summaryrefslogtreecommitdiff
path: root/src/gallium/drivers/nv30/nv30_shader.h
blob: dd3a36f78f3dd445159737025e62eb7677763539 (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
#ifndef __NV30_SHADER_H__
#define __NV30_SHADER_H__

/* Vertex programs instruction set
 *
 * 128bit opcodes, split into 4 32-bit ones for ease of use.
 *
 * Non-native instructions
 *   ABS - MOV + NV40_VP_INST0_DEST_ABS
 *   POW - EX2 + MUL + LG2
 *   SUB - ADD, second source negated
 *   SWZ - MOV
 *   XPD -  
 *
 * Register access
 *   - Only one INPUT can be accessed per-instruction (move extras into TEMPs)
 *   - Only one CONST can be accessed per-instruction (move extras into TEMPs)
 *
 * Relative Addressing
 *   According to the value returned for
 *   MAX_PROGRAM_NATIVE_ADDRESS_REGISTERS_ARB
 *
 *   there are only two address registers available.  The destination in the
 *   ARL instruction is set to TEMP <n> (The temp isn't actually written).
 *
 *   When using vanilla ARB_v_p, the proprietary driver will squish both the
 *   available ADDRESS regs into the first hardware reg in the X and Y
 *   components.
 *
 *   To use an address reg as an index into consts, the CONST_SRC is set to
 *   (const_base + offset) and INDEX_CONST is set.
 *
 *   To access the second address reg use ADDR_REG_SELECT_1. A particular
 *   component of the address regs is selected with ADDR_SWZ.
 *
 *   Only one address register can be accessed per instruction.
 *
 * Conditional execution (see NV_vertex_program{2,3} for details) Conditional
 * execution of an instruction is enabled by setting COND_TEST_ENABLE, and
 * selecting the condition which will allow the test to pass with
 * COND_{FL,LT,...}.  It is possible to swizzle the values in the condition
 * register, which allows for testing against an individual component.
 *
 * Branching:
 *
 *   The BRA/CAL instructions seem to follow a slightly different opcode
 *   layout.  The destination instruction ID (IADDR) overlaps a source field.
 *   Instruction ID's seem to be numbered based on the UPLOAD_FROM_ID FIFO
 *   command, and is incremented automatically on each UPLOAD_INST FIFO
 *   command.
 *
 *   Conditional branching is achieved by using the condition tests described
 *   above.  There doesn't appear to be dedicated looping instructions, but
 *   this can be done using a temp reg + conditional branching.
 *
 *   Subroutines may be uploaded before the main program itself, but the first
 *   executed instruction is determined by the PROGRAM_START_ID FIFO command.
 *
 */

