4)
96 /* I don't think I saw these three used.. */
97 # define R300_VAP_VF_CNTL__COLOR_ORDER__SHIFT 6
98 # define R300_VAP_VF_CNTL__TCL_OUTPUT_CTL_ENA__SHIFT 9
99 # define R300_VAP_VF_CNTL__PROG_STREAM_ENA__SHIFT 10
101 /* index size - when not set the indices are assumed to be 16 bit */
102 # define R300_VAP_VF_CNTL__INDEX_SIZE_32bit (1<<11)
103 /* number of vertices */
104 # define R300_VAP_VF_CNTL__NUM_VERTICES__SHIFT 16
106 /* BEGIN: Wild guesses */
107 #define R300_VAP_OUTPUT_VTX_FMT_0 0x2090
108 # define R300_VAP_OUTPUT_VTX_FMT_0__POS_PRESENT (1<<0)
109 # define R300_VAP_OUTPUT_VTX_FMT_0__COLOR_PRESENT (1<<1)
110 # define R300_VAP_OUTPUT_VTX_FMT_0__COLOR_1_PRESENT (1<<2) /* GUESS */
111 # define R300_VAP_OUTPUT_VTX_FMT_0__COLOR_2_PRESENT (1<<3) /* GUESS */
112 # define R300_VAP_OUTPUT_VTX_FMT_0__COLOR_3_PRESENT (1<<4) /* GUESS */
113 # define R300_VAP_OUTPUT_VTX_FMT_0__PT_SIZE_PRESENT (1<<16) /* GUESS */
115 #define R300_VAP_OUTPUT_VTX_FMT_1 0x2094
116 /* each of the following is 3 bits wide, specifies number
117 of components */
118 # define R300_VAP_OUTPUT_VTX_FMT_1__TEX_0_COMP_CNT_SHIFT 0
119 # define R300_VAP_OUTPUT_VTX_FMT_1__TEX_1_COMP_CNT_SHIFT 3
120 # define R300_VAP_OUTPUT_VTX_FMT_1__TEX_2_COMP_CNT_SHIFT 6
121 # define R300_VAP_OUTPUT_VTX_FMT_1__TEX_3_COMP_CNT_SHIFT 9
122 # define R300_VAP_OUTPUT_VTX_FMT_1__TEX_4_COMP_CNT_SHIFT 12
123 # define R300_VAP_OUTPUT_VTX_FMT_1__TEX_5_COMP_CNT_SHIFT 15
124 # define R300_VAP_OUTPUT_VTX_FMT_1__TEX_6_COMP_CNT_SHIFT 18
125 # define R300_VAP_OUTPUT_VTX_FMT_1__TEX_7_COMP_CNT_SHIFT 21
126 /* END: Wild guesses */
128 #define R300_SE_VTE_CNTL 0x20b0
129 # define R300_VPORT_X_SCALE_ENA 0x00000001
130 # define R300_VPORT_X_OFFSET_ENA 0x00000002
131 # define R300_VPORT_Y_SCALE_ENA 0x00000004
132 # define R300_VPORT_Y_OFFSET_ENA 0x00000008
133 # define R300_VPORT_Z_SCALE_ENA 0x00000010
134 # define R300_VPORT_Z_OFFSET_ENA 0x00000020
135 # define R300_VTX_XY_FMT 0x00000100
136 # define R300_VTX_Z_FMT 0x00000200
137 # define R300_VTX_W0_FMT 0x00000400
138 # define R300_VTX_W0_NORMALIZE 0x00000800
139 # define R300_VTX_ST_DENORMALIZED 0x00001000
141 /* BEGIN: Vertex data assembly - lots of uncertainties */
143 /* gap */
145 #define R300_VAP_CNTL_STATUS 0x2140
146 # define R300_VC_NO_SWAP (0 << 0)
147 # define R300_VC_16BIT_SWAP (1 << 0)
148 # define R300_VC_32BIT_SWAP (2 << 0)
149 # define R300_VAP_TCL_BYPASS (1 << 8)
151 /* gap */
153 /* Where do we get our vertex data?
155 * Vertex data either comes either from immediate mode registers or from
156 * vertex arrays.
157 * There appears to be no mixed mode (though we can force the pitch of
158 * vertex arrays to 0, effectively reusing the same element over and over
159 * again).
161 * Immediate mode is controlled by the INPUT_CNTL registers. I am not sure
162 * if these registers influence vertex array processing.
164 * Vertex arrays are controlled via the 3D_LOAD_VBPNTR packet3.
166 * In both cases, vertex attributes are then passed through INPUT_ROUTE.
168 * Beginning with INPUT_ROUTE_0_0 is a list of WORDs that route vertex data
169 * into the vertex processor's input registers.
170 * The first word routes the first input, the second word the second, etc.
171 * The corresponding input is routed into the register with the given index.
172 * The list is ended by a word with INPUT_ROUTE_END set.
174 * Always set COMPONENTS_4 in immediate mode.
177 #define R300_VAP_INPUT_ROUTE_0_0 0x2150
178 # define R300_INPUT_ROUTE_COMPONENTS_1 (0 << 0)
179 # define R300_INPUT_ROUTE_COMPONENTS_2 (1 << 0)
180 # define R300_INPUT_ROUTE_COMPONENTS_3 (2 << 0)
181 # define R300_INPUT_ROUTE_COMPONENTS_4 (3 << 0)
182 # define R300_INPUT_ROUTE_COMPONENTS_RGBA (4 << 0) /* GUESS */
183 # define R300_VAP_INPUT_ROUTE_IDX_SHIFT 8
184 # define R300_VAP_INPUT_ROUTE_IDX_MASK (31 << 8) /* GUESS */
185 # define R300_VAP_INPUT_ROUTE_END (1 << 13)
186 # define R300_INPUT_ROUTE_IMMEDIATE_MODE (0 << 14) /* GUESS */
187 # define R300_INPUT_ROUTE_FLOAT (1 << 14) /* GUESS */
188 # define R300_INPUT_ROUTE_UNSIGNED_BYTE (2 << 14) /* GUESS */
189 # define R300_INPUT_ROUTE_FLOAT_COLOR (3 << 14) /* GUESS */
190 #define R300_VAP_INPUT_ROUTE_0_1 0x2154
191 #define R300_VAP_INPUT_ROUTE_0_2 0x2158
192 #define R300_VAP_INPUT_ROUTE_0_3 0x215C
193 #define R300_VAP_INPUT_ROUTE_0_4 0x2160
194 #define R300_VAP_INPUT_ROUTE_0_5 0x2164
195 #define R300_VAP_INPUT_ROUTE_0_6 0x2168
196 #define R300_VAP_INPUT_ROUTE_0_7 0x216C
198 /* gap */
200 /* Notes:
201 * - always set up to produce at least two attributes:
202 * if vertex program uses only position, fglrx will set normal, too
203 * - INPUT_CNTL_0_COLOR and INPUT_CNTL_COLOR bits are always equal.
205 #define R300_VAP_INPUT_CNTL_0 0x2180
206 # define R300_INPUT_CNTL_0_COLOR 0x00000001
207 #define R300_VAP_INPUT_CNTL_1 0x2184
208 # define R300_INPUT_CNTL_POS 0x00000001
209 # define R300_INPUT_CNTL_NORMAL 0x00000002
210 # define R300_INPUT_CNTL_COLOR 0x00000004
211 # define R300_INPUT_CNTL_TC0 0x00000400
212 # define R300_INPUT_CNTL_TC1 0x00000800
213 # define R300_INPUT_CNTL_TC2 0x00001000 /* GUESS */
214 # define R300_INPUT_CNTL_TC3 0x00002000 /* GUESS */
215 # define R300_INPUT_CNTL_TC4 0x00004000 /* GUESS */
216 # define R300_INPUT_CNTL_TC5 0x00008000 /* GUESS */
217 # define R300_INPUT_CNTL_TC6 0x00010000 /* GUESS */
218 # define R300_INPUT_CNTL_TC7 0x00020000 /* GUESS */
220 /* gap */
222 /* Words parallel to INPUT_ROUTE_0; All words that are active in INPUT_ROUTE_0
223 * are set to a swizzling bit pattern, other words are 0.
225 * In immediate mode, the pattern is always set to xyzw. In vertex array
226 * mode, the swizzling pattern is e.g. used to set zw components in texture
227 * coordinates with only tweo components.
229 #define R300_VAP_INPUT_ROUTE_1_0 0x21E0
230 # define R300_INPUT_ROUTE_SELECT_X 0
231 # define R300_INPUT_ROUTE_SELECT_Y 1
232 # define R300_INPUT_ROUTE_SELECT_Z 2
233 # define R300_INPUT_ROUTE_SELECT_W 3
234 # define R300_INPUT_ROUTE_SELECT_ZERO 4
235 # define R300_INPUT_ROUTE_SELECT_ONE 5
236 # define R300_INPUT_ROUTE_SELECT_MASK 7
237 # define R300_INPUT_ROUTE_X_SHIFT 0
238 # define R300_INPUT_ROUTE_Y_SHIFT 3
239 # define R300_INPUT_ROUTE_Z_SHIFT 6
240 # define R300_INPUT_ROUTE_W_SHIFT 9
241 # define R300_INPUT_ROUTE_ENABLE (15 << 12)
242 #define R300_VAP_INPUT_ROUTE_1_1 0x21E4
243 #define R300_VAP_INPUT_ROUTE_1_2 0x21E8
244 #define R300_VAP_INPUT_ROUTE_1_3 0x21EC
245 #define R300_VAP_INPUT_ROUTE_1_4 0x21F0
246 #define R300_VAP_INPUT_ROUTE_1_5 0x21F4
247 #define R300_VAP_INPUT_ROUTE_1_6 0x21F8
248 #define R300_VAP_INPUT_ROUTE_1_7 0x21FC
250 /* END: Vertex data assembly */
252 /* gap */
254 /* BEGIN: Upload vertex program and data */
257 * The programmable vertex shader unit has a memory bank of unknown size
258 * that can be written to in 16 byte units by writing the address into
259 * UPLOAD_ADDRESS, followed by data in UPLOAD_DATA (multiples of 4 DWORDs).
261 * Pointers into the memory bank are always in multiples of 16 bytes.
263 * The memory bank is divided into areas with fixed meaning.
265 * Starting at address UPLOAD_PROGRAM: Vertex program instructions.
266 * Native limits reported by drivers from ATI suggest size 256 (i.e. 4KB),
267 * whereas the difference between known addresses suggests size 512.
269 * Starting at address UPLOAD_PARAMETERS: Vertex program parameters.
270 * Native reported limits and the VPI layout suggest size 256, whereas
271 * difference between known addresses suggests size 512.
273 * At address UPLOAD_POINTSIZE is a vector (0, 0, ps, 0), where ps is the
274 * floating point pointsize. The exact purpose of this state is uncertain,
275 * as there is also the R300_RE_POINTSIZE register.
277 * Multiple vertex programs and parameter sets can be loaded at once,
278 * which could explain the size discrepancy.
