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Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001/*
Alyssa Rosenzweig11554462019-05-19 23:20:34 +00002 * Copyright (C) 2018-2019 Alyssa Rosenzweig <alyssa@rosenzweig.io>
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00003 *
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
10 *
11 * The above copyright notice and this permission notice (including the next
12 * paragraph) shall be included in all copies or substantial portions of the
13 * Software.
14 *
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
18 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
20 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
21 * SOFTWARE.
22 */
23
24#include <sys/types.h>
25#include <sys/stat.h>
26#include <sys/mman.h>
27#include <fcntl.h>
28#include <stdint.h>
29#include <stdlib.h>
30#include <stdio.h>
31#include <err.h>
32
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +010033#include "main/mtypes.h"
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +000034#include "compiler/glsl/glsl_to_nir.h"
35#include "compiler/nir_types.h"
36#include "main/imports.h"
37#include "compiler/nir/nir_builder.h"
38#include "util/half_float.h"
Alyssa Rosenzweig213b6282019-06-18 09:02:20 -070039#include "util/u_math.h"
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +010040#include "util/u_debug.h"
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +000041#include "util/u_dynarray.h"
42#include "util/list.h"
43#include "main/mtypes.h"
44
45#include "midgard.h"
46#include "midgard_nir.h"
47#include "midgard_compile.h"
Alyssa Rosenzweig11554462019-05-19 23:20:34 +000048#include "midgard_ops.h"
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +000049#include "helpers.h"
Alyssa Rosenzweig11554462019-05-19 23:20:34 +000050#include "compiler.h"
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +000051
52#include "disassemble.h"
53
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +010054static const struct debug_named_value debug_options[] = {
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -070055 {"msgs", MIDGARD_DBG_MSGS, "Print debug messages"},
56 {"shaders", MIDGARD_DBG_SHADERS, "Dump shaders in NIR and MIR"},
Alyssa Rosenzweig138e40d2019-07-08 16:42:29 -070057 {"shaderdb", MIDGARD_DBG_SHADERDB, "Prints shader-db statistics"},
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -070058 DEBUG_NAMED_VALUE_END
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +010059};
60
61DEBUG_GET_ONCE_FLAGS_OPTION(midgard_debug, "MIDGARD_MESA_DEBUG", debug_options, 0)
62
Alyssa Rosenzweig138e40d2019-07-08 16:42:29 -070063unsigned SHADER_DB_COUNT = 0;
64
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +010065int midgard_debug = 0;
66
67#define DBG(fmt, ...) \
68 do { if (midgard_debug & MIDGARD_DBG_MSGS) \
69 fprintf(stderr, "%s:%d: "fmt, \
70 __FUNCTION__, __LINE__, ##__VA_ARGS__); } while (0)
71
Alyssa Rosenzweig1f345bc2019-04-24 01:15:15 +000072static bool
73midgard_is_branch_unit(unsigned unit)
74{
75 return (unit == ALU_ENAB_BRANCH) || (unit == ALU_ENAB_BR_COMPACT);
76}
77
Alyssa Rosenzweigc0fb2602019-04-21 03:29:47 +000078static void
79midgard_block_add_successor(midgard_block *block, midgard_block *successor)
80{
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -070081 assert(block);
82 assert(successor);
83
84 /* Deduplicate */
85 for (unsigned i = 0; i < block->nr_successors; ++i) {
86 if (block->successors[i] == successor)
87 return;
88 }
89
Alyssa Rosenzweigc0fb2602019-04-21 03:29:47 +000090 block->successors[block->nr_successors++] = successor;
91 assert(block->nr_successors <= ARRAY_SIZE(block->successors));
Alyssa Rosenzweigaeeeef12019-08-15 08:11:10 -070092
93 /* Note the predecessor in the other direction */
94 _mesa_set_add(successor->predecessors, block);
Alyssa Rosenzweigc0fb2602019-04-21 03:29:47 +000095}
96
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +000097/* Helpers to generate midgard_instruction's using macro magic, since every
98 * driver seems to do it that way */
99
100#define EMIT(op, ...) emit_mir_instruction(ctx, v_##op(__VA_ARGS__));
Alyssa Rosenzweig56f9b472019-06-14 16:03:01 -0700101
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -0700102#define M_LOAD_STORE(name, store) \
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000103 static midgard_instruction m_##name(unsigned ssa, unsigned address) { \
104 midgard_instruction i = { \
105 .type = TAG_LOAD_STORE_4, \
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -0700106 .mask = 0xF, \
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000107 .ssa_args = { \
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -0700108 .dest = -1, \
109 .src = { -1, -1, -1 }, \
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000110 }, \
111 .load_store = { \
112 .op = midgard_op_##name, \
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +0000113 .swizzle = SWIZZLE_XYZW, \
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000114 .address = address \
115 } \
116 }; \
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -0700117 \
118 if (store) \
119 i.ssa_args.src[0] = ssa; \
120 else \
121 i.ssa_args.dest = ssa; \
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000122 \
123 return i; \
124 }
125
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -0700126#define M_LOAD(name) M_LOAD_STORE(name, false)
127#define M_STORE(name) M_LOAD_STORE(name, true)
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000128
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000129/* Inputs a NIR ALU source, with modifiers attached if necessary, and outputs
130 * the corresponding Midgard source */
131
132static midgard_vector_alu_src
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700133vector_alu_modifiers(nir_alu_src *src, bool is_int, unsigned broadcast_count,
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -0700134 bool half, bool sext)
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000135{
136 if (!src) return blank_alu_src;
137
Alyssa Rosenzweig195e2972019-06-19 07:23:27 -0700138 /* Figure out how many components there are so we can adjust the
139 * swizzle. Specifically we want to broadcast the last channel so
140 * things like ball2/3 work
141 */
142
143 if (broadcast_count) {
144 uint8_t last_component = src->swizzle[broadcast_count - 1];
145
146 for (unsigned c = broadcast_count; c < NIR_MAX_VEC_COMPONENTS; ++c) {
147 src->swizzle[c] = last_component;
148 }
149 }
150
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000151 midgard_vector_alu_src alu_src = {
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000152 .rep_low = 0,
153 .rep_high = 0,
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700154 .half = half,
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000155 .swizzle = SWIZZLE_FROM_ARRAY(src->swizzle)
156 };
157
Alyssa Rosenzweigfcdfb672019-04-22 03:25:42 +0000158 if (is_int) {
Alyssa Rosenzweigfcdfb672019-04-22 03:25:42 +0000159 alu_src.mod = midgard_int_normal;
160
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700161 /* Sign/zero-extend if needed */
162
163 if (half) {
164 alu_src.mod = sext ?
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -0700165 midgard_int_sign_extend
166 : midgard_int_zero_extend;
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700167 }
168
Alyssa Rosenzweigfcdfb672019-04-22 03:25:42 +0000169 /* These should have been lowered away */
170 assert(!(src->abs || src->negate));
171 } else {
172 alu_src.mod = (src->abs << 0) | (src->negate << 1);
173 }
174
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000175 return alu_src;
176}
177
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000178/* load/store instructions have both 32-bit and 16-bit variants, depending on
179 * whether we are using vectors composed of highp or mediump. At the moment, we
180 * don't support half-floats -- this requires changes in other parts of the
181 * compiler -- therefore the 16-bit versions are commented out. */
182
Alyssa Rosenzweig74ab80b2019-05-14 04:11:36 +0000183//M_LOAD(ld_attr_16);
184M_LOAD(ld_attr_32);
185//M_LOAD(ld_vary_16);
186M_LOAD(ld_vary_32);
Alyssa Rosenzweigec2f0b52019-08-13 08:51:40 -0700187M_LOAD(ld_ubo_int4);
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -0700188M_LOAD(ld_int4);
189M_STORE(st_int4);
Alyssa Rosenzweig74ab80b2019-05-14 04:11:36 +0000190M_LOAD(ld_color_buffer_8);
191//M_STORE(st_vary_16);
192M_STORE(st_vary_32);
Alyssa Rosenzweigbe568402019-07-25 07:09:40 -0700193M_LOAD(st_cubemap_coords);
Alyssa Rosenzweig7229af72019-08-06 13:47:17 -0700194M_LOAD(ld_compute_id);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000195
196static midgard_instruction
197v_alu_br_compact_cond(midgard_jmp_writeout_op op, unsigned tag, signed offset, unsigned cond)
198{
199 midgard_branch_cond branch = {
200 .op = op,
201 .dest_tag = tag,
202 .offset = offset,
203 .cond = cond
204 };
205
206 uint16_t compact;
207 memcpy(&compact, &branch, sizeof(branch));
208
209 midgard_instruction ins = {
210 .type = TAG_ALU_4,
211 .unit = ALU_ENAB_BR_COMPACT,
212 .prepacked_branch = true,
213 .compact_branch = true,
Alyssa Rosenzweig29416a82019-07-30 12:20:24 -0700214 .br_compact = compact,
215 .ssa_args = {
216 .dest = -1,
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -0700217 .src = { -1, -1, -1 },
Alyssa Rosenzweig29416a82019-07-30 12:20:24 -0700218 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000219 };
220
221 if (op == midgard_jmp_writeout_op_writeout)
222 ins.writeout = true;
223
224 return ins;
225}
226
227static midgard_instruction
228v_branch(bool conditional, bool invert)
229{
230 midgard_instruction ins = {
231 .type = TAG_ALU_4,
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +0000232 .unit = ALU_ENAB_BRANCH,
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000233 .compact_branch = true,
234 .branch = {
235 .conditional = conditional,
236 .invert_conditional = invert
Alyssa Rosenzweig29416a82019-07-30 12:20:24 -0700237 },
238 .ssa_args = {
239 .dest = -1,
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -0700240 .src = { -1, -1, -1 },
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000241 }
242 };
243
244 return ins;
245}
246
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +0000247static midgard_branch_extended
248midgard_create_branch_extended( midgard_condition cond,
249 midgard_jmp_writeout_op op,
250 unsigned dest_tag,
251 signed quadword_offset)
252{
Alyssa Rosenzweig13ee87c2019-07-29 09:15:32 -0700253 /* The condition code is actually a LUT describing a function to
254 * combine multiple condition codes. However, we only support a single
255 * condition code at the moment, so we just duplicate over a bunch of
256 * times. */
257
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +0000258 uint16_t duplicated_cond =
259 (cond << 14) |
260 (cond << 12) |
261 (cond << 10) |
262 (cond << 8) |
263 (cond << 6) |
264 (cond << 4) |
265 (cond << 2) |
266 (cond << 0);
267
268 midgard_branch_extended branch = {
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +0000269 .op = op,
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +0000270 .dest_tag = dest_tag,
271 .offset = quadword_offset,
272 .cond = duplicated_cond
273 };
274
275 return branch;
276}
277
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000278static void
279attach_constants(compiler_context *ctx, midgard_instruction *ins, void *constants, int name)
280{
281 ins->has_constants = true;
282 memcpy(&ins->constants, constants, 16);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000283}
284
285static int
Timothy Arceri035759b2019-03-29 12:39:48 +1100286glsl_type_size(const struct glsl_type *type, bool bindless)
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000287{
288 return glsl_count_attribute_slots(type, false);
289}
290
291/* Lower fdot2 to a vector multiplication followed by channel addition */
292static void
293midgard_nir_lower_fdot2_body(nir_builder *b, nir_alu_instr *alu)
294{
295 if (alu->op != nir_op_fdot2)
296 return;
297
298 b->cursor = nir_before_instr(&alu->instr);
299
300 nir_ssa_def *src0 = nir_ssa_for_alu_src(b, alu, 0);
301 nir_ssa_def *src1 = nir_ssa_for_alu_src(b, alu, 1);
302
303 nir_ssa_def *product = nir_fmul(b, src0, src1);
304
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -0700305 nir_ssa_def *sum = nir_fadd(b,
306 nir_channel(b, product, 0),
307 nir_channel(b, product, 1));
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000308
309 /* Replace the fdot2 with this sum */
310 nir_ssa_def_rewrite_uses(&alu->dest.dest.ssa, nir_src_for_ssa(sum));
311}
312
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +0000313static int
Alyssa Rosenzweig2efa0252019-08-01 11:03:15 -0700314midgard_sysval_for_ssbo(nir_intrinsic_instr *instr)
315{
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -0700316 /* This is way too meta */
317 bool is_store = instr->intrinsic == nir_intrinsic_store_ssbo;
318 unsigned idx_idx = is_store ? 1 : 0;
319
320 nir_src index = instr->src[idx_idx];
Alyssa Rosenzweig2efa0252019-08-01 11:03:15 -0700321 assert(nir_src_is_const(index));
322 uint32_t uindex = nir_src_as_uint(index);
323
324 return PAN_SYSVAL(SSBO, uindex);
325}
326
327static int
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +0000328midgard_nir_sysval_for_intrinsic(nir_intrinsic_instr *instr)
329{
330 switch (instr->intrinsic) {
331 case nir_intrinsic_load_viewport_scale:
332 return PAN_SYSVAL_VIEWPORT_SCALE;
333 case nir_intrinsic_load_viewport_offset:
334 return PAN_SYSVAL_VIEWPORT_OFFSET;
Alyssa Rosenzweig15954ab2019-08-06 14:07:10 -0700335 case nir_intrinsic_load_num_work_groups:
336 return PAN_SYSVAL_NUM_WORK_GROUPS;
Alyssa Rosenzweig2efa0252019-08-01 11:03:15 -0700337 case nir_intrinsic_load_ssbo:
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -0700338 case nir_intrinsic_store_ssbo:
Alyssa Rosenzweig2efa0252019-08-01 11:03:15 -0700339 return midgard_sysval_for_ssbo(instr);
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +0000340 default:
341 return -1;
342 }
343}
344
Boris Brezillonbd49c8f2019-06-14 09:59:20 +0200345static int sysval_for_instr(compiler_context *ctx, nir_instr *instr,
346 unsigned *dest)
347{
348 nir_intrinsic_instr *intr;
349 nir_dest *dst = NULL;
Boris Brezillonc3558862019-06-17 22:13:04 +0200350 nir_tex_instr *tex;
Boris Brezillonbd49c8f2019-06-14 09:59:20 +0200351 int sysval = -1;
352
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -0700353 bool is_store = false;
354
Boris Brezillonbd49c8f2019-06-14 09:59:20 +0200355 switch (instr->type) {
356 case nir_instr_type_intrinsic:
357 intr = nir_instr_as_intrinsic(instr);
358 sysval = midgard_nir_sysval_for_intrinsic(intr);
359 dst = &intr->dest;
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -0700360 is_store |= intr->intrinsic == nir_intrinsic_store_ssbo;
Boris Brezillonbd49c8f2019-06-14 09:59:20 +0200361 break;
Boris Brezillonc3558862019-06-17 22:13:04 +0200362 case nir_instr_type_tex:
363 tex = nir_instr_as_tex(instr);
364 if (tex->op != nir_texop_txs)
365 break;
366
367 sysval = PAN_SYSVAL(TEXTURE_SIZE,
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -0700368 PAN_TXS_SYSVAL_ID(tex->texture_index,
369 nir_tex_instr_dest_size(tex) -
370 (tex->is_array ? 1 : 0),
371 tex->is_array));
Boris Brezillonc3558862019-06-17 22:13:04 +0200372 dst = &tex->dest;
373 break;
Boris Brezillonbd49c8f2019-06-14 09:59:20 +0200374 default:
375 break;
376 }
377
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -0700378 if (dest && dst && !is_store)
Boris Brezillonbd49c8f2019-06-14 09:59:20 +0200379 *dest = nir_dest_index(ctx, dst);
380
381 return sysval;
382}
383
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +0000384static void
385midgard_nir_assign_sysval_body(compiler_context *ctx, nir_instr *instr)
386{
Boris Brezillonbd49c8f2019-06-14 09:59:20 +0200387 int sysval;
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +0000388
Boris Brezillonbd49c8f2019-06-14 09:59:20 +0200389 sysval = sysval_for_instr(ctx, instr, NULL);
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +0000390 if (sysval < 0)
391 return;
392
393 /* We have a sysval load; check if it's already been assigned */
394
395 if (_mesa_hash_table_u64_search(ctx->sysval_to_id, sysval))
396 return;
397
398 /* It hasn't -- so assign it now! */
399
400 unsigned id = ctx->sysval_count++;
401 _mesa_hash_table_u64_insert(ctx->sysval_to_id, sysval, (void *) ((uintptr_t) id + 1));
402 ctx->sysvals[id] = sysval;
403}
404
405static void
406midgard_nir_assign_sysvals(compiler_context *ctx, nir_shader *shader)
407{
408 ctx->sysval_count = 0;
409
410 nir_foreach_function(function, shader) {
411 if (!function->impl) continue;
412
413 nir_foreach_block(block, function->impl) {
414 nir_foreach_instr_safe(instr, block) {
415 midgard_nir_assign_sysval_body(ctx, instr);
416 }
417 }
418 }
419}
420
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000421static bool
422midgard_nir_lower_fdot2(nir_shader *shader)
423{
424 bool progress = false;
425
426 nir_foreach_function(function, shader) {
427 if (!function->impl) continue;
428
429 nir_builder _b;
430 nir_builder *b = &_b;
431 nir_builder_init(b, function->impl);
432
433 nir_foreach_block(block, function->impl) {
434 nir_foreach_instr_safe(instr, block) {
435 if (instr->type != nir_instr_type_alu) continue;
436
437 nir_alu_instr *alu = nir_instr_as_alu(instr);
438 midgard_nir_lower_fdot2_body(b, alu);
439
440 progress |= true;
441 }
442 }
443
444 nir_metadata_preserve(function->impl, nir_metadata_block_index | nir_metadata_dominance);
445
446 }
447
448 return progress;
449}
450
Alyssa Rosenzweiga2f1a062019-07-08 12:40:34 -0700451/* Flushes undefined values to zero */
452
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000453static void
454optimise_nir(nir_shader *nir)
455{
456 bool progress;
Ian Romanickd41cdef2018-08-18 16:42:04 -0700457 unsigned lower_flrp =
458 (nir->options->lower_flrp16 ? 16 : 0) |
459 (nir->options->lower_flrp32 ? 32 : 0) |
460 (nir->options->lower_flrp64 ? 64 : 0);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000461
462 NIR_PASS(progress, nir, nir_lower_regs_to_ssa);
463 NIR_PASS(progress, nir, midgard_nir_lower_fdot2);
Alyssa Rosenzweigc51312b2019-06-05 15:12:58 +0000464 NIR_PASS(progress, nir, nir_lower_idiv);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000465
Alyssa Rosenzweig44a6c382019-08-14 08:44:40 -0700466 nir_lower_tex_options lower_tex_options = {
467 .lower_txs_lod = true,
Alyssa Rosenzweig6ae4f9c2019-06-11 09:51:29 -0700468 .lower_txp = ~0
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000469 };
470
Alyssa Rosenzweig44a6c382019-08-14 08:44:40 -0700471 NIR_PASS(progress, nir, nir_lower_tex, &lower_tex_options);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000472
473 do {
474 progress = false;
475
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000476 NIR_PASS(progress, nir, nir_lower_var_copies);
477 NIR_PASS(progress, nir, nir_lower_vars_to_ssa);
478
479 NIR_PASS(progress, nir, nir_copy_prop);
480 NIR_PASS(progress, nir, nir_opt_dce);
481 NIR_PASS(progress, nir, nir_opt_dead_cf);
482 NIR_PASS(progress, nir, nir_opt_cse);
483 NIR_PASS(progress, nir, nir_opt_peephole_select, 64, false, true);
484 NIR_PASS(progress, nir, nir_opt_algebraic);
485 NIR_PASS(progress, nir, nir_opt_constant_folding);
Ian Romanickd41cdef2018-08-18 16:42:04 -0700486
487 if (lower_flrp != 0) {
Ian Romanick1f1007a2019-05-08 07:32:43 -0700488 bool lower_flrp_progress = false;
Ian Romanickd41cdef2018-08-18 16:42:04 -0700489 NIR_PASS(lower_flrp_progress,
490 nir,
491 nir_lower_flrp,
492 lower_flrp,
493 false /* always_precise */,
494 nir->options->lower_ffma);
495 if (lower_flrp_progress) {
496 NIR_PASS(progress, nir,
497 nir_opt_constant_folding);
498 progress = true;
499 }
500
501 /* Nothing should rematerialize any flrps, so we only
502 * need to do this lowering once.