/* DWORD 0 */

#define NV30_VP_INST_ADDR_REG_SELECT_1        (1 << 24)
#define NV30_VP_INST_SRC2_ABS           (1 << 23) /* guess */
#define NV30_VP_INST_SRC1_ABS           (1 << 22) /* guess */
#define NV30_VP_INST_SRC0_ABS           (1 << 21) /* guess */
#define NV30_VP_INST_VEC_RESULT         (1 << 20)
#define NV30_VP_INST_DEST_TEMP_ID_SHIFT        16
#define NV30_VP_INST_DEST_TEMP_ID_MASK        (0x0F << 16)
#define NV30_VP_INST_COND_UPDATE_ENABLE        (1<<15)
#define NV30_VP_INST_VEC_DEST_TEMP_MASK      (0xF << 16)
#define NV30_VP_INST_COND_TEST_ENABLE        (1<<14)
#define NV30_VP_INST_COND_SHIFT          11
#define NV30_VP_INST_COND_MASK          (0x07 << 11)
#  define NV30_VP_INST_COND_FL  0 /* guess */  
#  define NV30_VP_INST_COND_LT  1  
#  define NV30_VP_INST_COND_EQ  2
#  define NV30_VP_INST_COND_LE  3
#  define NV30_VP_INST_COND_GT  4
#  define NV30_VP_INST_COND_NE  5
#  define NV30_VP_INST_COND_GE  6
#  define NV30_VP_INST_COND_TR  7 /* guess */
#define NV30_VP_INST_COND_SWZ_X_SHIFT        9
#define NV30_VP_INST_COND_SWZ_X_MASK        (0x03 <<  9)
#define NV30_VP_INST_COND_SWZ_Y_SHIFT        7
#define NV30_VP_INST_COND_SWZ_Y_MASK        (0x03 <<  7)
#define NV30_VP_INST_COND_SWZ_Z_SHIFT        5
#define NV30_VP_INST_COND_SWZ_Z_MASK        (0x03 <<  5)
#define NV30_VP_INST_COND_SWZ_W_SHIFT        3
#define NV30_VP_INST_COND_SWZ_W_MASK        (0x03 <<  3)
#define NV30_VP_INST_COND_SWZ_ALL_SHIFT        3
#define NV30_VP_INST_COND_SWZ_ALL_MASK        (0xFF <<  3)
#define NV30_VP_INST_ADDR_SWZ_SHIFT        1
#define NV30_VP_INST_ADDR_SWZ_MASK        (0x03 <<  1)
#define NV30_VP_INST_SCA_OPCODEH_SHIFT        0
#define NV30_VP_INST_SCA_OPCODEH_MASK        (0x01 <<  0)

/* DWORD 1 */
#define NV30_VP_INST_SCA_OPCODEL_SHIFT        28
#define NV30_VP_INST_SCA_OPCODEL_MASK        (0x0F << 28)
#  define NV30_VP_INST_OP_NOP  0x00
#  define NV30_VP_INST_OP_RCP  0x02
#  define NV30_VP_INST_OP_RCC  0x03
#  define NV30_VP_INST_OP_RSQ  0x04
#  define NV30_VP_INST_OP_EXP  0x05
#  define NV30_VP_INST_OP_LOG  0x06
#  define NV30_VP_INST_OP_LIT  0x07
#  define NV30_VP_INST_OP_BRA  0x09
#  define NV30_VP_INST_OP_CAL  0x0B
#  define NV30_VP_INST_OP_RET  0x0C
#  define NV30_VP_INST_OP_LG2  0x0D
#  define NV30_VP_INST_OP_EX2  0x0E
#  define NV30_VP_INST_OP_SIN  0x0F
#  define NV30_VP_INST_OP_COS  0x10
#define NV30_VP_INST_VEC_OPCODE_SHIFT        23
#define NV30_VP_INST_VEC_OPCODE_MASK        (0x1F << 23)
#  define NV30_VP_INST_OP_NOPV  0x00
#  define NV30_VP_INST_OP_MOV  0x01
#  define NV30_VP_INST_OP_MUL  0x02
#  define NV30_VP_INST_OP_ADD  0x03
#  define NV30_VP_INST_OP_MAD  0x04
#  define NV30_VP_INST_OP_DP3  0x05
#  define NV30_VP_INST_OP_DP4  0x07
#  define NV30_VP_INST_OP_DPH  0x06
#  define NV30_VP_INST_OP_DST  0x08
#  define NV30_VP_INST_OP_MIN  0x09
#  define NV30_VP_INST_OP_MAX  0x0A
#  define NV30_VP_INST_OP_SLT  0x0B
#  define NV30_VP_INST_OP_SGE  0x0C
#  define NV30_VP_INST_OP_ARL  0x0D
#  define NV30_VP_INST_OP_FRC  0x0E
#  define NV30_VP_INST_OP_FLR  0x0F
#  define NV30_VP_INST_OP_SEQ  0x10
#  define NV30_VP_INST_OP_SFL  0x11
#  define NV30_VP_INST_OP_SGT  0x12
#  define NV30_VP_INST_OP_SLE  0x13
#  define NV30_VP_INST_OP_SNE  0x14
#  define NV30_VP_INST_OP_STR  0x15
#  define NV30_VP_INST_OP_SSG  0x16
#  define NV30_VP_INST_OP_ARR  0x17
#  define NV30_VP_INST_OP_ARA  0x18
#define NV30_VP_INST_CONST_SRC_SHIFT        14
#define NV30_VP_INST_CONST_SRC_MASK        (0xFF << 14)
#define NV30_VP_INST_INPUT_SRC_SHIFT        9    /*NV20*/
#define NV30_VP_INST_INPUT_SRC_MASK        (0x0F <<  9)  /*NV20*/
#  define NV30_VP_INST_IN_POS  0    /* These seem to match the bindings specified in */
#  define NV30_VP_INST_IN_WEIGHT  1    /* the ARB_v_p spec (2.14.3.1) */
#  define NV30_VP_INST_IN_NORMAL  2    
#  define NV30_VP_INST_IN_COL0  3    /* Should probably confirm them all though */
#  define NV30_VP_INST_IN_COL1  4
#  define NV30_VP_INST_IN_FOGC  5
#  define NV30_VP_INST_IN_TC0  8
#  define NV30_VP_INST_IN_TC(n)  (8+n)
#define NV30_VP_INST_SRC0H_SHIFT        0    /*NV20*/
#define NV30_VP_INST_SRC0H_MASK          (0x1FF << 0)  /*NV20*/