280 #define R300_VAP_PVS_UPLOAD_ADDRESS 0x2200
281 # define R300_PVS_UPLOAD_PROGRAM 0x00000000
282 # define R300_PVS_UPLOAD_PARAMETERS 0x00000200
283 # define R300_PVS_UPLOAD_POINTSIZE 0x00000406
285 /* gap */
287 #define R300_VAP_PVS_UPLOAD_DATA 0x2208
289 /* END: Upload vertex program and data */
291 /* gap */
293 /* I do not know the purpose of this register. However, I do know that
294 * it is set to 221C_CLEAR for clear operations and to 221C_NORMAL
295 * for normal rendering.
297 #define R300_VAP_UNKNOWN_221C 0x221C
298 # define R300_221C_NORMAL 0x00000000
299 # define R300_221C_CLEAR 0x0001C000
301 /* These seem to be per-pixel and per-vertex X and Y clipping planes. The first
302 * plane is per-pixel and the second plane is per-vertex.
304 * This was determined by experimentation alone but I believe it is correct.
306 * These registers are called X_QUAD0_1_FL to X_QUAD0_4_FL by glxtest.
308 #define R300_VAP_CLIP_X_0 0x2220
309 #define R300_VAP_CLIP_X_1 0x2224
310 #define R300_VAP_CLIP_Y_0 0x2228
311 #define R300_VAP_CLIP_Y_1 0x2230
313 /* gap */
315 /* Sometimes, END_OF_PKT and 0x2284=0 are the only commands sent between
316 * rendering commands and overwriting vertex program parameters.
317 * Therefore, I suspect writing zero to 0x2284 synchronizes the engine and
318 * avoids bugs caused by still running shaders reading bad data from memory.
320 #define R300_VAP_PVS_WAITIDLE 0x2284 /* GUESS */
322 /* Absolutely no clue what this register is about. */
323 #define R300_VAP_UNKNOWN_2288 0x2288
324 # define R300_2288_R300 0x00750000 /* -- nh */
325 # define R300_2288_RV350 0x0000FFFF /* -- Vladimir */
327 /* gap */
329 /* Addresses are relative to the vertex program instruction area of the
330 * memory bank. PROGRAM_END points to the last instruction of the active
331 * program
333 * The meaning of the two UNKNOWN fields is obviously not known. However,
334 * experiments so far have shown that both *must* point to an instruction
335 * inside the vertex program, otherwise the GPU locks up.
337 * fglrx usually sets CNTL_3_UNKNOWN to the end of the program and
338 * R300_PVS_CNTL_1_POS_END_SHIFT points to instruction where last write to
339 * position takes place.
341 * Most likely this is used to ignore rest of the program in cases
342 * where group of verts arent visible. For some reason this "section"
343 * is sometimes accepted other instruction that have no relationship with
344 * position calculations.
346 #define R300_VAP_PVS_CNTL_1 0x22D0
347 # define R300_PVS_CNTL_1_PROGRAM_START_SHIFT 0
348 # define R300_PVS_CNTL_1_POS_END_SHIFT 10
349 # define R300_PVS_CNTL_1_PROGRAM_END_SHIFT 20
350 /* Addresses are relative the the vertex program parameters area. */
351 #define R300_VAP_PVS_CNTL_2 0x22D4
352 # define R300_PVS_CNTL_2_PARAM_OFFSET_SHIFT 0
353 # define R300_PVS_CNTL_2_PARAM_COUNT_SHIFT 16
354 #define R300_VAP_PVS_CNTL_3 0x22D8
355 # define R300_PVS_CNTL_3_PROGRAM_UNKNOWN_SHIFT 10
356 # define R300_PVS_CNTL_3_PROGRAM_UNKNOWN2_SHIFT 0
358 /* The entire range from 0x2300 to 0x2AC inclusive seems to be used for
359 * immediate vertices
361 #define R300_VAP_VTX_COLOR_R 0x2464
362 #define R300_VAP_VTX_COLOR_G 0x2468
363 #define R300_VAP_VTX_COLOR_B 0x246C
364 #define R300_VAP_VTX_POS_0_X_1 0x2490 /* used for glVertex2*() */
365 #define R300_VAP_VTX_POS_0_Y_1 0x2494
366 #define R300_VAP_VTX_COLOR_PKD 0x249C /* RGBA */
367 #define R300_VAP_VTX_POS_0_X_2 0x24A0 /* used for glVertex3*() */
368 #define R300_VAP_VTX_POS_0_Y_2 0x24A4
369 #define R300_VAP_VTX_POS_0_Z_2 0x24A8
370 /* write 0 to indicate end of packet? */
371 #define R300_VAP_VTX_END_OF_PKT 0x24AC
373 /* gap */
375 /* These are values from r300_reg/r300_reg.h - they are known to be correct
376 * and are here so we can use one register file instead of several
377 * - Vladimir
379 #define R300_GB_VAP_RASTER_VTX_FMT_0 0x4000
380 # define R300_GB_VAP_RASTER_VTX_FMT_0__POS_PRESENT (1<<0)
381 # define R300_GB_VAP_RASTER_VTX_FMT_0__COLOR_0_PRESENT (1<<1)
382 # define R300_GB_VAP_RASTER_VTX_FMT_0__COLOR_1_PRESENT (1<<2)
383 # define R300_GB_VAP_RASTER_VTX_FMT_0__COLOR_2_PRESENT (1<<3)
384 # define R300_GB_VAP_RASTER_VTX_FMT_0__COLOR_3_PRESENT (1<<4)
385 # define R300_GB_VAP_RASTER_VTX_FMT_0__COLOR_SPACE (0xf<<5)
386 # define R300_GB_VAP_RASTER_VTX_FMT_0__PT_SIZE_PRESENT (0x1<<16)
388 #define R300_GB_VAP_RASTER_VTX_FMT_1 0x4004
389 /* each of the following is 3 bits wide, specifies number
390 of components */
391 # define R300_GB_VAP_RASTER_VTX_FMT_1__TEX_0_COMP_CNT_SHIFT 0
392 # define R300_GB_VAP_RASTER_VTX_FMT_1__TEX_1_COMP_CNT_SHIFT 3
393 # define R300_GB_VAP_RASTER_VTX_FMT_1__TEX_2_COMP_CNT_SHIFT 6
394 # define R300_GB_VAP_RASTER_VTX_FMT_1__TEX_3_COMP_CNT_SHIFT 9
395 # define R300_GB_VAP_RASTER_VTX_FMT_1__TEX_4_COMP_CNT_SHIFT 12
396 # define R300_GB_VAP_RASTER_VTX_FMT_1__TEX_5_COMP_CNT_SHIFT 15
397 # define R300_GB_VAP_RASTER_VTX_FMT_1__TEX_6_COMP_CNT_SHIFT 18
398 # define R300_GB_VAP_RASTER_VTX_FMT_1__TEX_7_COMP_CNT_SHIFT 21
400 /* UNK30 seems to enables point to quad transformation on textures
401 * (or something closely related to that).
402 * This bit is rather fatal at the time being due to lackings at pixel
403 * shader side
405 #define R300_GB_ENABLE 0x4008
406 # define R300_GB_POINT_STUFF_ENABLE (1<<0)
407 # define R300_GB_LINE_STUFF_ENABLE (1<<1)
408 # define R300_GB_TRIANGLE_STUFF_ENABLE (1<<2)
409 # define R300_GB_STENCIL_AUTO_ENABLE (1<<4)
410 # define R300_GB_UNK31 (1<<31)
411 /* each of the following is 2 bits wide */
412 #define R300_GB_TEX_REPLICATE 0
413 #define R300_GB_TEX_ST 1
414 #define R300_GB_TEX_STR 2
415 # define R300_GB_TEX0_SOURCE_SHIFT 16
416 # define R300_GB_TEX1_SOURCE_SHIFT 18
417 # define R300_GB_TEX2_SOURCE_SHIFT 20
418 # define R300_GB_TEX3_SOURCE_SHIFT 22
419 # define R300_GB_TEX4_SOURCE_SHIFT 24
420 # define R300_GB_TEX5_SOURCE_SHIFT 26
421 # define R300_GB_TEX6_SOURCE_SHIFT 28
422 # define R300_GB_TEX7_SOURCE_SHIFT 30
424 /* MSPOS - positions for multisample antialiasing (?) */
425 #define R300_GB_MSPOS0 0x4010
426 /* shifts - each of the fields is 4 bits */
427 # define R300_GB_MSPOS0__MS_X0_SHIFT 0
428 # define R300_GB_MSPOS0__MS_Y0_SHIFT 4
429 # define R300_GB_MSPOS0__MS_X1_SHIFT 8
430 # define R300_GB_MSPOS0__MS_Y1_SHIFT 12
431 # define R300_GB_MSPOS0__MS_X2_SHIFT 16
432 # define R300_GB_MSPOS0__MS_Y2_SHIFT 20
433 # define R300_GB_MSPOS0__MSBD0_Y 24
434 # define R300_GB_MSPOS0__MSBD0_X 28
436 #define R300_GB_MSPOS1 0x4014
437 # define R300_GB_MSPOS1__MS_X3_SHIFT 0
438 # define R300_GB_MSPOS1__MS_Y3_SHIFT 4
439 # define R300_GB_MSPOS1__MS_X4_SHIFT 8
440 # define R300_GB_MSPOS1__MS_Y4_SHIFT 12
441 # define R300_GB_MSPOS1__MS_X5_SHIFT 16
442 # define R300_GB_MSPOS1__MS_Y5_SHIFT 20
443 # define R300_GB_MSPOS1__MSBD1 24
446 #define R300_GB_TILE_CONFIG 0x4018
447 # define R300_GB_TILE_ENABLE (1<<0)
448 # define R300_GB_TILE_PIPE_COUNT_RV300 0
449 # define R300_GB_TILE_PIPE_COUNT_R300 (3<<1)
450 # define R300_GB_TILE_PIPE_COUNT_R420 (7<<1)
451 # define R300_GB_TILE_PIPE_COUNT_RV410 (3<<1)
452 # define R300_GB_TILE_SIZE_8 0
453 # define R300_GB_TILE_SIZE_16 (1<<4)
454 # define R300_GB_TILE_SIZE_32 (2<<4)
455 # define R300_GB_SUPER_SIZE_1 (0<<6)
456 # define R300_GB_SUPER_SIZE_2 (1<<6)
457 # define R300_GB_SUPER_SIZE_4 (2<<6)
458 # define R300_GB_SUPER_SIZE_8 (3<<6)
459 # define R300_GB_SUPER_SIZE_16 (4<<6)
460 # define R300_GB_SUPER_SIZE_32 (5<<6)
461 # define R300_GB_SUPER_SIZE_64 (6<<6)
462 # define R300_GB_SUPER_SIZE_128 (7<<6)
463 # define R300_GB_SUPER_X_SHIFT 9 /* 3 bits wide */
464 # define R300_GB_SUPER_Y_SHIFT 12 /* 3 bits wide */
465 # define R300_GB_SUPER_TILE_A 0
466 # define R300_GB_SUPER_TILE_B (1<<15)
467 # define R300_GB_SUBPIXEL_1_12 0
468 # define R300_GB_SUBPIXEL_1_16 (1<<16)
470 #define R300_GB_FIFO_SIZE 0x4024
471 /* each of the following is 2 bits wide */
472 #define R300_GB_FIFO_SIZE_32 0
473 #define R300_GB_FIFO_SIZE_64 1
474 #define R300_GB_FIFO_SIZE_128 2
475 #define R300_GB_FIFO_SIZE_256 3
476 # define R300_SC_IFIFO_SIZE_SHIFT 0
477 # define R300_SC_TZFIFO_SIZE_SHIFT 2