503 */
504 lower_flrp = 0;
505 }
506
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000507 NIR_PASS(progress, nir, nir_opt_undef);
Alyssa Rosenzweiga2f1a062019-07-08 12:40:34 -0700508 NIR_PASS(progress, nir, nir_undef_to_zero);
509
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000510 NIR_PASS(progress, nir, nir_opt_loop_unroll,
511 nir_var_shader_in |
512 nir_var_shader_out |
513 nir_var_function_temp);
514
Alyssa Rosenzweig94029702019-06-17 11:12:51 -0700515 NIR_PASS(progress, nir, nir_opt_vectorize);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000516 } while (progress);
517
518 /* Must be run at the end to prevent creation of fsin/fcos ops */
519 NIR_PASS(progress, nir, midgard_nir_scale_trig);
520
521 do {
522 progress = false;
523
524 NIR_PASS(progress, nir, nir_opt_dce);
525 NIR_PASS(progress, nir, nir_opt_algebraic);
526 NIR_PASS(progress, nir, nir_opt_constant_folding);
527 NIR_PASS(progress, nir, nir_copy_prop);
528 } while (progress);
529
530 NIR_PASS(progress, nir, nir_opt_algebraic_late);
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000531
532 /* We implement booleans as 32-bit 0/~0 */
533 NIR_PASS(progress, nir, nir_lower_bool_to_int32);
534
535 /* Now that booleans are lowered, we can run out late opts */
Alyssa Rosenzweigeffe6fb02019-03-25 02:49:04 +0000536 NIR_PASS(progress, nir, midgard_nir_lower_algebraic_late);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000537
Alyssa Rosenzweigeffe6fb02019-03-25 02:49:04 +0000538 /* Lower mods for float ops only. Integer ops don't support modifiers
539 * (saturate doesn't make sense on integers, neg/abs require dedicated
540 * instructions) */
541
542 NIR_PASS(progress, nir, nir_lower_to_source_mods, nir_lower_float_source_mods);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000543 NIR_PASS(progress, nir, nir_copy_prop);
544 NIR_PASS(progress, nir, nir_opt_dce);
545
546 /* Take us out of SSA */
547 NIR_PASS(progress, nir, nir_lower_locals_to_regs);
548 NIR_PASS(progress, nir, nir_convert_from_ssa, true);
549
550 /* We are a vector architecture; write combine where possible */
551 NIR_PASS(progress, nir, nir_move_vec_src_uses_to_dest);
552 NIR_PASS(progress, nir, nir_lower_vec_to_movs);
553
554 NIR_PASS(progress, nir, nir_opt_dce);
555}
556
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000557/* Do not actually emit a load; instead, cache the constant for inlining */
558
559static void
560emit_load_const(compiler_context *ctx, nir_load_const_instr *instr)
561{
562 nir_ssa_def def = instr->def;
563
Tomeu Vizoso554975b2019-05-07 17:28:36 +0200564 float *v = rzalloc_array(NULL, float, 4);
Karol Herbst14531d62019-03-27 00:59:03 +0100565 nir_const_load_to_arr(v, instr, f32);
Alyssa Rosenzweig9beb3392019-07-26 11:30:06 -0700566
567 /* Shifted for SSA, +1 for off-by-one */
568 _mesa_hash_table_u64_insert(ctx->ssa_constants, (def.index << 1) + 1, v);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000569}
570
Alyssa Rosenzweige1693012019-07-24 12:52:27 -0700571/* Normally constants are embedded implicitly, but for I/O and such we have to
572 * explicitly emit a move with the constant source */
573
574static void
575emit_explicit_constant(compiler_context *ctx, unsigned node, unsigned to)
576{
577 void *constant_value = _mesa_hash_table_u64_search(ctx->ssa_constants, node + 1);
578
579 if (constant_value) {
580 midgard_instruction ins = v_mov(SSA_FIXED_REGISTER(REGISTER_CONSTANT), blank_alu_src, to);
581 attach_constants(ctx, &ins, constant_value, node + 1);
582 emit_mir_instruction(ctx, ins);
583 }
584}
585
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000586static bool
587nir_is_non_scalar_swizzle(nir_alu_src *src, unsigned nr_components)
588{
589 unsigned comp = src->swizzle[0];
590
591 for (unsigned c = 1; c < nr_components; ++c) {
592 if (src->swizzle[c] != comp)
593 return true;
594 }
595
596 return false;
597}
598
599/* Midgard puts scalar conditionals in r31.w; move an arbitrary source (the
600 * output of a conditional test) into that register */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000601
602static void
Alyssa Rosenzweig8b15f8a2019-04-21 00:09:13 +0000603emit_condition(compiler_context *ctx, nir_src *src, bool for_branch, unsigned component)
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000604{
Alyssa Rosenzweig4ed23b12019-02-07 04:56:13 +0000605 int condition = nir_src_index(ctx, src);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000606
Alyssa Rosenzweig8b15f8a2019-04-21 00:09:13 +0000607 /* Source to swizzle the desired component into w */
608
609 const midgard_vector_alu_src alu_src = {
610 .swizzle = SWIZZLE(component, component, component, component),
611 };
612
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000613 /* There is no boolean move instruction. Instead, we simulate a move by
614 * ANDing the condition with itself to get it into r31.w */
615
616 midgard_instruction ins = {
617 .type = TAG_ALU_4,
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000618
619 /* We need to set the conditional as close as possible */
620 .precede_break = true,
621 .unit = for_branch ? UNIT_SMUL : UNIT_SADD,
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -0700622 .mask = 1 << COMPONENT_W,
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000623
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000624 .ssa_args = {
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -0700625 .src = { condition, condition, -1 },
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000626 .dest = SSA_FIXED_REGISTER(31),
627 },
Alyssa Rosenzweig67804812019-06-05 15:17:45 -0700628
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000629 .alu = {
630 .op = midgard_alu_op_iand,
Alyssa Rosenzweig67804812019-06-05 15:17:45 -0700631 .outmod = midgard_outmod_int_wrap,
Alyssa Rosenzweig576a27f2019-04-30 02:19:26 +0000632 .reg_mode = midgard_reg_mode_32,
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000633 .dest_override = midgard_dest_override_none,
Alyssa Rosenzweig8b15f8a2019-04-21 00:09:13 +0000634 .src1 = vector_alu_srco_unsigned(alu_src),
635 .src2 = vector_alu_srco_unsigned(alu_src)
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000636 },
637 };
638
639 emit_mir_instruction(ctx, ins);
640}
641
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000642/* Or, for mixed conditions (with csel_v), here's a vector version using all of
643 * r31 instead */
644
645static void
646emit_condition_mixed(compiler_context *ctx, nir_alu_src *src, unsigned nr_comp)
647{
648 int condition = nir_src_index(ctx, &src->src);
649
650 /* Source to swizzle the desired component into w */
651
652 const midgard_vector_alu_src alu_src = {
653 .swizzle = SWIZZLE_FROM_ARRAY(src->swizzle),
654 };
655
656 /* There is no boolean move instruction. Instead, we simulate a move by
657 * ANDing the condition with itself to get it into r31.w */
658
659 midgard_instruction ins = {
660 .type = TAG_ALU_4,
661 .precede_break = true,
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -0700662 .mask = mask_of(nr_comp),
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000663 .ssa_args = {
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -0700664 .src = { condition, condition, -1 },
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000665 .dest = SSA_FIXED_REGISTER(31),
666 },
667 .alu = {
668 .op = midgard_alu_op_iand,
Alyssa Rosenzweig67804812019-06-05 15:17:45 -0700669 .outmod = midgard_outmod_int_wrap,
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000670 .reg_mode = midgard_reg_mode_32,
671 .dest_override = midgard_dest_override_none,
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000672 .src1 = vector_alu_srco_unsigned(alu_src),
673 .src2 = vector_alu_srco_unsigned(alu_src)
674 },
675 };
676
677 emit_mir_instruction(ctx, ins);
678}
679
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000680#define ALU_CASE(nir, _op) \
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000681 case nir_op_##nir: \
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000682 op = midgard_alu_op_##_op; \
Alyssa Rosenzweig0ed8cca2019-07-01 17:35:25 -0700683 assert(src_bitsize == dst_bitsize); \
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000684 break;
Alyssa Rosenzweig195e2972019-06-19 07:23:27 -0700685
686#define ALU_CASE_BCAST(nir, _op, count) \
687 case nir_op_##nir: \
688 op = midgard_alu_op_##_op; \
689 broadcast_swizzle = count; \
Alyssa Rosenzweig0ed8cca2019-07-01 17:35:25 -0700690 assert(src_bitsize == dst_bitsize); \
Alyssa Rosenzweig195e2972019-06-19 07:23:27 -0700691 break;
Alyssa Rosenzweig7bc91b42019-04-24 23:42:30 +0000692static bool
693nir_is_fzero_constant(nir_src src)
694{
695 if (!nir_src_is_const(src))
696 return false;
697
698 for (unsigned c = 0; c < nir_src_num_components(src); ++c) {
699 if (nir_src_comp_as_float(src, c) != 0.0)
700 return false;
701 }
702
703 return true;
704}
705
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700706/* Analyze the sizes of the inputs to determine which reg mode. Ops needed
707 * special treatment override this anyway. */
Alyssa Rosenzweig4df80ca2019-07-01 15:26:22 -0700708
709static midgard_reg_mode
710reg_mode_for_nir(nir_alu_instr *instr)
711{
712 unsigned src_bitsize = nir_src_bit_size(instr->src[0].src);
713
714 switch (src_bitsize) {
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -0700715 case 8:
716 return midgard_reg_mode_8;
717 case 16:
718 return midgard_reg_mode_16;
719 case 32:
720 return midgard_reg_mode_32;
721 case 64:
722 return midgard_reg_mode_64;
723 default:
724 unreachable("Invalid bit size");
Alyssa Rosenzweig4df80ca2019-07-01 15:26:22 -0700725 }
726}
727
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000728static void
729emit_alu(compiler_context *ctx, nir_alu_instr *instr)
730{
Alyssa Rosenzweig8f887322019-07-29 15:11:12 -0700731 /* Derivatives end up emitted on the texture pipe, not the ALUs. This
732 * is handled elsewhere */
733
734 if (instr->op == nir_op_fddx || instr->op == nir_op_fddy) {
735 midgard_emit_derivatives(ctx, instr);
736 return;
737 }
738
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000739 bool is_ssa = instr->dest.dest.is_ssa;
740
Alyssa Rosenzweig4ed23b12019-02-07 04:56:13 +0000741 unsigned dest = nir_dest_index(ctx, &instr->dest.dest);
Alyssa Rosenzweigf42e5be2019-07-01 15:28:37 -0700742 unsigned nr_components = nir_dest_num_components(instr->dest.dest);
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000743 unsigned nr_inputs = nir_op_infos[instr->op].num_inputs;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000744
745 /* Most Midgard ALU ops have a 1:1 correspondance to NIR ops; these are
746 * supported. A few do not and are commented for now. Also, there are a
747 * number of NIR ops which Midgard does not support and need to be
748 * lowered, also TODO. This switch block emits the opcode and calling
749 * convention of the Midgard instruction; actual packing is done in
750 * emit_alu below */
751
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000752 unsigned op;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000753
Alyssa Rosenzweig195e2972019-06-19 07:23:27 -0700754 /* Number of components valid to check for the instruction (the rest
755 * will be forced to the last), or 0 to use as-is. Relevant as
756 * ball-type instructions have a channel count in NIR but are all vec4
757 * in Midgard */
758
759 unsigned broadcast_swizzle = 0;
760
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700761 /* What register mode should we operate in? */
762 midgard_reg_mode reg_mode =
763 reg_mode_for_nir(instr);
764
Alyssa Rosenzweig4df80ca2019-07-01 15:26:22 -0700765 /* Do we need a destination override? Used for inline
766 * type conversion */
767
768 midgard_dest_override dest_override =
769 midgard_dest_override_none;
770
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700771 /* Should we use a smaller respective source and sign-extend? */
772
773 bool half_1 = false, sext_1 = false;
774 bool half_2 = false, sext_2 = false;
775
Alyssa Rosenzweig0ed8cca2019-07-01 17:35:25 -0700776 unsigned src_bitsize = nir_src_bit_size(instr->src[0].src);
777 unsigned dst_bitsize = nir_dest_bit_size(instr->dest.dest);
778
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000779 switch (instr->op) {
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000780 ALU_CASE(fadd, fadd);
781 ALU_CASE(fmul, fmul);
782 ALU_CASE(fmin, fmin);
783 ALU_CASE(fmax, fmax);
784 ALU_CASE(imin, imin);
785 ALU_CASE(imax, imax);
Alyssa Rosenzweig2e7555b2019-04-05 05:16:54 +0000786 ALU_CASE(umin, umin);
787 ALU_CASE(umax, umax);
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000788 ALU_CASE(ffloor, ffloor);
Alyssa Rosenzweigc6be9962019-02-23 01:12:10 +0000789 ALU_CASE(fround_even, froundeven);
790 ALU_CASE(ftrunc, ftrunc);
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000791 ALU_CASE(fceil, fceil);
792 ALU_CASE(fdot3, fdot3);
793 ALU_CASE(fdot4, fdot4);
794 ALU_CASE(iadd, iadd);
795 ALU_CASE(isub, isub);
796 ALU_CASE(imul, imul);
Alyssa Rosenzweig9f14e202019-06-05 15:18:35 +0000797
798 /* Zero shoved as second-arg */
799 ALU_CASE(iabs, iabsdiff);
800
Jason Ekstrandf2dc0f22019-05-06 11:45:46 -0500801 ALU_CASE(mov, imov);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000802
Alyssa Rosenzweig3fb88422019-03-25 00:25:01 +0000803 ALU_CASE(feq32, feq);
804 ALU_CASE(fne32, fne);
805 ALU_CASE(flt32, flt);
806 ALU_CASE(ieq32, ieq);
807 ALU_CASE(ine32, ine);
808 ALU_CASE(ilt32, ilt);
