1 /* -*- mesa-c++ -*-
2 *
3 * Copyright (c) 2019 Collabora LTD
4 *
5 * Author: Gert Wollny <gert.wollny@collabora.com>
6 *
7 * Permission is hereby granted, free of charge, to any person obtaining a
8 * copy of this software and associated documentation files (the "Software"),
9 * to deal in the Software without restriction, including without limitation
10 * on the rights to use, copy, modify, merge, publish, distribute, sub
11 * license, and/or sell copies of the Software, and to permit persons to whom
12 * the Software is furnished to do so, subject to the following conditions:
13 *
14 * The above copyright notice and this permission notice (including the next
15 * paragraph) shall be included in all copies or substantial portions of the
16 * Software.
17 *
18 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
19 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
20 * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
21 * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM,
22 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
23 * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
24 * USE OR OTHER DEALINGS IN THE SOFTWARE.
25 */
26
27
28 #include "sfn_instruction_export.h"
29 #include "sfn_liverange.h"
30 #include "sfn_valuepool.h"
31
32 namespace r600 {
33
WriteoutInstruction(instr_type t,const GPRVector & value)34 WriteoutInstruction::WriteoutInstruction(instr_type t, const GPRVector& value):
35 Instruction(t),
36 m_value(value)
37 {
38 add_remappable_src_value(&m_value);
39 }
40
replace_values(const ValueSet & candiates,PValue new_value)41 void WriteoutInstruction::replace_values(const ValueSet& candiates, PValue new_value)
42 {
43 // I wonder whether we can actually end up here ...
44 for (auto c: candiates) {
45 if (*c == *m_value.reg_i(c->chan()))
46 m_value.set_reg_i(c->chan(), new_value);
47 }
48
49 replace_values_child(candiates, new_value);
50 }
51
replace_values_child(UNUSED const ValueSet & candiates,UNUSED PValue new_value)52 void WriteoutInstruction::replace_values_child(UNUSED const ValueSet& candiates,
53 UNUSED PValue new_value)
54 {
55 }
56
remap_registers_child(UNUSED std::vector<rename_reg_pair> & map,UNUSED ValueMap & values)57 void WriteoutInstruction::remap_registers_child(UNUSED std::vector<rename_reg_pair>& map,
58 UNUSED ValueMap& values)
59 {
60 }
61
ExportInstruction(unsigned loc,const GPRVector & value,ExportType type)62 ExportInstruction::ExportInstruction(unsigned loc, const GPRVector &value, ExportType type):
63 WriteoutInstruction(Instruction::exprt, value),
64 m_type(type),
65 m_loc(loc),
66 m_is_last(false)
67 {
68 }
69
70
is_equal_to(const Instruction & lhs) const71 bool ExportInstruction::is_equal_to(const Instruction& lhs) const
72 {
73 assert(lhs.type() == exprt);
74 const auto& oth = static_cast<const ExportInstruction&>(lhs);
75
76 return (gpr() == oth.gpr()) &&
77 (m_type == oth.m_type) &&
78 (m_loc == oth.m_loc) &&
79 (m_is_last == oth.m_is_last);
80 }
81
do_print(std::ostream & os) const82 void ExportInstruction::do_print(std::ostream& os) const
83 {
84 os << (m_is_last ? "EXPORT_DONE ":"EXPORT ");
85 switch (m_type) {
86 case et_pixel: os << "PIXEL "; break;
87 case et_pos: os << "POS "; break;
88 case et_param: os << "PARAM "; break;
89 }
90 os << m_loc << " " << gpr();
91 }
92
update_output_map(OutputRegisterMap & map) const93 void ExportInstruction::update_output_map(OutputRegisterMap& map) const
94 {
95 map[m_loc] = gpr_ptr();
96 }
97
set_last()98 void ExportInstruction::set_last()
99 {
100 m_is_last = true;
101 }
102
WriteScratchInstruction(unsigned loc,const GPRVector & value,int align,int align_offset,int writemask)103 WriteScratchInstruction::WriteScratchInstruction(unsigned loc, const GPRVector& value,
104 int align, int align_offset, int writemask):
