1 #include "pipe/p_context.h"
2 #include "pipe/p_defines.h"
3 #include "pipe/p_state.h"
4 #include "pipe/p_inlines.h"
6 #include "pipe/p_shader_tokens.h"
7 #include "tgsi/tgsi_parse.h"
8 #include "tgsi/tgsi_dump.h"
10 #include "nv30_context.h"
11 #include "nv30_state.h"
13 /* TODO (at least...):
14 * 1. Indexed consts + ARL
15 * 2. Arb. swz/negation
16 * 3. NV_vp11, NV_vp2, NV_vp3 features
17 * - extra arith opcodes
33 #define MASK_ALL (MASK_X|MASK_Y|MASK_Z|MASK_W)
36 #include "nv30_shader.h"
38 #define swz(s,x,y,z,w) nv30_sr_swz((s), SWZ_##x, SWZ_##y, SWZ_##z, SWZ_##w)
39 #define neg(s) nv30_sr_neg((s))
40 #define abs(s) nv30_sr_abs((s))
43 struct nv30_vertex_program
*vp
;
45 struct nv30_vertex_program_exec
*vpi
;
47 unsigned output_map
[PIPE_MAX_SHADER_OUTPUTS
];
52 struct nv30_sreg
*imm
;
56 static struct nv30_sreg
57 temp(struct nv30_vpc
*vpc
)
61 idx
= vpc
->temp_temp_count
++;
62 idx
+= vpc
->high_temp
+ 1;
63 return nv30_sr(NV30SR_TEMP
, idx
);
66 static struct nv30_sreg
67 constant(struct nv30_vpc
*vpc
, int pipe
, float x
, float y
, float z
, float w
)
69 struct nv30_vertex_program
*vp
= vpc
->vp
;
70 struct nv30_vertex_program_data
*vpd
;
74 for (idx
= 0; idx
< vp
->nr_consts
; idx
++) {
75 if (vp
->consts
[idx
].index
== pipe
)
76 return nv30_sr(NV30SR_CONST
, idx
);
80 idx
= vp
->nr_consts
++;
81 vp
->consts
= realloc(vp
->consts
, sizeof(*vpd
) * vp
->nr_consts
);
82 vpd
= &vp
->consts
[idx
];
89 return nv30_sr(NV30SR_CONST
, idx
);
92 #define arith(cc,s,o,d,m,s0,s1,s2) \
93 nv30_vp_arith((cc), (s), NV30_VP_INST_##o, (d), (m), (s0), (s1), (s2))
96 emit_src(struct nv30_vpc
*vpc
, uint32_t *hw
, int pos
, struct nv30_sreg src
)
98 struct nv30_vertex_program
*vp
= vpc
->vp
;
103 sr
|= (NV30_VP_SRC_REG_TYPE_TEMP
<< NV30_VP_SRC_REG_TYPE_SHIFT
);
104 sr
|= (src
.index
<< NV30_VP_SRC_TEMP_SRC_SHIFT
);
107 sr
|= (NV30_VP_SRC_REG_TYPE_INPUT
<<
108 NV30_VP_SRC_REG_TYPE_SHIFT
);
109 vp
->ir
|= (1 << src
.index
);
110 hw
[1] |= (src
.index
<< NV30_VP_INST_INPUT_SRC_SHIFT
);
113 sr
|= (NV30_VP_SRC_REG_TYPE_CONST
<<
114 NV30_VP_SRC_REG_TYPE_SHIFT
);
115 assert(vpc
->vpi
->const_index
== -1 ||
116 vpc
->vpi
->const_index
== src
.index
);
117 vpc
->vpi
->const_index
= src
.index
;
120 sr
|= (NV30_VP_SRC_REG_TYPE_INPUT
<<
121 NV30_VP_SRC_REG_TYPE_SHIFT
);
128 sr
|= NV30_VP_SRC_NEGATE
;
131 hw
[0] |= (1 << (21 + pos
));
133 sr
|= ((src
.swz
[0] << NV30_VP_SRC_SWZ_X_SHIFT
) |
134 (src
.swz
[1] << NV30_VP_SRC_SWZ_Y_SHIFT
) |
135 (src
.swz
[2] << NV30_VP_SRC_SWZ_Z_SHIFT
) |
136 (src
.swz
[3] << NV30_VP_SRC_SWZ_W_SHIFT
));
147 hw
[1] |= ((sr
& NV30_VP_SRC0_HIGH_MASK
) >>
148 NV30_VP_SRC0_HIGH_SHIFT
) << NV30_VP_INST_SRC0H_SHIFT
;
149 hw
[2] |= (sr
& NV30_VP_SRC0_LOW_MASK
) <<
150 NV30_VP_INST_SRC0L_SHIFT
;
153 hw
[2] |= sr
