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1 /**************************************************************************
2  *
3  * Copyright 2004 David Airlie
4  * All Rights Reserved.
5  *
6  * Permission is hereby granted, free of charge, to any person obtaining a
7  * copy of this software and associated documentation files (the
8  * "Software"), to deal in the Software without restriction, including
9  * without limitation the rights to use, copy, modify, merge, publish,
10  * distribute, sub license, and/or sell copies of the Software, and to
11  * permit persons to whom the Software is furnished to do so, subject to
12  * the following conditions:
13  *
14  * The above copyright notice and this permission notice (including the
15  * next paragraph) shall be included in all copies or substantial portions
16  * of the Software.
17  *
18  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
19  * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
20  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
21  * IN NO EVENT SHALL DAVID AIRLIE AND/OR ITS SUPPLIERS BE LIABLE FOR
22  * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
23  * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
24  * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
25  *
26  **************************************************************************/
27 
28 #include "main/glheader.h"
29 #include "main/atifragshader.h"
30 #include "main/macros.h"
31 #include "main/enums.h"
32 #include "tnl/t_context.h"
33 #include "program/program.h"
34 #include "r200_context.h"
35 #include "r200_ioctl.h"
36 #include "r200_tex.h"
37 
38 #define SET_INST(inst, type) afs_cmd[((inst<<2) + (type<<1) + 1)]
39 #define SET_INST_2(inst, type) afs_cmd[((inst<<2) + (type<<1) + 2)]
40 
r200SetFragShaderArg(GLuint * afs_cmd,GLuint opnum,GLuint optype,const struct atifragshader_src_register srcReg,GLuint argPos,GLuint * tfactor)41 static void r200SetFragShaderArg( GLuint *afs_cmd, GLuint opnum, GLuint optype,
42 				const struct atifragshader_src_register srcReg,
43 				GLuint argPos, GLuint *tfactor )
44 {
45    const GLuint index = srcReg.Index;
46    const GLuint srcmod = srcReg.argMod;
47    const GLuint srcrep = srcReg.argRep;
48    GLuint reg0 = 0;
49    GLuint reg2 = 0;
50    GLuint useOddSrc = 0;
51 
52    switch(srcrep) {
53    case GL_RED:
54       reg2 |= R200_TXC_REPL_RED << (R200_TXC_REPL_ARG_A_SHIFT + (2*argPos));
55       if (optype)
56 	 useOddSrc = 1;
57       break;
58    case GL_GREEN:
59       reg2 |= R200_TXC_REPL_GREEN << (R200_TXC_REPL_ARG_A_SHIFT + (2*argPos));
60       if (optype)
61 	 useOddSrc = 1;
62       break;
63    case GL_BLUE:
64       if (!optype)
65 	 reg2 |= R200_TXC_REPL_BLUE << (R200_TXC_REPL_ARG_A_SHIFT + (2*argPos));
66       else
67 	 useOddSrc = 1;
68       break;
69    case GL_ALPHA:
70       if (!optype)
71 	 useOddSrc = 1;
72       break;
73    }
74 
75    if (index >= GL_REG_0_ATI && index <= GL_REG_5_ATI)
76       reg0 |= (((index - GL_REG_0_ATI)*2) + 10 + useOddSrc) << (5*argPos);