478 # define R300_SC_BFIFO_SIZE_SHIFT 4
480 # define R300_US_OFIFO_SIZE_SHIFT 12
481 # define R300_US_WFIFO_SIZE_SHIFT 14
482 /* the following use the same constants as above, but meaning is
483 is times 2 (i.e. instead of 32 words it means 64 */
484 # define R300_RS_TFIFO_SIZE_SHIFT 6
485 # define R300_RS_CFIFO_SIZE_SHIFT 8
486 # define R300_US_RAM_SIZE_SHIFT 10
487 /* watermarks, 3 bits wide */
488 # define R300_RS_HIGHWATER_COL_SHIFT 16
489 # define R300_RS_HIGHWATER_TEX_SHIFT 19
490 # define R300_OFIFO_HIGHWATER_SHIFT 22 /* two bits only */
491 # define R300_CUBE_FIFO_HIGHWATER_COL_SHIFT 24
493 #define R300_GB_SELECT 0x401C
494 # define R300_GB_FOG_SELECT_C0A 0
495 # define R300_GB_FOG_SELECT_C1A 1
496 # define R300_GB_FOG_SELECT_C2A 2
497 # define R300_GB_FOG_SELECT_C3A 3
498 # define R300_GB_FOG_SELECT_1_1_W 4
499 # define R300_GB_FOG_SELECT_Z 5
500 # define R300_GB_DEPTH_SELECT_Z 0
501 # define R300_GB_DEPTH_SELECT_1_1_W (1<<3)
502 # define R300_GB_W_SELECT_1_W 0
503 # define R300_GB_W_SELECT_1 (1<<4)
505 #define R300_GB_AA_CONFIG 0x4020
506 # define R300_AA_DISABLE 0x00
507 # define R300_AA_ENABLE 0x01
508 # define R300_AA_SUBSAMPLES_2 0
509 # define R300_AA_SUBSAMPLES_3 (1<<1)
510 # define R300_AA_SUBSAMPLES_4 (2<<1)
511 # define R300_AA_SUBSAMPLES_6 (3<<1)
513 /* gap */
515 /* Zero to flush caches. */
516 #define R300_TX_CNTL 0x4100
517 #define R300_TX_FLUSH 0x0
519 /* The upper enable bits are guessed, based on fglrx reported limits. */
520 #define R300_TX_ENABLE 0x4104
521 # define R300_TX_ENABLE_0 (1 << 0)
522 # define R300_TX_ENABLE_1 (1 << 1)
523 # define R300_TX_ENABLE_2 (1 << 2)
524 # define R300_TX_ENABLE_3 (1 << 3)
525 # define R300_TX_ENABLE_4 (1 << 4)
526 # define R300_TX_ENABLE_5 (1 << 5)
527 # define R300_TX_ENABLE_6 (1 << 6)
528 # define R300_TX_ENABLE_7 (1 << 7)
529 # define R300_TX_ENABLE_8 (1 << 8)
530 # define R300_TX_ENABLE_9 (1 << 9)
531 # define R300_TX_ENABLE_10 (1 << 10)
532 # define R300_TX_ENABLE_11 (1 << 11)
533 # define R300_TX_ENABLE_12 (1 << 12)
534 # define R300_TX_ENABLE_13 (1 << 13)
535 # define R300_TX_ENABLE_14 (1 << 14)
536 # define R300_TX_ENABLE_15 (1 << 15)
538 /* The pointsize is given in multiples of 6. The pointsize can be
539 * enormous: Clear() renders a single point that fills the entire
540 * framebuffer.
542 #define R300_RE_POINTSIZE 0x421C
543 # define R300_POINTSIZE_Y_SHIFT 0
544 # define R300_POINTSIZE_Y_MASK (0xFFFF << 0) /* GUESS */
545 # define R300_POINTSIZE_X_SHIFT 16
546 # define R300_POINTSIZE_X_MASK (0xFFFF << 16) /* GUESS */
547 # define R300_POINTSIZE_MAX (R300_POINTSIZE_Y_MASK / 6)
549 /* The line width is given in multiples of 6.
550 * In default mode lines are classified as vertical lines.
551 * HO: horizontal
552 * VE: vertical or horizontal
553 * HO & VE: no classification
555 #define R300_RE_LINE_CNT 0x4234
556 # define R300_LINESIZE_SHIFT 0
557 # define R300_LINESIZE_MASK (0xFFFF << 0) /* GUESS */
558 # define R300_LINESIZE_MAX (R300_LINESIZE_MASK / 6)
559 # define R300_LINE_CNT_HO (1 << 16)
560 # define R300_LINE_CNT_VE (1 << 17)
562 /* Some sort of scale or clamp value for texcoordless textures. */
563 #define R300_RE_UNK4238 0x4238
565 /* Something shade related */
566 #define R300_RE_SHADE 0x4274
568 #define R300_RE_SHADE_MODEL 0x4278
569 # define R300_RE_SHADE_MODEL_SMOOTH 0x3aaaa
570 # define R300_RE_SHADE_MODEL_FLAT 0x39595
572 /* Dangerous */
573 #define R300_RE_POLYGON_MODE 0x4288
574 # define R300_PM_ENABLED (1 << 0)
575 # define R300_PM_FRONT_POINT (0 << 0)
576 # define R300_PM_BACK_POINT (0 << 0)
577 # define R300_PM_FRONT_LINE (1 << 4)
578 # define R300_PM_FRONT_FILL (1 << 5)
579 # define R300_PM_BACK_LINE (1 << 7)
580 # define R300_PM_BACK_FILL (1 << 8)
582 /* Fog parameters */
583 #define R300_RE_FOG_SCALE 0x4294
584 #define R300_RE_FOG_START 0x4298
586 /* Not sure why there are duplicate of factor and constant values.
587 * My best guess so far is that there are seperate zbiases for test and write.
588 * Ordering might be wrong.
589 * Some of the tests indicate that fgl has a fallback implementation of zbias
590 * via pixel shaders.
592 #define R300_RE_ZBIAS_CNTL 0x42A0 /* GUESS */
593 #define R300_RE_ZBIAS_T_FACTOR 0x42A4
594 #define R300_RE_ZBIAS_T_CONSTANT 0x42A8
595 #define R300_RE_ZBIAS_W_FACTOR 0x42AC
596 #define R300_RE_ZBIAS_W_CONSTANT 0x42B0
598 /* This register needs to be set to (1<<1) for RV350 to correctly
599 * perform depth test (see --vb-triangles in r300_demo)
600 * Don't know about other chips. - Vladimir
601 * This is set to 3 when GL_POLYGON_OFFSET_FILL is on.
602 * My guess is that there are two bits for each zbias primitive
603 * (FILL, LINE, POINT).
604 * One to enable depth test and one for depth write.
605 * Yet this doesnt explain why depth writes work ...
607 #define R300_RE_OCCLUSION_CNTL 0x42B4
608 # define R300_OCCLUSION_ON (1<<1)
610 #define R300_RE_CULL_CNTL 0x42B8
611 # define R300_CULL_FRONT (1 << 0)
612 # define R300_CULL_BACK (1 << 1)
613 # define R300_FRONT_FACE_CCW (0 << 2)
614 # define R300_FRONT_FACE_CW (1 << 2)
617 /* BEGIN: Rasterization / Interpolators - many guesses */
619 /* 0_UNKNOWN_18 has always been set except for clear operations.
620 * TC_CNT is the number of incoming texture coordinate sets (i.e. it depends
621 * on the vertex program, *not* the fragment program)
623 #define R300_RS_CNTL_0 0x4300
624 # define R300_RS_CNTL_TC_CNT_SHIFT 2
625 # define R300_RS_CNTL_TC_CNT_MASK (7 << 2)
626 /* number of color interpolators used */
627 # define R300_RS_CNTL_CI_CNT_SHIFT 7
628 # define R300_RS_CNTL_0_UNKNOWN_18 (1 << 18)
629 /* Guess: RS_CNTL_1 holds the index of the highest used RS_ROUTE_n
630 register. */
631 #define R300_RS_CNTL_1 0x4304
633 /* gap */
635 /* Only used for texture coordinates.
636 * Use the source field to route texture coordinate input from the
637 * vertex program to the desired interpolator. Note that the source
638 * field is relative to the outputs the vertex program *actually*
639 * writes. If a vertex program only writes texcoord[1], this will
640 * be source index 0.
641 * Set INTERP_USED on all interpolators that produce data used by
642 * the fragment program. INTERP_USED looks like a swizzling mask,
643 * but I haven't seen it used that way.
645 * Note: The _UNKNOWN constants are always set in their respective
646 * register. I don't know if this is necessary.
648 #define R300_RS_INTERP_0 0x4310
649 #define R300_RS_INTERP_1 0x4314
650 # define R300_RS_INTERP_1_UNKNOWN 0x40
651 #define R300_RS_INTERP_2 0x4318
652 # define R300_RS_INTERP_2_UNKNOWN 0x80
653 #define R300_RS_INTERP_3 0x431C
654 # define R300_RS_INTERP_3_UNKNOWN 0xC0
655 #define R300_RS_INTERP_4 0x4320
656 #define R300_RS_INTERP_5 0x4324
657 #define R300_RS_INTERP_6 0x4328
658 #define R300_RS_INTERP_7 0x432C
659 # define R300_RS_INTERP_SRC_SHIFT 2
660 # define R300_RS_INTERP_SRC_MASK (7 << 2)
661 # define R300_RS_INTERP_USED 0x00D10000
663 /* These DWORDs control how vertex data is routed into fragment program
664 * registers, after interpolators.
666 #define R300_RS_ROUTE_0 0x4330
667 #define R300_RS_ROUTE_1 0x4334
668 #define R300_RS_ROUTE_2 0x4338
669 #define R300_RS_ROUTE_3 0x433C /* GUESS */
670 #define R300_RS_ROUTE_4 0x4340 /* GUESS */
671 #define R300_RS_ROUTE_5 0x4344 /* GUESS */
672 #define R300_RS_ROUTE_6 0x4348 /* GUESS */
673 #define R300_RS_ROUTE_7 0x434C /* GUESS */
674 # define R300_RS_ROUTE_SOURCE_INTERP_0 0
675 # define R300_RS_ROUTE_SOURCE_INTERP_1 1
676 # define R300_RS_ROUTE_SOURCE_INTERP_2 2
677 # define R300_RS_ROUTE_SOURCE_INTERP_3 3
678 # define R300_RS_ROUTE_SOURCE_INTERP_4 4
679 # define R300_RS_ROUTE_SOURCE_INTERP_5 5 /* GUESS */
680 # define R300_RS_ROUTE_SOURCE_INTERP_6 6 /* GUESS */
681 # define R300_RS_ROUTE_SOURCE_INTERP_7 7 /* GUESS */
682 # define R300_RS_ROUTE_ENABLE (1 << 3) /* GUESS */
683 # define R300_RS_ROUTE_DEST_SHIFT 6
684 # define R300_RS_ROUTE_DEST_MASK (31 << 6) /* GUESS */
686 /* Special handling for color: When the fragment program uses color,
687 * the ROUTE_0_COLOR bit is set and ROUTE_0_COLOR_DEST contains the
688 * color register index.