<< NV30_VP_INST_SRC1_SHIFT
;
156 hw
[2] |= ((sr
& NV30_VP_SRC2_HIGH_MASK
) >>
157 NV30_VP_SRC2_HIGH_SHIFT
) << NV30_VP_INST_SRC2H_SHIFT
;
158 hw
[3] |= (sr
& NV30_VP_SRC2_LOW_MASK
) <<
159 NV30_VP_INST_SRC2L_SHIFT
;
167 emit_dst(struct nv30_vpc
*vpc
, uint32_t *hw
, int slot
, struct nv30_sreg dst
)
169 struct nv30_vertex_program
*vp
= vpc
->vp
;
173 hw
[0] |= (dst
.index
<< NV30_VP_INST_DEST_TEMP_ID_SHIFT
);
177 case NV30_VP_INST_DEST_COL0
: vp
->or |= (1 << 0); break;
178 case NV30_VP_INST_DEST_COL1
: vp
->or |= (1 << 1); break;
179 case NV30_VP_INST_DEST_BFC0
: vp
->or |= (1 << 2); break;
180 case NV30_VP_INST_DEST_BFC1
: vp
->or |= (1 << 3); break;
181 case NV30_VP_INST_DEST_FOGC
: vp
->or |= (1 << 4); break;
182 case NV30_VP_INST_DEST_PSZ
: vp
->or |= (1 << 5); break;
183 case NV30_VP_INST_DEST_TC(0): vp
->or |= (1 << 14); break;
184 case NV30_VP_INST_DEST_TC(1): vp
->or |= (1 << 15); break;
185 case NV30_VP_INST_DEST_TC(2): vp
->or |= (1 << 16); break;
186 case NV30_VP_INST_DEST_TC(3): vp
->or |= (1 << 17); break;
187 case NV30_VP_INST_DEST_TC(4): vp
->or |= (1 << 18); break;
188 case NV30_VP_INST_DEST_TC(5): vp
->or |= (1 << 19); break;
189 case NV30_VP_INST_DEST_TC(6): vp
->or |= (1 << 20); break;
190 case NV30_VP_INST_DEST_TC(7): vp
->or |= (1 << 21); break;
195 hw
[3] |= (dst
.index
<< NV30_VP_INST_DEST_SHIFT
);
196 hw
[0] |= NV30_VP_INST_VEC_DEST_TEMP_MASK
| (1<<20);
198 /*XXX: no way this is entirely correct, someone needs to
199 * figure out what exactly it is.
209 nv30_vp_arith(struct nv30_vpc
*vpc
, int slot
, int op
,
210 struct nv30_sreg dst
, int mask
,
211 struct nv30_sreg s0
, struct nv30_sreg s1
,
214 struct nv30_vertex_program
*vp
= vpc
->vp
;
217 vp
->insns
= realloc(vp
->insns
, ++vp
->nr_insns
* sizeof(*vpc
->vpi
));
218 vpc
->vpi
= &vp
->insns
[vp
->nr_insns
- 1];
219 memset(vpc
->vpi
, 0, sizeof(*vpc
->vpi
));
220 vpc
->vpi
->const_index
= -1;
224 hw
[0] |= (NV30_VP_INST_COND_TR
<< NV30_VP_INST_COND_SHIFT
);
225 hw
[0] |= ((0 << NV30_VP_INST_COND_SWZ_X_SHIFT
) |
226 (1 << NV30_VP_INST_COND_SWZ_Y_SHIFT
) |
227 (2 << NV30_VP_INST_COND_SWZ_Z_SHIFT
) |
228 (3 << NV30_VP_INST_COND_SWZ_W_SHIFT
));
230 hw
[1] |= (op
<< NV30_VP_INST_VEC_OPCODE_SHIFT
);
231 // hw[3] |= NV30_VP_INST_SCA_DEST_TEMP_MASK;
232 // hw[3] |= (mask << NV30_VP_INST_VEC_WRITEMASK_SHIFT);
234 if (dst
.type
== NV30SR_OUTPUT
) {
236 hw
[3] |= (mask
<< NV30_VP_INST_SDEST_WRITEMASK_SHIFT
);
238 hw
[3] |= (mask
<< NV30_VP_INST_VDEST_WRITEMASK_SHIFT
);
241 hw
[3] |= (mask
<< NV30_VP_INST_STEMP_WRITEMASK_SHIFT
);
243 hw
[3] |= (mask
<< NV30_VP_INST_VTEMP_WRITEMASK_SHIFT
);
246 emit_dst(vpc
, hw
, slot
, dst
);
247 emit_src(vpc
, hw
, 0, s0
);
248 emit_src(vpc
, hw
, 1, s1
);
249 emit_src(vpc
, hw
, 2, s2
);
252 static INLINE
struct nv30_sreg