/* Please note: the IADDR fields overlap other fields because they are used
 * only for branch instructions.  See Branching: label above
 *
 * DWORD 2
 */
#define NV30_VP_INST_SRC0L_SHIFT        26    /*NV20*/
#define NV30_VP_INST_SRC0L_MASK         (0x3F  <<26)  /* NV30_VP_SRC0_LOW_MASK << 26 */
#define NV30_VP_INST_SRC1_SHIFT         11    /*NV20*/
#define NV30_VP_INST_SRC1_MASK          (0x7FFF<<11)  /*NV20*/
#define NV30_VP_INST_SRC2H_SHIFT        0    /*NV20*/
#define NV30_VP_INST_SRC2H_MASK          (0x7FF << 0)  /* NV30_VP_SRC2_HIGH_MASK >> 4*/
#define NV30_VP_INST_IADDR_SHIFT        2
#define NV30_VP_INST_IADDR_MASK          (0xF <<  28)   /* NV30_VP_SRC2_LOW_MASK << 28 */

/* DWORD 3 */
#define NV30_VP_INST_SRC2L_SHIFT        28    /*NV20*/
#define NV30_VP_INST_SRC2L_MASK          (0x0F  <<28)  /*NV20*/
#define NV30_VP_INST_STEMP_WRITEMASK_SHIFT      24
#define NV30_VP_INST_STEMP_WRITEMASK_MASK      (0x0F << 24)
#define NV30_VP_INST_VTEMP_WRITEMASK_SHIFT      20
#define NV30_VP_INST_VTEMP_WRITEMASK_MASK      (0x0F << 20)
#define NV30_VP_INST_SDEST_WRITEMASK_SHIFT      16
#define NV30_VP_INST_SDEST_WRITEMASK_MASK      (0x0F << 16)
#define NV30_VP_INST_VDEST_WRITEMASK_SHIFT      12    /*NV20*/
#define NV30_VP_INST_VDEST_WRITEMASK_MASK      (0x0F << 12)  /*NV20*/
#define NV30_VP_INST_DEST_SHIFT        2
#define NV30_VP_INST_DEST_MASK        (0x0F <<  2)
#  define NV30_VP_INST_DEST_POS  0
#  define NV30_VP_INST_DEST_BFC0  1
#  define NV30_VP_INST_DEST_BFC1  2
#  define NV30_VP_INST_DEST_COL0  3
#  define NV30_VP_INST_DEST_COL1  4
#  define NV30_VP_INST_DEST_FOGC  5
#  define NV30_VP_INST_DEST_PSZ   6
#  define NV30_VP_INST_DEST_TC(n)  (8+n)