690 * Apperently you may set the R300_RS_ROUTE_0_COLOR bit, but not provide any
691 * R300_RS_ROUTE_0_COLOR_DEST value; this setup is used for clearing the state.
692 * See r300_ioctl.c:r300EmitClearState. I'm not sure if this setup is strictly
693 * correct or not. - Oliver.
695 # define R300_RS_ROUTE_0_COLOR (1 << 14)
696 # define R300_RS_ROUTE_0_COLOR_DEST_SHIFT 17
697 # define R300_RS_ROUTE_0_COLOR_DEST_MASK (31 << 17) /* GUESS */
698 /* As above, but for secondary color */
699 # define R300_RS_ROUTE_1_COLOR1 (1 << 14)
700 # define R300_RS_ROUTE_1_COLOR1_DEST_SHIFT 17
701 # define R300_RS_ROUTE_1_COLOR1_DEST_MASK (31 << 17)
702 # define R300_RS_ROUTE_1_UNKNOWN11 (1 << 11)
703 /* END: Rasterization / Interpolators - many guesses */
705 /* BEGIN: Scissors and cliprects */
707 /* There are four clipping rectangles. Their corner coordinates are inclusive.
708 * Every pixel is assigned a number from 0 and 15 by setting bits 0-3 depending
709 * on whether the pixel is inside cliprects 0-3, respectively. For example,
710 * if a pixel is inside cliprects 0 and 1, but outside 2 and 3, it is assigned
711 * the number 3 (binary 0011).
712 * Iff the bit corresponding to the pixel's number in RE_CLIPRECT_CNTL is set,
713 * the pixel is rasterized.
715 * In addition to this, there is a scissors rectangle. Only pixels inside the
716 * scissors rectangle are drawn. (coordinates are inclusive)
718 * For some reason, the top-left corner of the framebuffer is at (1440, 1440)
719 * for the purpose of clipping and scissors.
721 #define R300_RE_CLIPRECT_TL_0 0x43B0
722 #define R300_RE_CLIPRECT_BR_0 0x43B4
723 #define R300_RE_CLIPRECT_TL_1 0x43B8
724 #define R300_RE_CLIPRECT_BR_1 0x43BC
725 #define R300_RE_CLIPRECT_TL_2 0x43C0
726 #define R300_RE_CLIPRECT_BR_2 0x43C4
727 #define R300_RE_CLIPRECT_TL_3 0x43C8
728 #define R300_RE_CLIPRECT_BR_3 0x43CC
729 # define R300_CLIPRECT_OFFSET 1440
730 # define R300_CLIPRECT_MASK 0x1FFF
731 # define R300_CLIPRECT_X_SHIFT 0
732 # define R300_CLIPRECT_X_MASK (0x1FFF << 0)
733 # define R300_CLIPRECT_Y_SHIFT 13
734 # define R300_CLIPRECT_Y_MASK (0x1FFF << 13)
735 #define R300_RE_CLIPRECT_CNTL 0x43D0
736 # define R300_CLIP_OUT (1 << 0)
737 # define R300_CLIP_0 (1 << 1)
738 # define R300_CLIP_1 (1 << 2)
739 # define R300_CLIP_10 (1 << 3)
740 # define R300_CLIP_2 (1 << 4)
741 # define R300_CLIP_20 (1 << 5)
742 # define R300_CLIP_21 (1 << 6)
743 # define R300_CLIP_210 (1 << 7)
744 # define R300_CLIP_3 (1 << 8)
745 # define R300_CLIP_30 (1 << 9)
746 # define R300_CLIP_31 (1 << 10)
747 # define R300_CLIP_310 (1 << 11)
748 # define R300_CLIP_32 (1 << 12)
749 # define R300_CLIP_320 (1 << 13)
750 # define R300_CLIP_321 (1 << 14)
751 # define R300_CLIP_3210 (1 << 15)
753 /* gap */
755 #define R300_RE_SCISSORS_TL 0x43E0
756 #define R300_RE_SCISSORS_BR 0x43E4
757 # define R300_SCISSORS_OFFSET 1440
758 # define R300_SCISSORS_X_SHIFT 0
759 # define R300_SCISSORS_X_MASK (0x1FFF << 0)
760 # define R300_SCISSORS_Y_SHIFT 13
761 # define R300_SCISSORS_Y_MASK (0x1FFF << 13)
762 /* END: Scissors and cliprects */
764 /* BEGIN: Texture specification */
767 * The texture specification dwords are grouped by meaning and not by texture
768 * unit. This means that e.g. the offset for texture image unit N is found in
769 * register TX_OFFSET_0 + (4*N)
771 #define R300_TX_FILTER_0 0x4400
772 # define R300_TX_REPEAT 0
773 # define R300_TX_MIRRORED 1
774 # define R300_TX_CLAMP 4
775 # define R300_TX_CLAMP_TO_EDGE 2
776 # define R300_TX_CLAMP_TO_BORDER 6
777 # define R300_TX_WRAP_S_SHIFT 0
778 # define R300_TX_WRAP_S_MASK (7 << 0)
779 # define R300_TX_WRAP_T_SHIFT 3
780 # define R300_TX_WRAP_T_MASK (7 << 3)
781 # define R300_TX_WRAP_Q_SHIFT 6
782 # define R300_TX_WRAP_Q_MASK (7 << 6)
783 # define R300_TX_MAG_FILTER_NEAREST (1 << 9)
784 # define R300_TX_MAG_FILTER_LINEAR (2 << 9)
785 # define R300_TX_MAG_FILTER_MASK (3 << 9)
786 # define R300_TX_MIN_FILTER_NEAREST (1 << 11)
787 # define R300_TX_MIN_FILTER_LINEAR (2 << 11)
788 # define R300_TX_MIN_FILTER_NEAREST_MIP_NEAREST (5 << 11)
789 # define R300_TX_MIN_FILTER_NEAREST_MIP_LINEAR (9 << 11)
790 # define R300_TX_MIN_FILTER_LINEAR_MIP_NEAREST (6 << 11)
791 # define R300_TX_MIN_FILTER_LINEAR_MIP_LINEAR (10 << 11)
793 /* NOTE: NEAREST doesnt seem to exist.
794 * Im not seting MAG_FILTER_MASK and (3 << 11) on for all
795 * anisotropy modes because that would void selected mag filter
797 # define R300_TX_MIN_FILTER_ANISO_NEAREST (0 << 13)
798 # define R300_TX_MIN_FILTER_ANISO_LINEAR (0 << 13)
799 # define R300_TX_MIN_FILTER_ANISO_NEAREST_MIP_NEAREST (1 << 13)
800 # define R300_TX_MIN_FILTER_ANISO_NEAREST_MIP_LINEAR (2 << 13)
801 # define R300_TX_MIN_FILTER_MASK ( (15 << 11) | (3 << 13) )
802 # define R300_TX_MAX_ANISO_1_TO_1 (0 << 21)
803 # define R300_TX_MAX_ANISO_2_TO_1 (2 << 21)
804 # define R300_TX_MAX_ANISO_4_TO_1 (4 << 21)
805 # define R300_TX_MAX_ANISO_8_TO_1 (6 << 21)
806 # define R300_TX_MAX_ANISO_16_TO_1 (8 << 21)
807 # define R300_TX_MAX_ANISO_MASK (14 << 21)
809 #define R300_TX_FILTER1_0 0x4440
810 # define R300_CHROMA_KEY_MODE_DISABLE 0
811 # define R300_CHROMA_KEY_FORCE 1
812 # define R300_CHROMA_KEY_BLEND 2
813 # define R300_MC_ROUND_NORMAL (0<<2)
814 # define R300_MC_ROUND_MPEG4 (1<<2)
815 # define R300_LOD_BIAS_MASK 0x1fff
816 # define R300_EDGE_ANISO_EDGE_DIAG (0<<13)
817 # define R300_EDGE_ANISO_EDGE_ONLY (1<<13)
818 # define R300_MC_COORD_TRUNCATE_DISABLE (0<<14)
819 # define R300_MC_COORD_TRUNCATE_MPEG (1<<14)
820 # define R300_TX_TRI_PERF_0_8 (0<<15)
821 # define R300_TX_TRI_PERF_1_8 (1<<15)
822 # define R300_TX_TRI_PERF_1_4 (2<<15)
823 # define R300_TX_TRI_PERF_3_8 (3<<15)
824 # define R300_ANISO_THRESHOLD_MASK (7<<17)
826 #define R300_TX_SIZE_0 0x4480
827 # define R300_TX_WIDTHMASK_SHIFT 0
828 # define R300_TX_WIDTHMASK_MASK (2047 << 0)
829 # define R300_TX_HEIGHTMASK_SHIFT 11
830 # define R300_TX_HEIGHTMASK_MASK (2047 << 11)
831 # define R300_TX_UNK23 (1 << 23)
832 # define R300_TX_MAX_MIP_LEVEL_SHIFT 26
833 # define R300_TX_MAX_MIP_LEVEL_MASK (0xf << 26)
834 # define R300_TX_SIZE_PROJECTED (1<<30)
835 # define R300_TX_SIZE_TXPITCH_EN (1<<31)
836 #define R300_TX_FORMAT_0 0x44C0
837 /* The interpretation of the format word by Wladimir van der Laan */
838 /* The X, Y, Z and W refer to the layout of the components.