Alyssa Rosenzweigb8739c22019-03-26 04:00:33 +0000809 ALU_CASE(ult32, ult);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000810
Alyssa Rosenzweig3208c9d2019-03-25 01:13:12 +0000811 /* We don't have a native b2f32 instruction. Instead, like many
812 * GPUs, we exploit booleans as 0/~0 for false/true, and
813 * correspondingly AND
814 * by 1.0 to do the type conversion. For the moment, prime us
815 * to emit:
816 *
817 * iand [whatever], #0
818 *
819 * At the end of emit_alu (as MIR), we'll fix-up the constant
820 */
821
822 ALU_CASE(b2f32, iand);
823 ALU_CASE(b2i32, iand);
824
Alyssa Rosenzweigae43b8f2019-03-25 00:53:46 +0000825 /* Likewise, we don't have a dedicated f2b32 instruction, but
Alyssa Rosenzweig3208c9d2019-03-25 01:13:12 +0000826 * we can do a "not equal to 0.0" test. */
Alyssa Rosenzweigae43b8f2019-03-25 00:53:46 +0000827
828 ALU_CASE(f2b32, fne);
Alyssa Rosenzweig5b95fef2019-03-25 00:56:48 +0000829 ALU_CASE(i2b32, ine);
Alyssa Rosenzweigae43b8f2019-03-25 00:53:46 +0000830
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000831 ALU_CASE(frcp, frcp);
832 ALU_CASE(frsq, frsqrt);
833 ALU_CASE(fsqrt, fsqrt);
834 ALU_CASE(fexp2, fexp2);
835 ALU_CASE(flog2, flog2);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000836
Alyssa Rosenzweig73bf6692019-06-05 15:03:02 -0700837 ALU_CASE(f2i32, f2i_rtz);
838 ALU_CASE(f2u32, f2u_rtz);
839 ALU_CASE(i2f32, i2f_rtz);
840 ALU_CASE(u2f32, u2f_rtz);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000841
Alyssa Rosenzweigd8c084d2019-07-01 17:41:20 -0700842 ALU_CASE(f2i16, f2i_rtz);
843 ALU_CASE(f2u16, f2u_rtz);
844 ALU_CASE(i2f16, i2f_rtz);
845 ALU_CASE(u2f16, u2f_rtz);
846
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000847 ALU_CASE(fsin, fsin);
848 ALU_CASE(fcos, fcos);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000849
Alyssa Rosenzweig159abd52019-07-26 11:15:31 -0700850 /* We'll set invert */
851 ALU_CASE(inot, imov);
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000852 ALU_CASE(iand, iand);
853 ALU_CASE(ior, ior);
854 ALU_CASE(ixor, ixor);
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000855 ALU_CASE(ishl, ishl);
856 ALU_CASE(ishr, iasr);
857 ALU_CASE(ushr, ilsr);
858
Alyssa Rosenzweig195e2972019-06-19 07:23:27 -0700859 ALU_CASE_BCAST(b32all_fequal2, fball_eq, 2);
860 ALU_CASE_BCAST(b32all_fequal3, fball_eq, 3);
Alyssa Rosenzweig3fb88422019-03-25 00:25:01 +0000861 ALU_CASE(b32all_fequal4, fball_eq);
Alyssa Rosenzweig53664102019-03-25 00:12:06 +0000862
Alyssa Rosenzweig195e2972019-06-19 07:23:27 -0700863 ALU_CASE_BCAST(b32any_fnequal2, fbany_neq, 2);
864 ALU_CASE_BCAST(b32any_fnequal3, fbany_neq, 3);
Alyssa Rosenzweig3fb88422019-03-25 00:25:01 +0000865 ALU_CASE(b32any_fnequal4, fbany_neq);
Alyssa Rosenzweig53664102019-03-25 00:12:06 +0000866
Alyssa Rosenzweig195e2972019-06-19 07:23:27 -0700867 ALU_CASE_BCAST(b32all_iequal2, iball_eq, 2);
868 ALU_CASE_BCAST(b32all_iequal3, iball_eq, 3);
Alyssa Rosenzweig3fb88422019-03-25 00:25:01 +0000869 ALU_CASE(b32all_iequal4, iball_eq);
Alyssa Rosenzweig53664102019-03-25 00:12:06 +0000870
Alyssa Rosenzweig195e2972019-06-19 07:23:27 -0700871 ALU_CASE_BCAST(b32any_inequal2, ibany_neq, 2);
872 ALU_CASE_BCAST(b32any_inequal3, ibany_neq, 3);
Alyssa Rosenzweig3fb88422019-03-25 00:25:01 +0000873 ALU_CASE(b32any_inequal4, ibany_neq);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000874
Alyssa Rosenzweig659aa3d2019-05-26 03:16:37 +0000875 /* Source mods will be shoved in later */
876 ALU_CASE(fabs, fmov);
877 ALU_CASE(fneg, fmov);
878 ALU_CASE(fsat, fmov);
879
Alyssa Rosenzweig4df80ca2019-07-01 15:26:22 -0700880 /* For size conversion, we use a move. Ideally though we would squash
881 * these ops together; maybe that has to happen after in NIR as part of
882 * propagation...? An earlier algebraic pass ensured we step down by
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700883 * only / exactly one size. If stepping down, we use a dest override to
884 * reduce the size; if stepping up, we use a larger-sized move with a
885 * half source and a sign/zero-extension modifier */
Alyssa Rosenzweig4df80ca2019-07-01 15:26:22 -0700886
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700887 case nir_op_i2i8:
888 case nir_op_i2i16:
889 case nir_op_i2i32:
890 /* If we end up upscale, we'll need a sign-extend on the
891 * operand (the second argument) */
892
893 sext_2 = true;
Alyssa Rosenzweig4df80ca2019-07-01 15:26:22 -0700894 case nir_op_u2u8:
895 case nir_op_u2u16:
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700896 case nir_op_u2u32: {
Alyssa Rosenzweig4df80ca2019-07-01 15:26:22 -0700897 op = midgard_alu_op_imov;
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700898
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -0700899 if (dst_bitsize == (src_bitsize * 2)) {
900 /* Converting up */
901 half_2 = true;
902
903 /* Use a greater register mode */
904 reg_mode++;
905 } else if (src_bitsize == (dst_bitsize * 2)) {
906 /* Converting down */
907 dest_override = midgard_dest_override_lower;
908 }
909
Alyssa Rosenzweig4df80ca2019-07-01 15:26:22 -0700910 break;
911 }
912
Alyssa Rosenzweig954c6af2019-07-01 17:38:26 -0700913 case nir_op_f2f16: {
914 assert(src_bitsize == 32);
915
916 op = midgard_alu_op_fmov;
917 dest_override = midgard_dest_override_lower;
918 break;
919 }
920
921 case nir_op_f2f32: {
922 assert(src_bitsize == 16);
923
924 op = midgard_alu_op_fmov;
925 half_2 = true;
926 reg_mode++;
927 break;
928 }
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -0700929
Alyssa Rosenzweig954c6af2019-07-01 17:38:26 -0700930
Alyssa Rosenzweig7b78af82019-03-26 04:01:33 +0000931 /* For greater-or-equal, we lower to less-or-equal and flip the
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000932 * arguments */
933
Alyssa Rosenzweig7b78af82019-03-26 04:01:33 +0000934 case nir_op_fge:
935 case nir_op_fge32:
936 case nir_op_ige32:
937 case nir_op_uge32: {
938 op =
939 instr->op == nir_op_fge ? midgard_alu_op_fle :
940 instr->op == nir_op_fge32 ? midgard_alu_op_fle :
941 instr->op == nir_op_ige32 ? midgard_alu_op_ile :
942 instr->op == nir_op_uge32 ? midgard_alu_op_ule :
943 0;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000944
945 /* Swap via temporary */
946 nir_alu_src temp = instr->src[1];
947 instr->src[1] = instr->src[0];
948 instr->src[0] = temp;
949
950 break;
951 }
952
Alyssa Rosenzweig3fb88422019-03-25 00:25:01 +0000953 case nir_op_b32csel: {
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000954 /* Midgard features both fcsel and icsel, depending on
955 * the type of the arguments/output. However, as long
956 * as we're careful we can _always_ use icsel and
957 * _never_ need fcsel, since the latter does additional
958 * floating-point-specific processing whereas the
959 * former just moves bits on the wire. It's not obvious
960 * why these are separate opcodes, save for the ability
961 * to do things like sat/pos/abs/neg for free */
Alyssa Rosenzweig3d7874c2019-05-03 01:54:16 +0000962
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000963 bool mixed = nir_is_non_scalar_swizzle(&instr->src[0], nr_components);
964 op = mixed ? midgard_alu_op_icsel_v : midgard_alu_op_icsel;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000965
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000966 /* csel works as a two-arg in Midgard, since the condition is hardcoded in r31.w */
967 nr_inputs = 2;
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +0000968
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000969 /* Emit the condition into r31 */
Alyssa Rosenzweig8b15f8a2019-04-21 00:09:13 +0000970
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000971 if (mixed)
972 emit_condition_mixed(ctx, &instr->src[0], nr_components);
973 else
974 emit_condition(ctx, &instr->src[0].src, false, instr->src[0].swizzle[0]);
Alyssa Rosenzweig8b15f8a2019-04-21 00:09:13 +0000975
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000976 /* The condition is the first argument; move the other
977 * arguments up one to be a binary instruction for
978 * Midgard */
Alyssa Rosenzweig8b15f8a2019-04-21 00:09:13 +0000979
Alyssa Rosenzweig726f0262019-05-07 02:52:08 +0000980 memmove(instr->src, instr->src + 1, 2 * sizeof(nir_alu_src));
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000981 break;
982 }
983
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000984 default:
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +0100985 DBG("Unhandled ALU op %s\n", nir_op_infos[instr->op].name);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +0000986 assert(0);
987 return;
988 }
989
Alyssa Rosenzweig0a13bab2019-05-15 01:16:51 +0000990 /* Midgard can perform certain modifiers on output of an ALU op */
Alyssa Rosenzweig67804812019-06-05 15:17:45 -0700991 unsigned outmod;
Alyssa Rosenzweig7bc91b42019-04-24 23:42:30 +0000992
Alyssa Rosenzweig67804812019-06-05 15:17:45 -0700993 if (midgard_is_integer_out_op(op)) {
994 outmod = midgard_outmod_int_wrap;
995 } else {
996 bool sat = instr->dest.saturate || instr->op == nir_op_fsat;
997 outmod = sat ? midgard_outmod_sat : midgard_outmod_none;
998 }
Alyssa Rosenzweig659aa3d2019-05-26 03:16:37 +0000999
Alyssa Rosenzweig7bc91b42019-04-24 23:42:30 +00001000 /* fmax(a, 0.0) can turn into a .pos modifier as an optimization */
1001
1002 if (instr->op == nir_op_fmax) {
1003 if (nir_is_fzero_constant(instr->src[0].src)) {
1004 op = midgard_alu_op_fmov;
1005 nr_inputs = 1;
1006 outmod = midgard_outmod_pos;
1007 instr->src[0] = instr->src[1];
1008 } else if (nir_is_fzero_constant(instr->src[1].src)) {
1009 op = midgard_alu_op_fmov;
1010 nr_inputs = 1;
1011 outmod = midgard_outmod_pos;
1012 }
1013 }
1014
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +00001015 /* Fetch unit, quirks, etc information */
Alyssa Rosenzweig1f345bc2019-04-24 01:15:15 +00001016 unsigned opcode_props = alu_opcode_props[op].props;
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +00001017 bool quirk_flipped_r24 = opcode_props & QUIRK_FLIPPED_R24;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001018
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001019 /* src0 will always exist afaik, but src1 will not for 1-argument
1020 * instructions. The latter can only be fetched if the instruction
1021 * needs it, or else we may segfault. */
1022
Alyssa Rosenzweig4ed23b12019-02-07 04:56:13 +00001023 unsigned src0 = nir_alu_src_index(ctx, &instr->src[0]);
1024 unsigned src1 = nr_inputs == 2 ? nir_alu_src_index(ctx, &instr->src[1]) : SSA_UNUSED_0;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001025
1026 /* Rather than use the instruction generation helpers, we do it
1027 * ourselves here to avoid the mess */
1028
1029 midgard_instruction ins = {
1030 .type = TAG_ALU_4,
1031 .ssa_args = {
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001032 .src = {
1033 quirk_flipped_r24 ? SSA_UNUSED_1 : src0,
1034 quirk_flipped_r24 ? src0 : src1,
1035 -1
1036 },
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001037 .dest = dest,
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001038 }
1039 };
1040
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +00001041 nir_alu_src *nirmods[2] = { NULL };
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001042
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +00001043 if (nr_inputs == 2) {
1044 nirmods[0] = &instr->src[0];
1045 nirmods[1] = &instr->src[1];
1046 } else if (nr_inputs == 1) {
1047 nirmods[quirk_flipped_r24] = &instr->src[0];
1048 } else {
1049 assert(0);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001050 }
1051
Alyssa Rosenzweig659aa3d2019-05-26 03:16:37 +00001052 /* These were lowered to a move, so apply the corresponding mod */
1053
1054 if (instr->op == nir_op_fneg || instr->op == nir_op_fabs) {
1055 nir_alu_src *s = nirmods[quirk_flipped_r24];
1056
1057 if (instr->op == nir_op_fneg)
1058 s->negate = !s->negate;
1059
1060 if (instr->op == nir_op_fabs)
1061 s->abs = !s->abs;
1062 }
1063
Alyssa Rosenzweigfcdfb672019-04-22 03:25:42 +00001064 bool is_int = midgard_is_integer_op(op);
1065
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07001066 ins.mask = mask_of(nr_components);
1067
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001068 midgard_vector_alu alu = {
1069 .op = op,
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -07001070 .reg_mode = reg_mode,
Alyssa Rosenzweig4df80ca2019-07-01 15:26:22 -07001071 .dest_override = dest_override,
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001072 .outmod = outmod,
1073
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -07001074 .src1 = vector_alu_srco_unsigned(vector_alu_modifiers(nirmods[0], is_int, broadcast_swizzle, half_1, sext_1)),
1075 .src2 = vector_alu_srco_unsigned(vector_alu_modifiers(nirmods[1], is_int, broadcast_swizzle, half_2, sext_2)),
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001076 };
1077
1078 /* Apply writemask if non-SSA, keeping in mind that we can't write to components that don't exist */
1079
1080 if (!is_ssa)
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07001081 ins.mask &= instr->dest.write_mask;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001082
1083 ins.alu = alu;
1084
1085 /* Late fixup for emulated instructions */
1086
Alyssa Rosenzweig3208c9d2019-03-25 01:13:12 +00001087 if (instr->op == nir_op_b2f32 || instr->op == nir_op_b2i32) {
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001088 /* Presently, our second argument is an inline #0 constant.