77    else if (index >= GL_CON_0_ATI && index <= GL_CON_7_ATI) {
78       if ((*tfactor == 0) || (index == *tfactor)) {
79 	 reg0 |= (R200_TXC_ARG_A_TFACTOR_COLOR + useOddSrc) << (5*argPos);
80 	 reg2 |= (index - GL_CON_0_ATI) << R200_TXC_TFACTOR_SEL_SHIFT;
81 	 *tfactor = index;
82       }
83       else {
84 	 reg0 |= (R200_TXC_ARG_A_TFACTOR1_COLOR + useOddSrc) << (5*argPos);
85 	 reg2 |= (index - GL_CON_0_ATI) << R200_TXC_TFACTOR1_SEL_SHIFT;
86       }
87    }
88    else if (index == GL_PRIMARY_COLOR_EXT) {
89       reg0 |= (R200_TXC_ARG_A_DIFFUSE_COLOR + useOddSrc) << (5*argPos);
90    }
91    else if (index == GL_SECONDARY_INTERPOLATOR_ATI) {
92       reg0 |= (R200_TXC_ARG_A_SPECULAR_COLOR + useOddSrc) << (5*argPos);
93    }
94    /* GL_ZERO is a noop, for GL_ONE we set the complement */
95    else if (index == GL_ONE) {
96       reg0 |= R200_TXC_COMP_ARG_A << (4*argPos);
97    }
98 
99    if (srcmod & GL_COMP_BIT_ATI)
100       reg0 ^= R200_TXC_COMP_ARG_A << (4*argPos);
101    if (srcmod & GL_BIAS_BIT_ATI)
102       reg0 |= R200_TXC_BIAS_ARG_A << (4*argPos);
103    if (srcmod & GL_2X_BIT_ATI)
104       reg0 |= R200_TXC_SCALE_ARG_A << (4*argPos);
105    if (srcmod & GL_NEGATE_BIT_ATI)
106       reg0 ^= R200_TXC_NEG_ARG_A << (4*argPos);
107 
108    SET_INST(opnum, optype) |= reg0;
109    SET_INST_2(opnum, optype) |= reg2;
110 }
111 
112 static GLuint dstmask_table[8] =
113 {
114    R200_TXC_OUTPUT_MASK_RGB,
115    R200_TXC_OUTPUT_MASK_R,
116    R200_TXC_OUTPUT_MASK_G,
117    R200_TXC_OUTPUT_MASK_RG,
118    R200_TXC_OUTPUT_MASK_B,
119    R200_TXC_OUTPUT_MASK_RB,
120    R200_TXC_OUTPUT_MASK_GB,
121    R200_TXC_OUTPUT_MASK_RGB
122 };
123 
r200UpdateFSArith(struct gl_context * ctx)124 static void r200UpdateFSArith( struct gl_context *ctx )
125 {
126    r200ContextPtr rmesa = R200_CONTEXT(ctx);
127    GLuint *afs_cmd;
128    const struct ati_fragment_shader *shader = ctx->ATIFragmentShader.Current;
129    GLuint pass;
130 
131    R200_STATECHANGE( rmesa, afs[0] );
132    R200_STATECHANGE( rmesa, afs[1] );
133 
134    if (shader->NumPasses < 2) {
135       afs_cmd = (GLuint *) rmesa->hw.afs[1].cmd;
136    }
137    else {
138       afs_cmd = (GLuint *) rmesa->hw.afs[0].cmd;
139    }
140    for (pass = 0; pass < shader->NumPasses; pass++) {
141       GLuint opnum = 0;
142       GLuint pc;
143       for (pc = 0; pc < shader->numArithInstr[pass]; pc++) {
144          GLuint optype;
145 	 struct atifs_instruction *inst = &shader->Instructions[pass][pc];
146 
147 	 SET_INST(opnum, 0) = 0;
148 	 SET_INST_2(opnum, 0) = 0;
149 	 SET_INST(opnum, 1) = 0;
150 	 SET_INST_2(opnum, 1) = 0;
151 
152 	 for (optype = 0; optype < 2; optype++) {
153 	    GLuint tfactor = 0;
154 
155 	    if (inst->Opcode[optype]) {
156 	       switch (inst->Opcode[optype]) {
157 	       /* these are all MADD in disguise
158 		  MADD is A * B + C
159 		  so for GL_ADD use arg B/C and make A complement 0
160 		  for GL_SUB use arg B/C, negate C and make A complement 0
161 		  for GL_MOV use arg C
