1*c217d954SCole Faust /*
2*c217d954SCole Faust * Copyright (c) 2017-2023 Arm Limited.
3*c217d954SCole Faust *
4*c217d954SCole Faust * SPDX-License-Identifier: MIT
5*c217d954SCole Faust *
6*c217d954SCole Faust * Permission is hereby granted, free of charge, to any person obtaining a copy
7*c217d954SCole Faust * of this software and associated documentation files (the "Software"), to
8*c217d954SCole Faust * deal in the Software without restriction, including without limitation the
9*c217d954SCole Faust * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
10*c217d954SCole Faust * sell copies of the Software, and to permit persons to whom the Software is
11*c217d954SCole Faust * furnished to do so, subject to the following conditions:
12*c217d954SCole Faust *
13*c217d954SCole Faust * The above copyright notice and this permission notice shall be included in all
14*c217d954SCole Faust * copies or substantial portions of the Software.
15*c217d954SCole Faust *
16*c217d954SCole Faust * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17*c217d954SCole Faust * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18*c217d954SCole Faust * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
19*c217d954SCole Faust * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20*c217d954SCole Faust * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
21*c217d954SCole Faust * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
22*c217d954SCole Faust * SOFTWARE.
23*c217d954SCole Faust */
24*c217d954SCole Faust #ifndef ARM_COMPUTE_TEST_UTILS_H
25*c217d954SCole Faust #define ARM_COMPUTE_TEST_UTILS_H
26*c217d954SCole Faust
27*c217d954SCole Faust #include "arm_compute/core/Coordinates.h"
28*c217d954SCole Faust #include "arm_compute/core/Error.h"
29*c217d954SCole Faust #include "arm_compute/core/Size2D.h"
30*c217d954SCole Faust #include "arm_compute/core/TensorInfo.h"
31*c217d954SCole Faust #include "arm_compute/core/TensorShape.h"
32*c217d954SCole Faust #include "arm_compute/core/Types.h"
33*c217d954SCole Faust #include "support/StringSupport.h"
34*c217d954SCole Faust #include "support/ToolchainSupport.h"
35*c217d954SCole Faust
36*c217d954SCole Faust #ifdef ARM_COMPUTE_CL
37*c217d954SCole Faust #include "arm_compute/core/CL/OpenCL.h"
38*c217d954SCole Faust #include "arm_compute/runtime/CL/CLScheduler.h"
39*c217d954SCole Faust #endif /* ARM_COMPUTE_CL */
40*c217d954SCole Faust
41*c217d954SCole Faust #include <cmath>
42*c217d954SCole Faust #include <cstddef>
43*c217d954SCole Faust #include <limits>
44*c217d954SCole Faust #include <memory>
45*c217d954SCole Faust #include <random>
46*c217d954SCole Faust #include <sstream>
47*c217d954SCole Faust #include <string>
48*c217d954SCole Faust #include <type_traits>
49*c217d954SCole Faust #include <vector>
50*c217d954SCole Faust
51*c217d954SCole Faust #include "arm_compute/dynamic_fusion/sketch/attributes/Conv2dAttributes.h"
52*c217d954SCole Faust #include "arm_compute/runtime/CPP/CPPScheduler.h"
53*c217d954SCole Faust #include "arm_compute/runtime/RuntimeContext.h"
54*c217d954SCole Faust
55*c217d954SCole Faust namespace arm_compute
56*c217d954SCole Faust {
57*c217d954SCole Faust #ifdef ARM_COMPUTE_CL
58*c217d954SCole Faust class CLTensor;
59*c217d954SCole Faust #endif /* ARM_COMPUTE_CL */
60*c217d954SCole Faust namespace test
61*c217d954SCole Faust {
62*c217d954SCole Faust /** Round floating-point value with half value rounding to positive infinity.
63*c217d954SCole Faust *
64*c217d954SCole Faust * @param[in] value floating-point value to be rounded.
65*c217d954SCole Faust *
66*c217d954SCole Faust * @return Floating-point value of rounded @p value.
67*c217d954SCole Faust */
68*c217d954SCole Faust template <typename T, typename = typename std::enable_if<std::is_floating_point<T>::value>::type>
round_half_up(T value)69*c217d954SCole Faust inline T round_half_up(T value)
70*c217d954SCole Faust {
71*c217d954SCole Faust return std::floor(value + 0.5f);
72*c217d954SCole Faust }
73*c217d954SCole Faust
74*c217d954SCole Faust /** Round floating-point value with half value rounding to nearest even.
75*c217d954SCole Faust *
76*c217d954SCole Faust * @param[in] value floating-point value to be rounded.
77*c217d954SCole Faust * @param[in] epsilon precision.
78*c217d954SCole Faust *
79*c217d954SCole Faust * @return Floating-point value of rounded @p value.