839 They are given meanings as R, G, B and Alpha by the swizzle
840 specification */
841 # define R300_TX_FORMAT_X8 0x0
842 # define R300_TX_FORMAT_X16 0x1
843 # define R300_TX_FORMAT_Y4X4 0x2
844 # define R300_TX_FORMAT_Y8X8 0x3
845 # define R300_TX_FORMAT_Y16X16 0x4
846 # define R300_TX_FORMAT_Z3Y3X2 0x5
847 # define R300_TX_FORMAT_Z5Y6X5 0x6
848 # define R300_TX_FORMAT_Z6Y5X5 0x7
849 # define R300_TX_FORMAT_Z11Y11X10 0x8
850 # define R300_TX_FORMAT_Z10Y11X11 0x9
851 # define R300_TX_FORMAT_W4Z4Y4X4 0xA
852 # define R300_TX_FORMAT_W1Z5Y5X5 0xB
853 # define R300_TX_FORMAT_W8Z8Y8X8 0xC
854 # define R300_TX_FORMAT_W2Z10Y10X10 0xD
855 # define R300_TX_FORMAT_W16Z16Y16X16 0xE
856 # define R300_TX_FORMAT_DXT1 0xF
857 # define R300_TX_FORMAT_DXT3 0x10
858 # define R300_TX_FORMAT_DXT5 0x11
859 # define R300_TX_FORMAT_D3DMFT_CxV8U8 0x12 /* no swizzle */
860 # define R300_TX_FORMAT_A8R8G8B8 0x13 /* no swizzle */
861 # define R300_TX_FORMAT_B8G8_B8G8 0x14 /* no swizzle */
862 # define R300_TX_FORMAT_G8R8_G8B8 0x15 /* no swizzle */
863 /* 0x16 - some 16 bit green format.. ?? */
864 # define R300_TX_FORMAT_UNK25 (1 << 25) /* no swizzle */
865 # define R300_TX_FORMAT_CUBIC_MAP (1 << 26)
867 /* gap */
868 /* Floating point formats */
869 /* Note - hardware supports both 16 and 32 bit floating point */
870 # define R300_TX_FORMAT_FL_I16 0x18
871 # define R300_TX_FORMAT_FL_I16A16 0x19
872 # define R300_TX_FORMAT_FL_R16G16B16A16 0x1A
873 # define R300_TX_FORMAT_FL_I32 0x1B
874 # define R300_TX_FORMAT_FL_I32A32 0x1C
875 # define R300_TX_FORMAT_FL_R32G32B32A32 0x1D
876 /* alpha modes, convenience mostly */
877 /* if you have alpha, pick constant appropriate to the
878 number of channels (1 for I8, 2 for I8A8, 4 for R8G8B8A8, etc */
879 # define R300_TX_FORMAT_ALPHA_1CH 0x000
880 # define R300_TX_FORMAT_ALPHA_2CH 0x200
881 # define R300_TX_FORMAT_ALPHA_4CH 0x600
882 # define R300_TX_FORMAT_ALPHA_NONE 0xA00
883 /* Swizzling */
884 /* constants */
885 # define R300_TX_FORMAT_X 0
886 # define R300_TX_FORMAT_Y 1
887 # define R300_TX_FORMAT_Z 2
888 # define R300_TX_FORMAT_W 3
889 # define R300_TX_FORMAT_ZERO 4
890 # define R300_TX_FORMAT_ONE 5
891 /* 2.0*Z, everything above 1.0 is set to 0.0 */
892 # define R300_TX_FORMAT_CUT_Z 6
893 /* 2.0*W, everything above 1.0 is set to 0.0 */
894 # define R300_TX_FORMAT_CUT_W 7
896 # define R300_TX_FORMAT_B_SHIFT 18
897 # define R300_TX_FORMAT_G_SHIFT 15
898 # define R300_TX_FORMAT_R_SHIFT 12
899 # define R300_TX_FORMAT_A_SHIFT 9
900 /* Convenience macro to take care of layout and swizzling */
901 # define R300_EASY_TX_FORMAT(B, G, R, A, FMT) ( \
902 ((R300_TX_FORMAT_##B)<<R300_TX_FORMAT_B_SHIFT) \
903 | ((R300_TX_FORMAT_##G)<<R300_TX_FORMAT_G_SHIFT) \
904 | ((R300_TX_FORMAT_##R)<<R300_TX_FORMAT_R_SHIFT) \
905 | ((R300_TX_FORMAT_##A)<<R300_TX_FORMAT_A_SHIFT) \
906 | (R300_TX_FORMAT_##FMT) \
908 /* These can be ORed with result of R300_EASY_TX_FORMAT()
909 We don't really know what they do. Take values from a
910 constant color ? */
911 # define R300_TX_FORMAT_CONST_X (1<<5)
912 # define R300_TX_FORMAT_CONST_Y (2<<5)
913 # define R300_TX_FORMAT_CONST_Z (4<<5)
914 # define R300_TX_FORMAT_CONST_W (8<<5)
916 # define R300_TX_FORMAT_YUV_MODE 0x00800000
918 #define R300_TX_PITCH_0 0x4500 /* obvious missing in gap */
919 #define R300_TX_OFFSET_0 0x4540
920 /* BEGIN: Guess from R200 */
921 # define R300_TXO_ENDIAN_NO_SWAP (0 << 0)
922 # define R300_TXO_ENDIAN_BYTE_SWAP (1 << 0)
923 # define R300_TXO_ENDIAN_WORD_SWAP (2 << 0)
924 # define R300_TXO_ENDIAN_HALFDW_SWAP (3 << 0)
925 # define R300_TXO_MACRO_TILE (1 << 2)
926 # define R300_TXO_MICRO_TILE (1 << 3)
927 # define R300_TXO_OFFSET_MASK 0xffffffe0
928 # define R300_TXO_OFFSET_SHIFT 5
929 /* END: Guess from R200 */
931 /* 32 bit chroma key */
932 #define R300_TX_CHROMA_KEY_0 0x4580
933 /* ff00ff00 == { 0, 1.0, 0, 1.0 } */
934 #define R300_TX_BORDER_COLOR_0 0x45C0
936 /* END: Texture specification */
938 /* BEGIN: Fragment program instruction set */
940 /* Fragment programs are written directly into register space.
941 * There are separate instruction streams for texture instructions and ALU
942 * instructions.
943 * In order to synchronize these streams, the program is divided into up
944 * to 4 nodes. Each node begins with a number of TEX operations, followed
945 * by a number of ALU operations.
946 * The first node can have zero TEX ops, all subsequent nodes must have at
947 * least
948 * one TEX ops.
949 * All nodes must have at least one ALU op.
951 * The index of the last node is stored in PFS_CNTL_0: A value of 0 means
952 * 1 node, a value of 3 means 4 nodes.
953 * The total amount of instructions is defined in PFS_CNTL_2. The offsets are
954 * offsets into the respective instruction streams, while *_END points to the
955 * last instruction relative to this offset.
957 #define R300_PFS_CNTL_0 0x4600
958 # define R300_PFS_CNTL_LAST_NODES_SHIFT 0
959 # define R300_PFS_CNTL_LAST_NODES_MASK (3 << 0)
960 # define R300_PFS_CNTL_FIRST_NODE_HAS_TEX (1 << 3)
961 #define R300_PFS_CNTL_1 0x4604
962 /* There is an unshifted value here which has so far always been equal to the
963 * index of the highest used temporary register.
965 #define R300_PFS_CNTL_2 0x4608
966 # define R300_PFS_CNTL_ALU_OFFSET_SHIFT 0
967 # define R300_PFS_CNTL_ALU_OFFSET_MASK (63 << 0)
968 # define R300_PFS_CNTL_ALU_END_SHIFT 6
969 # define R300_PFS_CNTL_ALU_END_MASK (63 << 6)
970 # define R300_PFS_CNTL_TEX_OFFSET_SHIFT 12
971 # define R300_PFS_CNTL_TEX_OFFSET_MASK (31 << 12) /* GUESS */
972 # define R300_PFS_CNTL_TEX_END_SHIFT 18
973 # define R300_PFS_CNTL_TEX_END_MASK (31 << 18) /* GUESS */
975 /* gap */
977 /* Nodes are stored backwards. The last active node is always stored in
978 * PFS_NODE_3.
979 * Example: In a 2-node program, NODE_0 and NODE_1 are set to 0. The
980 * first node is stored in NODE_2, the second node is stored in NODE_3.
982 * Offsets are relative to the master offset from PFS_CNTL_2.
984 #define R300_PFS_NODE_0 0x4610
985 #define R300_PFS_NODE_1 0x4614
986 #define R300_PFS_NODE_2 0x4618
987 #define R300_PFS_NODE_3 0x461C
988 # define R300_PFS_NODE_ALU_OFFSET_SHIFT 0
989 # define R300_PFS_NODE_ALU_OFFSET_MASK (63 << 0)
990 # define R300_PFS_NODE_ALU_END_SHIFT 6
991 # define R300_PFS_NODE_ALU_END_MASK (63 << 6)
992 # define R300_PFS_NODE_TEX_OFFSET_SHIFT 12
993 # define R300_PFS_NODE_TEX_OFFSET_MASK (31 << 12)
994 # define R300_PFS_NODE_TEX_END_SHIFT 17
995 # define R300_PFS_NODE_TEX_END_MASK (31 << 17)
996 # define R300_PFS_NODE_OUTPUT_COLOR (1 << 22)
997 # define R300_PFS_NODE_OUTPUT_DEPTH (1 << 23)
999 /* TEX
1000 * As far as I can tell, texture instructions cannot write into output
1001 * registers directly. A subsequent ALU instruction is always necessary,
1002 * even if it's just MAD o0, r0, 1, 0
1004 #define R300_PFS_TEXI_0 0x4620
1005 # define R300_FPITX_SRC_SHIFT 0
1006 # define R300_FPITX_SRC_MASK (31 << 0)
1007 /* GUESS */
1008 # define R300_FPITX_SRC_CONST (1 << 5)
1009 # define R300_FPITX_DST_SHIFT 6
1010 # define R300_FPITX_DST_MASK (31 << 6)
1011 # define R300_FPITX_IMAGE_SHIFT 11
1012 /* GUESS based on layout and native limits */
1013 # define R300_FPITX_IMAGE_MASK (15 << 11)
1014 /* Unsure if these are opcodes, or some kind of bitfield, but this is how
1015 * they were set when I checked
1017 # define R300_FPITX_OPCODE_SHIFT 15
1018 # define R300_FPITX_OP_TEX 1
1019 # define R300_FPITX_OP_KIL 2
1020 # define R300_FPITX_OP_TXP 3
1021 # define R300_FPITX_OP_TXB 4
1022 # define R300_FPITX_OPCODE_MASK (7 << 15)
1024 /* ALU
1025 * The ALU instructions register blocks are enumerated according to the order
1026 * in which fglrx. I assume there is space for 64 instructions, since
1027 * each block has space for a maximum of 64 DWORDs, and this matches reported
1028 * native limits.
1030 * The basic functional block seems to be one MAD for each color and alpha,
1031 * and an adder that adds all components after the MUL.
1032 * - ADD, MUL, MAD etc.: use MAD with appropriate neutral operands
1033 * - DP4: Use OUTC_DP4, OUTA_DP4
1034 * - DP3: Use OUTC_DP3, OUTA_DP4, appropriate alpha operands
1035 * - DPH: Use OUTC_DP4, OUTA_DP4, appropriate alpha operands
1036 * - CMPH: If ARG2 > 0.5, return ARG0, else return ARG1
1037 * - CMP: If ARG2 < 0, return ARG1, else return ARG0
1038 * - FLR: use FRC+MAD
1039 * - XPD: use MAD+MAD
1040 * - SGE, SLT: use MAD+CMP
1041 * - RSQ: use ABS modifier for argument
1042 * - Use OUTC_REPL_ALPHA to write results of an alpha-only operation
1043 * (e.g. RCP) into color register
1044 * - apparently, there's no quick DST operation
1045 * - fglrx set FPI2_UNKNOWN_31 on a "MAD fragment.color, tmp0, tmp1, tmp2"
1046 * - fglrx set FPI2_UNKNOWN_31 on a "MAX r2, r1, c0"
1047 * - fglrx once set FPI0_UNKNOWN_31 on a "FRC r1, r1"
1049 * Operand selection
1050 * First stage selects three sources from the available registers and
1051 * constant parameters. This is defined in INSTR1 (color) and INSTR3 (alpha).
1052 * fglrx sorts the three source fields: Registers before constants,
1053 * lower indices before higher indices; I do not know whether this is
1054 * necessary.
1056 * fglrx fills unused sources with "read constant 0"
1057 * According to specs, you cannot select more than two different constants.
1059 * Second stage selects the operands from the sources. This is defined in
1060 * INSTR0 (color) and INSTR2 (alpha). You can also select the special constants
1061 * zero and one.
1062 * Swizzling and negation happens in this stage, as well.
1064 * Important: Color and alpha seem to be mostly separate, i.e. their sources
1065 * selection appears to be fully independent (the register storage is probably
1066 * physically split into a color and an alpha section).
1067 * However (because of the apparent physical split), there is some interaction
1068 * WRT swizzling. If, for example, you want to load an R component into an
1069 * Alpha operand, this R component is taken from a *color* source, not from
1070 * an alpha source. The corresponding register doesn't even have to appear in
1071 * the alpha sources list. (I hope this all makes sense to you)
1073 * Destination selection
1074 * The destination register index is in FPI1 (color) and FPI3 (alpha)
1075 * together with enable bits.
