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1 /*
2  * Copyright © 2018 Valve Corporation
3  * Copyright © 2018 Google
4  *
5  * Permission is hereby granted, free of charge, to any person obtaining a
6  * copy of this software and associated documentation files (the "Software"),
7  * to deal in the Software without restriction, including without limitation
8  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
9  * and/or sell copies of the Software, and to permit persons to whom the
10  * Software is furnished to do so, subject to the following conditions:
11  *
12  * The above copyright notice and this permission notice (including the next
13  * paragraph) shall be included in all copies or substantial portions of the
14  * Software.
15  *
16  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
19  * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
21  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
22  * IN THE SOFTWARE.
23  *
24  */
25 
26 #include "aco_ir.h"
27 #include "aco_builder.h"
28 
29 /*
30  * Insert p_linear_start instructions right before RA to correctly allocate
31  * temporaries for reductions that have to disrespect EXEC by executing in
32  * WWM.
33  */
34 
35 namespace aco {
36 
setup_reduce_temp(Program * program)37 void setup_reduce_temp(Program* program)
38 {
39    unsigned last_top_level_block_idx = 0;
40    unsigned maxSize = 0;
41 
42    std::vector<bool> hasReductions(program->blocks.size());
43    for (Block& block : program->blocks) {
44       for (aco_ptr<Instruction>& instr : block.instructions) {
45          if (instr->format != Format::PSEUDO_REDUCTION)
46             continue;
47 
48          maxSize = MAX2(maxSize, instr->operands[0].size());
49          hasReductions[block.index] = true;
50       }
51    }
52 
53    if (maxSize == 0)
54       return;
55 
56    assert(maxSize == 1 || maxSize == 2);
57    Temp reduceTmp(0, RegClass(RegType::vgpr, maxSize).as_linear());
58    Temp vtmp(0, RegClass(RegType::vgpr, maxSize).as_linear());
59    int inserted_at = -1;
60    int vtmp_inserted_at = -1;
61    bool reduceTmp_in_loop = false;
62    bool vtmp_in_loop = false;
63 
64    for (Block& block : program->blocks) {
65 
66       /* insert p_end_linear_vgpr after the outermost loop */
67       if (reduceTmp_in_loop && block.loop_nest_depth == 0) {
68          assert(inserted_at == (int)last_top_level_block_idx);
69 
70          aco_ptr<Instruction> end{create_instruction<Instruction>(aco_opcode::p_end_linear_vgpr, Format::PSEUDO, vtmp_in_loop ? 2 : 1, 0)};
71          end->operands[0] = Operand(reduceTmp);
72          if (vtmp_in_loop)
73             end->operands[1] = Operand(vtmp);
74          /* insert after the phis of the loop exit block */
75          std::vector<aco_ptr<Instruction>>::iterator it = block.instructions.begin();
76          while ((*it)->opcode == aco_opcode::p_linear_phi || (*it)->opcode == aco_opcode::p_phi)
77             ++it;
78          block.instructions.insert(it, std::move(end));
79          reduceTmp_in_loop = false;
80       }
81 
82       if (block.kind & block_kind_top_level)
83          last_top_level_block_idx = block.index;
84 
85       if (!hasReductions[block.index])
86          continue;
87 
88       std::vector<aco_ptr<Instruction>>::iterator it;
89       for (it = block.instructions.begin(); it != block.instructions.end(); ++it) {
90          Instruction *instr = (*it).get();
91          if (instr->format != Format::PSEUDO_REDUCTION)
92             continue;
93 
94          ReduceOp op = static_cast<Pseudo_reduction_instruction *>(instr)->reduce_op;
95          reduceTmp_in_loop |= block.loop_nest_depth > 0;
96 
97          if ((int)last_top_level_block_idx != inserted_at) {
98             reduceTmp = program->allocateTmp(reduceTmp.regClass());
99             aco_ptr<Pseudo_instruction> create{create_instruction<Pseudo_instruction>(aco_opcode::p_start_linear_vgpr, Format::PSEUDO, 0, 1)};
100             create->definitions[0] = Definition(reduceTmp);
101             /* find the right place to insert this definition */
102             if (last_top_level_block_idx == block.index) {
103                /* insert right before the current instruction */
104                it = block.instructions.insert(it, std::move(create));
105                it++;
106                /* inserted_at is intentionally not updated here, so later blocks
107                 * would insert at the end instead of using this one. */
108             } else {
109                assert(last_top_level_block_idx < block.index);
110                /* insert before the branch at last top level block */
111                std::vector<aco_ptr<Instruction>>& instructions = program->blocks[last_top_level_block_idx].instructions;
112                instructions.insert(std::next(instructions.begin(), instructions.size() - 1), std::move(create));
113                inserted_at = last_top_level_block_idx;
114             }
115          }
116 
117          /* same as before, except for the vector temporary instead of the reduce temporary */
118          unsigned cluster_size = static_cast<Pseudo_reduction_instruction *>(instr)->cluster_size;
119          bool need_vtmp = op == imul32 || op == fadd64 || op == fmul64 ||
120                           op == fmin64 || op == fmax64 || op == umin64 ||
121                           op == umax64 || op == imin64 || op == imax64 ||
122                           op == imul64;
123          bool gfx10_need_vtmp = op == imul8 || op == imax8 || op == imin8 || op == umin8 ||
124                                 op == imul16 || op == imax16 || op == imin16 || op == umin16 ||
125                                 op == iadd64;
126 
127          if (program->chip_class >= GFX10 && cluster_size == 64)
128             need_vtmp = true;
129          if (program->chip_class >= GFX10 && gfx10_need_vtmp)
130             need_vtmp = true;
131          if (program->chip_class <= GFX7)
132             need_vtmp = true;
133 
134          need_vtmp |= cluster_size == 32;
135 
136          vtmp_in_loop |= need_vtmp && block.loop_nest_depth > 0;
137          if (need_vtmp && (int)last_top_level_block_idx != vtmp_inserted_at) {
138             vtmp = program->allocateTmp(vtmp.regClass());
139             aco_ptr<Pseudo_instruction> create{create_instruction<Pseudo_instruction>(aco_opcode::p_start_linear_vgpr, Format::PSEUDO, 0, 1)};
140             create->definitions[0] = Definition(vtmp);
141             if (last_top_level_block_idx == block.index) {
142                it = block.instructions.insert(it, std::move(create));
143                it++;
144             } else {
145                assert(last_top_level_block_idx < block.index);
146                std::vector<aco_ptr<Instruction>>& instructions = program->blocks[last_top_level_block_idx].instructions;
147                instructions.insert(std::next(instructions.begin(), instructions.size() - 1), std::move(create));
148                vtmp_inserted_at = last_top_level_block_idx;
149             }
150          }
151 
152          instr->operands[1] = Operand(reduceTmp);
153          if (need_vtmp)
154             instr->operands[2] = Operand(vtmp);
155       }
156    }
157 }
158 
159 };
160 
161