80*c217d954SCole Faust */
81*c217d954SCole Faust template <typename T, typename = typename std::enable_if<std::is_floating_point<T>::value>::type>
82*c217d954SCole Faust inline T round_half_even(T value, T epsilon = std::numeric_limits<T>::epsilon())
83*c217d954SCole Faust {
84*c217d954SCole Faust T positive_value = std::abs(value);
85*c217d954SCole Faust T ipart = 0;
86*c217d954SCole Faust std::modf(positive_value, &ipart);
87*c217d954SCole Faust // If 'value' is exactly halfway between two integers
88*c217d954SCole Faust if(std::abs(positive_value - (ipart + 0.5f)) < epsilon)
89*c217d954SCole Faust {
90*c217d954SCole Faust // If 'ipart' is even then return 'ipart'
91*c217d954SCole Faust if(std::fmod(ipart, 2.f) < epsilon)
92*c217d954SCole Faust {
93*c217d954SCole Faust return support::cpp11::copysign(ipart, value);
94*c217d954SCole Faust }
95*c217d954SCole Faust // Else return the nearest even integer
96*c217d954SCole Faust return support::cpp11::copysign(std::ceil(ipart + 0.5f), value);
97*c217d954SCole Faust }
98*c217d954SCole Faust // Otherwise use the usual round to closest
99*c217d954SCole Faust return support::cpp11::copysign(support::cpp11::round(positive_value), value);
100*c217d954SCole Faust }
101*c217d954SCole Faust
102*c217d954SCole Faust namespace traits
103*c217d954SCole Faust {
104*c217d954SCole Faust // *INDENT-OFF*
105*c217d954SCole Faust // clang-format off
106*c217d954SCole Faust /** Promote a type */
107*c217d954SCole Faust template <typename T> struct promote { };
108*c217d954SCole Faust /** Promote uint8_t to uint16_t */
109*c217d954SCole Faust template <> struct promote<uint8_t> { using type = uint16_t; /**< Promoted type */ };
110*c217d954SCole Faust /** Promote int8_t to int16_t */
111*c217d954SCole Faust template <> struct promote<int8_t> { using type = int16_t; /**< Promoted type */ };
112*c217d954SCole Faust /** Promote uint16_t to uint32_t */
113*c217d954SCole Faust template <> struct promote<uint16_t> { using type = uint32_t; /**< Promoted type */ };
114*c217d954SCole Faust /** Promote int16_t to int32_t */
115*c217d954SCole Faust template <> struct promote<int16_t> { using type = int32_t; /**< Promoted type */ };
116*c217d954SCole Faust /** Promote uint32_t to uint64_t */
117*c217d954SCole Faust template <> struct promote<uint32_t> { using type = uint64_t; /**< Promoted type */ };
118*c217d954SCole Faust /** Promote int32_t to int64_t */
119*c217d954SCole Faust template <> struct promote<int32_t> { using type = int64_t; /**< Promoted type */ };
120*c217d954SCole Faust /** Promote float to float */
121*c217d954SCole Faust template <> struct promote<float> { using type = float; /**< Promoted type */ };
122*c217d954SCole Faust /** Promote half to half */
123*c217d954SCole Faust template <> struct promote<half> { using type = half; /**< Promoted type */ };
124*c217d954SCole Faust
125*c217d954SCole Faust /** Get promoted type */
126*c217d954SCole Faust template <typename T>
127*c217d954SCole Faust using promote_t = typename promote<T>::type;
128*c217d954SCole Faust
129*c217d954SCole Faust template <typename T>
130*c217d954SCole Faust using make_signed_conditional_t = typename std::conditional<std::is_integral<T>::value, std::make_signed<T>, std::common_type<T>>::type;
131*c217d954SCole Faust
132*c217d954SCole Faust template <typename T>
133*c217d954SCole Faust using make_unsigned_conditional_t = typename std::conditional<std::is_integral<T>::value, std::make_unsigned<T>, std::common_type<T>>::type;
134*c217d954SCole Faust
135*c217d954SCole Faust // clang-format on
136*c217d954SCole Faust // *INDENT-ON*
137*c217d954SCole Faust } // namespace traits
138*c217d954SCole Faust
139*c217d954SCole Faust /** Look up the format corresponding to a channel.
140*c217d954SCole Faust *
141*c217d954SCole Faust * @param[in] channel Channel type.
142*c217d954SCole Faust *
143*c217d954SCole Faust * @return Format that contains the given channel.
144*c217d954SCole Faust */
145*c217d954SCole Faust inline Format get_format_for_channel(Channel channel)
146*c217d954SCole Faust {
147*c217d954SCole Faust switch(channel)
148*c217d954SCole Faust {
149*c217d954SCole Faust case Channel::R:
150*c217d954SCole Faust case Channel::G:
151*c217d954SCole Faust case Channel::B:
152*c217d954SCole Faust return Format::RGB888;
153*c217d954SCole Faust default:
154*c217d954SCole Faust throw std::runtime_error("Unsupported channel");
155*c217d954SCole Faust }
156*c217d954SCole Faust }
157*c217d954SCole Faust
158*c217d954SCole Faust /** Return the format of a channel.