253 tgsi_src(struct nv30_vpc
*vpc
, const struct tgsi_full_src_register
*fsrc
) {
254 struct nv30_sreg src
;
256 switch (fsrc
->SrcRegister
.File
) {
257 case TGSI_FILE_INPUT
:
258 src
= nv30_sr(NV30SR_INPUT
, fsrc
->SrcRegister
.Index
);
260 case TGSI_FILE_CONSTANT
:
261 src
= constant(vpc
, fsrc
->SrcRegister
.Index
, 0, 0, 0, 0);
263 case TGSI_FILE_IMMEDIATE
:
264 src
= vpc
->imm
[fsrc
->SrcRegister
.Index
];
266 case TGSI_FILE_TEMPORARY
:
267 if (vpc
->high_temp
< fsrc
->SrcRegister
.Index
)
268 vpc
->high_temp
= fsrc
->SrcRegister
.Index
;
269 src
= nv30_sr(NV30SR_TEMP
, fsrc
->SrcRegister
.Index
);
272 NOUVEAU_ERR("bad src file\n");
276 src
.abs
= fsrc
->SrcRegisterExtMod
.Absolute
;
277 src
.negate
= fsrc
->SrcRegister
.Negate
;
278 src
.swz
[0] = fsrc
->SrcRegister
.SwizzleX
;
279 src
.swz
[1] = fsrc
->SrcRegister
.SwizzleY
;
280 src
.swz
[2] = fsrc
->SrcRegister
.SwizzleZ
;
281 src
.swz
[3] = fsrc
->SrcRegister
.SwizzleW
;
285 static INLINE
struct nv30_sreg
286 tgsi_dst(struct nv30_vpc
*vpc
, const struct tgsi_full_dst_register
*fdst
) {
287 struct nv30_sreg dst
;
289 switch (fdst
->DstRegister
.File
) {
290 case TGSI_FILE_OUTPUT
:
291 dst
= nv30_sr(NV30SR_OUTPUT
,
292 vpc
->output_map
[fdst
->DstRegister
.Index
]);
295 case TGSI_FILE_TEMPORARY
:
296 dst
= nv30_sr(NV30SR_TEMP
, fdst
->DstRegister
.Index
);
297 if (vpc
->high_temp
< dst
.index
)
298 vpc
->high_temp
= dst
.index
;
301 NOUVEAU_ERR("bad dst file\n");
313 if (tgsi
& TGSI_WRITEMASK_X
) mask
|= MASK_X
;
314 if (tgsi
& TGSI_WRITEMASK_Y
) mask
|= MASK_Y
;
315 if (tgsi
& TGSI_WRITEMASK_Z
) mask
|= MASK_Z
;
316 if (tgsi
& TGSI_WRITEMASK_W
) mask
|= MASK_W
;
321 nv30_vertprog_parse_instruction(struct nv30_vpc
*vpc
,
322 const struct tgsi_full_instruction
*finst
)
324 struct nv30_sreg src
[3], dst
, tmp
;
325 struct nv30_sreg none
= nv30_sr(NV30SR_NONE
, 0);
327 int ai
= -1, ci
= -1;
330 if (finst
->Instruction
.Opcode
== TGSI_OPCODE_END
)
333 vpc
->temp_temp_count
= 0;
334 for (i
= 0; i
< finst
->Instruction
.NumSrcRegs
; i
++) {
335 const struct tgsi_full_src_register
*fsrc
;
337 fsrc
= &finst
->FullSrcRegisters
[i
];
338 if (fsrc
->SrcRegister
.File
== TGSI_FILE_TEMPORARY
) {
339 src
[i
] = tgsi_src(vpc
, fsrc
);
343 for (i
= 0; i
< finst
->Instruction
.NumSrcRegs
; i
++) {
344 const struct tgsi_full_src_register
*fsrc
;
346 fsrc
= &finst
->FullSrcRegisters
[i
];
347 switch (fsrc
->SrcRegister
.File
) {
348 case TGSI_FILE_INPUT
:
349 if (ai
== -1 || ai
== fsrc
->SrcRegister
.Index
) {
350 ai
= fsrc
->SrcRegister
.Index
;
351 src
[i
] = tgsi_src(vpc
, fsrc
);
354 arith(vpc
, 0, OP_MOV
, src
[i
], MASK_ALL
,
355 tgsi_src(vpc
, fsrc
), none
, none
);
358 /*XXX: index comparison is broken now that consts come from
359 * two different register files.