1089 * Switch over to an embedded 1.0 constant (that can't fit
1090 * inline, since we're 32-bit, not 16-bit like the inline
1091 * constants) */
1092
1093 ins.ssa_args.inline_constant = false;
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001094 ins.ssa_args.src[1] = SSA_FIXED_REGISTER(REGISTER_CONSTANT);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001095 ins.has_constants = true;
Alyssa Rosenzweig9da46032019-03-24 16:07:31 +00001096
Alyssa Rosenzweig3208c9d2019-03-25 01:13:12 +00001097 if (instr->op == nir_op_b2f32) {
1098 ins.constants[0] = 1.0f;
1099 } else {
1100 /* Type pun it into place */
1101 uint32_t one = 0x1;
1102 memcpy(&ins.constants[0], &one, sizeof(uint32_t));
1103 }
1104
1105 ins.alu.src2 = vector_alu_srco_unsigned(blank_alu_src_xxxx);
Alyssa Rosenzweig88c59792019-06-05 15:24:51 +00001106 } else if (nr_inputs == 1 && !quirk_flipped_r24) {
1107 /* Lots of instructions need a 0 plonked in */
Alyssa Rosenzweig3208c9d2019-03-25 01:13:12 +00001108 ins.ssa_args.inline_constant = false;
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001109 ins.ssa_args.src[1] = SSA_FIXED_REGISTER(REGISTER_CONSTANT);
Alyssa Rosenzweig3208c9d2019-03-25 01:13:12 +00001110 ins.has_constants = true;
1111 ins.constants[0] = 0.0f;
Alyssa Rosenzweig9da46032019-03-24 16:07:31 +00001112 ins.alu.src2 = vector_alu_srco_unsigned(blank_alu_src_xxxx);
Alyssa Rosenzweigbcabcfe2019-04-25 04:25:33 +00001113 } else if (instr->op == nir_op_inot) {
Alyssa Rosenzweig159abd52019-07-26 11:15:31 -07001114 ins.invert = true;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001115 }
1116
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +00001117 if ((opcode_props & UNITS_ALL) == UNIT_VLUT) {
1118 /* To avoid duplicating the lookup tables (probably), true LUT
1119 * instructions can only operate as if they were scalars. Lower
1120 * them here by changing the component. */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001121
1122 uint8_t original_swizzle[4];
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +00001123 memcpy(original_swizzle, nirmods[0]->swizzle, sizeof(nirmods[0]->swizzle));
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07001124 unsigned orig_mask = ins.mask;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001125
1126 for (int i = 0; i < nr_components; ++i) {
Alyssa Rosenzweig2c9e1242019-06-17 11:49:44 -07001127 /* Mask the associated component, dropping the
1128 * instruction if needed */
1129
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07001130 ins.mask = 1 << i;
1131 ins.mask &= orig_mask;
Alyssa Rosenzweig2c9e1242019-06-17 11:49:44 -07001132
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07001133 if (!ins.mask)
Alyssa Rosenzweig2c9e1242019-06-17 11:49:44 -07001134 continue;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001135
1136 for (int j = 0; j < 4; ++j)
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +00001137 nirmods[0]->swizzle[j] = original_swizzle[i]; /* Pull from the correct component */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001138
Alyssa Rosenzweig7f807ef2019-07-01 16:44:00 -07001139 ins.alu.src1 = vector_alu_srco_unsigned(vector_alu_modifiers(nirmods[0], is_int, broadcast_swizzle, half_1, false));
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001140 emit_mir_instruction(ctx, ins);
1141 }
1142 } else {
1143 emit_mir_instruction(ctx, ins);
1144 }
1145}
1146
Alyssa Rosenzweig97dcad82019-02-07 03:39:25 +00001147#undef ALU_CASE
1148
Alyssa Rosenzweig65e6cb42019-08-13 09:11:48 -07001149static unsigned
1150mir_mask_for_intr(nir_instr *instr, bool is_read)
1151{
1152 nir_intrinsic_instr *intr = nir_instr_as_intrinsic(instr);
1153
1154 if (is_read)
1155 return mask_of(nir_intrinsic_dest_components(intr));
1156 else
1157 return nir_intrinsic_write_mask(intr);
1158}
1159
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001160/* Uniforms and UBOs use a shared code path, as uniforms are just (slightly
1161 * optimized) versions of UBO #0 */
1162
Alyssa Rosenzweige7ac46b2019-08-02 17:09:54 -07001163midgard_instruction *
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001164emit_ubo_read(
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001165 compiler_context *ctx,
Alyssa Rosenzweig65e6cb42019-08-13 09:11:48 -07001166 nir_instr *instr,
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001167 unsigned dest,
1168 unsigned offset,
1169 nir_src *indirect_offset,
1170 unsigned index)
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001171{
1172 /* TODO: half-floats */
1173
Alyssa Rosenzweigec2f0b52019-08-13 08:51:40 -07001174 midgard_instruction ins = m_ld_ubo_int4(dest, offset);
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001175
Alyssa Rosenzweigcf3bb102019-08-13 09:13:31 -07001176 assert((offset & 0xF) == 0);
1177 offset /= 16;
1178
Alyssa Rosenzweig3174bc92019-07-16 14:10:08 -07001179 /* TODO: Don't split */
1180 ins.load_store.varying_parameters = (offset & 7) << 7;
1181 ins.load_store.address = offset >> 3;
Alyssa Rosenzweig65e6cb42019-08-13 09:11:48 -07001182 ins.mask = mir_mask_for_intr(instr, true);
Alyssa Rosenzweig3174bc92019-07-16 14:10:08 -07001183
1184 if (indirect_offset) {
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001185 ins.ssa_args.src[1] = nir_src_index(ctx, indirect_offset);
Alyssa Rosenzweig513d02c2019-08-01 14:28:34 -07001186 ins.load_store.arg_2 = 0x80;
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001187 } else {
Alyssa Rosenzweigc9087722019-08-01 13:29:01 -07001188 ins.load_store.arg_2 = 0x1E;
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001189 }
Alyssa Rosenzweig3174bc92019-07-16 14:10:08 -07001190
Alyssa Rosenzweigc9087722019-08-01 13:29:01 -07001191 ins.load_store.arg_1 = index;
1192
Alyssa Rosenzweige7ac46b2019-08-02 17:09:54 -07001193 return emit_mir_instruction(ctx, ins);
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001194}
1195
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -07001196/* SSBO reads are like UBO reads if you squint */
1197
1198static void
1199emit_ssbo_access(
1200 compiler_context *ctx,
1201 nir_instr *instr,
1202 bool is_read,
1203 unsigned srcdest,
1204 unsigned offset,
1205 nir_src *indirect_offset,
1206 unsigned index)
1207{
1208 /* TODO: types */
1209
1210 midgard_instruction ins;
1211
1212 if (is_read)
1213 ins = m_ld_int4(srcdest, offset);
1214 else
1215 ins = m_st_int4(srcdest, offset);
1216
1217 /* SSBO reads use a generic memory read interface, so we need the
1218 * address of the SSBO as the first argument. This is a sysval. */
1219
1220 unsigned addr = make_compiler_temp(ctx);
1221 emit_sysval_read(ctx, instr, addr, 2);
1222
1223 /* The source array is a bit of a leaky abstraction for SSBOs.
1224 * Nevertheless, for loads:
1225 *
1226 * src[0] = arg_1
1227 * src[1] = arg_2
1228 * src[2] = unused
1229 *
1230 * Whereas for stores:
1231 *
1232 * src[0] = value
1233 * src[1] = arg_1
1234 * src[2] = arg_2
1235 *
1236 * We would like arg_1 = the address and
1237 * arg_2 = the offset.
1238 */
1239
1240 ins.ssa_args.src[is_read ? 0 : 1] = addr;
1241
1242 /* TODO: What is this? It looks superficially like a shift << 5, but
1243 * arg_1 doesn't take a shift Should it be E0 or A0? */
1244 if (indirect_offset)
1245 ins.load_store.arg_1 |= 0xE0;
1246
1247 /* We also need to emit the indirect offset */
1248
1249 if (indirect_offset)
1250 ins.ssa_args.src[is_read ? 1 : 2] = nir_src_index(ctx, indirect_offset);
1251 else
1252 ins.load_store.arg_2 = 0x7E;
1253
1254 /* TODO: Bounds check */
1255
1256 /* Finally, we emit the direct offset */
1257
1258 ins.load_store.varying_parameters = (offset & 0x1FF) << 1;
1259 ins.load_store.address = (offset >> 9);
Alyssa Rosenzweig65e6cb42019-08-13 09:11:48 -07001260 ins.mask = mir_mask_for_intr(instr, is_read);
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -07001261
1262 emit_mir_instruction(ctx, ins);
1263}
1264
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001265static void
Alyssa Rosenzweig15fae1e2019-06-04 23:26:09 +00001266emit_varying_read(
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001267 compiler_context *ctx,
1268 unsigned dest, unsigned offset,
1269 unsigned nr_comp, unsigned component,
1270 nir_src *indirect_offset, nir_alu_type type)
Alyssa Rosenzweig15fae1e2019-06-04 23:26:09 +00001271{
1272 /* XXX: Half-floats? */
1273 /* TODO: swizzle, mask */
1274
1275 midgard_instruction ins = m_ld_vary_32(dest, offset);
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07001276 ins.mask = mask_of(nr_comp);
Alyssa Rosenzweig15fae1e2019-06-04 23:26:09 +00001277 ins.load_store.swizzle = SWIZZLE_XYZW >> (2 * component);
1278
1279 midgard_varying_parameter p = {
1280 .is_varying = 1,
1281 .interpolation = midgard_interp_default,
1282 .flat = /*var->data.interpolation == INTERP_MODE_FLAT*/ 0
1283 };
1284
1285 unsigned u;
1286 memcpy(&u, &p, sizeof(p));
1287 ins.load_store.varying_parameters = u;
1288
Alyssa Rosenzweig513d02c2019-08-01 14:28:34 -07001289 if (indirect_offset)
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001290 ins.ssa_args.src[1] = nir_src_index(ctx, indirect_offset);
Alyssa Rosenzweig513d02c2019-08-01 14:28:34 -07001291 else
Alyssa Rosenzweigc9087722019-08-01 13:29:01 -07001292 ins.load_store.arg_2 = 0x1E;
Alyssa Rosenzweig15fae1e2019-06-04 23:26:09 +00001293
Alyssa Rosenzweigc9087722019-08-01 13:29:01 -07001294 ins.load_store.arg_1 = 0x9E;
1295
Alyssa Rosenzweig9b97ed12019-06-28 09:30:59 -07001296 /* Use the type appropriate load */
1297 switch (type) {
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001298 case nir_type_uint:
1299 case nir_type_bool:
1300 ins.load_store.op = midgard_op_ld_vary_32u;
1301 break;
1302 case nir_type_int:
1303 ins.load_store.op = midgard_op_ld_vary_32i;
1304 break;
1305 case nir_type_float:
1306 ins.load_store.op = midgard_op_ld_vary_32;
1307 break;
1308 default:
1309 unreachable("Attempted to load unknown type");
1310 break;
Alyssa Rosenzweig9b97ed12019-06-28 09:30:59 -07001311 }
1312
Alyssa Rosenzweig15fae1e2019-06-04 23:26:09 +00001313 emit_mir_instruction(ctx, ins);
1314}
1315
Alyssa Rosenzweigfa687402019-08-02 11:06:21 -07001316void
Alyssa Rosenzweig63e240d2019-08-02 17:10:18 -07001317emit_sysval_read(compiler_context *ctx, nir_instr *instr, signed dest_override,
1318 unsigned nr_components)
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001319{
Alyssa Rosenzweig6d8490f2019-07-11 15:34:56 -07001320 unsigned dest = 0;
1321
Boris Brezillonbd49c8f2019-06-14 09:59:20 +02001322 /* Figure out which uniform this is */
1323 int sysval = sysval_for_instr(ctx, instr, &dest);
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001324 void *val = _mesa_hash_table_u64_search(ctx->sysval_to_id, sysval);
1325
Alyssa Rosenzweigfa687402019-08-02 11:06:21 -07001326 if (dest_override >= 0)
1327 dest = dest_override;
1328
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001329 /* Sysvals are prefix uniforms */
1330 unsigned uniform = ((uintptr_t) val) - 1;
1331
Alyssa Rosenzweig6a466c02019-04-20 23:52:42 +00001332 /* Emit the read itself -- this is never indirect */
Alyssa Rosenzweig63e240d2019-08-02 17:10:18 -07001333 midgard_instruction *ins =
Alyssa Rosenzweigcf3bb102019-08-13 09:13:31 -07001334 emit_ubo_read(ctx, instr, dest, uniform * 16, NULL, 0);
Alyssa Rosenzweig63e240d2019-08-02 17:10:18 -07001335
1336 ins->mask = mask_of(nr_components);
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001337}
1338
Alyssa Rosenzweig7229af72019-08-06 13:47:17 -07001339static unsigned
1340compute_builtin_arg(nir_op op)
1341{
1342 switch (op) {
1343 case nir_intrinsic_load_work_group_id:
1344 return 0x14;
1345 case nir_intrinsic_load_local_invocation_id:
1346 return 0x10;
1347 default:
1348 unreachable("Invalid compute paramater loaded");
1349 }
1350}
1351
Alyssa Rosenzweigdff49862019-08-12 12:36:46 -07001352/* Emit store for a fragment shader, which is encoded via a fancy branch. TODO:
1353 * Handle MRT here */
1354
1355static void
1356emit_fragment_store(compiler_context *ctx, unsigned src, unsigned rt)
1357{
1358 /* First, move in whatever we're outputting */
1359 midgard_instruction move = v_mov(src, blank_alu_src, SSA_FIXED_REGISTER(0));
1360 if (rt != 0) {
1361 /* Force a tight schedule. TODO: Make the scheduler MRT aware */
1362 move.unit = UNIT_VMUL;
1363 move.precede_break = true;
1364 move.dont_eliminate = true;
1365 }
1366
1367 emit_mir_instruction(ctx, move);
1368
1369 /* If we're doing MRT, we need to specify the render target */
1370
1371 midgard_instruction rt_move = {
1372 .ssa_args = {
1373 .dest = -1
1374 }
1375 };
1376
1377 if (rt != 0) {
1378 /* We'll write to r1.z */
1379 rt_move = v_mov(-1, blank_alu_src, SSA_FIXED_REGISTER(1));
1380 rt_move.mask = 1 << COMPONENT_Z;
1381 rt_move.unit = UNIT_SADD;
1382
1383 /* r1.z = (rt * 0x100) */
1384 rt_move.ssa_args.inline_constant = true;
1385 rt_move.inline_constant = (rt * 0x100);
1386
1387 /* r1 */
1388 ctx->work_registers = MAX2(ctx->work_registers, 1);
1389
1390 /* Do the write */
1391 emit_mir_instruction(ctx, rt_move);
1392 }
1393
1394 /* Next, generate the branch. For R render targets in the writeout, the
1395 * i'th render target jumps to pseudo-offset [2(R-1) + i] */
1396
1397 unsigned offset = (2 * (ctx->nir->num_outputs - 1)) + rt;
1398
1399 struct midgard_instruction ins =
1400 v_alu_br_compact_cond(midgard_jmp_writeout_op_writeout, TAG_ALU_4, offset, midgard_condition_always);
1401
1402 /* Add dependencies */
1403 ins.ssa_args.src[0] = move.ssa_args.dest;
1404 ins.ssa_args.src[1] = rt_move.ssa_args.dest;
1405
1406 /* Emit the branch */
1407 emit_mir_instruction(ctx, ins);
1408}
1409
Alyssa Rosenzweig7229af72019-08-06 13:47:17 -07001410static void
1411emit_compute_builtin(compiler_context *ctx, nir_intrinsic_instr *instr)
1412{
1413 unsigned reg = nir_dest_index(ctx, &instr->dest);
1414 midgard_instruction ins = m_ld_compute_id(reg, 0);
1415 ins.mask = mask_of(3);
1416 ins.load_store.arg_1 = compute_builtin_arg(instr->intrinsic);
1417 emit_mir_instruction(ctx, ins);
1418}
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001419static void
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001420emit_intrinsic(compiler_context *ctx, nir_intrinsic_instr *instr)
1421{
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001422 unsigned offset = 0, reg;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001423
1424 switch (instr->intrinsic) {
1425 case nir_intrinsic_discard_if:
Alyssa Rosenzweig8b15f8a2019-04-21 00:09:13 +00001426 emit_condition(ctx, &instr->src[0], true, COMPONENT_X);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001427
1428 /* fallthrough */
1429
1430 case nir_intrinsic_discard: {
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00001431 bool conditional = instr->intrinsic == nir_intrinsic_discard_if;
1432 struct midgard_instruction discard = v_branch(conditional, false);
1433 discard.branch.target_type = TARGET_DISCARD;
1434 emit_mir_instruction(ctx, discard);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001435 break;
1436 }
1437
1438 case nir_intrinsic_load_uniform:
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001439 case nir_intrinsic_load_ubo:
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -07001440 case nir_intrinsic_load_ssbo:
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001441 case nir_intrinsic_load_input: {
1442 bool is_uniform = instr->intrinsic == nir_intrinsic_load_uniform;
1443 bool is_ubo = instr->intrinsic == nir_intrinsic_load_ubo;
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -07001444 bool is_ssbo = instr->intrinsic == nir_intrinsic_load_ssbo;
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001445
Alyssa Rosenzweigbbc050b2019-06-27 15:33:07 -07001446 /* Get the base type of the intrinsic */
Alyssa Rosenzweig8d747492019-06-27 14:13:10 -07001447 /* TODO: Infer type? Does it matter? */
1448 nir_alu_type t =
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -07001449 (is_ubo || is_ssbo) ? nir_type_uint : nir_intrinsic_type(instr);
Alyssa Rosenzweigbbc050b2019-06-27 15:33:07 -07001450 t = nir_alu_type_get_base_type(t);
1451
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -07001452 if (!(is_ubo || is_ssbo)) {
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001453 offset = nir_intrinsic_base(instr);
1454 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001455
Alyssa Rosenzweigc1715b52019-05-22 02:44:12 +00001456 unsigned nr_comp = nir_intrinsic_dest_components(instr);
Alyssa Rosenzweig6a466c02019-04-20 23:52:42 +00001457
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001458 nir_src *src_offset = nir_get_io_offset_src(instr);
1459
1460 bool direct = nir_src_is_const(*src_offset);
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -07001461 nir_src *indirect_offset = direct ? NULL : src_offset;
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001462
1463 if (direct)
1464 offset += nir_src_as_uint(*src_offset);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001465
Alyssa Rosenzweig43568f22019-06-06 08:16:04 -07001466 /* We may need to apply a fractional offset */
1467 int component = instr->intrinsic == nir_intrinsic_load_input ?