159*c217d954SCole Faust *
160*c217d954SCole Faust * @param[in] channel Channel type.
161*c217d954SCole Faust *
162*c217d954SCole Faust * @return Format of the given channel.
163*c217d954SCole Faust */
164*c217d954SCole Faust inline Format get_channel_format(Channel channel)
165*c217d954SCole Faust {
166*c217d954SCole Faust switch(channel)
167*c217d954SCole Faust {
168*c217d954SCole Faust case Channel::R:
169*c217d954SCole Faust case Channel::G:
170*c217d954SCole Faust case Channel::B:
171*c217d954SCole Faust return Format::U8;
172*c217d954SCole Faust default:
173*c217d954SCole Faust throw std::runtime_error("Unsupported channel");
174*c217d954SCole Faust }
175*c217d954SCole Faust }
176*c217d954SCole Faust
177*c217d954SCole Faust /** Base case of foldl.
178*c217d954SCole Faust *
179*c217d954SCole Faust * @return value.
180*c217d954SCole Faust */
181*c217d954SCole Faust template <typename F, typename T>
182*c217d954SCole Faust inline T foldl(F &&, const T &value)
183*c217d954SCole Faust {
184*c217d954SCole Faust return value;
185*c217d954SCole Faust }
186*c217d954SCole Faust
187*c217d954SCole Faust /** Base case of foldl.
188*c217d954SCole Faust *
189*c217d954SCole Faust * @return func(value1, value2).
190*c217d954SCole Faust */
191*c217d954SCole Faust template <typename F, typename T, typename U>
192*c217d954SCole Faust inline auto foldl(F &&func, T &&value1, U &&value2) -> decltype(func(value1, value2))
193*c217d954SCole Faust {
194*c217d954SCole Faust return func(value1, value2);
195*c217d954SCole Faust }
196*c217d954SCole Faust
197*c217d954SCole Faust /** Fold left.
198*c217d954SCole Faust *
199*c217d954SCole Faust * @param[in] func Binary function to be called.
200*c217d954SCole Faust * @param[in] initial Initial value.
201*c217d954SCole Faust * @param[in] value Argument passed to the function.
202*c217d954SCole Faust * @param[in] values Remaining arguments.
203*c217d954SCole Faust */
204*c217d954SCole Faust template <typename F, typename I, typename T, typename... Vs>
205*c217d954SCole Faust inline I foldl(F &&func, I &&initial, T &&value, Vs &&... values)
206*c217d954SCole Faust {
207*c217d954SCole Faust return foldl(std::forward<F>(func), func(std::forward<I>(initial), std::forward<T>(value)), std::forward<Vs>(values)...);
208*c217d954SCole Faust }
209*c217d954SCole Faust
210*c217d954SCole Faust /** Create a valid region based on tensor shape, border mode and border size
211*c217d954SCole Faust *
212*c217d954SCole Faust * @param[in] a_shape Shape used as size of the valid region.
213*c217d954SCole Faust * @param[in] border_undefined (Optional) Boolean indicating if the border mode is undefined.
214*c217d954SCole Faust * @param[in] border_size (Optional) Border size used to specify the region to exclude.
215*c217d954SCole Faust *
216*c217d954SCole Faust * @return A valid region starting at (0, 0, ...) with size of @p shape if @p border_undefined is false; otherwise
217*c217d954SCole Faust * return A valid region starting at (@p border_size.left, @p border_size.top, ...) with reduced size of @p shape.
218*c217d954SCole Faust */
219*c217d954SCole Faust inline ValidRegion shape_to_valid_region(const TensorShape &a_shape, bool border_undefined = false, BorderSize border_size = BorderSize(0))
220*c217d954SCole Faust {
221*c217d954SCole Faust ValidRegion valid_region{ Coordinates(), a_shape };
222*c217d954SCole Faust
223*c217d954SCole Faust Coordinates &anchor = valid_region.anchor;
224*c217d954SCole Faust TensorShape &shape = valid_region.shape;
225*c217d954SCole Faust
226*c217d954SCole Faust if(border_undefined)
227*c217d954SCole Faust {
228*c217d954SCole Faust ARM_COMPUTE_ERROR_ON(shape.num_dimensions() < 2);
229*c217d954SCole Faust
230*c217d954SCole Faust anchor.set(0, border_size.left);
231*c217d954SCole Faust anchor.set(1, border_size.top);
232*c217d954SCole Faust
233*c217d954SCole Faust const int valid_shape_x = std::max(0, static_cast<int>(shape.x()) - static_cast<int>(border_size.left) - static_cast<int>(border_size.right));
234*c217d954SCole Faust const int valid_shape_y = std::max(0, static_cast<int>(shape.y()) - static_cast<int>(border_size.top) - static_cast<int>(border_size.bottom));
235*c217d954SCole Faust
236*c217d954SCole Faust shape.set(0, valid_shape_x);
237*c217d954SCole Faust shape.set(1, valid_shape_y);
238*c217d954SCole Faust }
239*c217d954SCole Faust
240*c217d954SCole Faust return valid_region;
241*c217d954SCole Faust }
242*c217d954SCole Faust
243*c217d954SCole Faust /** Write the value after casting the pointer according to @p data_type.