#define NV30_VP_INST_LAST                           (1 << 0)

/* Useful to split the source selection regs into their pieces */
#define NV30_VP_SRC0_HIGH_SHIFT                                                6
#define NV30_VP_SRC0_HIGH_MASK                                        0x00007FC0
#define NV30_VP_SRC0_LOW_MASK                                         0x0000003F
#define NV30_VP_SRC2_HIGH_SHIFT                                                4
#define NV30_VP_SRC2_HIGH_MASK                                        0x00007FF0
#define NV30_VP_SRC2_LOW_MASK                                         0x0000000F


/* Source-register definition - matches NV20 exactly */
#define NV30_VP_SRC_NEGATE          (1<<14)
#define NV30_VP_SRC_SWZ_X_SHIFT        12
#define NV30_VP_SRC_REG_SWZ_X_MASK        (0x03  <<12)
#define NV30_VP_SRC_SWZ_Y_SHIFT        10
#define NV30_VP_SRC_REG_SWZ_Y_MASK        (0x03  <<10)
#define NV30_VP_SRC_SWZ_Z_SHIFT        8
#define NV30_VP_SRC_REG_SWZ_Z_MASK        (0x03  << 8)
#define NV30_VP_SRC_SWZ_W_SHIFT        6
#define NV30_VP_SRC_REG_SWZ_W_MASK        (0x03  << 6)
#define NV30_VP_SRC_REG_SWZ_ALL_SHIFT        6
#define NV30_VP_SRC_REG_SWZ_ALL_MASK        (0xFF  << 6)
#define NV30_VP_SRC_TEMP_SRC_SHIFT        2
#define NV30_VP_SRC_REG_TEMP_ID_MASK        (0x0F  << 0)
#define NV30_VP_SRC_REG_TYPE_SHIFT        0
#define NV30_VP_SRC_REG_TYPE_MASK        (0x03  << 0)
#define NV30_VP_SRC_REG_TYPE_TEMP  1
#define NV30_VP_SRC_REG_TYPE_INPUT  2
#define NV30_VP_SRC_REG_TYPE_CONST  3 /* guess */

/*
 * Each fragment program opcode appears to be comprised of 4 32-bit values.
 *
 *   0 - Opcode, output reg/mask, ATTRIB source
 *   1 - Source 0
 *   2 - Source 1
 *   3 - Source 2
 *
 * There appears to be no special difference between result regs and temp regs.
 *     result.color == R0.xyzw
 *     result.depth == R1.z
 * When the fragprog contains instructions to write depth, NV30_TCL_PRIMITIVE_3D_UNK1D78=0
 * otherwise it is set to 1.
 *
 * Constants are inserted directly after the instruction that uses them.
 * 
 * It appears that it's not possible to use two input registers in one
 * instruction as the input sourcing is done in the instruction dword
 * and not the source selection dwords.  As such instructions such as:
 * 
 *     ADD result.color, fragment.color, fragment.texcoord[0];
 *
 * must be split into two MOV's and then an ADD (nvidia does this) but
 * I'm not sure why it's not just one MOV and then source the second input
 * in the ADD instruction..
 *
 * Negation of the full source is done with NV30_FP_REG_NEGATE, arbitrary
 * negation requires multiplication with a const.
 *
 * Arbitrary swizzling is supported with the exception of SWIZZLE_ZERO/SWIZZLE_ONE
 * The temp/result regs appear to be initialised to (0.0, 0.0, 0.0, 0.0) as SWIZZLE_ZERO
 * is implemented simply by not writing to the relevant components of the destination.
 *
 * Conditional execution
 *   TODO
 * 
 * Non-native instructions:
 *   LIT
 *   LRP - MAD+MAD
 *   SUB - ADD, negate second source
 *   RSQ - LG2 + EX2
 *   POW - LG2 + MUL + EX2
 *   SCS - COS + SIN
 *   XPD
 */