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001468 nir_intrinsic_component(instr) : 0;
Alyssa Rosenzweig4ed23b12019-02-07 04:56:13 +00001469 reg = nir_dest_index(ctx, &instr->dest);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001470
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001471 if (is_uniform && !ctx->is_blend) {
Alyssa Rosenzweigcf3bb102019-08-13 09:13:31 -07001472 emit_ubo_read(ctx, &instr->instr, reg, (ctx->sysval_count + offset) * 16, indirect_offset, 0);
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001473 } else if (is_ubo) {
1474 nir_src index = instr->src[0];
1475
1476 /* We don't yet support indirect UBOs. For indirect
1477 * block numbers (if that's possible), we don't know
1478 * enough about the hardware yet. For indirect sources,
1479 * we know what we need but we need to add some NIR
1480 * support for lowering correctly with respect to
1481 * 128-bit reads */
1482
1483 assert(nir_src_is_const(index));
1484 assert(nir_src_is_const(*src_offset));
1485
Alyssa Rosenzweig5e2c3d42019-06-20 15:51:31 -07001486 uint32_t uindex = nir_src_as_uint(index) + 1;
Alyssa Rosenzweigcf3bb102019-08-13 09:13:31 -07001487 emit_ubo_read(ctx, &instr->instr, reg, offset, NULL, uindex);
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -07001488 } else if (is_ssbo) {
1489 nir_src index = instr->src[0];
1490 assert(nir_src_is_const(index));
1491 uint32_t uindex = nir_src_as_uint(index);
1492
1493 emit_ssbo_access(ctx, &instr->instr, true, reg, offset, indirect_offset, uindex);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001494 } else if (ctx->stage == MESA_SHADER_FRAGMENT && !ctx->is_blend) {
Alyssa Rosenzweig9b97ed12019-06-28 09:30:59 -07001495 emit_varying_read(ctx, reg, offset, nr_comp, component, !direct ? &instr->src[0] : NULL, t);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001496 } else if (ctx->is_blend) {
Alyssa Rosenzweig39104222019-05-06 02:12:41 +00001497 /* For blend shaders, load the input color, which is
1498 * preloaded to r0 */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001499
Alyssa Rosenzweig13f61f22019-07-26 08:15:50 -07001500 midgard_instruction move = v_mov(SSA_FIXED_REGISTER(0), blank_alu_src, reg);
Alyssa Rosenzweig005d9b12019-05-20 00:46:48 +00001501 emit_mir_instruction(ctx, move);
Alyssa Rosenzweig39104222019-05-06 02:12:41 +00001502 } else if (ctx->stage == MESA_SHADER_VERTEX) {
Alyssa Rosenzweig74ab80b2019-05-14 04:11:36 +00001503 midgard_instruction ins = m_ld_attr_32(reg, offset);
Alyssa Rosenzweigc9087722019-08-01 13:29:01 -07001504 ins.load_store.arg_1 = 0x1E;
1505 ins.load_store.arg_2 = 0x1E;
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07001506 ins.mask = mask_of(nr_comp);
Alyssa Rosenzweigbbc050b2019-06-27 15:33:07 -07001507
1508 /* Use the type appropriate load */
1509 switch (t) {
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001510 case nir_type_uint:
1511 case nir_type_bool:
1512 ins.load_store.op = midgard_op_ld_attr_32u;
1513 break;
1514 case nir_type_int:
1515 ins.load_store.op = midgard_op_ld_attr_32i;
1516 break;
1517 case nir_type_float:
1518 ins.load_store.op = midgard_op_ld_attr_32;
1519 break;
1520 default:
1521 unreachable("Attempted to load unknown type");
1522 break;
Alyssa Rosenzweigbbc050b2019-06-27 15:33:07 -07001523 }
1524
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001525 emit_mir_instruction(ctx, ins);
1526 } else {
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +01001527 DBG("Unknown load\n");
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001528 assert(0);
1529 }
1530
1531 break;
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001532 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001533
Alyssa Rosenzweig1686ef82019-07-01 17:23:58 -07001534 /* Reads 128-bit value raw off the tilebuffer during blending, tasty */
1535
Alyssa Rosenzweig541b3292019-07-01 15:02:40 -07001536 case nir_intrinsic_load_raw_output_pan:
Alyssa Rosenzweig39104222019-05-06 02:12:41 +00001537 reg = nir_dest_index(ctx, &instr->dest);
Alyssa Rosenzweig541b3292019-07-01 15:02:40 -07001538 assert(ctx->is_blend);
Alyssa Rosenzweig1686ef82019-07-01 17:23:58 -07001539
1540 midgard_instruction ins = m_ld_color_buffer_8(reg, 0);
1541 emit_mir_instruction(ctx, ins);
Alyssa Rosenzweig39104222019-05-06 02:12:41 +00001542 break;
1543
1544 case nir_intrinsic_load_blend_const_color_rgba: {
1545 assert(ctx->is_blend);
1546 reg = nir_dest_index(ctx, &instr->dest);
1547
1548 /* Blend constants are embedded directly in the shader and
1549 * patched in, so we use some magic routing */
1550
Alyssa Rosenzweig565c4462019-06-17 09:40:14 -07001551 midgard_instruction ins = v_mov(SSA_FIXED_REGISTER(REGISTER_CONSTANT), blank_alu_src, reg);
Alyssa Rosenzweig39104222019-05-06 02:12:41 +00001552 ins.has_constants = true;
1553 ins.has_blend_constant = true;
1554 emit_mir_instruction(ctx, ins);
1555 break;
1556 }
1557
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001558 case nir_intrinsic_store_output:
Karol Herbst1aabb792019-03-29 21:40:45 +01001559 assert(nir_src_is_const(instr->src[1]) && "no indirect outputs");
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001560
Karol Herbst1aabb792019-03-29 21:40:45 +01001561 offset = nir_intrinsic_base(instr) + nir_src_as_uint(instr->src[1]);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001562
Alyssa Rosenzweig4ed23b12019-02-07 04:56:13 +00001563 reg = nir_src_index(ctx, &instr->src[0]);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001564
1565 if (ctx->stage == MESA_SHADER_FRAGMENT) {
Alyssa Rosenzweigdff49862019-08-12 12:36:46 -07001566 /* Determine number of render targets */
1567 emit_fragment_store(ctx, reg, offset);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001568 } else if (ctx->stage == MESA_SHADER_VERTEX) {
Alyssa Rosenzweiga3ae3cb2019-06-17 12:35:57 -07001569 /* We should have been vectorized, though we don't
1570 * currently check that st_vary is emitted only once
1571 * per slot (this is relevant, since there's not a mask
1572 * parameter available on the store [set to 0 by the
1573 * blob]). We do respect the component by adjusting the
Alyssa Rosenzweig233c0fa2019-07-24 12:54:59 -07001574 * swizzle. If this is a constant source, we'll need to
1575 * emit that explicitly. */
1576
1577 emit_explicit_constant(ctx, reg, reg);
Alyssa Rosenzweiga3ae3cb2019-06-17 12:35:57 -07001578
1579 unsigned component = nir_intrinsic_component(instr);
Alyssa Rosenzweig27887212019-08-15 16:53:03 -07001580 unsigned nr_comp = nir_src_num_components(instr->src[0]);
Alyssa Rosenzweigde8d49a2019-06-06 09:15:26 -07001581
Alyssa Rosenzweig233c0fa2019-07-24 12:54:59 -07001582 midgard_instruction st = m_st_vary_32(reg, offset);
Alyssa Rosenzweigc9087722019-08-01 13:29:01 -07001583 st.load_store.arg_1 = 0x9E;
1584 st.load_store.arg_2 = 0x1E;
Alyssa Rosenzweig27887212019-08-15 16:53:03 -07001585 st.load_store.swizzle = swizzle_of(nr_comp) << (2*component);
Alyssa Rosenzweig4aced182019-06-06 08:21:27 -07001586 emit_mir_instruction(ctx, st);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001587 } else {
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +01001588 DBG("Unknown store\n");
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001589 assert(0);
1590 }
1591
1592 break;
1593
Alyssa Rosenzweig541b3292019-07-01 15:02:40 -07001594 /* Special case of store_output for lowered blend shaders */
1595 case nir_intrinsic_store_raw_output_pan:
1596 assert (ctx->stage == MESA_SHADER_FRAGMENT);
1597 reg = nir_src_index(ctx, &instr->src[0]);
Alyssa Rosenzweigdff49862019-08-12 12:36:46 -07001598 emit_fragment_store(ctx, reg, 0);
Alyssa Rosenzweig541b3292019-07-01 15:02:40 -07001599
1600 break;
1601
Alyssa Rosenzweig419ddd62019-08-01 10:03:02 -07001602 case nir_intrinsic_store_ssbo:
1603 assert(nir_src_is_const(instr->src[1]));
1604
1605 bool direct_offset = nir_src_is_const(instr->src[2]);
1606 offset = direct_offset ? nir_src_as_uint(instr->src[2]) : 0;
1607 nir_src *indirect_offset = direct_offset ? NULL : &instr->src[2];
1608 reg = nir_src_index(ctx, &instr->src[0]);
1609
1610 uint32_t uindex = nir_src_as_uint(instr->src[1]);
1611
1612 emit_explicit_constant(ctx, reg, reg);
1613 emit_ssbo_access(ctx, &instr->instr, false, reg, offset, indirect_offset, uindex);
1614 break;
1615
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001616 case nir_intrinsic_load_alpha_ref_float:
1617 assert(instr->dest.is_ssa);
1618
1619 float ref_value = ctx->alpha_ref;
1620
Alyssa Rosenzweig463164b2019-07-29 08:31:03 -07001621 /* See emit_load_const */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001622 float *v = ralloc_array(NULL, float, 4);
1623 memcpy(v, &ref_value, sizeof(float));
Alyssa Rosenzweig463164b2019-07-29 08:31:03 -07001624 _mesa_hash_table_u64_insert(ctx->ssa_constants, (instr->dest.ssa.index << 1) + 1, v);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001625 break;
1626
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001627 case nir_intrinsic_load_viewport_scale:
1628 case nir_intrinsic_load_viewport_offset:
Alyssa Rosenzweig15954ab2019-08-06 14:07:10 -07001629 case nir_intrinsic_load_num_work_groups:
Alyssa Rosenzweig63e240d2019-08-02 17:10:18 -07001630 emit_sysval_read(ctx, &instr->instr, -1, 3);
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00001631 break;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001632
Alyssa Rosenzweig7229af72019-08-06 13:47:17 -07001633 case nir_intrinsic_load_work_group_id:
1634 case nir_intrinsic_load_local_invocation_id:
1635 emit_compute_builtin(ctx, instr);
1636 break;
1637
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001638 default:
1639 printf ("Unhandled intrinsic\n");
1640 assert(0);
1641 break;
1642 }
1643}
1644
1645static unsigned
1646midgard_tex_format(enum glsl_sampler_dim dim)
1647{
1648 switch (dim) {
Alyssa Rosenzweig83c02a52019-06-17 14:26:08 -07001649 case GLSL_SAMPLER_DIM_1D:
1650 case GLSL_SAMPLER_DIM_BUF:
1651 return MALI_TEX_1D;
1652
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001653 case GLSL_SAMPLER_DIM_2D:
1654 case GLSL_SAMPLER_DIM_EXTERNAL:
Alyssa Rosenzweig44a6c382019-08-14 08:44:40 -07001655 case GLSL_SAMPLER_DIM_RECT:
Alyssa Rosenzweig83c02a52019-06-17 14:26:08 -07001656 return MALI_TEX_2D;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001657
1658 case GLSL_SAMPLER_DIM_3D:
Alyssa Rosenzweig83c02a52019-06-17 14:26:08 -07001659 return MALI_TEX_3D;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001660
1661 case GLSL_SAMPLER_DIM_CUBE:
Alyssa Rosenzweig83c02a52019-06-17 14:26:08 -07001662 return MALI_TEX_CUBE;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001663
1664 default:
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +01001665 DBG("Unknown sampler dim type\n");
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001666 assert(0);
1667 return 0;
1668 }
1669}
1670
Alyssa Rosenzweig213b6282019-06-18 09:02:20 -07001671/* Tries to attach an explicit LOD / bias as a constant. Returns whether this
1672 * was successful */
1673
1674static bool
1675pan_attach_constant_bias(
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001676 compiler_context *ctx,
1677 nir_src lod,
1678 midgard_texture_word *word)
Alyssa Rosenzweig213b6282019-06-18 09:02:20 -07001679{
1680 /* To attach as constant, it has to *be* constant */
1681
1682 if (!nir_src_is_const(lod))
1683 return false;
1684
1685 float f = nir_src_as_float(lod);
1686
1687 /* Break into fixed-point */
1688 signed lod_int = f;
1689 float lod_frac = f - lod_int;
1690
1691 /* Carry over negative fractions */
1692 if (lod_frac < 0.0) {
1693 lod_int--;
1694 lod_frac += 1.0;
1695 }
1696
1697 /* Encode */
1698 word->bias = float_to_ubyte(lod_frac);
1699 word->bias_int = lod_int;
1700
1701 return true;
1702}
1703
Alyssa Rosenzweige32af4b2019-06-26 16:12:28 -07001704static enum mali_sampler_type
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001705midgard_sampler_type(nir_alu_type t) {
1706 switch (nir_alu_type_get_base_type(t))
1707 {
1708 case nir_type_float:
1709 return MALI_SAMPLER_FLOAT;
1710 case nir_type_int:
1711 return MALI_SAMPLER_SIGNED;
1712 case nir_type_uint:
1713 return MALI_SAMPLER_UNSIGNED;
1714 default:
1715 unreachable("Unknown sampler type");
Alyssa Rosenzweige32af4b2019-06-26 16:12:28 -07001716 }
1717}
1718
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001719static void
Boris Brezillon5c17f842019-06-17 21:47:46 +02001720emit_texop_native(compiler_context *ctx, nir_tex_instr *instr,
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001721 unsigned midgard_texop)
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001722{
1723 /* TODO */
1724 //assert (!instr->sampler);
1725 //assert (!instr->texture_array_size);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001726
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001727 int texture_index = instr->texture_index;
1728 int sampler_index = texture_index;
1729
Alyssa Rosenzweigb0e89412019-06-18 09:02:35 -07001730 /* No helper to build texture words -- we do it all here */
1731 midgard_instruction ins = {
1732 .type = TAG_TEXTURE_4,
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07001733 .mask = 0xF,
Alyssa Rosenzweigb6946d32019-07-25 08:44:53 -07001734 .ssa_args = {
1735 .dest = nir_dest_index(ctx, &instr->dest),
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001736 .src = { -1, -1, -1 },
Alyssa Rosenzweigb6946d32019-07-25 08:44:53 -07001737 },
Alyssa Rosenzweigb0e89412019-06-18 09:02:35 -07001738 .texture = {
1739 .op = midgard_texop,
1740 .format = midgard_tex_format(instr->sampler_dim),
1741 .texture_handle = texture_index,
1742 .sampler_handle = sampler_index,
Alyssa Rosenzweigb0e89412019-06-18 09:02:35 -07001743 .swizzle = SWIZZLE_XYZW,
Alyssa Rosenzweigb6946d32019-07-25 08:44:53 -07001744 .in_reg_swizzle = SWIZZLE_XYZW,
Alyssa Rosenzweigb0e89412019-06-18 09:02:35 -07001745
1746 /* TODO: half */
1747 .in_reg_full = 1,
1748 .out_full = 1,
1749
Alyssa Rosenzweige32af4b2019-06-26 16:12:28 -07001750 .sampler_type = midgard_sampler_type(instr->dest_type),
Alyssa Rosenzweigb0e89412019-06-18 09:02:35 -07001751 }
1752 };
Alyssa Rosenzweig8429bee2019-06-14 16:03:39 -07001753
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001754 for (unsigned i = 0; i < instr->num_srcs; ++i) {
Alyssa Rosenzweiga19ca342019-06-11 09:23:05 -07001755 int index = nir_src_index(ctx, &instr->src[i].src);
1756 midgard_vector_alu_src alu_src = blank_alu_src;
Alyssa Rosenzweigedc8e412019-08-15 16:41:53 -07001757 unsigned nr_components = nir_src_num_components(instr->src[i].src);
Alyssa Rosenzweiga19ca342019-06-11 09:23:05 -07001758
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001759 switch (instr->src[i].src_type) {
1760 case nir_tex_src_coord: {
Alyssa Rosenzweigb6946d32019-07-25 08:44:53 -07001761 emit_explicit_constant(ctx, index, index);
1762
1763 /* Texelfetch coordinates uses all four elements
1764 * (xyz/index) regardless of texture dimensionality,
1765 * which means it's necessary to zero the unused
1766 * components to keep everything happy */
1767
1768 if (midgard_texop == TEXTURE_OP_TEXEL_FETCH) {
1769 unsigned old_index = index;
1770
1771 index = make_compiler_temp(ctx);
1772