244*c217d954SCole Faust *
245*c217d954SCole Faust * @warning The type of the value must match the specified data type.
246*c217d954SCole Faust *
247*c217d954SCole Faust * @param[out] ptr Pointer to memory where the @p value will be written.
248*c217d954SCole Faust * @param[in] value Value that will be written.
249*c217d954SCole Faust * @param[in] data_type Data type that will be written.
250*c217d954SCole Faust */
251*c217d954SCole Faust template <typename T>
252*c217d954SCole Faust void store_value_with_data_type(void *ptr, T value, DataType data_type)
253*c217d954SCole Faust {
254*c217d954SCole Faust switch(data_type)
255*c217d954SCole Faust {
256*c217d954SCole Faust case DataType::U8:
257*c217d954SCole Faust case DataType::QASYMM8:
258*c217d954SCole Faust *reinterpret_cast<uint8_t *>(ptr) = value;
259*c217d954SCole Faust break;
260*c217d954SCole Faust case DataType::S8:
261*c217d954SCole Faust case DataType::QASYMM8_SIGNED:
262*c217d954SCole Faust case DataType::QSYMM8:
263*c217d954SCole Faust case DataType::QSYMM8_PER_CHANNEL:
264*c217d954SCole Faust *reinterpret_cast<int8_t *>(ptr) = value;
265*c217d954SCole Faust break;
266*c217d954SCole Faust case DataType::U16:
267*c217d954SCole Faust case DataType::QASYMM16:
268*c217d954SCole Faust *reinterpret_cast<uint16_t *>(ptr) = value;
269*c217d954SCole Faust break;
270*c217d954SCole Faust case DataType::S16:
271*c217d954SCole Faust case DataType::QSYMM16:
272*c217d954SCole Faust *reinterpret_cast<int16_t *>(ptr) = value;
273*c217d954SCole Faust break;
274*c217d954SCole Faust case DataType::U32:
275*c217d954SCole Faust *reinterpret_cast<uint32_t *>(ptr) = value;
276*c217d954SCole Faust break;
277*c217d954SCole Faust case DataType::S32:
278*c217d954SCole Faust *reinterpret_cast<int32_t *>(ptr) = value;
279*c217d954SCole Faust break;
280*c217d954SCole Faust case DataType::U64:
281*c217d954SCole Faust *reinterpret_cast<uint64_t *>(ptr) = value;
282*c217d954SCole Faust break;
283*c217d954SCole Faust case DataType::S64:
284*c217d954SCole Faust *reinterpret_cast<int64_t *>(ptr) = value;
285*c217d954SCole Faust break;
286*c217d954SCole Faust case DataType::BFLOAT16:
287*c217d954SCole Faust *reinterpret_cast<bfloat16 *>(ptr) = bfloat16(value);
288*c217d954SCole Faust break;
289*c217d954SCole Faust case DataType::F16:
290*c217d954SCole Faust *reinterpret_cast<half *>(ptr) = value;
291*c217d954SCole Faust break;
292*c217d954SCole Faust case DataType::F32:
293*c217d954SCole Faust *reinterpret_cast<float *>(ptr) = value;
294*c217d954SCole Faust break;
295*c217d954SCole Faust case DataType::F64:
296*c217d954SCole Faust *reinterpret_cast<double *>(ptr) = value;
297*c217d954SCole Faust break;
298*c217d954SCole Faust case DataType::SIZET:
299*c217d954SCole Faust *reinterpret_cast<size_t *>(ptr) = value;
300*c217d954SCole Faust break;
301*c217d954SCole Faust default:
302*c217d954SCole Faust ARM_COMPUTE_ERROR("NOT SUPPORTED!");
303*c217d954SCole Faust }
304*c217d954SCole Faust }
305*c217d954SCole Faust
306*c217d954SCole Faust /** Saturate a value of type T against the numeric limits of type U.
307*c217d954SCole Faust *
308*c217d954SCole Faust * @param[in] val Value to be saturated.
309*c217d954SCole Faust *
310*c217d954SCole Faust * @return saturated value.
311*c217d954SCole Faust */
312*c217d954SCole Faust template <typename U, typename T>
313*c217d954SCole Faust T saturate_cast(T val)
314*c217d954SCole Faust {
315*c217d954SCole Faust if(val > static_cast<T>(std::numeric_limits<U>::max()))
316*c217d954SCole Faust {
317*c217d954SCole Faust val = static_cast<T>(std::numeric_limits<U>::max());
318*c217d954SCole Faust }
319*c217d954SCole Faust if(val < static_cast<T>(std::numeric_limits<U>::lowest()))
320*c217d954SCole Faust {
321*c217d954SCole Faust val = static_cast<T>(std::numeric_limits<U>::lowest());
322*c217d954SCole Faust }
323*c217d954SCole Faust return val;
324*c217d954SCole Faust }
325*c217d954SCole Faust
326*c217d954SCole Faust /** Find the signed promoted common type.
