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i965/fs: Lower 32x32 bit multiplication on BXT.
[mesa.git] / src / mesa / drivers / dri / i965 / brw_vec4_vs_visitor.cpp
1 /*
2 * Copyright © 2013 Intel Corporation
3 *
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
20 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
21 * DEALINGS IN THE SOFTWARE.
22 */
23
24
25 #include "brw_vs.h"
26
27
28 namespace brw {
29
30 void
31 vec4_vs_visitor::emit_prolog()
32 {
33 dst_reg sign_recovery_shift;
34 dst_reg normalize_factor;
35 dst_reg es3_normalize_factor;
36
37 for (int i = 0; i < VERT_ATTRIB_MAX; i++) {
38 if (vs_prog_data->inputs_read & BITFIELD64_BIT(i)) {
39 uint8_t wa_flags = key->gl_attrib_wa_flags[i];
40 dst_reg reg(ATTR, i);
41 dst_reg reg_d = reg;
42 reg_d.type = BRW_REGISTER_TYPE_D;
43 dst_reg reg_ud = reg;
44 reg_ud.type = BRW_REGISTER_TYPE_UD;
45
46 /* Do GL_FIXED rescaling for GLES2.0. Our GL_FIXED attributes
47 * come in as floating point conversions of the integer values.
48 */
49 if (wa_flags & BRW_ATTRIB_WA_COMPONENT_MASK) {
50 dst_reg dst = reg;
51 dst.type = brw_type_for_base_type(glsl_type::vec4_type);
52 dst.writemask = (1 << (wa_flags & BRW_ATTRIB_WA_COMPONENT_MASK)) - 1;
53 emit(MUL(dst, src_reg(dst), src_reg(1.0f / 65536.0f)));
54 }
55
56 /* Do sign recovery for 2101010 formats if required. */
57 if (wa_flags & BRW_ATTRIB_WA_SIGN) {
58 if (sign_recovery_shift.file == BAD_FILE) {
59 /* shift constant: <22,22,22,30> */
60 sign_recovery_shift = dst_reg(this, glsl_type::uvec4_type);
61 emit(MOV(writemask(sign_recovery_shift, WRITEMASK_XYZ), src_reg(22u)));
62 emit(MOV(writemask(sign_recovery_shift, WRITEMASK_W), src_reg(30u)));
63 }
64
65 emit(SHL(reg_ud, src_reg(reg_ud), src_reg(sign_recovery_shift)));
66 emit(ASR(reg_d, src_reg(reg_d), src_reg(sign_recovery_shift)));
67 }
68
69 /* Apply BGRA swizzle if required. */
70 if (wa_flags & BRW_ATTRIB_WA_BGRA) {
71 src_reg temp = src_reg(reg);
72 temp.swizzle = BRW_SWIZZLE4(2,1,0,3);
73 emit(MOV(reg, temp));
74 }
75
76 if (wa_flags & BRW_ATTRIB_WA_NORMALIZE) {
77 /* ES 3.0 has different rules for converting signed normalized
78 * fixed-point numbers than desktop GL.
79 */
80 if ((wa_flags & BRW_ATTRIB_WA_SIGN) && !use_legacy_snorm_formula) {
81 /* According to equation 2.2 of the ES 3.0 specification,
82 * signed normalization conversion is done by:
83 *
84 * f = c / (2^(b-1)-1)
85 */
86 if (es3_normalize_factor.file == BAD_FILE) {
87 /* mul constant: 1 / (2^(b-1) - 1) */
88 es3_normalize_factor = dst_reg(this, glsl_type::vec4_type);
89 emit(MOV(writemask(es3_normalize_factor, WRITEMASK_XYZ),
90 src_reg(1.0f / ((1<<9) - 1))));
91 emit(MOV(writemask(es3_normalize_factor, WRITEMASK_W),
92 src_reg(1.0f / ((1<<1) - 1))));
93 }
94
95 dst_reg dst = reg;
96 dst.type = brw_type_for_base_type(glsl_type::vec4_type);
97 emit(MOV(dst, src_reg(reg_d)));
98 emit(MUL(dst, src_reg(dst), src_reg(es3_normalize_factor)));
99 emit_minmax(BRW_CONDITIONAL_GE, dst, src_reg(dst), src_reg(-1.0f));
100 } else {
101 /* The following equations are from the OpenGL 3.2 specification:
102 *
103 * 2.1 unsigned normalization
104 * f = c/(2^n-1)
105 *
106 * 2.2 signed normalization
107 * f = (2c+1)/(2^n-1)
108 *
109 * Both of these share a common divisor, which is represented by
110 * "normalize_factor" in the code below.
