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review.mlplatform.org / ml / ComputeLibrary / 0bfe39fadbeb3ea51482d800fab1204e4428c37d / . / src / core / CL / cl_kernels / repeat.h
blob: 59bf5b9d8e3c784aea8da8c897cb7bff340f3807 [file] [log] [blame]
Vidhya Sudhan Loganathan17b0f8b2019-01-08 12:17:03 +0000[diff] [blame]1/*
Michele Di Giorgiod9eaf612020-07-08 11:12:57 +0100[diff] [blame]2 * Copyright (c) 2019-2020 Arm Limited.
Vidhya Sudhan Loganathan17b0f8b2019-01-08 12:17:03 +0000[diff] [blame]3 *
4 * SPDX-License-Identifier: MIT
5 *
6 * Permission is hereby granted, free of charge, to any person obtaining a copy
7 * of this software and associated documentation files (the "Software"), to
8 * deal in the Software without restriction, including without limitation the
9 * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
10 * sell copies of the Software, and to permit persons to whom the Software is
11 * furnished to do so, subject to the following conditions:
12 *
13 * The above copyright notice and this permission notice shall be included in all
14 * copies or substantial portions of the 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 THE
19 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
21 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
22 * SOFTWARE.
23 */
24#ifndef ARM_COMPUTE_REPEAT_H
25#define ARM_COMPUTE_REPEAT_H
26
Michele Di Giorgiob54ba282020-01-14 15:31:55 +0000[diff] [blame]27#include "helpers.h"
28
Vidhya Sudhan Loganathan17b0f8b2019-01-08 12:17:03 +0000[diff] [blame]29/** Macros that help in loop unrolling */
30//Repeat macros with 3 param, excluding the implicit ID param
31#define REPEAT_3_1(P_X, P_A, P_B, P_C) P_X##_DEF(0, P_A, P_B, P_C)
32#define REPEAT_3_2(P_X, P_A, P_B, P_C) \
33 P_X##_DEF(1, P_A, P_B, P_C); \
34 REPEAT_3_1(P_X, P_A, P_B, P_C)
35#define REPEAT_3_3(P_X, P_A, P_B, P_C) \
36 P_X##_DEF(2, P_A, P_B, P_C); \
37 REPEAT_3_2(P_X, P_A, P_B, P_C)
38#define REPEAT_3_4(P_X, P_A, P_B, P_C) \
39 P_X##_DEF(3, P_A, P_B, P_C); \
40 REPEAT_3_3(P_X, P_A, P_B, P_C)
41#define REPEAT_3_5(P_X, P_A, P_B, P_C) \
42 P_X##_DEF(4, P_A, P_B, P_C); \
43 REPEAT_3_4(P_X, P_A, P_B, P_C)
44#define REPEAT_3_6(P_X, P_A, P_B, P_C) \
45 P_X##_DEF(5, P_A, P_B, P_C); \
46 REPEAT_3_5(P_X, P_A, P_B, P_C)
47#define REPEAT_3_7(P_X, P_A, P_B, P_C) \
48 P_X##_DEF(6, P_A, P_B, P_C); \
49 REPEAT_3_6(P_X, P_A, P_B, P_C)
50#define REPEAT_3_8(P_X, P_A, P_B, P_C) \
51 P_X##_DEF(7, P_A, P_B, P_C); \
52 REPEAT_3_7(P_X, P_A, P_B, P_C)
53#define REPEAT_3_9(P_X, P_A, P_B, P_C) \
54 P_X##_DEF(8, P_A, P_B, P_C); \
55 REPEAT_3_8(P_X, P_A, P_B, P_C)
56#define REPEAT_3_10(P_X, P_A, P_B, P_C) \
57 P_X##_DEF(9, P_A, P_B, P_C); \
58 REPEAT_3_9(P_X, P_A, P_B, P_C)
59#define REPEAT_3_11(P_X, P_A, P_B, P_C) \
60 P_X##_DEF(A, P_A, P_B, P_C); \
61 REPEAT_3_10(P_X, P_A, P_B, P_C)
62#define REPEAT_3_12(P_X, P_A, P_B, P_C) \
63 P_X##_DEF(B, P_A, P_B, P_C); \
64 REPEAT_3_11(P_X, P_A, P_B, P_C)
65#define REPEAT_3_13(P_X, P_A, P_B, P_C) \
66 P_X##_DEF(C, P_A, P_B, P_C); \
67 REPEAT_3_12(P_X, P_A, P_B, P_C)
68#define REPEAT_3_14(P_X, P_A, P_B, P_C) \
69 P_X##_DEF(D, P_A, P_B, P_C); \