1076 * There are separate enable bits for writing into temporary registers
1077 * (DSTC_REG_* /DSTA_REG) and and program output registers (DSTC_OUTPUT_*
1078 * /DSTA_OUTPUT). You can write to both at once, or not write at all (the
1079 * same index must be used for both).
1081 * Note: There is a special form for LRP
1082 * - Argument order is the same as in ARB_fragment_program.
1083 * - Operation is MAD
1084 * - ARG1 is set to ARGC_SRC1C_LRP/ARGC_SRC1A_LRP
1085 * - Set FPI0/FPI2_SPECIAL_LRP
1086 * Arbitrary LRP (including support for swizzling) requires vanilla MAD+MAD
1088 #define R300_PFS_INSTR1_0 0x46C0
1089 # define R300_FPI1_SRC0C_SHIFT 0
1090 # define R300_FPI1_SRC0C_MASK (31 << 0)
1091 # define R300_FPI1_SRC0C_CONST (1 << 5)
1092 # define R300_FPI1_SRC1C_SHIFT 6
1093 # define R300_FPI1_SRC1C_MASK (31 << 6)
1094 # define R300_FPI1_SRC1C_CONST (1 << 11)
1095 # define R300_FPI1_SRC2C_SHIFT 12
1096 # define R300_FPI1_SRC2C_MASK (31 << 12)
1097 # define R300_FPI1_SRC2C_CONST (1 << 17)
1098 # define R300_FPI1_SRC_MASK 0x0003ffff
1099 # define R300_FPI1_DSTC_SHIFT 18
1100 # define R300_FPI1_DSTC_MASK (31 << 18)
1101 # define R300_FPI1_DSTC_REG_MASK_SHIFT 23
1102 # define R300_FPI1_DSTC_REG_X (1 << 23)
1103 # define R300_FPI1_DSTC_REG_Y (1 << 24)
1104 # define R300_FPI1_DSTC_REG_Z (1 << 25)
1105 # define R300_FPI1_DSTC_OUTPUT_MASK_SHIFT 26
1106 # define R300_FPI1_DSTC_OUTPUT_X (1 << 26)
1107 # define R300_FPI1_DSTC_OUTPUT_Y (1 << 27)
1108 # define R300_FPI1_DSTC_OUTPUT_Z (1 << 28)
1110 #define R300_PFS_INSTR3_0 0x47C0
1111 # define R300_FPI3_SRC0A_SHIFT 0
1112 # define R300_FPI3_SRC0A_MASK (31 << 0)
1113 # define R300_FPI3_SRC0A_CONST (1 << 5)
1114 # define R300_FPI3_SRC1A_SHIFT 6
1115 # define R300_FPI3_SRC1A_MASK (31 << 6)
1116 # define R300_FPI3_SRC1A_CONST (1 << 11)
1117 # define R300_FPI3_SRC2A_SHIFT 12
1118 # define R300_FPI3_SRC2A_MASK (31 << 12)
1119 # define R300_FPI3_SRC2A_CONST (1 << 17)
1120 # define R300_FPI3_SRC_MASK 0x0003ffff
1121 # define R300_FPI3_DSTA_SHIFT 18
1122 # define R300_FPI3_DSTA_MASK (31 << 18)
1123 # define R300_FPI3_DSTA_REG (1 << 23)
1124 # define R300_FPI3_DSTA_OUTPUT (1 << 24)
1125 # define R300_FPI3_DSTA_DEPTH (1 << 27)
1127 #define R300_PFS_INSTR0_0 0x48C0
1128 # define R300_FPI0_ARGC_SRC0C_XYZ 0
1129 # define R300_FPI0_ARGC_SRC0C_XXX 1
1130 # define R300_FPI0_ARGC_SRC0C_YYY 2
1131 # define R300_FPI0_ARGC_SRC0C_ZZZ 3
1132 # define R300_FPI0_ARGC_SRC1C_XYZ 4
1133 # define R300_FPI0_ARGC_SRC1C_XXX 5
1134 # define R300_FPI0_ARGC_SRC1C_YYY 6
1135 # define R300_FPI0_ARGC_SRC1C_ZZZ 7
1136 # define R300_FPI0_ARGC_SRC2C_XYZ 8
1137 # define R300_FPI0_ARGC_SRC2C_XXX 9
1138 # define R300_FPI0_ARGC_SRC2C_YYY 10
1139 # define R300_FPI0_ARGC_SRC2C_ZZZ 11
1140 # define R300_FPI0_ARGC_SRC0A 12
1141 # define R300_FPI0_ARGC_SRC1A 13
1142 # define R300_FPI0_ARGC_SRC2A 14
1143 # define R300_FPI0_ARGC_SRC1C_LRP 15
1144 # define R300_FPI0_ARGC_ZERO 20
1145 # define R300_FPI0_ARGC_ONE 21
1146 /* GUESS */
1147 # define R300_FPI0_ARGC_HALF 22
1148 # define R300_FPI0_ARGC_SRC0C_YZX 23
1149 # define R300_FPI0_ARGC_SRC1C_YZX 24
1150 # define R300_FPI0_ARGC_SRC2C_YZX 25
1151 # define R300_FPI0_ARGC_SRC0C_ZXY 26
1152 # define R300_FPI0_ARGC_SRC1C_ZXY 27
1153 # define R300_FPI0_ARGC_SRC2C_ZXY 28
1154 # define R300_FPI0_ARGC_SRC0CA_WZY 29
1155 # define R300_FPI0_ARGC_SRC1CA_WZY 30
1156 # define R300_FPI0_ARGC_SRC2CA_WZY 31
1158 # define R300_FPI0_ARG0C_SHIFT 0
1159 # define R300_FPI0_ARG0C_MASK (31 << 0)
1160 # define R300_FPI0_ARG0C_NEG (1 << 5)
1161 # define R300_FPI0_ARG0C_ABS (1 << 6)
1162 # define R300_FPI0_ARG1C_SHIFT 7
1163 # define R300_FPI0_ARG1C_MASK (31 << 7)
1164 # define R300_FPI0_ARG1C_NEG (1 << 12)
1165 # define R300_FPI0_ARG1C_ABS (1 << 13)
1166 # define R300_FPI0_ARG2C_SHIFT 14
1167 # define R300_FPI0_ARG2C_MASK (31 << 14)
1168 # define R300_FPI0_ARG2C_NEG (1 << 19)
1169 # define R300_FPI0_ARG2C_ABS (1 << 20)
1170 # define R300_FPI0_SPECIAL_LRP (1 << 21)
1171 # define R300_FPI0_OUTC_MAD (0 << 23)
1172 # define R300_FPI0_OUTC_DP3 (1 << 23)
1173 # define R300_FPI0_OUTC_DP4 (2 << 23)
1174 # define R300_FPI0_OUTC_MIN (4 << 23)
1175 # define R300_FPI0_OUTC_MAX (5 << 23)
1176 # define R300_FPI0_OUTC_CMPH (7 << 23)
1177 # define R300_FPI0_OUTC_CMP (8 << 23)
1178 # define R300_FPI0_OUTC_FRC (9 << 23)
1179 # define R300_FPI0_OUTC_REPL_ALPHA (10 << 23)
1180 # define R300_FPI0_OUTC_SAT (1 << 30)
1181 # define R300_FPI0_INSERT_NOP (1 << 31)
1183 #define R300_PFS_INSTR2_0 0x49C0
1184 # define R300_FPI2_ARGA_SRC0C_X 0
1185 # define R300_FPI2_ARGA_SRC0C_Y 1
1186 # define R300_FPI2_ARGA_SRC0C_Z 2
1187 # define R300_FPI2_ARGA_SRC1C_X 3
1188 # define R300_FPI2_ARGA_SRC1C_Y 4
1189 # define R300_FPI2_ARGA_SRC1C_Z 5
1190 # define R300_FPI2_ARGA_SRC2C_X 6
1191 # define R300_FPI2_ARGA_SRC2C_Y 7
1192 # define R300_FPI2_ARGA_SRC2C_Z 8
1193 # define R300_FPI2_ARGA_SRC0A 9
1194 # define R300_FPI2_ARGA_SRC1A 10
1195 # define R300_FPI2_ARGA_SRC2A 11
1196 # define R300_FPI2_ARGA_SRC1A_LRP 15
1197 # define R300_FPI2_ARGA_ZERO 16
1198 # define R300_FPI2_ARGA_ONE 17
1199 /* GUESS */
1200 # define R300_FPI2_ARGA_HALF 18
1201 # define R300_FPI2_ARG0A_SHIFT 0
1202 # define R300_FPI2_ARG0A_MASK (31 << 0)
1203 # define R300_FPI2_ARG0A_NEG (1 << 5)
1204 /* GUESS */
1205 # define R300_FPI2_ARG0A_ABS (1 << 6)
1206 # define R300_FPI2_ARG1A_SHIFT 7
1207 # define R300_FPI2_ARG1A_MASK (31 << 7)
1208 # define R300_FPI2_ARG1A_NEG (1 << 12)
1209 /* GUESS */
1210 # define R300_FPI2_ARG1A_ABS (1 << 13)
1211 # define R300_FPI2_ARG2A_SHIFT 14
1212 # define R300_FPI2_ARG2A_MASK (31 << 14)
1213 # define R300_FPI2_ARG2A_NEG (1 << 19)
1214 /* GUESS */
1215 # define R300_FPI2_ARG2A_ABS (1 << 20)
1216 # define R300_FPI2_SPECIAL_LRP (1 << 21)
1217 # define R300_FPI2_OUTA_MAD (0 << 23)
1218 # define R300_FPI2_OUTA_DP4 (1 << 23)
1219 # define R300_FPI2_OUTA_MIN (2 << 23)
1220 # define R300_FPI2_OUTA_MAX (3 << 23)
1221 # define R300_FPI2_OUTA_CMP (6 << 23)
1222 # define R300_FPI2_OUTA_FRC (7 << 23)
1223 # define R300_FPI2_OUTA_EX2 (8 << 23)
1224 # define R300_FPI2_OUTA_LG2 (9 << 23)
1225 # define R300_FPI2_OUTA_RCP (10 << 23)
1226 # define R300_FPI2_OUTA_RSQ (11 << 23)
1227 # define R300_FPI2_OUTA_SAT (1 << 30)
1228 # define R300_FPI2_UNKNOWN_31 (1 << 31)
1229 /* END: Fragment program instruction set */
1231 /* Fog state and color */
1232 #define R300_RE_FOG_STATE 0x4BC0
1233 # define R300_FOG_ENABLE (1 << 0)
1234 # define R300_FOG_MODE_LINEAR (0 << 1)
1235 # define R300_FOG_MODE_EXP (1 << 1)
1236 # define R300_FOG_MODE_EXP2 (2 << 1)
1237 # define R300_FOG_MODE_MASK (3 << 1)
1238 #define R300_FOG_COLOR_R 0x4BC8
1239 #define R300_FOG_COLOR_G 0x4BCC
1240 #define R300_FOG_COLOR_B 0x4BD0
1242 #define R300_PP_ALPHA_TEST 0x4BD4
1243 # define R300_REF_ALPHA_MASK 0x000000ff
1244 # define R300_ALPHA_TEST_FAIL (0 << 8)
1245 # define R300_ALPHA_TEST_LESS (1 << 8)
1246 # define R300_ALPHA_TEST_LEQUAL (3 << 8)
1247 # define R300_ALPHA_TEST_EQUAL (2 << 8)
1248 # define R300_ALPHA_TEST_GEQUAL (6 << 8)
1249 # define R300_ALPHA_TEST_GREATER (4 << 8)
1250 # define R300_ALPHA_TEST_NEQUAL (5 << 8)
1251 # define R300_ALPHA_TEST_PASS (7 << 8)
1252 # define R300_ALPHA_TEST_OP_MASK (7 << 8)
1253 # define R300_ALPHA_TEST_ENABLE (1 << 11)
1255 /* gap */
1257 /* Fragment program parameters in 7.16 floating point */
1258 #define R300_PFS_PARAM_0_X 0x4C00