1773 /* mov index, old_index */
1774 midgard_instruction mov = v_mov(old_index, blank_alu_src, index);
1775 mov.mask = 0x3;
1776 emit_mir_instruction(ctx, mov);
1777
1778 /* mov index.zw, #0 */
1779 mov = v_mov(SSA_FIXED_REGISTER(REGISTER_CONSTANT),
1780 blank_alu_src, index);
1781 mov.has_constants = true;
1782 mov.mask = (1 << COMPONENT_Z) | (1 << COMPONENT_W);
1783 emit_mir_instruction(ctx, mov);
1784 }
1785
Alyssa Rosenzweig70b3e5d2019-03-28 04:27:13 +00001786 if (instr->sampler_dim == GLSL_SAMPLER_DIM_CUBE) {
Alyssa Rosenzweigfaf8ad42019-06-24 14:39:25 -07001787 /* texelFetch is undefined on samplerCube */
1788 assert(midgard_texop != TEXTURE_OP_TEXEL_FETCH);
1789
Alyssa Rosenzweigbe568402019-07-25 07:09:40 -07001790 /* For cubemaps, we use a special ld/st op to
1791 * select the face and copy the xy into the
Alyssa Rosenzweiga19ca342019-06-11 09:23:05 -07001792 * texture register */
Alyssa Rosenzweig70b3e5d2019-03-28 04:27:13 +00001793
Alyssa Rosenzweigb6946d32019-07-25 08:44:53 -07001794 unsigned temp = make_compiler_temp(ctx);
Alyssa Rosenzweigb6946d32019-07-25 08:44:53 -07001795 midgard_instruction st = m_st_cubemap_coords(temp, 0);
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001796 st.ssa_args.src[0] = index;
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07001797 st.mask = 0x3; /* xy */
Alyssa Rosenzweig513d02c2019-08-01 14:28:34 -07001798 st.load_store.arg_1 = 0x20;
Alyssa Rosenzweig70b3e5d2019-03-28 04:27:13 +00001799 st.load_store.swizzle = alu_src.swizzle;
1800 emit_mir_instruction(ctx, st);
1801
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001802 ins.ssa_args.src[0] = temp;
Alyssa Rosenzweig20dd4822019-08-16 07:41:29 -07001803 ins.texture.in_reg_swizzle = SWIZZLE_XYXX;
Alyssa Rosenzweig70b3e5d2019-03-28 04:27:13 +00001804 } else {
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001805 ins.ssa_args.src[0] = index;
Alyssa Rosenzweigb6946d32019-07-25 08:44:53 -07001806 }
Alyssa Rosenzweig70b3e5d2019-03-28 04:27:13 +00001807
Alyssa Rosenzweigb6946d32019-07-25 08:44:53 -07001808 if (instr->sampler_dim == GLSL_SAMPLER_DIM_2D) {
1809 /* Array component in w but NIR wants it in z */
Alyssa Rosenzweigedc8e412019-08-15 16:41:53 -07001810 if (nr_components == 3)
1811 ins.texture.in_reg_swizzle = SWIZZLE_XYZZ;
1812 else if (nr_components == 2)
1813 ins.texture.in_reg_swizzle = SWIZZLE_XYXX;
1814 else
1815 unreachable("Invalid texture 2D components");
Alyssa Rosenzweig70b3e5d2019-03-28 04:27:13 +00001816 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001817
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001818 break;
1819 }
1820
Alyssa Rosenzweig4012e062019-06-11 09:43:08 -07001821 case nir_tex_src_bias:
1822 case nir_tex_src_lod: {
Alyssa Rosenzweigb0e89412019-06-18 09:02:35 -07001823 /* Try as a constant if we can */
1824
1825 bool is_txf = midgard_texop == TEXTURE_OP_TEXEL_FETCH;
1826 if (!is_txf && pan_attach_constant_bias(ctx, instr->src[i].src, &ins.texture))
1827 break;
1828
Alyssa Rosenzweigb0e89412019-06-18 09:02:35 -07001829 ins.texture.lod_register = true;
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001830 ins.ssa_args.src[1] = index;
Alyssa Rosenzweigb6946d32019-07-25 08:44:53 -07001831 emit_explicit_constant(ctx, index, index);
Alyssa Rosenzweigb0e89412019-06-18 09:02:35 -07001832
Alyssa Rosenzweiga19ca342019-06-11 09:23:05 -07001833 break;
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001834 };
Alyssa Rosenzweiga19ca342019-06-11 09:23:05 -07001835
Alyssa Rosenzweig5062b612019-06-11 09:55:18 -07001836 default:
1837 unreachable("Unknown texture source type\n");
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001838 }
1839 }
1840
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001841 emit_mir_instruction(ctx, ins);
1842
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001843 /* Used for .cont and .last hinting */
1844 ctx->texture_op_count++;
1845}
1846
1847static void
Boris Brezillon5c17f842019-06-17 21:47:46 +02001848emit_tex(compiler_context *ctx, nir_tex_instr *instr)
1849{
Alyssa Rosenzweig67299122019-06-24 10:35:03 -07001850 /* Fixup op, since only textureLod is permitted in VS but NIR can give
1851 * generic tex in some cases (which confuses the hardware) */
1852
1853 bool is_vertex = ctx->stage == MESA_SHADER_VERTEX;
1854
1855 if (is_vertex && instr->op == nir_texop_tex)
1856 instr->op = nir_texop_txl;
1857
Boris Brezillon5c17f842019-06-17 21:47:46 +02001858 switch (instr->op) {
1859 case nir_texop_tex:
1860 case nir_texop_txb:
1861 emit_texop_native(ctx, instr, TEXTURE_OP_NORMAL);
1862 break;
1863 case nir_texop_txl:
1864 emit_texop_native(ctx, instr, TEXTURE_OP_LOD);
1865 break;
Alyssa Rosenzweigf4bb7f02019-06-21 16:17:34 -07001866 case nir_texop_txf:
1867 emit_texop_native(ctx, instr, TEXTURE_OP_TEXEL_FETCH);
1868 break;
Boris Brezillonc3558862019-06-17 22:13:04 +02001869 case nir_texop_txs:
Alyssa Rosenzweig63e240d2019-08-02 17:10:18 -07001870 emit_sysval_read(ctx, &instr->instr, -1, 4);
Boris Brezillonc3558862019-06-17 22:13:04 +02001871 break;
Boris Brezillon5c17f842019-06-17 21:47:46 +02001872 default:
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001873 unreachable("Unhanlded texture op");
Boris Brezillon5c17f842019-06-17 21:47:46 +02001874 }
1875}
1876
1877static void
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001878emit_jump(compiler_context *ctx, nir_jump_instr *instr)
1879{
1880 switch (instr->type) {
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001881 case nir_jump_break: {
1882 /* Emit a branch out of the loop */
1883 struct midgard_instruction br = v_branch(false, false);
1884 br.branch.target_type = TARGET_BREAK;
1885 br.branch.target_break = ctx->current_loop_depth;
1886 emit_mir_instruction(ctx, br);
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001887 break;
1888 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001889
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07001890 default:
1891 DBG("Unknown jump type %d\n", instr->type);
1892 break;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001893 }
1894}
1895
1896static void
1897emit_instr(compiler_context *ctx, struct nir_instr *instr)
1898{
1899 switch (instr->type) {
1900 case nir_instr_type_load_const:
1901 emit_load_const(ctx, nir_instr_as_load_const(instr));
1902 break;
1903
1904 case nir_instr_type_intrinsic:
1905 emit_intrinsic(ctx, nir_instr_as_intrinsic(instr));
1906 break;
1907
1908 case nir_instr_type_alu:
1909 emit_alu(ctx, nir_instr_as_alu(instr));
1910 break;
1911
1912 case nir_instr_type_tex:
1913 emit_tex(ctx, nir_instr_as_tex(instr));
1914 break;
1915
1916 case nir_instr_type_jump:
1917 emit_jump(ctx, nir_instr_as_jump(instr));
1918 break;
1919
1920 case nir_instr_type_ssa_undef:
1921 /* Spurious */
1922 break;
1923
1924 default:
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +01001925 DBG("Unhandled instruction type\n");
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001926 break;
1927 }
1928}
1929
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001930
1931/* ALU instructions can inline or embed constants, which decreases register
1932 * pressure and saves space. */
1933
1934#define CONDITIONAL_ATTACH(src) { \
1935 void *entry = _mesa_hash_table_u64_search(ctx->ssa_constants, alu->ssa_args.src + 1); \
1936\
1937 if (entry) { \
1938 attach_constants(ctx, alu, entry, alu->ssa_args.src + 1); \
1939 alu->ssa_args.src = SSA_FIXED_REGISTER(REGISTER_CONSTANT); \
1940 } \
1941}
1942
1943static void
1944inline_alu_constants(compiler_context *ctx)
1945{
1946 mir_foreach_instr(ctx, alu) {
1947 /* Other instructions cannot inline constants */
1948 if (alu->type != TAG_ALU_4) continue;
1949
1950 /* If there is already a constant here, we can do nothing */
1951 if (alu->has_constants) continue;
1952
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001953 CONDITIONAL_ATTACH(src[0]);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001954
1955 if (!alu->has_constants) {
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001956 CONDITIONAL_ATTACH(src[1])
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001957 } else if (!alu->inline_constant) {
1958 /* Corner case: _two_ vec4 constants, for instance with a
1959 * csel. For this case, we can only use a constant
1960 * register for one, we'll have to emit a move for the
1961 * other. Note, if both arguments are constants, then
1962 * necessarily neither argument depends on the value of
1963 * any particular register. As the destination register
1964 * will be wiped, that means we can spill the constant
1965 * to the destination register.
1966 */
1967
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001968 void *entry = _mesa_hash_table_u64_search(ctx->ssa_constants, alu->ssa_args.src[1] + 1);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001969 unsigned scratch = alu->ssa_args.dest;
1970
1971 if (entry) {
Alyssa Rosenzweig565c4462019-06-17 09:40:14 -07001972 midgard_instruction ins = v_mov(SSA_FIXED_REGISTER(REGISTER_CONSTANT), blank_alu_src, scratch);
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001973 attach_constants(ctx, &ins, entry, alu->ssa_args.src[1] + 1);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001974
1975 /* Force a break XXX Defer r31 writes */
1976 ins.unit = UNIT_VLUT;
1977
1978 /* Set the source */
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07001979 alu->ssa_args.src[1] = scratch;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00001980
1981 /* Inject us -before- the last instruction which set r31 */
1982 mir_insert_instruction_before(mir_prev_op(alu), ins);
1983 }
1984 }
1985 }
1986}
1987
Alyssa Rosenzweig62a5ee32019-07-26 14:25:25 -07001988/* Being a little silly with the names, but returns the op that is the bitwise
1989 * inverse of the op with the argument switched. I.e. (f and g are
1990 * contrapositives):
1991 *
1992 * f(a, b) = ~g(b, a)
1993 *
1994 * Corollary: if g is the contrapositve of f, f is the contrapositive of g:
1995 *
1996 * f(a, b) = ~g(b, a)
1997 * ~f(a, b) = g(b, a)
1998 * ~f(a, b) = ~h(a, b) where h is the contrapositive of g
1999 * f(a, b) = h(a, b)
2000 *
2001 * Thus we define this function in pairs.
2002 */
2003
2004static inline midgard_alu_op
2005mir_contrapositive(midgard_alu_op op)
2006{
2007 switch (op) {
2008 case midgard_alu_op_flt:
2009 return midgard_alu_op_fle;
2010 case midgard_alu_op_fle:
2011 return midgard_alu_op_flt;
2012
2013 case midgard_alu_op_ilt:
2014 return midgard_alu_op_ile;
2015 case midgard_alu_op_ile:
2016 return midgard_alu_op_ilt;
2017
2018 default:
2019 unreachable("No known contrapositive");
2020 }
2021}
2022
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002023/* Midgard supports two types of constants, embedded constants (128-bit) and
2024 * inline constants (16-bit). Sometimes, especially with scalar ops, embedded
2025 * constants can be demoted to inline constants, for space savings and
2026 * sometimes a performance boost */
2027
2028static void
2029embedded_to_inline_constant(compiler_context *ctx)
2030{
2031 mir_foreach_instr(ctx, ins) {
2032 if (!ins->has_constants) continue;
2033
2034 if (ins->ssa_args.inline_constant) continue;
2035
2036 /* Blend constants must not be inlined by definition */
2037 if (ins->has_blend_constant) continue;
2038
Alyssa Rosenzweige92caad2019-07-01 20:02:57 -07002039 /* We can inline 32-bit (sometimes) or 16-bit (usually) */
2040 bool is_16 = ins->alu.reg_mode == midgard_reg_mode_16;
2041 bool is_32 = ins->alu.reg_mode == midgard_reg_mode_32;
2042
2043 if (!(is_16 || is_32))
2044 continue;
2045
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002046 /* src1 cannot be an inline constant due to encoding
2047 * restrictions. So, if possible we try to flip the arguments
2048 * in that case */
2049
2050 int op = ins->alu.op;
2051
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07002052 if (ins->ssa_args.src[0] == SSA_FIXED_REGISTER(REGISTER_CONSTANT)) {
Alyssa Rosenzweig62a5ee32019-07-26 14:25:25 -07002053 bool flip = alu_opcode_props[op].props & OP_COMMUTES;
2054
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002055 switch (op) {
Alyssa Rosenzweig62a5ee32019-07-26 14:25:25 -07002056 /* Conditionals can be inverted */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002057 case midgard_alu_op_flt:
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002058 case midgard_alu_op_ilt:
Alyssa Rosenzweig62a5ee32019-07-26 14:25:25 -07002059 case midgard_alu_op_fle:
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002060 case midgard_alu_op_ile:
Alyssa Rosenzweig62a5ee32019-07-26 14:25:25 -07002061 ins->alu.op = mir_contrapositive(ins->alu.op);
2062 ins->invert = true;
2063 flip = true;
2064 break;
2065
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002066 case midgard_alu_op_fcsel:
2067 case midgard_alu_op_icsel:
Alyssa Rosenzweig1f345bc2019-04-24 01:15:15 +00002068 DBG("Missed non-commutative flip (%s)\n", alu_opcode_props[op].name);
Alyssa Rosenzweigbb1aff32019-04-24 02:18:28 +00002069 default:
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002070 break;
Alyssa Rosenzweigbb1aff32019-04-24 02:18:28 +00002071 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002072
Alyssa Rosenzweig62a5ee32019-07-26 14:25:25 -07002073 if (flip) {
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002074 /* Flip the SSA numbers */
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07002075 ins->ssa_args.src[0] = ins->ssa_args.src[1];
2076 ins->ssa_args.src[1] = SSA_FIXED_REGISTER(REGISTER_CONSTANT);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002077
2078 /* And flip the modifiers */
2079
2080 unsigned src_temp;
2081
2082 src_temp = ins->alu.src2;
2083 ins->alu.src2 = ins->alu.src1;
2084 ins->alu.src1 = src_temp;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002085 }
2086 }
2087
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07002088 if (ins->ssa_args.src[1] == SSA_FIXED_REGISTER(REGISTER_CONSTANT)) {
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002089 /* Extract the source information */
2090
2091 midgard_vector_alu_src *src;
2092 int q = ins->alu.src2;
2093 midgard_vector_alu_src *m = (midgard_vector_alu_src *) &q;
2094 src = m;
2095
2096 /* Component is from the swizzle, e.g. r26.w -> w component. TODO: What if x is masked out? */
2097 int component = src->swizzle & 3;
2098
2099 /* Scale constant appropriately, if we can legally */
2100 uint16_t scaled_constant = 0;
2101
Alyssa Rosenzweige92caad2019-07-01 20:02:57 -07002102 if (midgard_is_integer_op(op) || is_16) {
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002103 unsigned int *iconstants = (unsigned int *) ins->constants;
2104 scaled_constant = (uint16_t) iconstants[component];
2105
2106 /* Constant overflow after resize */
2107 if (scaled_constant != iconstants[component])
2108 continue;
2109 } else {
Alyssa Rosenzweig39786142019-04-28 15:46:47 +00002110 float original = (float) ins->constants[component];
2111 scaled_constant = _mesa_float_to_half(original);
2112
2113 /* Check for loss of precision. If this is
2114 * mediump, we don't care, but for a highp
2115 * shader, we need to pay attention. NIR
2116 * doesn't yet tell us which mode we're in!