162 		  for GL_MUL use arg A
163 		  for GL_MAD all good */
164 	       case GL_SUB_ATI:
165 		  /* negate C */
166 		  SET_INST(opnum, optype) |= R200_TXC_NEG_ARG_C;
167 		  /* fallthrough */
168 	       case GL_ADD_ATI:
169 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
170 					inst->SrcReg[optype][0], 1, &tfactor);
171 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
172 					inst->SrcReg[optype][1], 2, &tfactor);
173 		  /* A = complement 0 */
174 		  SET_INST(opnum, optype) |= R200_TXC_COMP_ARG_A;
175 		  SET_INST(opnum, optype) |= R200_TXC_OP_MADD;
176 		  break;
177 	       case GL_MOV_ATI:
178 		  /* put arg0 in C */
179 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
180 					inst->SrcReg[optype][0], 2, &tfactor);
181 		  SET_INST(opnum, optype) |= R200_TXC_OP_MADD;
182 		  break;
183 	       case GL_MAD_ATI:
184 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
185 					inst->SrcReg[optype][2], 2, &tfactor);
186 		  /* fallthrough */
187 	       case GL_MUL_ATI:
188 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
189 					inst->SrcReg[optype][0], 0, &tfactor);
190 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
191 					inst->SrcReg[optype][1], 1, &tfactor);
192 		  SET_INST(opnum, optype) |= R200_TXC_OP_MADD;
193 		  break;
194 	       case GL_LERP_ATI:
195 		  /* arg order is not native chip order, swap A and C */
196 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
197 					inst->SrcReg[optype][0], 2, &tfactor);
198 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
199 					inst->SrcReg[optype][1], 1, &tfactor);
200 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
201 					inst->SrcReg[optype][2], 0, &tfactor);
202 		  SET_INST(opnum, optype) |= R200_TXC_OP_LERP;
203 		  break;
204 	       case GL_CND_ATI:
205 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
206 					inst->SrcReg[optype][0], 0, &tfactor);
207 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
208 					inst->SrcReg[optype][1], 1, &tfactor);
209 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
210 					inst->SrcReg[optype][2], 2, &tfactor);
211 		  SET_INST(opnum, optype) |= R200_TXC_OP_CONDITIONAL;
212 		  break;
213 	       case GL_CND0_ATI:
214 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
215 					inst->SrcReg[optype][0], 0, &tfactor);
216 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
217 					inst->SrcReg[optype][1], 1, &tfactor);
218 		  r200SetFragShaderArg(afs_cmd, opnum, optype,
219 					inst->SrcReg[optype][2], 2, &tfactor);
220 		  SET_INST(opnum, optype) |= R200_TXC_OP_CND0;
221 		  break;
222 		  /* cannot specify dot ops as alpha ops directly */
223 	       case GL_DOT2_ADD_ATI:
224 		  if (optype)
225 		     SET_INST_2(opnum, 1) |= R200_TXA_DOT_ALPHA;
226 		  else {
227 		     r200SetFragShaderArg(afs_cmd, opnum, 0,
228 					inst->SrcReg[0][0], 0, &tfactor);
229 		     r200SetFragShaderArg(afs_cmd, opnum, 0,
230 					inst->SrcReg[0][1], 1, &tfactor);
231 		     r200SetFragShaderArg(afs_cmd, opnum, 0,