361 case TGSI_FILE_CONSTANT
:
362 case TGSI_FILE_IMMEDIATE
:
363 if (ci
== -1 || ci
== fsrc
->SrcRegister
.Index
) {
364 ci
= fsrc
->SrcRegister
.Index
;
365 src
[i
] = tgsi_src(vpc
, fsrc
);
368 arith(vpc
, 0, OP_MOV
, src
[i
], MASK_ALL
,
369 tgsi_src(vpc
, fsrc
), none
, none
);
372 case TGSI_FILE_TEMPORARY
:
376 NOUVEAU_ERR("bad src file\n");
381 dst
= tgsi_dst(vpc
, &finst
->FullDstRegisters
[0]);
382 mask
= tgsi_mask(finst
->FullDstRegisters
[0].DstRegister
.WriteMask
);
384 switch (finst
->Instruction
.Opcode
) {
385 case TGSI_OPCODE_ABS
:
386 arith(vpc
, 0, OP_MOV
, dst
, mask
, abs(src
[0]), none
, none
);
388 case TGSI_OPCODE_ADD
:
389 arith(vpc
, 0, OP_ADD
, dst
, mask
, src
[0], none
, src
[1]);
391 case TGSI_OPCODE_ARL
:
392 arith(vpc
, 0, OP_ARL
, dst
, mask
, src
[0], none
, none
);
394 case TGSI_OPCODE_DP3
:
395 arith(vpc
, 0, OP_DP3
, dst
, mask
, src
[0], src
[1], none
);
397 case TGSI_OPCODE_DP4
:
398 arith(vpc
, 0, OP_DP4
, dst
, mask
, src
[0], src
[1], none
);
400 case TGSI_OPCODE_DPH
:
401 arith(vpc
, 0, OP_DPH
, dst
, mask
, src
[0], src
[1], none
);
403 case TGSI_OPCODE_DST
:
404 arith(vpc
, 0, OP_DST
, dst
, mask
, src
[0], src
[1], none
);
406 case TGSI_OPCODE_EX2
:
407 arith(vpc
, 1, OP_EX2
, dst
, mask
, none
, none
, src
[0]);
409 case TGSI_OPCODE_EXP
:
410 arith(vpc
, 1, OP_EXP
, dst
, mask
, none
, none
, src
[0]);
412 case TGSI_OPCODE_FLR
:
413 arith(vpc
, 0, OP_FLR
, dst
, mask
, src
[0], none
, none
);
415 case TGSI_OPCODE_FRC
:
416 arith(vpc
, 0, OP_FRC
, dst
, mask
, src
[0], none
, none
);
418 case TGSI_OPCODE_LG2
:
419 arith(vpc
, 1, OP_LG2
, dst
, mask
, none
, none
, src
[0]);
421 case TGSI_OPCODE_LIT
:
422 arith(vpc
, 1, OP_LIT
, dst
, mask
, none
, none
, src
[0]);
424 case TGSI_OPCODE_LOG
:
425 arith(vpc
, 1, OP_LOG
, dst
, mask
, none
, none
, src
[0]);
427 case TGSI_OPCODE_MAD
:
428 arith(vpc
, 0, OP_MAD
, dst
, mask
, src
[0], src
[1], src
[2]);
430 case TGSI_OPCODE_MAX
:
431 arith(vpc
, 0, OP_MAX
, dst
, mask
, src
[0], src
[1], none
);
433 case TGSI_OPCODE_MIN
:
434 arith(vpc
, 0, OP_MIN
, dst
, mask
, src
[0], src
[1], none
);
436 case TGSI_OPCODE_MOV
:
437 arith(vpc
, 0, OP_MOV
, dst
, mask
, src
[0], none
, none
);
439 case TGSI_OPCODE_MUL
:
440 arith(vpc
, 0, OP_MUL
, dst
, mask
, src
[0], src
[1], none
);
442 case TGSI_OPCODE_POW
:
444 arith(vpc
, 1, OP_LG2
, tmp
, MASK_X
, none
, none
,
445 swz(src
[0], X
, X
, X
, X
));
446 arith(vpc
, 0, OP_MUL
, tmp
, MASK_X
, swz(tmp
, X
, X
, X
, X
),
447 swz(src
[1], X
, X
, X
, X
), none
);
448 arith(vpc
, 1, OP_EX2
, dst
, mask
, none
, none
,
449 swz(tmp
, X
, X
, X
, X
));
451 case TGSI_OPCODE_RCP
:
452 arith(vpc
, 1, OP_RCP
, dst
, mask
, none
, none
, src
[0]);
454 case TGSI_OPCODE_RET
:
456 case TGSI_OPCODE_RSQ