327*c217d954SCole Faust */
328*c217d954SCole Faust template <typename... T>
329*c217d954SCole Faust struct common_promoted_signed_type
330*c217d954SCole Faust {
331*c217d954SCole Faust /** Common type */
332*c217d954SCole Faust using common_type = typename std::common_type<T...>::type;
333*c217d954SCole Faust /** Promoted type */
334*c217d954SCole Faust using promoted_type = traits::promote_t<common_type>;
335*c217d954SCole Faust /** Intermediate type */
336*c217d954SCole Faust using intermediate_type = typename traits::make_signed_conditional_t<promoted_type>::type;
337*c217d954SCole Faust };
338*c217d954SCole Faust
339*c217d954SCole Faust /** Find the unsigned promoted common type.
340*c217d954SCole Faust */
341*c217d954SCole Faust template <typename... T>
342*c217d954SCole Faust struct common_promoted_unsigned_type
343*c217d954SCole Faust {
344*c217d954SCole Faust /** Common type */
345*c217d954SCole Faust using common_type = typename std::common_type<T...>::type;
346*c217d954SCole Faust /** Promoted type */
347*c217d954SCole Faust using promoted_type = traits::promote_t<common_type>;
348*c217d954SCole Faust /** Intermediate type */
349*c217d954SCole Faust using intermediate_type = typename traits::make_unsigned_conditional_t<promoted_type>::type;
350*c217d954SCole Faust };
351*c217d954SCole Faust
352*c217d954SCole Faust /** Convert a linear index into n-dimensional coordinates.
353*c217d954SCole Faust *
354*c217d954SCole Faust * @param[in] shape Shape of the n-dimensional tensor.
355*c217d954SCole Faust * @param[in] index Linear index specifying the i-th element.
356*c217d954SCole Faust *
357*c217d954SCole Faust * @return n-dimensional coordinates.
358*c217d954SCole Faust */
359*c217d954SCole Faust inline Coordinates index2coord(const TensorShape &shape, int index)
360*c217d954SCole Faust {
361*c217d954SCole Faust int num_elements = shape.total_size();
362*c217d954SCole Faust
363*c217d954SCole Faust ARM_COMPUTE_ERROR_ON_MSG(index < 0 || index >= num_elements, "Index has to be in [0, num_elements]");
364*c217d954SCole Faust ARM_COMPUTE_ERROR_ON_MSG(num_elements == 0, "Cannot create coordinate from empty shape");
365*c217d954SCole Faust
366*c217d954SCole Faust Coordinates coord{ 0 };
367*c217d954SCole Faust
368*c217d954SCole Faust for(int d = shape.num_dimensions() - 1; d >= 0; --d)
369*c217d954SCole Faust {
370*c217d954SCole Faust num_elements /= shape[d];
371*c217d954SCole Faust coord.set(d, index / num_elements);
372*c217d954SCole Faust index %= num_elements;
373*c217d954SCole Faust }
374*c217d954SCole Faust
375*c217d954SCole Faust return coord;
376*c217d954SCole Faust }
377*c217d954SCole Faust
378*c217d954SCole Faust /** Linearise the given coordinate.
379*c217d954SCole Faust *
380*c217d954SCole Faust * Transforms the given coordinate into a linear offset in terms of
381*c217d954SCole Faust * elements.
382*c217d954SCole Faust *
383*c217d954SCole Faust * @param[in] shape Shape of the n-dimensional tensor.
384*c217d954SCole Faust * @param[in] coord The to be converted coordinate.
385*c217d954SCole Faust *
386*c217d954SCole Faust * @return Linear offset to the element.
387*c217d954SCole Faust */
388*c217d954SCole Faust inline int coord2index(const TensorShape &shape, const Coordinates &coord)
389*c217d954SCole Faust {
390*c217d954SCole Faust ARM_COMPUTE_ERROR_ON_MSG(shape.total_size() == 0, "Cannot get index from empty shape");
391*c217d954SCole Faust ARM_COMPUTE_ERROR_ON_MSG(coord.num_dimensions() == 0, "Cannot get index of empty coordinate");
392*c217d954SCole Faust
393*c217d954SCole Faust int index = 0;
394*c217d954SCole Faust int dim_size = 1;
395*c217d954SCole Faust
396*c217d954SCole Faust for(unsigned int i = 0; i < coord.num_dimensions(); ++i)
397*c217d954SCole Faust {
398*c217d954SCole Faust index += coord[i] * dim_size;
399*c217d954SCole Faust dim_size *= shape[i];
400*c217d954SCole Faust }
401*c217d954SCole Faust
402*c217d954SCole Faust return index;
403*c217d954SCole Faust }
404*c217d954SCole Faust
405*c217d954SCole Faust /** Check if a coordinate is within a valid region */
406*c217d954SCole Faust inline bool is_in_valid_region(const ValidRegion &valid_region, Coordinates coord)
407*c217d954SCole Faust {
408*c217d954SCole Faust for(size_t d = 0; d < Coordinates::num_max_dimensions; ++d)
409*c217d954SCole Faust {
410*c217d954SCole Faust if(coord[d] < valid_region.start(d) || coord[d] >= valid_region.end(d))
411*c217d954SCole Faust {
412*c217d954SCole Faust return false;
413*c217d954SCole Faust }
414*c217d954SCole Faust }
415*c217d954SCole Faust
416*c217d954SCole Faust return true;
417*c217d954SCole Faust }
418*c217d954SCole Faust
419*c217d954SCole Faust /** Create and initialize a tensor of the given type.