//== Opcode / Destination selection ==
#define NV30_FP_OP_PROGRAM_END          (1 << 0)
#define NV30_FP_OP_OUT_REG_SHIFT        1
#define NV30_FP_OP_OUT_REG_MASK          (31 << 1)  /* uncertain */
/* Needs to be set when writing outputs to get expected result.. */
#define NV30_FP_OP_OUT_REG_HALF          (1 << 7)
#define NV30_FP_OP_COND_WRITE_ENABLE        (1 << 8)
#define NV30_FP_OP_OUTMASK_SHIFT        9
#define NV30_FP_OP_OUTMASK_MASK          (0xF << 9)
#  define NV30_FP_OP_OUT_X  (1<<9)
#  define NV30_FP_OP_OUT_Y  (1<<10)
#  define NV30_FP_OP_OUT_Z  (1<<11)
#  define NV30_FP_OP_OUT_W  (1<<12)
/* Uncertain about these, especially the input_src values.. it's possible that
 * they can be dynamically changed.
 */
#define NV30_FP_OP_INPUT_SRC_SHIFT        13
#define NV30_FP_OP_INPUT_SRC_MASK        (15 << 13)
#  define NV30_FP_OP_INPUT_SRC_POSITION  0x0
#  define NV30_FP_OP_INPUT_SRC_COL0  0x1
#  define NV30_FP_OP_INPUT_SRC_COL1  0x2
#  define NV30_FP_OP_INPUT_SRC_FOGC  0x3
#  define NV30_FP_OP_INPUT_SRC_TC0    0x4
#  define NV30_FP_OP_INPUT_SRC_TC(n)  (0x4 + n)
#define NV30_FP_OP_TEX_UNIT_SHIFT        17
#define NV30_FP_OP_TEX_UNIT_MASK        (0xF << 17) /* guess */
#define NV30_FP_OP_PRECISION_SHIFT        22
#define NV30_FP_OP_PRECISION_MASK        (3 << 22)
#   define NV30_FP_PRECISION_FP32  0
#   define NV30_FP_PRECISION_FP16  1
#   define NV30_FP_PRECISION_FX12  2
#define NV30_FP_OP_OPCODE_SHIFT          24
#define NV30_FP_OP_OPCODE_MASK          (0x3F << 24)
#  define NV30_FP_OP_OPCODE_NOP  0x00
#  define NV30_FP_OP_OPCODE_MOV  0x01
#  define NV30_FP_OP_OPCODE_MUL  0x02
#  define NV30_FP_OP_OPCODE_ADD  0x03
#  define NV30_FP_OP_OPCODE_MAD  0x04
#  define NV30_FP_OP_OPCODE_DP3  0x05
#  define NV30_FP_OP_OPCODE_DP4  0x06
#  define NV30_FP_OP_OPCODE_DST  0x07
#  define NV30_FP_OP_OPCODE_MIN  0x08
#  define NV30_FP_OP_OPCODE_MAX  0x09
#  define NV30_FP_OP_OPCODE_SLT  0x0A
#  define NV30_FP_OP_OPCODE_SGE  0x0B
#  define NV30_FP_OP_OPCODE_SLE  0x0C
#  define NV30_FP_OP_OPCODE_SGT  0x0D
#  define NV30_FP_OP_OPCODE_SNE  0x0E
#  define NV30_FP_OP_OPCODE_SEQ  0x0F
#  define NV30_FP_OP_OPCODE_FRC  0x10
#  define NV30_FP_OP_OPCODE_FLR  0x11
#  define NV30_FP_OP_OPCODE_KIL  0x12
#  define NV30_FP_OP_OPCODE_PK4B   0x13
#  define NV30_FP_OP_OPCODE_UP4B   0x14
#  define NV30_FP_OP_OPCODE_DDX  0x15 /* can only write XY */
#  define NV30_FP_OP_OPCODE_DDY  0x16 /* can only write XY */
#  define NV30_FP_OP_OPCODE_TEX  0x17
#  define NV30_FP_OP_OPCODE_TXP  0x18
#  define NV30_FP_OP_OPCODE_TXD  0x19
#  define NV30_FP_OP_OPCODE_RCP  0x1A
#  define NV30_FP_OP_OPCODE_RSQ  0x1B
#  define NV30_FP_OP_OPCODE_EX2  0x1C
#  define NV30_FP_OP_OPCODE_LG2  0x1D
#  define NV30_FP_OP_OPCODE_LIT  0x1E
#  define NV30_FP_OP_OPCODE_LRP  0x1F
#  define NV30_FP_OP_OPCODE_STR  0x20 
#  define NV30_FP_OP_OPCODE_SFL  0x21
#  define NV30_FP_OP_OPCODE_COS  0x22
#  define NV30_FP_OP_OPCODE_SIN  0x23
#  define NV30_FP_OP_OPCODE_PK2H   0x24
#  define NV30_FP_OP_OPCODE_UP2H   0x25
#  define NV30_FP_OP_OPCODE_POW  0x26
#  define NV30_FP_OP_OPCODE_PK4UB  0x27
#  define NV30_FP_OP_OPCODE_UP4UB  0x28
#  define NV30_FP_OP_OPCODE_PK2US  0x29
#  define NV30_FP_OP_OPCODE_UP2US  0x2A
#  define NV30_FP_OP_OPCODE_DP2A   0x2E
#  define NV30_FP_OP_OPCODE_TXB  0x31
#  define NV30_FP_OP_OPCODE_RFL  0x36
#  define NV30_FP_OP_OPCODE_DIV  0x3A
#define NV30_FP_OP_OUT_SAT          (1 << 31)