1259 #define R300_PFS_PARAM_0_Y 0x4C04
1260 #define R300_PFS_PARAM_0_Z 0x4C08
1261 #define R300_PFS_PARAM_0_W 0x4C0C
1262 /* GUESS: PARAM_31 is last, based on native limits reported by fglrx */
1263 #define R300_PFS_PARAM_31_X 0x4DF0
1264 #define R300_PFS_PARAM_31_Y 0x4DF4
1265 #define R300_PFS_PARAM_31_Z 0x4DF8
1266 #define R300_PFS_PARAM_31_W 0x4DFC
1268 /* Notes:
1269 * - AFAIK fglrx always sets BLEND_UNKNOWN when blending is used in
1270 * the application
1271 * - AFAIK fglrx always sets BLEND_NO_SEPARATE when CBLEND and ABLEND
1272 * are set to the same
1273 * function (both registers are always set up completely in any case)
1274 * - Most blend flags are simply copied from R200 and not tested yet
1276 #define R300_RB3D_CBLEND 0x4E04
1277 #define R300_RB3D_ABLEND 0x4E08
1278 /* the following only appear in CBLEND */
1279 # define R300_BLEND_ENABLE (1 << 0)
1280 # define R300_BLEND_UNKNOWN (3 << 1)
1281 # define R300_BLEND_NO_SEPARATE (1 << 3)
1282 /* the following are shared between CBLEND and ABLEND */
1283 # define R300_FCN_MASK (3 << 12)
1284 # define R300_COMB_FCN_ADD_CLAMP (0 << 12)
1285 # define R300_COMB_FCN_ADD_NOCLAMP (1 << 12)
1286 # define R300_COMB_FCN_SUB_CLAMP (2 << 12)
1287 # define R300_COMB_FCN_SUB_NOCLAMP (3 << 12)
1288 # define R300_COMB_FCN_MIN (4 << 12)
1289 # define R300_COMB_FCN_MAX (5 << 12)
1290 # define R300_COMB_FCN_RSUB_CLAMP (6 << 12)
1291 # define R300_COMB_FCN_RSUB_NOCLAMP (7 << 12)
1292 # define R300_BLEND_GL_ZERO (32)
1293 # define R300_BLEND_GL_ONE (33)
1294 # define R300_BLEND_GL_SRC_COLOR (34)
1295 # define R300_BLEND_GL_ONE_MINUS_SRC_COLOR (35)
1296 # define R300_BLEND_GL_DST_COLOR (36)
1297 # define R300_BLEND_GL_ONE_MINUS_DST_COLOR (37)
1298 # define R300_BLEND_GL_SRC_ALPHA (38)
1299 # define R300_BLEND_GL_ONE_MINUS_SRC_ALPHA (39)
1300 # define R300_BLEND_GL_DST_ALPHA (40)
1301 # define R300_BLEND_GL_ONE_MINUS_DST_ALPHA (41)
1302 # define R300_BLEND_GL_SRC_ALPHA_SATURATE (42)
1303 # define R300_BLEND_GL_CONST_COLOR (43)
1304 # define R300_BLEND_GL_ONE_MINUS_CONST_COLOR (44)
1305 # define R300_BLEND_GL_CONST_ALPHA (45)
1306 # define R300_BLEND_GL_ONE_MINUS_CONST_ALPHA (46)
1307 # define R300_BLEND_MASK (63)
1308 # define R300_SRC_BLEND_SHIFT (16)
1309 # define R300_DST_BLEND_SHIFT (24)
1310 #define R300_RB3D_BLEND_COLOR 0x4E10
1311 #define R300_RB3D_COLORMASK 0x4E0C
1312 # define R300_COLORMASK0_B (1<<0)
1313 # define R300_COLORMASK0_G (1<<1)
1314 # define R300_COLORMASK0_R (1<<2)
1315 # define R300_COLORMASK0_A (1<<3)
1317 /* gap */
1319 #define R300_RB3D_COLOROFFSET0 0x4E28
1320 # define R300_COLOROFFSET_MASK 0xFFFFFFF0 /* GUESS */
1321 #define R300_RB3D_COLOROFFSET1 0x4E2C /* GUESS */
1322 #define R300_RB3D_COLOROFFSET2 0x4E30 /* GUESS */
1323 #define R300_RB3D_COLOROFFSET3 0x4E34 /* GUESS */
1325 /* gap */
1327 /* Bit 16: Larger tiles
1328 * Bit 17: 4x2 tiles
1329 * Bit 18: Extremely weird tile like, but some pixels duplicated?
1331 #define R300_RB3D_COLORPITCH0 0x4E38
1332 # define R300_COLORPITCH_MASK 0x00001FF8 /* GUESS */
1333 # define R300_COLOR_TILE_ENABLE (1 << 16) /* GUESS */
1334 # define R300_COLOR_MICROTILE_ENABLE (1 << 17) /* GUESS */
1335 # define R300_COLOR_ENDIAN_NO_SWAP (0 << 18) /* GUESS */
1336 # define R300_COLOR_ENDIAN_WORD_SWAP (1 << 18) /* GUESS */
1337 # define R300_COLOR_ENDIAN_DWORD_SWAP (2 << 18) /* GUESS */
1338 # define R300_COLOR_FORMAT_RGB565 (2 << 22)
1339 # define R300_COLOR_FORMAT_ARGB8888 (3 << 22)
1340 #define R300_RB3D_COLORPITCH1 0x4E3C /* GUESS */
1341 #define R300_RB3D_COLORPITCH2 0x4E40 /* GUESS */
1342 #define R300_RB3D_COLORPITCH3 0x4E44 /* GUESS */
1344 /* gap */
1346 /* Guess by Vladimir.
1347 * Set to 0A before 3D operations, set to 02 afterwards.
1349 #define R300_RB3D_DSTCACHE_CTLSTAT 0x4E4C
1350 # define R300_RB3D_DSTCACHE_UNKNOWN_02 0x00000002
1351 # define R300_RB3D_DSTCACHE_UNKNOWN_0A 0x0000000A
1353 /* gap */
1354 /* There seems to be no "write only" setting, so use Z-test = ALWAYS
1355 * for this.
1356 * Bit (1<<8) is the "test" bit. so plain write is 6 - vd
1358 #define R300_RB3D_ZSTENCIL_CNTL_0 0x4F00
1359 # define R300_RB3D_Z_DISABLED_1 0x00000010
1360 # define R300_RB3D_Z_DISABLED_2 0x00000014
1361 # define R300_RB3D_Z_TEST 0x00000012
1362 # define R300_RB3D_Z_TEST_AND_WRITE 0x00000016
1363 # define R300_RB3D_Z_WRITE_ONLY 0x00000006
1365 # define R300_RB3D_Z_TEST 0x00000012
1366 # define R300_RB3D_Z_TEST_AND_WRITE 0x00000016
1367 # define R300_RB3D_Z_WRITE_ONLY 0x00000006
1368 # define R300_RB3D_STENCIL_ENABLE 0x00000001
1370 #define R300_RB3D_ZSTENCIL_CNTL_1 0x4F04
1371 /* functions */
1372 # define R300_ZS_NEVER 0
1373 # define R300_ZS_LESS 1
1374 # define R300_ZS_LEQUAL 2
1375 # define R300_ZS_EQUAL 3
1376 # define R300_ZS_GEQUAL 4
1377 # define R300_ZS_GREATER 5
1378 # define R300_ZS_NOTEQUAL 6
1379 # define R300_ZS_ALWAYS 7
1380 # define R300_ZS_MASK 7
1381 /* operations */
1382 # define R300_ZS_KEEP 0
1383 # define R300_ZS_ZERO 1
1384 # define R300_ZS_REPLACE 2
1385 # define R300_ZS_INCR 3
1386 # define R300_ZS_DECR 4
1387 # define R300_ZS_INVERT 5
1388 # define R300_ZS_INCR_WRAP 6
1389 # define R300_ZS_DECR_WRAP 7
1390 /* front and back refer to operations done for front
1391 and back faces, i.e. separate stencil function support */
1392 # define R300_RB3D_ZS1_DEPTH_FUNC_SHIFT 0
1393 # define R300_RB3D_ZS1_FRONT_FUNC_SHIFT 3
1394 # define R300_RB3D_ZS1_FRONT_FAIL_OP_SHIFT 6
1395 # define R300_RB3D_ZS1_FRONT_ZPASS_OP_SHIFT 9
1396 # define R300_RB3D_ZS1_FRONT_ZFAIL_OP_SHIFT 12
1397 # define R300_RB3D_ZS1_BACK_FUNC_SHIFT 15
1398 # define R300_RB3D_ZS1_BACK_FAIL_OP_SHIFT 18
1399 # define R300_RB3D_ZS1_BACK_ZPASS_OP_SHIFT 21
1400 # define R300_RB3D_ZS1_BACK_ZFAIL_OP_SHIFT 24
1402 #define R300_RB3D_ZSTENCIL_CNTL_2 0x4F08
1403 # define R300_RB3D_ZS2_STENCIL_REF_SHIFT 0
1404 # define R300_RB3D_ZS2_STENCIL_MASK 0xFF
1405 # define R300_RB3D_ZS2_STENCIL_MASK_SHIFT 8
1406 # define R300_RB3D_ZS2_STENCIL_WRITE_MASK_SHIFT 16
1408 /* gap */
1410 #define R300_RB3D_ZSTENCIL_FORMAT 0x4F10
1411 # define R300_DEPTH_FORMAT_16BIT_INT_Z (0 << 0)
1412 # define R300_DEPTH_FORMAT_24BIT_INT_Z (2 << 0)
1413 /* 16 bit format or some aditional bit ? */
1414 # define R300_DEPTH_FORMAT_UNK32 (32 << 0)
1416 #define R300_RB3D_EARLY_Z 0x4F14
1417 # define R300_EARLY_Z_DISABLE (0 << 0)
1418 # define R300_EARLY_Z_ENABLE (1 << 0)
1420 /* gap */
1422 #define R300_RB3D_ZCACHE_CTLSTAT 0x4F18 /* GUESS */
1423 # define R300_RB3D_ZCACHE_UNKNOWN_01 0x1
1424 # define R300_RB3D_ZCACHE_UNKNOWN_03 0x3
1426 /* gap */
1428 #define R300_RB3D_DEPTHOFFSET 0x4F20
1429 #define R300_RB3D_DEPTHPITCH 0x4F24
1430 # define R300_DEPTHPITCH_MASK 0x00001FF8 /* GUESS */
1431 # define R300_DEPTH_TILE_ENABLE (1 << 16) /* GUESS */
1432 # define R300_DEPTH_MICROTILE_ENABLE (1 << 17) /* GUESS */
1433 # define R300_DEPTH_ENDIAN_NO_SWAP (0 << 18) /* GUESS */
1434 # define R300_DEPTH_ENDIAN_WORD_SWAP (1 << 18) /* GUESS */
1435 # define R300_DEPTH_ENDIAN_DWORD_SWAP (2 << 18) /* GUESS */
1437 /* BEGIN: Vertex program instruction set */
1439 /* Every instruction is four dwords long:
1440 * DWORD 0: output and opcode
1441 * DWORD 1: first argument
1442 * DWORD 2: second argument
1443 * DWORD 3: third argument
1445 * Notes:
1446 * - ABS r, a is implemented as MAX r, a, -a
1447 * - MOV is implemented as ADD to zero
1448 * - XPD is implemented as MUL + MAD