70 REPEAT_3_13(P_X, P_A, P_B, P_C)
71#define REPEAT_3_15(P_X, P_A, P_B, P_C) \
72 P_X##_DEF(E, P_A, P_B, P_C); \
73 REPEAT_3_14(P_X, P_A, P_B, P_C)
74#define REPEAT_3_16(P_X, P_A, P_B, P_C) \
75 P_X##_DEF(F, P_A, P_B, P_C); \
76 REPEAT_3_15(P_X, P_A, P_B, P_C)
77
78#define REPEAT_DEF_3_N(P_NUM, P_OP, P_A, P_B, P_C) REPEAT_3_##P_NUM(P_OP, P_A, P_B, P_C) //One level of indirection to ensure order of expansion does not affect preprocessing P_NUM
79#define REPEAT_3_N(P_NUM, P_OP, P_A, P_B, P_C) REPEAT_DEF_3_N(P_NUM, P_OP, P_A, P_B, P_C)
80
Michele Di Giorgiob54ba282020-01-14 15:31:55 +0000[diff] [blame]81// Repeat macros with 4 param, excluding the implicit ID param
82#define REPEAT_4_1(P_X, P_A, P_B, P_C, P_D) P_X##_DEF(0, P_A, P_B, P_C, P_D)
83#define REPEAT_4_2(P_X, P_A, P_B, P_C, P_D) \
84 P_X##_DEF(1, P_A, P_B, P_C, P_D); \
85 REPEAT_4_1(P_X, P_A, P_B, P_C, P_D)
86#define REPEAT_4_3(P_X, P_A, P_B, P_C, P_D) \
87 P_X##_DEF(2, P_A, P_B, P_C, P_D); \
88 REPEAT_4_2(P_X, P_A, P_B, P_C, P_D)
89#define REPEAT_4_4(P_X, P_A, P_B, P_C, P_D) \
90 P_X##_DEF(3, P_A, P_B, P_C, P_D); \
91 REPEAT_4_3(P_X, P_A, P_B, P_C, P_D)
92#define REPEAT_4_5(P_X, P_A, P_B, P_C, P_D) \
93 P_X##_DEF(4, P_A, P_B, P_C, P_D); \
94 REPEAT_4_4(P_X, P_A, P_B, P_C, P_D)
95#define REPEAT_4_6(P_X, P_A, P_B, P_C, P_D) \
96 P_X##_DEF(5, P_A, P_B, P_C, P_D); \
97 REPEAT_4_5(P_X, P_A, P_B, P_C, P_D)
98#define REPEAT_4_7(P_X, P_A, P_B, P_C, P_D) \
99 P_X##_DEF(6, P_A, P_B, P_C, P_D); \
100 REPEAT_4_6(P_X, P_A, P_B, P_C, P_D)
101#define REPEAT_4_8(P_X, P_A, P_B, P_C, P_D) \
102 P_X##_DEF(7, P_A, P_B, P_C, P_D); \
103 REPEAT_4_7(P_X, P_A, P_B, P_C, P_D)
104#define REPEAT_4_9(P_X, P_A, P_B, P_C, P_D) \
105 P_X##_DEF(8, P_A, P_B, P_C, P_D); \
106 REPEAT_4_8(P_X, P_A, P_B, P_C, P_D)
107#define REPEAT_4_10(P_X, P_A, P_B, P_C, P_D) \
108 P_X##_DEF(9, P_A, P_B, P_C, P_D); \
109 REPEAT_4_9(P_X, P_A, P_B, P_C, P_D)
110#define REPEAT_4_11(P_X, P_A, P_B, P_C, P_D) \
111 P_X##_DEF(A, P_A, P_B, P_C, P_D); \
112 REPEAT_4_10(P_X, P_A, P_B, P_C, P_D)
113#define REPEAT_4_12(P_X, P_A, P_B, P_C, P_D) \
114 P_X##_DEF(B, P_A, P_B, P_C, P_D); \
115 REPEAT_4_11(P_X, P_A, P_B, P_C, P_D)
116#define REPEAT_4_13(P_X, P_A, P_B, P_C, P_D) \
117 P_X##_DEF(C, P_A, P_B, P_C, P_D); \
118 REPEAT_4_12(P_X, P_A, P_B, P_C, P_D)
119#define REPEAT_4_14(P_X, P_A, P_B, P_C, P_D) \
120 P_X##_DEF(D, P_A, P_B, P_C, P_D); \
121 REPEAT_4_13(P_X, P_A, P_B, P_C, P_D)
122#define REPEAT_4_15(P_X, P_A, P_B, P_C, P_D) \
123 P_X##_DEF(E, P_A, P_B, P_C, P_D); \
124 REPEAT_4_14(P_X, P_A, P_B, P_C, P_D)
125#define REPEAT_4_16(P_X, P_A, P_B, P_C, P_D) \
126 P_X##_DEF(F, P_A, P_B, P_C, P_D); \
127 REPEAT_4_15(P_X, P_A, P_B, P_C, P_D)
128
129#define REPEAT_DEF_4_N(P_NUM, P_OP, P_A, P_B, P_C, P_D) REPEAT_4_##P_NUM(P_OP, P_A, P_B, P_C, P_D) //One level of indirection to ensure order of expansion does not affect preprocessing P_NUM
130#define REPEAT_4_N(P_NUM, P_OP, P_A, P_B, P_C, P_D) REPEAT_DEF_4_N(P_NUM, P_OP, P_A, P_B, P_C, P_D)
131
132// Macro for initializing N variables. Generates N statements that defines VAR##N = RHS_ACCESSOR_DEF(...)