111 */
112 if (normalize_factor.file == BAD_FILE) {
113 /* 1 / (2^b - 1) for b=<10,10,10,2> */
114 normalize_factor = dst_reg(this, glsl_type::vec4_type);
115 emit(MOV(writemask(normalize_factor, WRITEMASK_XYZ),
116 src_reg(1.0f / ((1<<10) - 1))));
117 emit(MOV(writemask(normalize_factor, WRITEMASK_W),
118 src_reg(1.0f / ((1<<2) - 1))));
119 }
120
121 dst_reg dst = reg;
122 dst.type = brw_type_for_base_type(glsl_type::vec4_type);
123 emit(MOV(dst, src_reg((wa_flags & BRW_ATTRIB_WA_SIGN) ? reg_d : reg_ud)));
124
125 /* For signed normalization, we want the numerator to be 2c+1. */
126 if (wa_flags & BRW_ATTRIB_WA_SIGN) {
127 emit(MUL(dst, src_reg(dst), src_reg(2.0f)));
128 emit(ADD(dst, src_reg(dst), src_reg(1.0f)));
129 }
130
131 emit(MUL(dst, src_reg(dst), src_reg(normalize_factor)));
132 }
133 }
134
135 if (wa_flags & BRW_ATTRIB_WA_SCALE) {
136 dst_reg dst = reg;
137 dst.type = brw_type_for_base_type(glsl_type::vec4_type);
138 emit(MOV(dst, src_reg((wa_flags & BRW_ATTRIB_WA_SIGN) ? reg_d : reg_ud)));
139 }
140 }
141 }
142 }
143
144
145 dst_reg *
146 vec4_vs_visitor::make_reg_for_system_value(int location,
147 const glsl_type *type)
148 {
149 /* VertexID is stored by the VF as the last vertex element, but
150 * we don't represent it with a flag in inputs_read, so we call
151 * it VERT_ATTRIB_MAX, which setup_attributes() picks up on.
152 */
153 dst_reg *reg = new(mem_ctx) dst_reg(ATTR, VERT_ATTRIB_MAX);
154
155 switch (location) {
156 case SYSTEM_VALUE_BASE_VERTEX:
157 reg->writemask = WRITEMASK_X;
158 vs_prog_data->uses_vertexid = true;
159 break;
160 case SYSTEM_VALUE_VERTEX_ID:
161 case SYSTEM_VALUE_VERTEX_ID_ZERO_BASE:
162 reg->writemask = WRITEMASK_Z;
163 vs_prog_data->uses_vertexid = true;
164 break;
165 case SYSTEM_VALUE_INSTANCE_ID:
166 reg->writemask = WRITEMASK_W;
167 vs_prog_data->uses_instanceid = true;
168 break;
169 default:
170 unreachable("not reached");
171 }
172
173 return reg;
174 }
175
176
177 void
178 vec4_vs_visitor::emit_urb_write_header(int mrf)
179 {
180 /* No need to do anything for VS; an implied write to this MRF will be
181 * performed by VS_OPCODE_URB_WRITE.
182 */
183 (void) mrf;
184 }
185
186
187 vec4_instruction *
188 vec4_vs_visitor::emit_urb_write_opcode(bool complete)
189 {
190 /* For VS, the URB writes end the thread. */
191 if (complete) {
192 if (INTEL_DEBUG & DEBUG_SHADER_TIME)
193 emit_shader_time_end();
194 }
195
196 vec4_instruction *inst = emit(VS_OPCODE_URB_WRITE);
197 inst->urb_write_flags = complete ?
198 BRW_URB_WRITE_EOT_COMPLETE : BRW_URB_WRITE_NO_FLAGS;
199
200 return inst;
201 }
202
203
204 void
205 vec4_vs_visitor::emit_thread_end()
206 {
207 /* For VS, we always end the thread by emitting a single vertex.
208 * emit_urb_write_opcode() will take care of setting the eot flag on the
209 * SEND instruction.
210 */
211 emit_vertex();
212 }
213
214
215 vec4_vs_visitor::vec4_vs_visitor(const struct brw_compiler *compiler,
216 void *log_data,
217 const struct brw_vs_prog_key *key,
218 struct brw_vs_prog_data *vs_prog_data,
219 struct gl_vertex_program *vp,
220 struct gl_shader_program *prog,
221 void *mem_ctx,
222 int shader_time_index,
223 bool use_legacy_snorm_formula)
224 : vec4_visitor(compiler, log_data,
225 &vp->Base, &key->base, &vs_prog_data->base, prog,
226 MESA_SHADER_VERTEX,
227 mem_ctx, false /* no_spills */,
228 shader_time_index),
229 key(key),
230 vs_prog_data(vs_prog_data),
231 vp(vp),
232 use_legacy_snorm_formula(use_legacy_snorm_formula)
233 {
234 }
235
236
237 } /* namespace brw */