420*c217d954SCole Faust *
421*c217d954SCole Faust * @param[in] info Tensor information to be used to create the tensor
422*c217d954SCole Faust * @param[in] ctx (Optional) Pointer to the runtime context.
423*c217d954SCole Faust *
424*c217d954SCole Faust * @return Initialized tensor of given type.
425*c217d954SCole Faust */
426*c217d954SCole Faust template <typename T>
427*c217d954SCole Faust inline T create_tensor(const TensorInfo &info, IRuntimeContext *ctx = nullptr)
428*c217d954SCole Faust {
429*c217d954SCole Faust T tensor(ctx);
430*c217d954SCole Faust tensor.allocator()->init(info);
431*c217d954SCole Faust return tensor;
432*c217d954SCole Faust }
433*c217d954SCole Faust
434*c217d954SCole Faust /** Create and initialize a tensor of the given type.
435*c217d954SCole Faust *
436*c217d954SCole Faust * @param[in] shape Tensor shape.
437*c217d954SCole Faust * @param[in] data_type Data type.
438*c217d954SCole Faust * @param[in] num_channels (Optional) Number of channels.
439*c217d954SCole Faust * @param[in] quantization_info (Optional) Quantization info for asymmetric quantized types.
440*c217d954SCole Faust * @param[in] data_layout (Optional) Data layout. Default is NCHW.
441*c217d954SCole Faust * @param[in] ctx (Optional) Pointer to the runtime context.
442*c217d954SCole Faust *
443*c217d954SCole Faust * @return Initialized tensor of given type.
444*c217d954SCole Faust */
445*c217d954SCole Faust template <typename T>
446*c217d954SCole Faust inline T create_tensor(const TensorShape &shape, DataType data_type, int num_channels = 1,
447*c217d954SCole Faust QuantizationInfo quantization_info = QuantizationInfo(), DataLayout data_layout = DataLayout::NCHW, IRuntimeContext *ctx = nullptr)
448*c217d954SCole Faust {
449*c217d954SCole Faust T tensor(ctx);
450*c217d954SCole Faust TensorInfo info(shape, num_channels, data_type);
451*c217d954SCole Faust info.set_quantization_info(quantization_info);
452*c217d954SCole Faust info.set_data_layout(data_layout);
453*c217d954SCole Faust
454*c217d954SCole Faust return create_tensor<T>(info, ctx);
455*c217d954SCole Faust }
456*c217d954SCole Faust
457*c217d954SCole Faust /** Create and initialize a tensor of the given type.
458*c217d954SCole Faust *
459*c217d954SCole Faust * @param[in] shape Tensor shape.
460*c217d954SCole Faust * @param[in] format Format type.
461*c217d954SCole Faust * @param[in] ctx (Optional) Pointer to the runtime context.
462*c217d954SCole Faust *
463*c217d954SCole Faust * @return Initialized tensor of given type.
464*c217d954SCole Faust */
465*c217d954SCole Faust template <typename T>
466*c217d954SCole Faust inline T create_tensor(const TensorShape &shape, Format format, IRuntimeContext *ctx = nullptr)
467*c217d954SCole Faust {
468*c217d954SCole Faust TensorInfo info(shape, format);
469*c217d954SCole Faust
470*c217d954SCole Faust return create_tensor<T>(info, ctx);
471*c217d954SCole Faust }
472*c217d954SCole Faust
473*c217d954SCole Faust /** Create a vector with a uniform distribution of floating point values across the specified range.
474*c217d954SCole Faust *
475*c217d954SCole Faust * @param[in] num_values The number of values to be created.
476*c217d954SCole Faust * @param[in] min The minimum value in distribution (inclusive).
477*c217d954SCole Faust * @param[in] max The maximum value in distribution (inclusive).
478*c217d954SCole Faust * @param[in] seed The random seed to be used.