232 					inst->SrcReg[0][2], 2, &tfactor);
233 		     SET_INST(opnum, 0) |= R200_TXC_OP_DOT2_ADD;
234 		  }
235 		  break;
236 	       case GL_DOT3_ATI:
237 		  if (optype)
238 		     SET_INST_2(opnum, 1) |= R200_TXA_DOT_ALPHA;
239 		  else {
240 		     r200SetFragShaderArg(afs_cmd, opnum, 0,
241 					inst->SrcReg[0][0], 0, &tfactor);
242 		     r200SetFragShaderArg(afs_cmd, opnum, 0,
243 					inst->SrcReg[0][1], 1, &tfactor);
244 		     SET_INST(opnum, 0) |= R200_TXC_OP_DOT3;
245 		  }
246 		  break;
247 	       case GL_DOT4_ATI:
248 	       /* experimental verification: for dot4 setup of alpha args is needed
249 		  (dstmod is ignored, though, so dot2/dot3 should be safe)
250 		  the hardware apparently does R1*R2 + G1*G2 + B1*B2 + A3*A4
251 		  but the API doesn't allow it */
252 		  if (optype)
253 		     SET_INST_2(opnum, 1) |= R200_TXA_DOT_ALPHA;
254 		  else {
255 		     r200SetFragShaderArg(afs_cmd, opnum, 0,
256 					inst->SrcReg[0][0], 0, &tfactor);
257 		     r200SetFragShaderArg(afs_cmd, opnum, 0,
258 					inst->SrcReg[0][1], 1, &tfactor);
259 		     r200SetFragShaderArg(afs_cmd, opnum, 1,
260 					inst->SrcReg[0][0], 0, &tfactor);
261 		     r200SetFragShaderArg(afs_cmd, opnum, 1,
262 					inst->SrcReg[0][1], 1, &tfactor);
263 		     SET_INST(opnum, optype) |= R200_TXC_OP_DOT4;
264 		  }
265 		  break;
266 	       }
267 	    }
268 
269 	    /* destination */
270 	    if (inst->DstReg[optype].Index) {
271 	       GLuint dstreg = inst->DstReg[optype].Index - GL_REG_0_ATI;
272 	       GLuint dstmask = inst->DstReg[optype].dstMask;
273 	       GLuint sat = inst->DstReg[optype].dstMod & GL_SATURATE_BIT_ATI;
274 	       GLuint dstmod = inst->DstReg[optype].dstMod;
275 
276 	       dstmod &= ~GL_SATURATE_BIT_ATI;
277 
278 	       SET_INST_2(opnum, optype) |= (dstreg + 1) << R200_TXC_OUTPUT_REG_SHIFT;
279 	       SET_INST_2(opnum, optype) |= dstmask_table[dstmask];
280 
281 		/* fglrx does clamp the last instructions to 0_1 it seems */
282 		/* this won't necessarily catch the last instruction
283 		   which writes to reg0 */
284 	       if (sat || (pc == (shader->numArithInstr[pass] - 1) &&
285 			((pass == 1) || (shader->NumPasses == 1))))
286 		  SET_INST_2(opnum, optype) |= R200_TXC_CLAMP_0_1;
287 	       else
288 		/*should we clamp or not? spec is vague, I would suppose yes but fglrx doesn't */
289 		  SET_INST_2(opnum, optype) |= R200_TXC_CLAMP_8_8;
290 /*		  SET_INST_2(opnum, optype) |= R200_TXC_CLAMP_WRAP;*/
291 	       switch(dstmod) {
292 	       case GL_2X_BIT_ATI:
293 		  SET_INST_2(opnum, optype) |= R200_TXC_SCALE_2X;
294 		  break;
295 	       case GL_4X_BIT_ATI:
296 		  SET_INST_2(opnum, optype) |= R200_TXC_SCALE_4X;
297 		  break;
298 	       case GL_8X_BIT_ATI:
299 		  SET_INST_2(opnum, optype) |= R200_TXC_SCALE_8X;
300 		  break;
301 	       case GL_HALF_BIT_ATI:
302 		  SET_INST_2(opnum, optype) |= R200_TXC_SCALE_INV2;
303 		  break;
304 	       case GL_QUARTER_BIT_ATI:
305 		  SET_INST_2(opnum, optype) |= R200_TXC_SCALE_INV4;
306 		  break;