:
457 arith(vpc
, 1, OP_RSQ
, dst
, mask
, none
, none
, src
[0]);
459 case TGSI_OPCODE_SGE
:
460 arith(vpc
, 0, OP_SGE
, dst
, mask
, src
[0], src
[1], none
);
462 case TGSI_OPCODE_SGT
:
463 arith(vpc
, 0, OP_SGT
, dst
, mask
, src
[0], src
[1], none
);
465 case TGSI_OPCODE_SLT
:
466 arith(vpc
, 0, OP_SLT
, dst
, mask
, src
[0], src
[1], none
);
468 case TGSI_OPCODE_SUB
:
469 arith(vpc
, 0, OP_ADD
, dst
, mask
, src
[0], none
, neg(src
[1]));
471 case TGSI_OPCODE_XPD
:
473 arith(vpc
, 0, OP_MUL
, tmp
, mask
,
474 swz(src
[0], Z
, X
, Y
, Y
), swz(src
[1], Y
, Z
, X
, X
), none
);
475 arith(vpc
, 0, OP_MAD
, dst
, (mask
& ~MASK_W
),
476 swz(src
[0], Y
, Z
, X
, X
), swz(src
[1], Z
, X
, Y
, Y
),
480 NOUVEAU_ERR("invalid opcode %d\n", finst
->Instruction
.Opcode
);
488 nv30_vertprog_parse_decl_output(struct nv30_vpc
*vpc
,
489 const struct tgsi_full_declaration
*fdec
)
493 switch (fdec
->Semantic
.SemanticName
) {
494 case TGSI_SEMANTIC_POSITION
:
495 hw
= NV30_VP_INST_DEST_POS
;
497 case TGSI_SEMANTIC_COLOR
:
498 if (fdec
->Semantic
.SemanticIndex
== 0) {
499 hw
= NV30_VP_INST_DEST_COL0
;
501 if (fdec
->Semantic
.SemanticIndex
== 1) {
502 hw
= NV30_VP_INST_DEST_COL1
;
504 NOUVEAU_ERR("bad colour semantic index\n");
508 case TGSI_SEMANTIC_BCOLOR
:
509 if (fdec
->Semantic
.SemanticIndex
== 0) {
510 hw
= NV30_VP_INST_DEST_BFC0
;
512 if (fdec
->Semantic
.SemanticIndex
== 1) {
513 hw
= NV30_VP_INST_DEST_BFC1
;
515 NOUVEAU_ERR("bad bcolour semantic index\n");
519 case TGSI_SEMANTIC_FOG
:
520 hw
= NV30_VP_INST_DEST_FOGC
;
522 case TGSI_SEMANTIC_PSIZE
:
523 hw
= NV30_VP_INST_DEST_PSZ
;
525 case TGSI_SEMANTIC_GENERIC
:
526 if (fdec
->Semantic
.SemanticIndex
<= 7) {
527 hw
= NV30_VP_INST_DEST_TC(fdec
->Semantic
.SemanticIndex
);
529 NOUVEAU_ERR("bad generic semantic index\n");
534 NOUVEAU_ERR("bad output semantic\n");
538 vpc
->output_map
[fdec
->DeclarationRange
.First
] = hw
;
543 nv30_vertprog_prepare(struct nv30_vpc
*vpc
)
545 struct tgsi_parse_context p
;
548 tgsi_parse_init(&p
, vpc
->vp
->pipe
.tokens
);
549 while (!tgsi_parse_end_of_tokens(&p
)) {
550 const union tgsi_full_token
*tok
= &p
.FullToken
;
552 tgsi_parse_token(&p
);
553 switch(tok
->Token
.Type
) {
554 case TGSI_TOKEN_TYPE_IMMEDIATE
:
564 vpc
->imm
= CALLOC(nr_imm
, sizeof(struct nv30_sreg
));
572 nv30_vertprog_translate(struct nv30_context
*nv30
,
573 struct nv30_vertex_program
*vp
)
575 struct tgsi_parse_context parse
;
576 struct nv30_vpc
*vpc
= NULL
;
578 tgsi_dump(vp
->pipe
.tokens
,0);
580 vpc
= CALLOC(1, sizeof(struct nv30_vpc
));
586 if (!nv30_vertprog_prepare(vpc
)) {
591 tgsi_parse_init(&parse
, vp
->pipe
.tokens
);
593 while (!tgsi_parse_end_of_tokens(&parse
)) {
594 tgsi_parse_token(&parse
);
596 switch (parse
.FullToken
.Token
.Type
) {