479*c217d954SCole Faust *
480*c217d954SCole Faust * @return A vector that contains the requested number of random floating point values
481*c217d954SCole Faust */
482*c217d954SCole Faust template <typename T, typename = typename std::enable_if<std::is_floating_point<T>::value>::type>
483*c217d954SCole Faust inline std::vector<T> generate_random_real(unsigned int num_values, T min, T max, std::random_device::result_type seed)
484*c217d954SCole Faust {
485*c217d954SCole Faust std::vector<T> v(num_values);
486*c217d954SCole Faust std::mt19937 gen(seed);
487*c217d954SCole Faust std::uniform_real_distribution<T> dist(min, max);
488*c217d954SCole Faust
489*c217d954SCole Faust for(unsigned int i = 0; i < num_values; ++i)
490*c217d954SCole Faust {
491*c217d954SCole Faust v.at(i) = dist(gen);
492*c217d954SCole Faust }
493*c217d954SCole Faust
494*c217d954SCole Faust return v;
495*c217d954SCole Faust }
496*c217d954SCole Faust
497*c217d954SCole Faust template <typename T, typename ArrayAccessor_T>
498*c217d954SCole Faust inline void fill_array(ArrayAccessor_T &&array, const std::vector<T> &v)
499*c217d954SCole Faust {
500*c217d954SCole Faust array.resize(v.size());
501*c217d954SCole Faust std::memcpy(array.buffer(), v.data(), v.size() * sizeof(T));
502*c217d954SCole Faust }
503*c217d954SCole Faust
504*c217d954SCole Faust /** Obtain numpy type string from DataType.
505*c217d954SCole Faust *
506*c217d954SCole Faust * @param[in] data_type Data type.
507*c217d954SCole Faust *
508*c217d954SCole Faust * @return numpy type string.
509*c217d954SCole Faust */
510*c217d954SCole Faust inline std::string get_typestring(DataType data_type)
511*c217d954SCole Faust {
512*c217d954SCole Faust // Check endianness
513*c217d954SCole Faust const unsigned int i = 1;
514*c217d954SCole Faust const char *c = reinterpret_cast<const char *>(&i);
515*c217d954SCole Faust std::string endianness;
516*c217d954SCole Faust if(*c == 1)
517*c217d954SCole Faust {
518*c217d954SCole Faust endianness = std::string("<");
519*c217d954SCole Faust }
520*c217d954SCole Faust else
521*c217d954SCole Faust {
522*c217d954SCole Faust endianness = std::string(">");
523*c217d954SCole Faust }
524*c217d954SCole Faust const std::string no_endianness("|");
525*c217d954SCole Faust
526*c217d954SCole Faust switch(data_type)
527*c217d954SCole Faust {
528*c217d954SCole Faust case DataType::U8:
529*c217d954SCole Faust return no_endianness + "u" + support::cpp11::to_string(sizeof(uint8_t));
530*c217d954SCole Faust case DataType::S8:
531*c217d954SCole Faust return no_endianness + "i" + support::cpp11::to_string(sizeof(int8_t));
532*c217d954SCole Faust case DataType::U16:
533*c217d954SCole Faust return endianness + "u" + support::cpp11::to_string(sizeof(uint16_t));
534*c217d954SCole Faust case DataType::S16:
535*c217d954SCole Faust return endianness + "i" + support::cpp11::to_string(sizeof(int16_t));
536*c217d954SCole Faust case DataType::U32:
537*c217d954SCole Faust return endianness + "u" + support::cpp11::to_string(sizeof(uint32_t));
538*c217d954SCole Faust case DataType::S32:
539*c217d954SCole Faust return endianness + "i" + support::cpp11::to_string(sizeof(int32_t));
540*c217d954SCole Faust case DataType::U64:
541*c217d954SCole Faust return endianness + "u" + support::cpp11::to_string(sizeof(uint64_t));
542*c217d954SCole Faust case DataType::S64:
543*c217d954SCole Faust return endianness + "i" + support::cpp11::to_string(sizeof(int64_t));
544*c217d954SCole Faust case DataType::F32:
545*c217d954SCole Faust return endianness + "f" + support::cpp11::to_string(sizeof(float));
546*c217d954SCole Faust case DataType::F64:
547*c217d954SCole Faust return endianness + "f" + support::cpp11::to_string(sizeof(double));
548*c217d954SCole Faust case DataType::SIZET:
549*c217d954SCole Faust return endianness + "u" + support::cpp11::to_string(sizeof(size_t));
550*c217d954SCole Faust default:
551*c217d954SCole Faust ARM_COMPUTE_ERROR("NOT SUPPORTED!");
552*c217d954SCole Faust }
553*c217d954SCole Faust }
554*c217d954SCole Faust
555*c217d954SCole Faust /** Sync if necessary.
556*c217d954SCole Faust */
557*c217d954SCole Faust template <typename TensorType>
558*c217d954SCole Faust inline void sync_if_necessary()
559*c217d954SCole Faust {
560*c217d954SCole Faust #ifdef ARM_COMPUTE_CL
561*c217d954SCole Faust if(opencl_is_available() && std::is_same<typename std::decay<TensorType>::type, arm_compute::CLTensor>::value)
562*c217d954SCole Faust {
563*c217d954SCole Faust CLScheduler::get().sync();
564*c217d954SCole Faust }
565*c217d954SCole Faust #endif /* ARM_COMPUTE_CL */
566*c217d954SCole Faust }
567*c217d954SCole Faust
568*c217d954SCole Faust /** Sync tensor if necessary.