307 	       case GL_EIGHTH_BIT_ATI:
308 		  SET_INST_2(opnum, optype) |= R200_TXC_SCALE_INV8;
309 		  break;
310 	       default:
311 		  break;
312 	       }
313 	    }
314 	 }
315 /*	 fprintf(stderr, "pass %d nr %d inst 0x%.8x 0x%.8x 0x%.8x 0x%.8x\n",
316 		pass, opnum, SET_INST(opnum, 0), SET_INST_2(opnum, 0),
317 		SET_INST(opnum, 1), SET_INST_2(opnum, 1));*/
318          opnum++;
319       }
320       afs_cmd = (GLuint *) rmesa->hw.afs[1].cmd;
321    }
322    rmesa->afs_loaded = ctx->ATIFragmentShader.Current;
323 }
324 
r200UpdateFSRouting(struct gl_context * ctx)325 static void r200UpdateFSRouting( struct gl_context *ctx ) {
326    r200ContextPtr rmesa = R200_CONTEXT(ctx);
327    const struct ati_fragment_shader *shader = ctx->ATIFragmentShader.Current;
328    GLuint reg;
329 
330    R200_STATECHANGE( rmesa, ctx );
331    R200_STATECHANGE( rmesa, cst );
332 
333    for (reg = 0; reg < R200_MAX_TEXTURE_UNITS; reg++) {
334       if (shader->swizzlerq & (1 << (2 * reg)))
335 	 /* r coord */
336 	 set_re_cntl_d3d( ctx, reg, 1);
337 	 /* q coord */
338       else set_re_cntl_d3d( ctx, reg, 0);
339    }
340 
341    rmesa->hw.ctx.cmd[CTX_PP_CNTL] &= ~(R200_MULTI_PASS_ENABLE |
342 				       R200_TEX_BLEND_ENABLE_MASK |
343 				       R200_TEX_ENABLE_MASK);
344    rmesa->hw.cst.cmd[CST_PP_CNTL_X] &= ~(R200_PPX_PFS_INST_ENABLE_MASK |
345 					 R200_PPX_TEX_ENABLE_MASK |
346 					 R200_PPX_OUTPUT_REG_MASK);
347 
348    /* first pass registers use slots 8 - 15
349       but single pass shaders use slots 0 - 7 */
350    if (shader->NumPasses < 2) {
351       rmesa->hw.ctx.cmd[CTX_PP_CNTL] |= shader->numArithInstr[0] == 8 ?
352 	 0xff << (R200_TEX_BLEND_0_ENABLE_SHIFT - 1) :
353 	 (0xff >> (8 - shader->numArithInstr[0])) << R200_TEX_BLEND_0_ENABLE_SHIFT;
354    } else {
355       rmesa->hw.ctx.cmd[CTX_PP_CNTL] |= R200_MULTI_PASS_ENABLE;
356       rmesa->hw.ctx.cmd[CTX_PP_CNTL] |= shader->numArithInstr[1] == 8 ?
357 	 0xff << (R200_TEX_BLEND_0_ENABLE_SHIFT - 1) :
358 	 (0xff >> (8 - shader->numArithInstr[1])) << R200_TEX_BLEND_0_ENABLE_SHIFT;
359       rmesa->hw.cst.cmd[CST_PP_CNTL_X] |=
360 	 (0xff >> (8 - shader->numArithInstr[0])) << R200_PPX_FPS_INST0_ENABLE_SHIFT;
361    }
362 
363    if (shader->NumPasses < 2) {
364       for (reg = 0; reg < R200_MAX_TEXTURE_UNITS; reg++) {
365          struct gl_texture_object *texObj = ctx->Texture.Unit[reg]._Current;
366          R200_STATECHANGE( rmesa, tex[reg] );
367 	 rmesa->hw.tex[reg].cmd[TEX_PP_TXMULTI_CTL] = 0;
368 	 if (shader->SetupInst[0][reg].Opcode) {
369 	    GLuint txformat = rmesa->hw.tex[reg].cmd[TEX_PP_TXFORMAT]
370 		& ~(R200_TXFORMAT_ST_ROUTE_MASK | R200_TXFORMAT_LOOKUP_DISABLE);
371 	    GLuint txformat_x = rmesa->hw.tex[reg].cmd[TEX_PP_TXFORMAT_X] & ~R200_TEXCOORD_MASK;
372 	    txformat |= (shader->SetupInst[0][reg].src - GL_TEXTURE0_ARB)
373 		<< R200_TXFORMAT_ST_ROUTE_SHIFT;
374 	    /* fix up texcoords for proj/non-proj 2d (3d and cube are not defined when
375 	       using projection so don't have to worry there).