105 WriteoutInstruction (Instruction::mem_wr_scratch, value),
106 m_loc(loc),
107 m_align(align),
108 m_align_offset(align_offset),
109 m_writemask(writemask),
110 m_array_size(0)
111 {
112 }
113
WriteScratchInstruction(const PValue & address,const GPRVector & value,int align,int align_offset,int writemask,int array_size)114 WriteScratchInstruction::WriteScratchInstruction(const PValue& address, const GPRVector& value,
115 int align, int align_offset, int writemask, int array_size):
116 WriteoutInstruction (Instruction::mem_wr_scratch, value),
117 m_loc(0),
118 m_address(address),
119 m_align(align),
120 m_align_offset(align_offset),
121 m_writemask(writemask),
122 m_array_size(array_size - 1)
123 {
124 add_remappable_src_value(&m_address);
125 }
126
is_equal_to(const Instruction & lhs) const127 bool WriteScratchInstruction::is_equal_to(const Instruction& lhs) const
128 {
129 if (lhs.type() != Instruction::mem_wr_scratch)
130 return false;
131 const auto& other = static_cast<const WriteScratchInstruction&>(lhs);
132
133 if (m_address) {
134 if (!other.m_address)
135 return false;
136 if (*m_address != *other.m_address)
137 return false;
138 } else {
139 if (other.m_address)
140 return false;
141 }
142
143 return gpr() == other.gpr() &&
144 m_loc == other.m_loc &&
145 m_align == other.m_align &&
146 m_align_offset == other.m_align_offset &&
147 m_writemask == other.m_writemask;
148 }
149
writemask_to_swizzle(int writemask,char * buf)150 static char *writemask_to_swizzle(int writemask, char *buf)
151 {
152 const char *swz = "xyzw";
153 for (int i = 0; i < 4; ++i) {
154 buf[i] = (writemask & (1 << i)) ? swz[i] : '_';
155 }
156 return buf;
157 }
158
do_print(std::ostream & os) const159 void WriteScratchInstruction::do_print(std::ostream& os) const
160 {
161 char buf[5];
162
163 os << "MEM_SCRATCH_WRITE ";
164 if (m_address)
165 os << "@" << *m_address << "+";
166
167 os << m_loc << "." << writemask_to_swizzle(m_writemask, buf)
168 << " " << gpr() << " AL:" << m_align << " ALO:" << m_align_offset;
169 }
170
replace_values_child(const ValueSet & candiates,PValue new_value)171 void WriteScratchInstruction::replace_values_child(const ValueSet& candiates, PValue new_value)
172 {
173 if (!m_address)
174 return;
175
176 for (auto c: candiates) {
177 if (*c == *m_address)
178 m_address = new_value;
179 }
180 }
181
remap_registers_child(std::vector<rename_reg_pair> & map,ValueMap & values)182 void WriteScratchInstruction::remap_registers_child(std::vector<rename_reg_pair>& map,
183 ValueMap& values)
184 {
185 if (!m_address)
186 return;
187 sfn_log << SfnLog::merge << "Remap " << *m_address << " of type " << m_address->type() << "\n";
188 assert(m_address->type() == Value::gpr);
189 auto new_index = map[m_address->sel()];
190 if (new_index.valid)
191 m_address = values.get_or_inject(new_index.new_reg, m_address->chan());
192 map[m_address->sel()].used = true;
193 }
194
StreamOutIntruction(const GPRVector & value,int num_components,int array_base,int comp_mask,int out_buffer,int stream)195 StreamOutIntruction::StreamOutIntruction(const GPRVector& value, int num_components,
196 int array_base, int comp_mask, int out_buffer,
197 int stream):
198 WriteoutInstruction(Instruction::streamout, value),
199 m_element_size(num_components == 3 ? 3 : num_components - 1),
200 m_burst_count(1),
201 m_array_base(array_base),
202 m_array_size(0xfff),
203 m_writemask(comp_mask),
204 m_output_buffer(out_buffer),
205 m_stream(stream)
206 {
207 }
208
op() const209 unsigned StreamOutIntruction::op() const
210 {
211 int op = 0;
212 switch (m_output_buffer) {
213 case 0: op = CF_OP_MEM_STREAM0_BUF0; break;
214 case 1: op = CF_OP_MEM_STREAM0_BUF1; break;
215 case 2: op = CF_OP_MEM_STREAM0_BUF2; break;
216 case 3: op = CF_OP_MEM_STREAM0_BUF3; break;
217 }
218 return 4 * m_stream + op;
219 }
220