Vidhya Sudhan Loganathan17b0f8b2019-01-08 12:17:03 +0000[diff] [blame]133#define VAR_INIT_TO_CONST_DEF(ID, TYPE, VAR, VAL) TYPE VAR##ID = VAL
134#define REPEAT_VAR_INIT_TO_CONST(N, TYPE, VAR, VAL) REPEAT_3_N(N, VAR_INIT_TO_CONST, TYPE, VAR, VAL)
135
Michele Di Giorgiob54ba282020-01-14 15:31:55 +0000[diff] [blame]136// Macro for initializing N variables by converting the data type. Generates N statements that defines VAR##N = RHS_ACCESSOR_DEF(...)
137#define VAR_INIT_CONVERT_SAT_DEF(ID, TYPE_OUT, VAR_IN, VAR_OUT) TYPE_OUT VAR_OUT##ID = CONVERT_SAT(VAR_IN##ID, TYPE_OUT)
138#define REPEAT_VAR_INIT_CONVERT_SAT(N, TYPE_OUT, VAR_IN, VAR_OUT) REPEAT_3_N(N, VAR_INIT_CONVERT_SAT, TYPE_OUT, VAR_IN, VAR_OUT)
139
140// Macro for adding a constant to N variables. Generates N statements that defines VAR##N =RHS_ACCESSOR_DEF(...)
141#define ADD_CONST_TO_VAR_DEF(ID, TYPE, VAR, VAL) VAR##ID += (TYPE)VAL
142#define REPEAT_ADD_CONST_TO_VAR(N, TYPE, VAR, VAL) REPEAT_3_N(N, ADD_CONST_TO_VAR, TYPE, VAR, VAL)
143
144// Macro for multiplying N variables (VAR_B) by a constant (VAL) and adding to other N variables (VAR_A). Generates N statements that defines VAR_A##N =RHS_ACCESSOR_DEF(...)
145#define MLA_VAR_WITH_CONST_VEC_DEF(ID, VAR_A, VAR_B, VAL) VAR_A##ID += VAR_B##ID * VAL
146#define REPEAT_MLA_VAR_WITH_CONST_VEC(N, VAR_A, VAR_B, VAL) REPEAT_3_N(N, MLA_VAR_WITH_CONST_VEC, VAR_A, VAR_B, VAL)
147
148// Macro for adding a vector to N-variables. Generates N statements that defines VAR##N =RHS_ACCESSOR_DEF(...)
149#define ADD_VECTOR_TO_VAR_DEF(ID, TYPE, VAR, VEC) VAR##ID += VEC
150#define REPEAT_ADD_VECTOR_TO_VAR(N, VAR, VEC) REPEAT_3_N(N, ADD_VECTOR_TO_VAR, "", VAR, VEC)
151
152// Macro for adding a two N-variables. Generates N statements that defines VAR##N =RHS_ACCESSOR_DEF(...)
153#define ADD_TWO_VARS_DEF(ID, TYPE, VAR_A, VAR_B) VAR_A##ID += VAR_B##ID
154#define REPEAT_ADD_TWO_VARS(N, VAR_A, VAR_B) REPEAT_3_N(N, ADD_TWO_VARS, "", VAR_A, VAR_B)
155
156// Macro for performing Max between a constant and N variables. Generates N statements that defines VAR##N =RHS_ACCESSOR_DEF(...)