376 	       When passing coords, need R200_TEXCOORD_VOLUME, otherwise loose a coord */
377 	    /* FIXME: someone might rely on default tex coords r/q, which we unfortunately
378 	       don't provide (we have the same problem without shaders) */
379 	    if (shader->SetupInst[0][reg].Opcode == ATI_FRAGMENT_SHADER_PASS_OP) {
380 	       txformat |= R200_TXFORMAT_LOOKUP_DISABLE;
381 	       if (shader->SetupInst[0][reg].swizzle == GL_SWIZZLE_STR_ATI ||
382 		  shader->SetupInst[0][reg].swizzle == GL_SWIZZLE_STQ_ATI) {
383 		  txformat_x |= R200_TEXCOORD_VOLUME;
384 	       }
385 	       else {
386 		  txformat_x |= R200_TEXCOORD_PROJ;
387 	       }
388 	       rmesa->hw.ctx.cmd[CTX_PP_CNTL] |= R200_TEX_0_ENABLE << reg;
389 	    }
390 	    else if (texObj && texObj->Target == GL_TEXTURE_3D) {
391 	       txformat_x |= R200_TEXCOORD_VOLUME;
392 	    }
393 	    else if (texObj && texObj->Target == GL_TEXTURE_CUBE_MAP) {
394 	       txformat_x |= R200_TEXCOORD_CUBIC_ENV;
395 	    }
396 	    else if (shader->SetupInst[0][reg].swizzle == GL_SWIZZLE_STR_ATI ||
397 	       shader->SetupInst[0][reg].swizzle == GL_SWIZZLE_STQ_ATI) {
398 	       txformat_x |= R200_TEXCOORD_NONPROJ;
399 	    }
400 	    else {
401 	       txformat_x |= R200_TEXCOORD_PROJ;
402 	    }
403 	    rmesa->hw.tex[reg].cmd[TEX_PP_TXFORMAT] = txformat;
404 	    rmesa->hw.tex[reg].cmd[TEX_PP_TXFORMAT_X] = txformat_x;
405 	    /* enabling texturing when unit isn't correctly configured may not be safe */
406 	    if (texObj)
407 	       rmesa->hw.ctx.cmd[CTX_PP_CNTL] |= R200_TEX_0_ENABLE << reg;
408 	 }
409       }
410 
411    } else {
412       /* setup 1st pass */
413       for (reg = 0; reg < R200_MAX_TEXTURE_UNITS; reg++) {
414 	 struct gl_texture_object *texObj = ctx->Texture.Unit[reg]._Current;
415 	 R200_STATECHANGE( rmesa, tex[reg] );
416 	 GLuint txformat_multi = 0;
417 	 if (shader->SetupInst[0][reg].Opcode) {
418 	    txformat_multi |= (shader->SetupInst[0][reg].src - GL_TEXTURE0_ARB)
419 		<< R200_PASS1_ST_ROUTE_SHIFT;
420 	    if (shader->SetupInst[0][reg].Opcode == ATI_FRAGMENT_SHADER_PASS_OP) {
421 	       txformat_multi |= R200_PASS1_TXFORMAT_LOOKUP_DISABLE;
422 	       if (shader->SetupInst[0][reg].swizzle == GL_SWIZZLE_STR_ATI ||
423 		  shader->SetupInst[0][reg].swizzle == GL_SWIZZLE_STQ_ATI) {
424 		  txformat_multi |= R200_PASS1_TEXCOORD_VOLUME;
425 	       }
426 	       else {
427 		  txformat_multi |= R200_PASS1_TEXCOORD_PROJ;
428 	       }
429 	       rmesa->hw.cst.cmd[CST_PP_CNTL_X] |= R200_PPX_TEX_0_ENABLE << reg;
430 	    }
431 	    else if (texObj && texObj->Target == GL_TEXTURE_3D) {
432 	       txformat_multi |= R200_PASS1_TEXCOORD_VOLUME;