/* high order bits of SRC0 */
#define NV30_FP_OP_OUT_ABS          (1 << 29)
#define NV30_FP_OP_COND_SWZ_W_SHIFT        27
#define NV30_FP_OP_COND_SWZ_W_MASK        (3 << 27)
#define NV30_FP_OP_COND_SWZ_Z_SHIFT        25
#define NV30_FP_OP_COND_SWZ_Z_MASK        (3 << 25)
#define NV30_FP_OP_COND_SWZ_Y_SHIFT        23
#define NV30_FP_OP_COND_SWZ_Y_MASK        (3 << 23)
#define NV30_FP_OP_COND_SWZ_X_SHIFT        21
#define NV30_FP_OP_COND_SWZ_X_MASK        (3 << 21)
#define NV30_FP_OP_COND_SWZ_ALL_SHIFT        21
#define NV30_FP_OP_COND_SWZ_ALL_MASK        (0xFF << 21)
#define NV30_FP_OP_COND_SHIFT          18
#define NV30_FP_OP_COND_MASK          (0x07 << 18)
#  define NV30_FP_OP_COND_FL  0
#  define NV30_FP_OP_COND_LT  1
#  define NV30_FP_OP_COND_EQ  2
#  define NV30_FP_OP_COND_LE  3
#  define NV30_FP_OP_COND_GT  4
#  define NV30_FP_OP_COND_NE  5
#  define NV30_FP_OP_COND_GE  6
#  define NV30_FP_OP_COND_TR  7

/* high order bits of SRC1 */
#define NV30_FP_OP_DST_SCALE_SHIFT        28
#define NV30_FP_OP_DST_SCALE_MASK        (3 << 28)
#define NV30_FP_OP_DST_SCALE_1X                                                0
#define NV30_FP_OP_DST_SCALE_2X                                                1
#define NV30_FP_OP_DST_SCALE_4X                                                2
#define NV30_FP_OP_DST_SCALE_8X                                                3
#define NV30_FP_OP_DST_SCALE_INV_2X                                            5
#define NV30_FP_OP_DST_SCALE_INV_4X                                            6
#define NV30_FP_OP_DST_SCALE_INV_8X                                            7