is_equal_to(const Instruction & lhs) const221 bool StreamOutIntruction::is_equal_to(const Instruction& lhs) const
222 {
223 assert(lhs.type() == streamout);
224 const auto& oth = static_cast<const StreamOutIntruction&>(lhs);
225
226 return gpr() == oth.gpr() &&
227 m_element_size == oth.m_element_size &&
228 m_burst_count == oth.m_burst_count &&
229 m_array_base == oth.m_array_base &&
230 m_array_size == oth.m_array_size &&
231 m_writemask == oth.m_writemask &&
232 m_output_buffer == oth.m_output_buffer &&
233 m_stream == oth.m_stream;
234 }
235
do_print(std::ostream & os) const236 void StreamOutIntruction::do_print(std::ostream& os) const
237 {
238 os << "WRITE STREAM(" << m_stream << ") " << gpr()
239 << " ES:" << m_element_size
240 << " BC:" << m_burst_count
241 << " BUF:" << m_output_buffer
242 << " ARRAY:" << m_array_base;
243 if (m_array_size != 0xfff)
244 os << "+" << m_array_size;
245 }
246
MemRingOutIntruction(ECFOpCode ring,EMemWriteType type,const GPRVector & value,unsigned base_addr,unsigned ncomp,PValue index)247 MemRingOutIntruction::MemRingOutIntruction(ECFOpCode ring, EMemWriteType type,
248 const GPRVector& value,
249 unsigned base_addr, unsigned ncomp,
250 PValue index):
251 WriteoutInstruction(Instruction::ring, value),
252 m_ring_op(ring),
253 m_type(type),
254 m_base_address(base_addr),
255 m_num_comp(ncomp),
256 m_index(index)
257 {
258 add_remappable_src_value(&m_index);
259
260 assert(m_ring_op == cf_mem_ring || m_ring_op == cf_mem_ring1||
261 m_ring_op == cf_mem_ring2 || m_ring_op == cf_mem_ring3);
262 assert(m_num_comp <= 4);
263 }
264
ncomp() const265 unsigned MemRingOutIntruction::ncomp() const
266 {
267 switch (m_num_comp) {
268 case 1: return 0;
269 case 2: return 1;
270 case 3:
271 case 4: return 3;
272 default:
273 assert(0);
274 }
275 return 3;
276 }
277
is_equal_to(const Instruction & lhs) const278 bool MemRingOutIntruction::is_equal_to(const Instruction& lhs) const
279 {
280 assert(lhs.type() == streamout);
281 const auto& oth = static_cast<const MemRingOutIntruction&>(lhs);
282
283 bool equal = gpr() == oth.gpr() &&
284 m_ring_op == oth.m_ring_op &&
285 m_type == oth.m_type &&
286 m_num_comp == oth.m_num_comp &&
287 m_base_address == oth.m_base_address;
288
289 if (m_type == mem_write_ind || m_type == mem_write_ind_ack)
290 equal &= (*m_index == *oth.m_index);
291 return equal;
292
293 }
294
295 static const char *write_type_str[4] = {"WRITE", "WRITE_IDX", "WRITE_ACK", "WRITE_IDX_ACK" };
do_print(std::ostream & os) const296 void MemRingOutIntruction::do_print(std::ostream& os) const
297 {
298 os << "MEM_RING " << m_ring_op;
299 os << " " << write_type_str[m_type] << " " << m_base_address;
300 os << " " << gpr();
301 if (m_type == mem_write_ind || m_type == mem_write_ind_ack)
302 os << " @" << *m_index;
303 os << " ES:" << m_num_comp;
304 }
305
306
replace_values_child(const ValueSet & candiates,PValue new_value)307 void MemRingOutIntruction::replace_values_child(const ValueSet& candiates,
308 PValue new_value)
309 {
310 if (!m_index)
311 return;
312
313 for (auto c: candiates) {
314 if (*c == *m_index)
315 m_index = new_value;
316 }
317 }
318
remap_registers_child(std::vector<rename_reg_pair> & map,ValueMap & values)319 void MemRingOutIntruction::remap_registers_child(std::vector<rename_reg_pair>& map,
320 ValueMap& values)
321 {
322 if (!m_index)
323 return;
324
325 assert(m_index->type() == Value::gpr);
326 auto new_index = map[m_index->sel()];
327 if (new_index.valid)
328 m_index = values.get_or_inject(new_index.new_reg, m_index->chan());
329 map[m_index->sel()].used = true;
330 }
331
patch_ring(int stream)332 void MemRingOutIntruction::patch_ring(int stream)
333 {
334 const ECFOpCode ring_op[4] = {cf_mem_ring, cf_mem_ring1, cf_mem_ring2, cf_mem_ring3};
335
336 assert(stream < 4);
337 m_ring_op = ring_op[stream];
338 }
339
340 }
341