2117 * Practically this prevents most constants
2118 * from being inlined, sadly. */
2119
2120 float fp32 = _mesa_half_to_float(scaled_constant);
2121
2122 if (fp32 != original)
2123 continue;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002124 }
2125
2126 /* We don't know how to handle these with a constant */
2127
Alyssa Rosenzweigc45487b2019-07-26 11:52:30 -07002128 if (mir_nontrivial_source2_mod_simple(ins) || src->rep_low || src->rep_high) {
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +01002129 DBG("Bailing inline constant...\n");
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002130 continue;
2131 }
2132
2133 /* Make sure that the constant is not itself a
2134 * vector by checking if all accessed values
2135 * (by the swizzle) are the same. */
2136
2137 uint32_t *cons = (uint32_t *) ins->constants;
2138 uint32_t value = cons[component];
2139
2140 bool is_vector = false;
Alyssa Rosenzweigf8b18a42019-07-01 18:51:48 -07002141 unsigned mask = effective_writemask(&ins->alu, ins->mask);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002142
2143 for (int c = 1; c < 4; ++c) {
2144 /* We only care if this component is actually used */
2145 if (!(mask & (1 << c)))
2146 continue;
2147
2148 uint32_t test = cons[(src->swizzle >> (2 * c)) & 3];
2149
2150 if (test != value) {
2151 is_vector = true;
2152 break;
2153 }
2154 }
2155
2156 if (is_vector)
2157 continue;
2158
2159 /* Get rid of the embedded constant */
2160 ins->has_constants = false;
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07002161 ins->ssa_args.src[1] = -1;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002162 ins->ssa_args.inline_constant = true;
2163 ins->inline_constant = scaled_constant;
2164 }
2165 }
2166}
2167
Alyssa Rosenzweigae20bee2019-06-06 11:19:13 -07002168/* Dead code elimination for branches at the end of a block - only one branch
2169 * per block is legal semantically */
2170
2171static void
2172midgard_opt_cull_dead_branch(compiler_context *ctx, midgard_block *block)
2173{
2174 bool branched = false;
2175
2176 mir_foreach_instr_in_block_safe(block, ins) {
2177 if (!midgard_is_branch_unit(ins->unit)) continue;
2178
2179 /* We ignore prepacked branches since the fragment epilogue is
2180 * just generally special */
2181 if (ins->prepacked_branch) continue;
2182
Alyssa Rosenzweige9703fb2019-06-10 08:21:24 -07002183 /* Discards are similarly special and may not correspond to the
2184 * end of a block */
2185
2186 if (ins->branch.target_type == TARGET_DISCARD) continue;
2187
Alyssa Rosenzweigae20bee2019-06-06 11:19:13 -07002188 if (branched) {
2189 /* We already branched, so this is dead */
2190 mir_remove_instruction(ins);
2191 }
2192
2193 branched = true;
2194 }
2195}
2196
Alyssa Rosenzweig4a03d372019-05-23 03:01:32 +00002197/* fmov.pos is an idiom for fpos. Propoagate the .pos up to the source, so then
2198 * the move can be propagated away entirely */
2199
2200static bool
Alyssa Rosenzweig67804812019-06-05 15:17:45 -07002201mir_compose_float_outmod(midgard_outmod_float *outmod, midgard_outmod_float comp)
Alyssa Rosenzweig4a03d372019-05-23 03:01:32 +00002202{
2203 /* Nothing to do */
2204 if (comp == midgard_outmod_none)
2205 return true;
2206
2207 if (*outmod == midgard_outmod_none) {
2208 *outmod = comp;
2209 return true;
2210 }
2211
2212 /* TODO: Compose rules */
2213 return false;
2214}
2215
2216static bool
2217midgard_opt_pos_propagate(compiler_context *ctx, midgard_block *block)
2218{
2219 bool progress = false;
2220
2221 mir_foreach_instr_in_block_safe(block, ins) {
2222 if (ins->type != TAG_ALU_4) continue;
2223 if (ins->alu.op != midgard_alu_op_fmov) continue;
2224 if (ins->alu.outmod != midgard_outmod_pos) continue;
2225
2226 /* TODO: Registers? */
Alyssa Rosenzweigd4bcca12019-08-02 15:25:02 -07002227 unsigned src = ins->ssa_args.src[1];
Alyssa Rosenzweig9beb3392019-07-26 11:30:06 -07002228 if (src & IS_REG) continue;
Alyssa Rosenzweig67804812019-06-05 15:17:45 -07002229 assert(!mir_has_multiple_writes(ctx, src));
Alyssa Rosenzweig4a03d372019-05-23 03:01:32 +00002230
2231 /* There might be a source modifier, too */
2232 if (mir_nontrivial_source2_mod(ins)) continue;
2233
2234 /* Backpropagate the modifier */
2235 mir_foreach_instr_in_block_from_rev(block, v, mir_prev_op(ins)) {
2236 if (v->type != TAG_ALU_4) continue;
2237 if (v->ssa_args.dest != src) continue;
2238
Alyssa Rosenzweig67804812019-06-05 15:17:45 -07002239 /* Can we even take a float outmod? */
2240 if (midgard_is_integer_out_op(v->alu.op)) continue;
2241
2242 midgard_outmod_float temp = v->alu.outmod;
2243 progress |= mir_compose_float_outmod(&temp, ins->alu.outmod);
Alyssa Rosenzweig4a03d372019-05-23 03:01:32 +00002244
2245 /* Throw in the towel.. */
2246 if (!progress) break;
2247
2248 /* Otherwise, transfer the modifier */
2249 v->alu.outmod = temp;
2250 ins->alu.outmod = midgard_outmod_none;
2251
2252 break;
2253 }
2254 }
2255
2256 return progress;
2257}
2258
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002259static void
2260emit_fragment_epilogue(compiler_context *ctx)
2261{
Alyssa Rosenzweigdff49862019-08-12 12:36:46 -07002262 /* Just emit the last chunk with the branch */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002263 EMIT(alu_br_compact_cond, midgard_jmp_writeout_op_writeout, TAG_ALU_4, -1, midgard_condition_always);
2264}
2265
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002266static midgard_block *
Alyssa Rosenzweigaeeeef12019-08-15 08:11:10 -07002267create_empty_block(compiler_context *ctx)
2268{
2269 midgard_block *blk = rzalloc(ctx, midgard_block);
2270
2271 blk->predecessors = _mesa_set_create(blk,
2272 _mesa_hash_pointer,
2273 _mesa_key_pointer_equal);
2274
Alyssa Rosenzweige3a418f2019-08-15 10:43:56 -07002275 blk->source_id = ctx->block_source_count++;
2276
Alyssa Rosenzweigaeeeef12019-08-15 08:11:10 -07002277 return blk;
2278}
2279
2280static midgard_block *
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002281emit_block(compiler_context *ctx, nir_block *block)
2282{
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002283 midgard_block *this_block = ctx->after_block;
2284 ctx->after_block = NULL;
2285
2286 if (!this_block)
Alyssa Rosenzweigaeeeef12019-08-15 08:11:10 -07002287 this_block = create_empty_block(ctx);
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002288
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002289 list_addtail(&this_block->link, &ctx->blocks);
2290
2291 this_block->is_scheduled = false;
2292 ++ctx->block_count;
2293
2294 ctx->texture_index[0] = -1;
2295 ctx->texture_index[1] = -1;
2296
2297 /* Set up current block */
2298 list_inithead(&this_block->instructions);
2299 ctx->current_block = this_block;
2300
2301 nir_foreach_instr(instr, block) {
2302 emit_instr(ctx, instr);
2303 ++ctx->instruction_count;
2304 }
2305
2306 inline_alu_constants(ctx);
2307 embedded_to_inline_constant(ctx);
2308
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002309 /* Append fragment shader epilogue (value writeout) */
2310 if (ctx->stage == MESA_SHADER_FRAGMENT) {
2311 if (block == nir_impl_last_block(ctx->func->impl)) {
Alyssa Rosenzweig541b3292019-07-01 15:02:40 -07002312 emit_fragment_epilogue(ctx);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002313 }
2314 }
2315
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002316 /* Allow the next control flow to access us retroactively, for
2317 * branching etc */
2318 ctx->current_block = this_block;
2319
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002320 return this_block;
2321}
2322
2323static midgard_block *emit_cf_list(struct compiler_context *ctx, struct exec_list *list);
2324
2325static void
2326emit_if(struct compiler_context *ctx, nir_if *nif)
2327{
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002328 midgard_block *before_block = ctx->current_block;
2329
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002330 /* Conditional branches expect the condition in r31.w; emit a move for
2331 * that in the _previous_ block (which is the current block). */
Alyssa Rosenzweig8b15f8a2019-04-21 00:09:13 +00002332 emit_condition(ctx, &nif->condition, true, COMPONENT_X);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002333
2334 /* Speculatively emit the branch, but we can't fill it in until later */
2335 EMIT(branch, true, true);
2336 midgard_instruction *then_branch = mir_last_in_block(ctx->current_block);
2337
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002338 /* Emit the two subblocks. */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002339 midgard_block *then_block = emit_cf_list(ctx, &nif->then_list);
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002340 midgard_block *end_then_block = ctx->current_block;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002341
2342 /* Emit a jump from the end of the then block to the end of the else */
2343 EMIT(branch, false, false);
2344 midgard_instruction *then_exit = mir_last_in_block(ctx->current_block);
2345
2346 /* Emit second block, and check if it's empty */
2347
2348 int else_idx = ctx->block_count;
2349 int count_in = ctx->instruction_count;
2350 midgard_block *else_block = emit_cf_list(ctx, &nif->else_list);
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002351 midgard_block *end_else_block = ctx->current_block;
Alyssa Rosenzweig2c747092019-02-17 05:14:24 +00002352 int after_else_idx = ctx->block_count;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002353
2354 /* Now that we have the subblocks emitted, fix up the branches */
2355
2356 assert(then_block);
2357 assert(else_block);
2358
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002359 if (ctx->instruction_count == count_in) {
2360 /* The else block is empty, so don't emit an exit jump */
2361 mir_remove_instruction(then_exit);
Alyssa Rosenzweig2c747092019-02-17 05:14:24 +00002362 then_branch->branch.target_block = after_else_idx;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002363 } else {
2364 then_branch->branch.target_block = else_idx;
Alyssa Rosenzweig2c747092019-02-17 05:14:24 +00002365 then_exit->branch.target_block = after_else_idx;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002366 }
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002367
2368 /* Wire up the successors */
2369
Alyssa Rosenzweigaeeeef12019-08-15 08:11:10 -07002370 ctx->after_block = create_empty_block(ctx);
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002371
2372 midgard_block_add_successor(before_block, then_block);
2373 midgard_block_add_successor(before_block, else_block);
2374
2375 midgard_block_add_successor(end_then_block, ctx->after_block);
2376 midgard_block_add_successor(end_else_block, ctx->after_block);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002377}
2378
2379static void
2380emit_loop(struct compiler_context *ctx, nir_loop *nloop)
2381{
2382 /* Remember where we are */
2383 midgard_block *start_block = ctx->current_block;
2384
Alyssa Rosenzweig521ac6e2019-04-21 16:22:44 +00002385 /* Allocate a loop number, growing the current inner loop depth */
2386 int loop_idx = ++ctx->current_loop_depth;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002387
2388 /* Get index from before the body so we can loop back later */
2389 int start_idx = ctx->block_count;
2390
2391 /* Emit the body itself */
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002392 midgard_block *loop_block = emit_cf_list(ctx, &nloop->body);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002393
2394 /* Branch back to loop back */
2395 struct midgard_instruction br_back = v_branch(false, false);
2396 br_back.branch.target_block = start_idx;
2397 emit_mir_instruction(ctx, br_back);
2398
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002399 /* Mark down that branch in the graph. */
2400 midgard_block_add_successor(start_block, loop_block);
2401 midgard_block_add_successor(ctx->current_block, loop_block);
Alyssa Rosenzweigc0fb2602019-04-21 03:29:47 +00002402
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002403 /* Find the index of the block about to follow us (note: we don't add
2404 * one; blocks are 0-indexed so we get a fencepost problem) */
2405 int break_block_idx = ctx->block_count;
2406
2407 /* Fix up the break statements we emitted to point to the right place,
2408 * now that we can allocate a block number for them */
Alyssa Rosenzweigaeeeef12019-08-15 08:11:10 -07002409 ctx->after_block = create_empty_block(ctx);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002410
2411 list_for_each_entry_from(struct midgard_block, block, start_block, &ctx->blocks, link) {
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002412 mir_foreach_instr_in_block(block, ins) {
2413 if (ins->type != TAG_ALU_4) continue;
2414 if (!ins->compact_branch) continue;
2415 if (ins->prepacked_branch) continue;
2416
2417 /* We found a branch -- check the type to see if we need to do anything */
2418 if (ins->branch.target_type != TARGET_BREAK) continue;
2419
2420 /* It's a break! Check if it's our break */
2421 if (ins->branch.target_break != loop_idx) continue;
2422
2423 /* Okay, cool, we're breaking out of this loop.