569*c217d954SCole Faust *
570*c217d954SCole Faust * @note: If the destination tensor not being used on OpenGL ES, GPU will optimize out the operation.
571*c217d954SCole Faust *
572*c217d954SCole Faust * @param[in] tensor Tensor to be sync.
573*c217d954SCole Faust */
574*c217d954SCole Faust template <typename TensorType>
575*c217d954SCole Faust inline void sync_tensor_if_necessary(TensorType &tensor)
576*c217d954SCole Faust {
577*c217d954SCole Faust ARM_COMPUTE_UNUSED(tensor);
578*c217d954SCole Faust }
579*c217d954SCole Faust
580*c217d954SCole Faust /** Construct and return object for dimensions' state filled with the given value
581*c217d954SCole Faust *
582*c217d954SCole Faust * @param[in] value The value to fill
583*c217d954SCole Faust *
584*c217d954SCole Faust * @return Constructed class
585*c217d954SCole Faust */
586*c217d954SCole Faust inline ITensorInfo::TensorDimsState construct_dims_state(int32_t value)
587*c217d954SCole Faust {
588*c217d954SCole Faust auto states = ITensorInfo::TensorDimsState{};
589*c217d954SCole Faust std::fill(states.begin(), states.end(), value);
590*c217d954SCole Faust return states;
591*c217d954SCole Faust }
592*c217d954SCole Faust
593*c217d954SCole Faust /** Construct and return object for dimensions' state filled with the value for dynamic state
594*c217d954SCole Faust *
595*c217d954SCole Faust * @return Constructed class filled with the value for dynamic state
596*c217d954SCole Faust */
597*c217d954SCole Faust inline ITensorInfo::TensorDimsState construct_dynamic_dims_state()
598*c217d954SCole Faust {
599*c217d954SCole Faust return construct_dims_state(ITensorInfo::get_dynamic_state_value());
600*c217d954SCole Faust }
601*c217d954SCole Faust
602*c217d954SCole Faust /** Construct and return object for dimensions' state filled with the value for non-dynamic state
603*c217d954SCole Faust *
604*c217d954SCole Faust * @return Constructed class filled with the value for non-dynamic state
605*c217d954SCole Faust */
606*c217d954SCole Faust inline ITensorInfo::TensorDimsState construct_static_dims_state()
607*c217d954SCole Faust {
608*c217d954SCole Faust return construct_dims_state(ITensorInfo::get_static_state_value());
609*c217d954SCole Faust }
610*c217d954SCole Faust
611*c217d954SCole Faust /** Set the dimension states of the given tensor to dynamic
612*c217d954SCole Faust *
613*c217d954SCole Faust * @param[in] t The tensor to set to dynamic state
614*c217d954SCole Faust *
615*c217d954SCole Faust */
616*c217d954SCole Faust template <typename TensorType>
617*c217d954SCole Faust void set_tensor_dynamic(TensorType &t)
618*c217d954SCole Faust {
619*c217d954SCole Faust t.info()->set_tensor_dims_state(construct_dynamic_dims_state());
620*c217d954SCole Faust }
621*c217d954SCole Faust
622*c217d954SCole Faust /** Set the dimension states of the given tensor to state
623*c217d954SCole Faust *
624*c217d954SCole Faust * @param[in] t The tensor to set to static state
625*c217d954SCole Faust *
626*c217d954SCole Faust */
627*c217d954SCole Faust template <typename TensorType>
628*c217d954SCole Faust void set_tensor_static(TensorType &t)
629*c217d954SCole Faust {
630*c217d954SCole Faust t.info()->set_tensor_dims_state(construct_static_dims_state());
631*c217d954SCole Faust }
632*c217d954SCole Faust
633*c217d954SCole Faust inline experimental::dynamic_fusion::Conv2dAttributes convert_pad_stride_info_to_conv_attr(const PadStrideInfo &info, const Size2D &dialation)
634*c217d954SCole Faust {
635*c217d954SCole Faust const Padding2D info_pad(info.pad_left(), info.pad_right(), info.pad_top(), info.pad_bottom());
636*c217d954SCole Faust const Size2D info_stride(info.stride().first, info.stride().second);
637*c217d954SCole Faust return arm_compute::experimental::dynamic_fusion::Conv2dAttributes().pad(info_pad).stride(info_stride).dilation(dialation);
638*c217d954SCole Faust }
639*c217d954SCole Faust
640*c217d954SCole Faust } // namespace test
641*c217d954SCole Faust } // namespace arm_compute
642*c217d954SCole Faust #endif /* ARM_COMPUTE_TEST_UTILS_H */
643