1449 * - FLR is implemented as FRC + ADD
1450 * - apparently, fglrx tries to schedule instructions so that there is at
1451 * least one instruction between the write to a temporary and the first
1452 * read from said temporary; however, violations of this scheduling are
1453 * allowed
1454 * - register indices seem to be unrelated with OpenGL aliasing to
1455 * conventional state
1456 * - only one attribute and one parameter can be loaded at a time; however,
1457 * the same attribute/parameter can be used for more than one argument
1458 * - the second software argument for POW is the third hardware argument
1459 * (no idea why)
1460 * - MAD with only temporaries as input seems to use VPI_OUT_SELECT_MAD_2
1462 * There is some magic surrounding LIT:
1463 * The single argument is replicated across all three inputs, but swizzled:
1464 * First argument: xyzy
1465 * Second argument: xyzx
1466 * Third argument: xyzw
1467 * Whenever the result is used later in the fragment program, fglrx forces
1468 * x and w to be 1.0 in the input selection; I don't know whether this is
1469 * strictly necessary
1471 #define R300_VPI_OUT_OP_DOT (1 << 0)
1472 #define R300_VPI_OUT_OP_MUL (2 << 0)
1473 #define R300_VPI_OUT_OP_ADD (3 << 0)
1474 #define R300_VPI_OUT_OP_MAD (4 << 0)
1475 #define R300_VPI_OUT_OP_DST (5 << 0)
1476 #define R300_VPI_OUT_OP_FRC (6 << 0)
1477 #define R300_VPI_OUT_OP_MAX (7 << 0)
1478 #define R300_VPI_OUT_OP_MIN (8 << 0)
1479 #define R300_VPI_OUT_OP_SGE (9 << 0)
1480 #define R300_VPI_OUT_OP_SLT (10 << 0)
1481 /* Used in GL_POINT_DISTANCE_ATTENUATION_ARB, vector(scalar, vector) */
1482 #define R300_VPI_OUT_OP_UNK12 (12 << 0)
1483 #define R300_VPI_OUT_OP_ARL (13 << 0)
1484 #define R300_VPI_OUT_OP_EXP (65 << 0)
1485 #define R300_VPI_OUT_OP_LOG (66 << 0)
1486 /* Used in fog computations, scalar(scalar) */
1487 #define R300_VPI_OUT_OP_UNK67 (67 << 0)
1488 #define R300_VPI_OUT_OP_LIT (68 << 0)
1489 #define R300_VPI_OUT_OP_POW (69 << 0)
1490 #define R300_VPI_OUT_OP_RCP (70 << 0)
1491 #define R300_VPI_OUT_OP_RSQ (72 << 0)
1492 /* Used in GL_POINT_DISTANCE_ATTENUATION_ARB, scalar(scalar) */
1493 #define R300_VPI_OUT_OP_UNK73 (73 << 0)
1494 #define R300_VPI_OUT_OP_EX2 (75 << 0)
1495 #define R300_VPI_OUT_OP_LG2 (76 << 0)
1496 #define R300_VPI_OUT_OP_MAD_2 (128 << 0)
1497 /* all temps, vector(scalar, vector, vector) */
1498 #define R300_VPI_OUT_OP_UNK129 (129 << 0)
1500 #define R300_VPI_OUT_REG_CLASS_TEMPORARY (0 << 8)
1501 #define R300_VPI_OUT_REG_CLASS_ADDR (1 << 8)
1502 #define R300_VPI_OUT_REG_CLASS_RESULT (2 << 8)
1503 #define R300_VPI_OUT_REG_CLASS_MASK (31 << 8)
1505 #define R300_VPI_OUT_REG_INDEX_SHIFT 13
1506 /* GUESS based on fglrx native limits */
1507 #define R300_VPI_OUT_REG_INDEX_MASK (31 << 13)
1509 #define R300_VPI_OUT_WRITE_X (1 << 20)
1510 #define R300_VPI_OUT_WRITE_Y (1 << 21)
1511 #define R300_VPI_OUT_WRITE_Z (1 << 22)
1512 #define R300_VPI_OUT_WRITE_W (1 << 23)
1514 #define R300_VPI_IN_REG_CLASS_TEMPORARY (0 << 0)
1515 #define R300_VPI_IN_REG_CLASS_ATTRIBUTE (1 << 0)
1516 #define R300_VPI_IN_REG_CLASS_PARAMETER (2 << 0)
1517 #define R300_VPI_IN_REG_CLASS_NONE (9 << 0)
1518 #define R300_VPI_IN_REG_CLASS_MASK (31 << 0)
1520 #define R300_VPI_IN_REG_INDEX_SHIFT 5
1521 /* GUESS based on fglrx native limits */
1522 #define R300_VPI_IN_REG_INDEX_MASK (255 << 5)
1524 /* The R300 can select components from the input register arbitrarily.
1525 * Use the following constants, shifted by the component shift you
1526 * want to select
1528 #define R300_VPI_IN_SELECT_X 0
1529 #define R300_VPI_IN_SELECT_Y 1
1530 #define R300_VPI_IN_SELECT_Z 2
1531 #define R300_VPI_IN_SELECT_W 3
1532 #define R300_VPI_IN_SELECT_ZERO 4
1533 #define R300_VPI_IN_SELECT_ONE 5
1534 #define R300_VPI_IN_SELECT_MASK 7
1536 #define R300_VPI_IN_X_SHIFT 13
1537 #define R300_VPI_IN_Y_SHIFT 16
1538 #define R300_VPI_IN_Z_SHIFT 19
1539 #define R300_VPI_IN_W_SHIFT 22
1541 #define R300_VPI_IN_NEG_X (1 << 25)
1542 #define R300_VPI_IN_NEG_Y (1 << 26)
1543 #define R300_VPI_IN_NEG_Z (1 << 27)
1544 #define R300_VPI_IN_NEG_W (1 << 28)
1545 /* END: Vertex program instruction set */
1547 /* BEGIN: Packet 3 commands */
1549 /* A primitive emission dword. */
1550 #define R300_PRIM_TYPE_NONE (0 << 0)
1551 #define R300_PRIM_TYPE_POINT (1 << 0)
1552 #define R300_PRIM_TYPE_LINE (2 << 0)
1553 #define R300_PRIM_TYPE_LINE_STRIP (3 << 0)
1554 #define R300_PRIM_TYPE_TRI_LIST (4 << 0)
1555 #define R300_PRIM_TYPE_TRI_FAN (5 << 0)
1556 #define R300_PRIM_TYPE_TRI_STRIP (6 << 0)
1557 #define R300_PRIM_TYPE_TRI_TYPE2 (7 << 0)
1558 #define R300_PRIM_TYPE_RECT_LIST (8 << 0)
1559 #define R300_PRIM_TYPE_3VRT_POINT_LIST (9 << 0)
1560 #define R300_PRIM_TYPE_3VRT_LINE_LIST (10 << 0)
1561 /* GUESS (based on r200) */
1562 #define R300_PRIM_TYPE_POINT_SPRITES (11 << 0)
1563 #define R300_PRIM_TYPE_LINE_LOOP (12 << 0)
1564 #define R300_PRIM_TYPE_QUADS (13 << 0)
1565 #define R300_PRIM_TYPE_QUAD_STRIP (14 << 0)
1566 #define R300_PRIM_TYPE_POLYGON (15 << 0)
1567 #define R300_PRIM_TYPE_MASK 0xF
1568 #define R300_PRIM_WALK_IND (1 << 4)
1569 #define R300_PRIM_WALK_LIST (2 << 4)
1570 #define R300_PRIM_WALK_RING (3 << 4)
1571 #define R300_PRIM_WALK_MASK (3 << 4)
1572 /* GUESS (based on r200) */
1573 #define R300_PRIM_COLOR_ORDER_BGRA (0 << 6)
1574 #define R300_PRIM_COLOR_ORDER_RGBA (1 << 6)
1575 #define R300_PRIM_NUM_VERTICES_SHIFT 16
1576 #define R300_PRIM_NUM_VERTICES_MASK 0xffff
1578 /* Draw a primitive from vertex data in arrays loaded via 3D_LOAD_VBPNTR.
1579 * Two parameter dwords:
1580 * 0. The first parameter appears to be always 0
1581 * 1. The second parameter is a standard primitive emission dword.
1583 #define R300_PACKET3_3D_DRAW_VBUF 0x00002800
1585 /* Specify the full set of vertex arrays as (address, stride).
1586 * The first parameter is the number of vertex arrays specified.
1587 * The rest of the command is a variable length list of blocks, where
1588 * each block is three dwords long and specifies two arrays.
1589 * The first dword of a block is split into two words, the lower significant
1590 * word refers to the first array, the more significant word to the second
1591 * array in the block.
1592 * The low byte of each word contains the size of an array entry in dwords,
1593 * the high byte contains the stride of the array.
1594 * The second dword of a block contains the pointer to the first array,
1595 * the third dword of a block contains the pointer to the second array.
1596 * Note that if the total number of arrays is odd, the third dword of
1597 * the last block is omitted.
1599 #define R300_PACKET3_3D_LOAD_VBPNTR 0x00002F00
1601 #define R300_PACKET3_INDX_BUFFER 0x00003300
1602 # define R300_EB_UNK1_SHIFT 24
1603 # define R300_EB_UNK1 (0x80<<24)
1604 # define R300_EB_UNK2 0x0810
1605 #define R300_PACKET3_3D_DRAW_VBUF_2 0x00003400
1606 #define R300_PACKET3_3D_DRAW_INDX_2 0x00003600
1608 /* END: Packet 3 commands */
1611 /* Color formats for 2d packets
1613 #define R300_CP_COLOR_FORMAT_CI8 2
1614 #define R300_CP_COLOR_FORMAT_ARGB1555 3
1615 #define R300_CP_COLOR_FORMAT_RGB565 4
1616 #define R300_CP_COLOR_FORMAT_ARGB8888 6
1617 #define R300_CP_COLOR_FORMAT_RGB332 7
1618 #define R300_CP_COLOR_FORMAT_RGB8 9
1619 #define R300_CP_COLOR_FORMAT_ARGB4444 15
1622 * CP type-3 packets
1624 #define R300_CP_CMD_BITBLT_MULTI 0xC0009B00
1626 #endif /* _R300_REG_H */