/* high order bits of SRC2 */
#define NV30_FP_OP_INDEX_INPUT          (1 << 30)

//== Register selection ==
#define NV30_FP_REG_TYPE_SHIFT          0
#define NV30_FP_REG_TYPE_MASK          (3 << 0)
#  define NV30_FP_REG_TYPE_TEMP  0
#  define NV30_FP_REG_TYPE_INPUT  1
#  define NV30_FP_REG_TYPE_CONST  2
#define NV30_FP_REG_SRC_SHIFT          2 /* uncertain */
#define NV30_FP_REG_SRC_MASK          (31 << 2)
#define NV30_FP_REG_SRC_HALF          (1 << 8)
#define NV30_FP_REG_SWZ_ALL_SHIFT        9
#define NV30_FP_REG_SWZ_ALL_MASK        (255 << 9)
#define NV30_FP_REG_SWZ_X_SHIFT          9
#define NV30_FP_REG_SWZ_X_MASK          (3 << 9)
#define NV30_FP_REG_SWZ_Y_SHIFT          11
#define NV30_FP_REG_SWZ_Y_MASK          (3 << 11)
#define NV30_FP_REG_SWZ_Z_SHIFT          13
#define NV30_FP_REG_SWZ_Z_MASK          (3 << 13)
#define NV30_FP_REG_SWZ_W_SHIFT          15
#define NV30_FP_REG_SWZ_W_MASK          (3 << 15)
#  define NV30_FP_SWIZZLE_X  0
#  define NV30_FP_SWIZZLE_Y  1
#  define NV30_FP_SWIZZLE_Z  2
#  define NV30_FP_SWIZZLE_W  3
#define NV30_FP_REG_NEGATE          (1 << 17)

#define NV30SR_NONE	0
#define NV30SR_OUTPUT	1
#define NV30SR_INPUT	2
#define NV30SR_TEMP	3
#define NV30SR_CONST	4

struct nv30_sreg {
	int type;
	int index;

	int dst_scale;

	int negate;
	int abs;
	int swz[4];

	int cc_update;
	int cc_update_reg;
	int cc_test;
	int cc_test_reg;
	int cc_swz[4];
};

static INLINE struct nv30_sreg
nv30_sr(int type, int index)
{
	struct nv30_sreg temp = {
		.type = type,
		.index = index,
		.dst_scale = DEF_SCALE,
		.abs = 0,
		.negate = 0,
		.swz = { 0, 1, 2, 3 },
		.cc_update = 0,
		.cc_update_reg = 0,
		.cc_test = DEF_CTEST,
		.cc_test_reg = 0,
		.cc_swz = { 0, 1, 2, 3 },
	};
	return temp;
}

static INLINE struct nv30_sreg
nv30_sr_swz(struct nv30_sreg src, int x, int y, int z, int w)
{
	struct nv30_sreg dst = src;

	dst.swz[SWZ_X] = src.swz[x];
	dst.swz[SWZ_Y] = src.swz[y];
	dst.swz[SWZ_Z] = src.swz[z];
	dst.swz[SWZ_W] = src.swz[w];
	return dst;
}

static INLINE struct nv30_sreg
nv30_sr_neg(struct nv30_sreg src)
{
	src.negate = !src.negate;
	return src;
}

static INLINE struct nv30_sreg
nv30_sr_abs(struct nv30_sreg src)
{
	src.abs = 1;
	return src;
}

static INLINE struct nv30_sreg
nv30_sr_scale(struct nv30_sreg src, int scale)
{
	src.dst_scale = scale;
	return src;
}

#endif