433 	    }
434 	    else if (texObj && texObj->Target == GL_TEXTURE_CUBE_MAP) {
435 	       txformat_multi |= R200_PASS1_TEXCOORD_CUBIC_ENV;
436 	    }
437 	    else if (shader->SetupInst[0][reg].swizzle == GL_SWIZZLE_STR_ATI ||
438 		  shader->SetupInst[0][reg].swizzle == GL_SWIZZLE_STQ_ATI) {
439 		  txformat_multi |= R200_PASS1_TEXCOORD_NONPROJ;
440 	    }
441 	    else {
442 	       txformat_multi |= R200_PASS1_TEXCOORD_PROJ;
443 	    }
444 	    if (texObj)
445 	       rmesa->hw.cst.cmd[CST_PP_CNTL_X] |= R200_PPX_TEX_0_ENABLE << reg;
446 	 }
447          rmesa->hw.tex[reg].cmd[TEX_PP_TXMULTI_CTL] = txformat_multi;
448       }
449 
450       /* setup 2nd pass */
451       for (reg=0; reg < R200_MAX_TEXTURE_UNITS; reg++) {
452 	 struct gl_texture_object *texObj = ctx->Texture.Unit[reg]._Current;
453 	 if (shader->SetupInst[1][reg].Opcode) {
454 	    GLuint coord = shader->SetupInst[1][reg].src;
455 	    GLuint txformat = rmesa->hw.tex[reg].cmd[TEX_PP_TXFORMAT]
456 		& ~(R200_TXFORMAT_ST_ROUTE_MASK | R200_TXFORMAT_LOOKUP_DISABLE);
457 	    GLuint txformat_x = rmesa->hw.tex[reg].cmd[TEX_PP_TXFORMAT_X] & ~R200_TEXCOORD_MASK;
458 	    R200_STATECHANGE( rmesa, tex[reg] );
459 	    if (shader->SetupInst[1][reg].Opcode == ATI_FRAGMENT_SHADER_PASS_OP) {
460 	       txformat |= R200_TXFORMAT_LOOKUP_DISABLE;
461 	       txformat_x |= R200_TEXCOORD_VOLUME;
462 	       if (shader->SetupInst[1][reg].swizzle == GL_SWIZZLE_STR_ATI ||
463 		  shader->SetupInst[1][reg].swizzle == GL_SWIZZLE_STQ_ATI) {
464 	          txformat_x |= R200_TEXCOORD_VOLUME;
465 	       }
466 	       else {
467 		  txformat_x |= R200_TEXCOORD_PROJ;
468 	       }
469 	       rmesa->hw.ctx.cmd[CTX_PP_CNTL] |= R200_TEX_0_ENABLE << reg;
470 	    }
471 	    else if (texObj && texObj->Target == GL_TEXTURE_3D) {
472 	       txformat_x |= R200_TEXCOORD_VOLUME;
473 	    }
474 	    else if (texObj && texObj->Target == GL_TEXTURE_CUBE_MAP) {
475 	       txformat_x |= R200_TEXCOORD_CUBIC_ENV;
476 	    }
477 	    else if (shader->SetupInst[1][reg].swizzle == GL_SWIZZLE_STR_ATI ||
478 	       shader->SetupInst[1][reg].swizzle == GL_SWIZZLE_STQ_ATI) {
479 	       txformat_x |= R200_TEXCOORD_NONPROJ;
480 	    }
481 	    else {
482 	       txformat_x |= R200_TEXCOORD_PROJ;
483 	    }
484 	    if (coord >= GL_REG_0_ATI) {
485 	       GLuint txformat_multi = rmesa->hw.tex[reg].cmd[TEX_PP_TXMULTI_CTL];
486 	       txformat_multi |= (coord - GL_REG_0_ATI + 2) << R200_PASS2_COORDS_REG_SHIFT;
487 	       rmesa->hw.tex[reg].cmd[TEX_PP_TXMULTI_CTL] = txformat_multi;
488 	       rmesa->hw.cst.cmd[CST_PP_CNTL_X] |= 1 <<
489 		  (R200_PPX_OUTPUT_REG_0_SHIFT + coord - GL_REG_0_ATI);