2424 * Rewrite from a break to a goto */
2425
2426 ins->branch.target_type = TARGET_GOTO;
2427 ins->branch.target_block = break_block_idx;
Alyssa Rosenzweig9aeb7262019-08-02 13:48:27 -07002428
2429 midgard_block_add_successor(block, ctx->after_block);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002430 }
2431 }
Alyssa Rosenzweig521ac6e2019-04-21 16:22:44 +00002432
2433 /* Now that we've finished emitting the loop, free up the depth again
2434 * so we play nice with recursion amid nested loops */
2435 --ctx->current_loop_depth;
Alyssa Rosenzweig7ad65162019-07-09 11:10:49 -07002436
2437 /* Dump loop stats */
2438 ++ctx->loop_count;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002439}
2440
2441static midgard_block *
2442emit_cf_list(struct compiler_context *ctx, struct exec_list *list)
2443{
2444 midgard_block *start_block = NULL;
2445
2446 foreach_list_typed(nir_cf_node, node, node, list) {
2447 switch (node->type) {
2448 case nir_cf_node_block: {
2449 midgard_block *block = emit_block(ctx, nir_cf_node_as_block(node));
2450
2451 if (!start_block)
2452 start_block = block;
2453
2454 break;
2455 }
2456
2457 case nir_cf_node_if:
2458 emit_if(ctx, nir_cf_node_as_if(node));
2459 break;
2460
2461 case nir_cf_node_loop:
2462 emit_loop(ctx, nir_cf_node_as_loop(node));
2463 break;
2464
2465 case nir_cf_node_function:
2466 assert(0);
2467 break;
2468 }
2469 }
2470
2471 return start_block;
2472}
2473
Alyssa Rosenzweig5e55c112019-02-17 03:35:03 +00002474/* Due to lookahead, we need to report the first tag executed in the command
2475 * stream and in branch targets. An initial block might be empty, so iterate
2476 * until we find one that 'works' */
2477
2478static unsigned
2479midgard_get_first_tag_from_block(compiler_context *ctx, unsigned block_idx)
2480{
2481 midgard_block *initial_block = mir_get_block(ctx, block_idx);
2482
2483 unsigned first_tag = 0;
2484
Alyssa Rosenzweig73c40d62019-07-31 15:49:30 -07002485 mir_foreach_block_from(ctx, initial_block, v) {
2486 midgard_bundle *initial_bundle =
2487 util_dynarray_element(&v->bundles, midgard_bundle, 0);
Alyssa Rosenzweig5e55c112019-02-17 03:35:03 +00002488
2489 if (initial_bundle) {
2490 first_tag = initial_bundle->tag;
2491 break;
2492 }
Alyssa Rosenzweig73c40d62019-07-31 15:49:30 -07002493 }
Alyssa Rosenzweig5e55c112019-02-17 03:35:03 +00002494
Alyssa Rosenzweig5e55c112019-02-17 03:35:03 +00002495 return first_tag;
2496}
2497
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002498int
Alyssa Rosenzweig840b8062019-07-23 07:59:00 -07002499midgard_compile_shader_nir(struct midgard_screen *screen, nir_shader *nir, midgard_program *program, bool is_blend)
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002500{
2501 struct util_dynarray *compiled = &program->compiled;
2502
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07002503 midgard_debug = debug_get_option_midgard_debug();
Tomeu Vizosof0b1bbe2019-03-08 15:04:50 +01002504
Alyssa Rosenzweig4fa09322019-08-15 08:10:46 -07002505 /* TODO: Bound against what? */
2506 compiler_context *ctx = rzalloc(NULL, compiler_context);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002507
Alyssa Rosenzweig4fa09322019-08-15 08:10:46 -07002508 ctx->nir = nir;
2509 ctx->screen = screen;
2510 ctx->stage = nir->info.stage;
2511 ctx->is_blend = is_blend;
2512 ctx->alpha_ref = program->alpha_ref;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002513
Alyssa Rosenzweig3174bc92019-07-16 14:10:08 -07002514 /* Start off with a safe cutoff, allowing usage of all 16 work
2515 * registers. Later, we'll promote uniform reads to uniform registers
2516 * if we determine it is beneficial to do so */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002517 ctx->uniform_cutoff = 8;
2518
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002519 /* Initialize at a global (not block) level hash tables */
2520
2521 ctx->ssa_constants = _mesa_hash_table_u64_create(NULL);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002522 ctx->hash_to_temp = _mesa_hash_table_u64_create(NULL);
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00002523 ctx->sysval_to_id = _mesa_hash_table_u64_create(NULL);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002524
Alyssa Rosenzweigb98955e2019-03-15 23:25:55 +00002525 /* Record the varying mapping for the command stream's bookkeeping */
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002526
Alyssa Rosenzweigb98955e2019-03-15 23:25:55 +00002527 struct exec_list *varyings =
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07002528 ctx->stage == MESA_SHADER_VERTEX ? &nir->outputs : &nir->inputs;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002529
Alyssa Rosenzweigde8d49a2019-06-06 09:15:26 -07002530 unsigned max_varying = 0;
Alyssa Rosenzweigb98955e2019-03-15 23:25:55 +00002531 nir_foreach_variable(var, varyings) {
2532 unsigned loc = var->data.driver_location;
Alyssa Rosenzweig1f7b3882019-04-20 23:39:29 +00002533 unsigned sz = glsl_type_size(var->type, FALSE);
2534
Boris Brezillon749c5442019-06-13 14:56:02 +02002535 for (int c = 0; c < sz; ++c) {
2536 program->varyings[loc + c] = var->data.location + c;
2537 max_varying = MAX2(max_varying, loc + c);
Alyssa Rosenzweig1f7b3882019-04-20 23:39:29 +00002538 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002539 }
2540
Alyssa Rosenzweigde8d49a2019-06-06 09:15:26 -07002541 /* Lower gl_Position pre-optimisation, but after lowering vars to ssa
2542 * (so we don't accidentally duplicate the epilogue since mesa/st has
2543 * messed with our I/O quite a bit already) */
2544
2545 NIR_PASS_V(nir, nir_lower_vars_to_ssa);
Alyssa Rosenzweig1e2cb3e2019-04-07 16:37:28 +00002546
Alyssa Rosenzweigbb483a92019-07-10 11:30:00 -07002547 if (ctx->stage == MESA_SHADER_VERTEX) {
Alyssa Rosenzweig1e2cb3e2019-04-07 16:37:28 +00002548 NIR_PASS_V(nir, nir_lower_viewport_transform);
Alyssa Rosenzweigbb483a92019-07-10 11:30:00 -07002549 NIR_PASS_V(nir, nir_clamp_psiz, 1.0, 1024.0);
2550 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002551
2552 NIR_PASS_V(nir, nir_lower_var_copies);
2553 NIR_PASS_V(nir, nir_lower_vars_to_ssa);
2554 NIR_PASS_V(nir, nir_split_var_copies);
2555 NIR_PASS_V(nir, nir_lower_var_copies);
2556 NIR_PASS_V(nir, nir_lower_global_vars_to_local);
2557 NIR_PASS_V(nir, nir_lower_var_copies);
2558 NIR_PASS_V(nir, nir_lower_vars_to_ssa);
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00002559
Eric Anholt771adff2019-04-08 16:32:01 -07002560 NIR_PASS_V(nir, nir_lower_io, nir_var_all, glsl_type_size, 0);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002561
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002562 /* Optimisation passes */
2563
2564 optimise_nir(nir);
2565
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07002566 if (midgard_debug & MIDGARD_DBG_SHADERS) {
2567 nir_print_shader(nir, stdout);
2568 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002569
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00002570 /* Assign sysvals and counts, now that we're sure
2571 * (post-optimisation) */
2572
2573 midgard_nir_assign_sysvals(ctx, nir);
2574
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002575 program->uniform_count = nir->num_uniforms;
Alyssa Rosenzweig7e8de5a2019-04-03 01:48:09 +00002576 program->sysval_count = ctx->sysval_count;
2577 memcpy(program->sysvals, ctx->sysvals, sizeof(ctx->sysvals[0]) * ctx->sysval_count);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002578
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002579 nir_foreach_function(func, nir) {
2580 if (!func->impl)
2581 continue;
2582
2583 list_inithead(&ctx->blocks);
2584 ctx->block_count = 0;
2585 ctx->func = func;
2586
2587 emit_cf_list(ctx, &func->impl->body);
Alyssa Rosenzweigb4b2e112019-08-15 08:23:48 -07002588
2589 /* Emit empty exit block with successor */
2590
2591 struct midgard_block *semi_end = ctx->current_block;
2592
2593 struct midgard_block *end =
2594 emit_block(ctx, func->impl->end_block);
2595
2596 midgard_block_add_successor(semi_end, end);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002597
2598 break; /* TODO: Multi-function shaders */
2599 }
2600
2601 util_dynarray_init(compiled, NULL);
2602
Alyssa Rosenzweig4d995e02019-04-22 04:58:53 +00002603 /* MIR-level optimizations */
Alyssa Rosenzweig84f09ff2019-04-21 16:11:11 +00002604
Alyssa Rosenzweig4d995e02019-04-22 04:58:53 +00002605 bool progress = false;
2606
2607 do {
2608 progress = false;
2609
2610 mir_foreach_block(ctx, block) {
Alyssa Rosenzweig4a03d372019-05-23 03:01:32 +00002611 progress |= midgard_opt_pos_propagate(ctx, block);
Alyssa Rosenzweig4d995e02019-04-22 04:58:53 +00002612 progress |= midgard_opt_copy_prop(ctx, block);
2613 progress |= midgard_opt_dead_code_eliminate(ctx, block);
Alyssa Rosenzweig9ce75822019-07-24 15:37:24 -07002614 progress |= midgard_opt_combine_projection(ctx, block);
2615 progress |= midgard_opt_varying_projection(ctx, block);
Alyssa Rosenzweig620c2712019-07-26 13:14:55 -07002616 progress |= midgard_opt_not_propagate(ctx, block);
Alyssa Rosenzweigd066ca352019-07-26 13:32:54 -07002617 progress |= midgard_opt_fuse_src_invert(ctx, block);
Alyssa Rosenzweigb821e1b2019-07-26 13:08:54 -07002618 progress |= midgard_opt_fuse_dest_invert(ctx, block);
Alyssa Rosenzweig4d995e02019-04-22 04:58:53 +00002619 }
2620 } while (progress);
Alyssa Rosenzweig84f09ff2019-04-21 16:11:11 +00002621
Alyssa Rosenzweig159abd52019-07-26 11:15:31 -07002622 mir_foreach_block(ctx, block) {
2623 midgard_lower_invert(ctx, block);
Alyssa Rosenzweig8f887322019-07-29 15:11:12 -07002624 midgard_lower_derivatives(ctx, block);
Alyssa Rosenzweig159abd52019-07-26 11:15:31 -07002625 }
2626
Alyssa Rosenzweigae20bee2019-06-06 11:19:13 -07002627 /* Nested control-flow can result in dead branches at the end of the
2628 * block. This messes with our analysis and is just dead code, so cull
2629 * them */
2630 mir_foreach_block(ctx, block) {
2631 midgard_opt_cull_dead_branch(ctx, block);
2632 }
2633
Alyssa Rosenzweig159abd52019-07-26 11:15:31 -07002634 /* Ensure we were lowered */
2635 mir_foreach_instr_global(ctx, ins) {
2636 assert(!ins->invert);
2637 }
2638
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002639 /* Schedule! */
2640 schedule_program(ctx);
2641
2642 /* Now that all the bundles are scheduled and we can calculate block
2643 * sizes, emit actual branch instructions rather than placeholders */
2644
2645 int br_block_idx = 0;
2646
2647 mir_foreach_block(ctx, block) {
2648 util_dynarray_foreach(&block->bundles, midgard_bundle, bundle) {
2649 for (int c = 0; c < bundle->instruction_count; ++c) {
Alyssa Rosenzweig3c7abbf2019-05-22 04:33:21 +00002650 midgard_instruction *ins = bundle->instructions[c];
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002651
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +00002652 if (!midgard_is_branch_unit(ins->unit)) continue;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002653
2654 if (ins->prepacked_branch) continue;
2655
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002656 /* Parse some basic branch info */
2657 bool is_compact = ins->unit == ALU_ENAB_BR_COMPACT;
2658 bool is_conditional = ins->branch.conditional;
2659 bool is_inverted = ins->branch.invert_conditional;
2660 bool is_discard = ins->branch.target_type == TARGET_DISCARD;
2661
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002662 /* Determine the block we're jumping to */
2663 int target_number = ins->branch.target_block;
2664
Alyssa Rosenzweig3c7abbf2019-05-22 04:33:21 +00002665 /* Report the destination tag */
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002666 int dest_tag = is_discard ? 0 : midgard_get_first_tag_from_block(ctx, target_number);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002667
Alyssa Rosenzweig3c7abbf2019-05-22 04:33:21 +00002668 /* Count up the number of quadwords we're
2669 * jumping over = number of quadwords until
2670 * (br_block_idx, target_number) */
2671
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002672 int quadword_offset = 0;
2673
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002674 if (is_discard) {
Alyssa Rosenzweig7f75b2b2019-07-30 17:07:25 -07002675 /* Ignored */
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002676 } else if (target_number > br_block_idx) {
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002677 /* Jump forward */
2678
2679 for (int idx = br_block_idx + 1; idx < target_number; ++idx) {
2680 midgard_block *blk = mir_get_block(ctx, idx);
2681 assert(blk);
2682
2683 quadword_offset += blk->quadword_count;
2684 }
2685 } else {
2686 /* Jump backwards */
2687
2688 for (int idx = br_block_idx; idx >= target_number; --idx) {
2689 midgard_block *blk = mir_get_block(ctx, idx);
2690 assert(blk);
2691
2692 quadword_offset -= blk->quadword_count;
2693 }
2694 }
2695
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +00002696 /* Unconditional extended branches (far jumps)
2697 * have issues, so we always use a conditional
2698 * branch, setting the condition to always for
2699 * unconditional. For compact unconditional
2700 * branches, cond isn't used so it doesn't
2701 * matter what we pick. */
2702
2703 midgard_condition cond =
2704 !is_conditional ? midgard_condition_always :
2705 is_inverted ? midgard_condition_false :
2706 midgard_condition_true;
2707
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002708 midgard_jmp_writeout_op op =
2709 is_discard ? midgard_jmp_writeout_op_discard :
2710 (is_compact && !is_conditional) ? midgard_jmp_writeout_op_branch_uncond :
2711 midgard_jmp_writeout_op_branch_cond;
2712
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +00002713 if (!is_compact) {
2714 midgard_branch_extended branch =
2715 midgard_create_branch_extended(
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002716 cond, op,
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +00002717 dest_tag,
2718 quadword_offset);
2719
2720 memcpy(&ins->branch_extended, &branch, sizeof(branch));
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002721 } else if (is_conditional || is_discard) {
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002722 midgard_branch_cond branch = {
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002723 .op = op,
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002724 .dest_tag = dest_tag,
2725 .offset = quadword_offset,
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +00002726 .cond = cond
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002727 };
2728
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +00002729 assert(branch.offset == quadword_offset);
2730
2731 memcpy(&ins->br_compact, &branch, sizeof(branch));
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002732 } else {
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002733 assert(op == midgard_jmp_writeout_op_branch_uncond);
2734
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002735 midgard_branch_uncond branch = {
Alyssa Rosenzweig779e1402019-02-17 23:24:39 +00002736 .op = op,
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002737 .dest_tag = dest_tag,
2738 .offset = quadword_offset,
2739 .unknown = 1
2740 };
2741
Alyssa Rosenzweig5abb7b52019-02-17 22:09:09 +00002742 assert(branch.offset == quadword_offset);
2743
2744 memcpy(&ins->br_compact, &branch, sizeof(branch));
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002745 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002746 }
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002747 }
2748
2749 ++br_block_idx;
2750 }
2751
2752 /* Emit flat binary from the instruction arrays. Iterate each block in
2753 * sequence. Save instruction boundaries such that lookahead tags can
2754 * be assigned easily */
2755
2756 /* Cache _all_ bundles in source order for lookahead across failed branches */
2757
2758 int bundle_count = 0;
2759 mir_foreach_block(ctx, block) {
2760 bundle_count += block->bundles.size / sizeof(midgard_bundle);
2761 }
2762 midgard_bundle **source_order_bundles = malloc(sizeof(midgard_bundle *) * bundle_count);
2763 int bundle_idx = 0;
2764 mir_foreach_block(ctx, block) {
2765 util_dynarray_foreach(&block->bundles, midgard_bundle, bundle) {
2766 source_order_bundles[bundle_idx++] = bundle;
2767 }
2768 }
2769
2770 int current_bundle = 0;
2771
Alyssa Rosenzweig2a79afc2019-05-23 01:56:03 +00002772 /* Midgard prefetches instruction types, so during emission we
2773 * need to lookahead. Unless this is the last instruction, in
2774 * which we return 1. Or if this is the second to last and the
2775 * last is an ALU, then it's also 1... */
2776
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002777 mir_foreach_block(ctx, block) {
Alyssa Rosenzweigd3ad8d62019-06-06 11:19:44 -07002778 mir_foreach_bundle_in_block(block, bundle) {
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002779 int lookahead = 1;
2780
2781 if (current_bundle + 1 < bundle_count) {
2782 uint8_t next = source_order_bundles[current_bundle + 1]->tag;
2783
2784 if (!(current_bundle + 2 < bundle_count) && IS_ALU(next)) {
2785 lookahead = 1;
2786 } else {
2787 lookahead = next;
2788 }
2789 }
2790
2791 emit_binary_bundle(ctx, bundle, compiled, lookahead);
2792 ++current_bundle;
2793 }
2794
2795 /* TODO: Free deeper */
2796 //util_dynarray_fini(&block->instructions);
2797 }
2798
2799 free(source_order_bundles);
2800
Alyssa Rosenzweig5e55c112019-02-17 03:35:03 +00002801 /* Report the very first tag executed */
2802 program->first_tag = midgard_get_first_tag_from_block(ctx, 0);
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002803
2804 /* Deal with off-by-one related to the fencepost problem */
2805 program->work_register_count = ctx->work_registers + 1;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002806 program->uniform_cutoff = ctx->uniform_cutoff;
2807
2808 program->blend_patch_offset = ctx->blend_constant_offset;
Alyssa Rosenzweigf0d00612019-07-19 16:23:52 -07002809 program->tls_size = ctx->tls_size;
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002810
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07002811 if (midgard_debug & MIDGARD_DBG_SHADERS)
Alyssa Rosenzweigc4a4f3d2019-08-14 09:19:54 -07002812 disassemble_midgard(program->compiled.data, program->compiled.size, false, 0, "");
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002813
Alyssa Rosenzweig138e40d2019-07-08 16:42:29 -07002814 if (midgard_debug & MIDGARD_DBG_SHADERDB) {
Alyssa Rosenzweig2d739f62019-07-09 11:16:57 -07002815 unsigned nr_bundles = 0, nr_ins = 0, nr_quadwords = 0;
Alyssa Rosenzweig138e40d2019-07-08 16:42:29 -07002816
2817 /* Count instructions and bundles */
2818
2819 mir_foreach_instr_global(ctx, ins) {
2820 nr_ins++;
2821 }
2822
2823 mir_foreach_block(ctx, block) {
2824 nr_bundles += util_dynarray_num_elements(
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07002825 &block->bundles, midgard_bundle);
Alyssa Rosenzweig2d739f62019-07-09 11:16:57 -07002826
2827 nr_quadwords += block->quadword_count;
Alyssa Rosenzweig138e40d2019-07-08 16:42:29 -07002828 }
2829
2830 /* Calculate thread count. There are certain cutoffs by
2831 * register count for thread count */
2832
2833 unsigned nr_registers = program->work_register_count;
2834
2835 unsigned nr_threads =
2836 (nr_registers <= 4) ? 4 :
2837 (nr_registers <= 8) ? 2 :
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07002838 1;
Alyssa Rosenzweig138e40d2019-07-08 16:42:29 -07002839
2840 /* Dump stats */
2841
2842 fprintf(stderr, "shader%d - %s shader: "
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07002843 "%u inst, %u bundles, %u quadwords, "
Alyssa Rosenzweige8dca7e2019-07-22 06:32:48 -07002844 "%u registers, %u threads, %u loops, "
2845 "%d:%d spills:fills\n",
Alyssa Rosenzweige4bd6fb2019-07-10 10:00:50 -07002846 SHADER_DB_COUNT++,
2847 gl_shader_stage_name(ctx->stage),
2848 nr_ins, nr_bundles, nr_quadwords,
2849 nr_registers, nr_threads,
Alyssa Rosenzweige8dca7e2019-07-22 06:32:48 -07002850 ctx->loop_count,
2851 ctx->spills, ctx->fills);
Alyssa Rosenzweig138e40d2019-07-08 16:42:29 -07002852 }
2853
Alyssa Rosenzweig4fa09322019-08-15 08:10:46 -07002854 ralloc_free(ctx);
Alyssa Rosenzweig138e40d2019-07-08 16:42:29 -07002855
Alyssa Rosenzweige67e0722019-01-30 01:11:31 +00002856 return 0;
2857}