597 case TGSI_TOKEN_TYPE_DECLARATION
:
599 const struct tgsi_full_declaration
*fdec
;
600 fdec
= &parse
.FullToken
.FullDeclaration
;
601 switch (fdec
->Declaration
.File
) {
602 case TGSI_FILE_OUTPUT
:
603 if (!nv30_vertprog_parse_decl_output(vpc
, fdec
))
611 case TGSI_TOKEN_TYPE_IMMEDIATE
:
613 const struct tgsi_full_immediate
*imm
;
615 imm
= &parse
.FullToken
.FullImmediate
;
616 assert(imm
->Immediate
.DataType
== TGSI_IMM_FLOAT32
);
617 assert(imm
->Immediate
.NrTokens
== 4 + 1);
618 vpc
->imm
[vpc
->nr_imm
++] =
620 imm
->u
.ImmediateFloat32
[0].Float
,
621 imm
->u
.ImmediateFloat32
[1].Float
,
622 imm
->u
.ImmediateFloat32
[2].Float
,
623 imm
->u
.ImmediateFloat32
[3].Float
);
626 case TGSI_TOKEN_TYPE_INSTRUCTION
:
628 const struct tgsi_full_instruction
*finst
;
629 finst
= &parse
.FullToken
.FullInstruction
;
630 if (!nv30_vertprog_parse_instruction(vpc
, finst
))
639 vp
->insns
[vp
->nr_insns
- 1].data
[3] |= NV30_VP_INST_LAST
;
640 vp
->translated
= TRUE
;
642 tgsi_parse_free(&parse
);
647 nv30_vertprog_validate(struct nv30_context
*nv30
)
649 struct pipe_screen
*pscreen
= nv30
->pipe
.screen
;
650 struct nouveau_grobj
*rankine
= nv30
->screen
->rankine
;
651 struct nv30_vertex_program
*vp
;
652 struct pipe_buffer
*constbuf
;
653 boolean upload_code
= FALSE
, upload_data
= FALSE
;
657 constbuf
= nv30
->constbuf
[PIPE_SHADER_VERTEX
];
659 /* Translate TGSI shader into hw bytecode */
660 if (!vp
->translated
) {
661 nv30_vertprog_translate(nv30
, vp
);
666 /* Allocate hw vtxprog exec slots */
668 struct nouveau_resource
*heap
= nv30
->screen
->vp_exec_heap
;
669 struct nouveau_stateobj
*so
;
670 uint vplen
= vp
->nr_insns
;
672 if (nouveau_resource_alloc(heap
, vplen
, vp
, &vp
->exec
)) {
673 while (heap
->next
&& heap
->size
< vplen
) {
674 struct nv30_vertex_program
*evict
;
676 evict
= heap
->next
->priv
;
677 nouveau_resource_free(&evict
->exec
);
680 if (nouveau_resource_alloc(heap
, vplen
, vp
, &vp
->exec
))
685 so_method(so
, rankine
, NV34TCL_VP_START_FROM_ID
, 1);
686 so_data (so
, vp
->exec
->start
);
693 /* Allocate hw vtxprog const slots */
694 if (vp
->nr_consts
&& !vp
->data
) {
695 struct nouveau_resource
*heap
= nv30
->screen
->vp_data_heap
;
697 if (nouveau_resource_alloc(heap
, vp
->nr_consts
, vp
, &vp
->data
)) {
698 while (heap
->next
&& heap
->size
< vp
->nr_consts
) {
699 struct nv30_vertex_program
*evict
;
701 evict
= heap
->next
->priv
;
702 nouveau_resource_free(&evict
->data
);
705 if (nouveau_resource_alloc(heap
, vp
->nr_consts
, vp
,
710 /*XXX: handle this some day */
711 assert(vp
->data
->start
>= vp
->data_start_min
);
714 if (vp
->data_start
!= vp
->data
->start
)
718 /* If exec or data segments moved we need to patch the program to
719 * fixup offsets and register IDs.