157#define MAX_CONST_VAR_DEF(ID, TYPE, VAR, VAL) VAR##ID = max(VAR##ID, (TYPE)VAL)
158#define REPEAT_MAX_CONST_VAR(N, TYPE, VAR, VAL) REPEAT_3_N(N, MAX_CONST_VAR, TYPE, VAR, VAL)
159
160// Macro for performing Min between a constant and N variables. Generates N statements that defines VAR##N =RHS_ACCESSOR_DEF(...)
161#define MIN_CONST_VAR_DEF(ID, TYPE, VAR, VAL) VAR##ID = min(VAR##ID, (TYPE)VAL)
162#define REPEAT_MIN_CONST_VAR(N, TYPE, VAR, VAL) REPEAT_3_N(N, MIN_CONST_VAR, TYPE, VAR, VAL)
163
164// Macro for performing ASYMM_MULT_BY_QUANT_MULTIPLIER_GREATER_THAN_ONE to N variables. Generates N statements that defines VAR##N =RHS_ACCESSOR_DEF(...)
165#define ASYMM_MULT_BY_QUANT_MULTIPLIER_GREATER_THAN_ONE_DEF(ID, SIZE, VAR, RES_MUL, RES_SHIFT) VAR##ID = ASYMM_MULT_BY_QUANT_MULTIPLIER_GREATER_THAN_ONE(VAR##ID, RES_MUL, RES_SHIFT, SIZE)
166#define REPEAT_ASYMM_MULT_BY_QUANT_MULTIPLIER_GREATER_THAN_ONE(N, SIZE, VAR, RES_MUL, RES_SHIFT) REPEAT_4_N(N, ASYMM_MULT_BY_QUANT_MULTIPLIER_GREATER_THAN_ONE, SIZE, VAR, RES_MUL, RES_SHIFT)
167
168// Macro for performing ASYMM_MULT_BY_QUANT_MULTIPLIER_LESS_THAN_ONE to N variables. Generates N statements that defines VAR##N =RHS_ACCESSOR_DEF(...)
169#define ASYMM_MULT_BY_QUANT_MULTIPLIER_LESS_THAN_ONE_DEF(ID, SIZE, VAR, RES_MUL, RES_SHIFT) VAR##ID = ASYMM_MULT_BY_QUANT_MULTIPLIER_LESS_THAN_ONE(VAR##ID, RES_MUL, RES_SHIFT, SIZE)
170#define REPEAT_ASYMM_MULT_BY_QUANT_MULTIPLIER_LESS_THAN_ONE(N, SIZE, VAR, RES_MUL, RES_SHIFT) REPEAT_4_N(N, ASYMM_MULT_BY_QUANT_MULTIPLIER_LESS_THAN_ONE, SIZE, VAR, RES_MUL, RES_SHIFT)
171
172// Macro for performing per-channel ASYMM_MULT_BY_QUANT_MULTIPLIER to N variables.
173#define ASYMM_MULT_BY_QUANT_MULTIPLIER_PER_CHANNEL_DEF(ID, SIZE, VAR, RES_MUL, RES_SHIFT) \
174 ({ \
175 VEC_DATA_TYPE(int, N0) \
176 VAR##ID_shift_lt0 = ASYMM_MULT_BY_QUANT_MULTIPLIER_GREATER_THAN_ONE(VAR##ID, RES_MUL, RES_SHIFT, N0); \
177 VEC_DATA_TYPE(int, N0) \
178 VAR##ID_shift_gt0 = ASYMM_MULT_BY_QUANT_MULTIPLIER_LESS_THAN_ONE(VAR##ID, RES_MUL, RES_SHIFT, N0); \
179 VAR##ID = select(VAR##ID_shift_lt0, VAR##ID_shift_gt0, RES_SHIFT >= 0); \
180 })
181#define REPEAT_ASYMM_MULT_BY_QUANT_MULTIPLIER_PER_CHANNEL(N, SIZE, VAR, RES_MUL, RES_SHIFT) REPEAT_4_N(N, ASYMM_MULT_BY_QUANT_MULTIPLIER_PER_CHANNEL, SIZE, VAR, RES_MUL, RES_SHIFT)
182
Vidhya Sudhan Loganathan17b0f8b2019-01-08 12:17:03 +0000[diff] [blame]183#endif // ARM_COMPUTE_REPEAT_H