490 	    } else {
491 	       txformat |= (coord - GL_TEXTURE0_ARB) << R200_TXFORMAT_ST_ROUTE_SHIFT;
492 	    }
493 	    rmesa->hw.tex[reg].cmd[TEX_PP_TXFORMAT_X] = txformat_x;
494 	    rmesa->hw.tex[reg].cmd[TEX_PP_TXFORMAT] = txformat;
495 	    if (texObj)
496 	       rmesa->hw.ctx.cmd[CTX_PP_CNTL] |= R200_TEX_0_ENABLE << reg;
497 	 }
498       }
499    }
500 }
501 
r200UpdateFSConstants(struct gl_context * ctx)502 static void r200UpdateFSConstants( struct gl_context *ctx )
503 {
504    r200ContextPtr rmesa = R200_CONTEXT(ctx);
505    const struct ati_fragment_shader *shader = ctx->ATIFragmentShader.Current;
506    GLuint i;
507 
508    /* update constants */
509    R200_STATECHANGE(rmesa, atf);
510    for (i = 0; i < 8; i++)
511    {
512       GLubyte con_byte[4];
513       if ((shader->LocalConstDef >> i) & 1) {
514 	 CLAMPED_FLOAT_TO_UBYTE(con_byte[0], shader->Constants[i][0]);
515 	 CLAMPED_FLOAT_TO_UBYTE(con_byte[1], shader->Constants[i][1]);
516 	 CLAMPED_FLOAT_TO_UBYTE(con_byte[2], shader->Constants[i][2]);
517 	 CLAMPED_FLOAT_TO_UBYTE(con_byte[3], shader->Constants[i][3]);
518       }
519       else {
520 	 CLAMPED_FLOAT_TO_UBYTE(con_byte[0], ctx->ATIFragmentShader.GlobalConstants[i][0]);
521 	 CLAMPED_FLOAT_TO_UBYTE(con_byte[1], ctx->ATIFragmentShader.GlobalConstants[i][1]);
522 	 CLAMPED_FLOAT_TO_UBYTE(con_byte[2], ctx->ATIFragmentShader.GlobalConstants[i][2]);
523 	 CLAMPED_FLOAT_TO_UBYTE(con_byte[3], ctx->ATIFragmentShader.GlobalConstants[i][3]);
524       }
525       rmesa->hw.atf.cmd[ATF_TFACTOR_0 + i] = radeonPackColor (
526 	 4, con_byte[0], con_byte[1], con_byte[2], con_byte[3] );
527    }
528 }
529 
530 /* update routing, constants and arithmetic
531  * constants need to be updated always (globals can change, no separate notification)
532  * routing needs to be updated always too (non-shader code will overwrite state, plus
533  * some of the routing depends on what sort of texture is bound)
534  * for both of them, we need to update anyway because of disabling/enabling ati_fs which
535  * we'd need to track otherwise
536  * arithmetic is only updated if current shader changes (and probably the data should be
537  * stored in some DriverData object attached to the mesa atifs object, i.e. binding a
538  * shader wouldn't force us to "recompile" the shader).
539  */
r200UpdateFragmentShader(struct gl_context * ctx)540 void r200UpdateFragmentShader( struct gl_context *ctx )
541 {
542    r200ContextPtr rmesa = R200_CONTEXT(ctx);
543 
544    r200UpdateFSConstants( ctx );
545    r200UpdateFSRouting( ctx );
546    if (rmesa->afs_loaded != ctx->ATIFragmentShader.Current)
547       r200UpdateFSArith( ctx );
548 }
549