721 if (vp
->exec_start
!= vp
->exec
->start
) {
722 for (i
= 0; i
< vp
->nr_insns
; i
++) {
723 struct nv30_vertex_program_exec
*vpi
= &vp
->insns
[i
];
725 if (vpi
->has_branch_offset
) {
730 vp
->exec_start
= vp
->exec
->start
;
733 if (vp
->nr_consts
&& vp
->data_start
!= vp
->data
->start
) {
734 for (i
= 0; i
< vp
->nr_insns
; i
++) {
735 struct nv30_vertex_program_exec
*vpi
= &vp
->insns
[i
];
737 if (vpi
->const_index
>= 0) {
738 vpi
->data
[1] &= ~NV30_VP_INST_CONST_SRC_MASK
;
740 (vpi
->const_index
+ vp
->data
->start
) <<
741 NV30_VP_INST_CONST_SRC_SHIFT
;
746 vp
->data_start
= vp
->data
->start
;
749 /* Update + Upload constant values */
754 map
= pipe_buffer_map(pscreen
, constbuf
,
755 PIPE_BUFFER_USAGE_CPU_READ
);
758 for (i
= 0; i
< vp
->nr_consts
; i
++) {
759 struct nv30_vertex_program_data
*vpd
= &vp
->consts
[i
];
761 if (vpd
->index
>= 0) {
763 !memcmp(vpd
->value
, &map
[vpd
->index
* 4],
766 memcpy(vpd
->value
, &map
[vpd
->index
* 4],
770 BEGIN_RING(rankine
, NV34TCL_VP_UPLOAD_CONST_ID
, 5);
771 OUT_RING (i
+ vp
->data
->start
);
772 OUT_RINGp ((uint32_t *)vpd
->value
, 4);
776 pipe_buffer_unmap(pscreen
, constbuf
);
782 for (i
= 0; i
< vp
->nr_insns
; i
++) {
783 NOUVEAU_MSG("VP inst %d: 0x%08x 0x%08x 0x%08x 0x%08x\n",
784 i
, vp
->insns
[i
].data
[0], vp
->insns
[i
].data
[1],
785 vp
->insns
[i
].data
[2], vp
->insns
[i
].data
[3]);
788 BEGIN_RING(rankine
, NV34TCL_VP_UPLOAD_FROM_ID
, 1);
789 OUT_RING (vp
->exec
->start
);
790 for (i
= 0; i
< vp
->nr_insns
; i
++) {
791 BEGIN_RING(rankine
, NV34TCL_VP_UPLOAD_INST(0), 4);
792 OUT_RINGp (vp
->insns
[i
].data
, 4);
796 if (vp
->so
!= nv30
->state
.hw
[NV30_STATE_VERTPROG
]) {
797 so_ref(vp
->so
, &nv30
->state
.hw
[NV30_STATE_VERTPROG
]);
805 nv30_vertprog_destroy(struct nv30_context
*nv30
, struct nv30_vertex_program
*vp
)
807 vp
->translated
= FALSE
;
821 nouveau_resource_free(&vp
->exec
);
823 nouveau_resource_free(&vp
->data
);
825 vp
->data_start_min
= 0;
828 so_ref(NULL
, &vp
->so
);
831 struct nv30_state_entry nv30_state_vertprog
= {
832 .validate
= nv30_vertprog_validate
,
834 .pipe
= NV30_NEW_VERTPROG
/*| NV30_NEW_UCP*/,
835 .hw
= NV30_STATE_VERTPROG
,