/* * Copyright (c) 2016, 2017 ARM Limited. * * SPDX-License-Identifier: MIT * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #ifndef __ARM_COMPUTE_VALIDATE_H__ #define __ARM_COMPUTE_VALIDATE_H__ #include "arm_compute/core/Error.h" #include "arm_compute/core/HOGInfo.h" #include "arm_compute/core/IKernel.h" #include "arm_compute/core/IMultiHOG.h" #include "arm_compute/core/IMultiImage.h" #include "arm_compute/core/ITensor.h" #include "arm_compute/core/MultiImageInfo.h" #include "arm_compute/core/Window.h" #include namespace arm_compute { namespace detail { /* Check whether two dimension objects differ. * * @param[in] dim1 First object to be compared. * @param[in] dim2 Second object to be compared. * @param[in] upper_dim The dimension from which to check. * * @return Return true if the two objects are different. */ template inline bool have_different_dimensions(const Dimensions &dim1, const Dimensions &dim2, unsigned int upper_dim) { for(unsigned int i = upper_dim; i < arm_compute::Dimensions::num_max_dimensions; ++i) { if(dim1[i] != dim2[i]) { return true; } } return false; } /** Functor to compare two @ref Dimensions objects and throw an error on mismatch. * * @param[in] dim Object to compare against. * @param[in] function Function in which the error occured. * @param[in] file File in which the error occured. * @param[in] line Line in which the error occured. */ template class compare_dimension { public: compare_dimension(const Dimensions &dim, const char *function, const char *file, int line) : _dim{ dim }, _function{ function }, _file{ file }, _line{ line } { } /** Compare the given object against the stored one. * * @param[in] dim To be compared object. */ void operator()(const Dimensions &dim) { ARM_COMPUTE_ERROR_ON_LOC_MSG(have_different_dimensions(_dim, dim, 0), _function, _file, _line, "Objects have different dimensions"); } private: const Dimensions &_dim; const char *const _function; const char *const _file; const int _line; }; } // namespace detail /** Throw an error if one of the pointers is a nullptr. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] pointers Pointers to check against nullptr. */ template void error_on_nullptr(const char *function, const char *file, const int line, Ts &&... pointers) { auto is_nullptr = [&](const void *ptr) { ARM_COMPUTE_ERROR_ON_LOC(ptr == nullptr, function, file, line); }; for_each(is_nullptr, std::forward(pointers)...); } #define ARM_COMPUTE_ERROR_ON_NULLPTR(...) ::arm_compute::error_on_nullptr(__func__, __FILE__, __LINE__, __VA_ARGS__) /** Throw an error if the passed window is invalid. * * The subwindow is invalid if: * - It is not a valid window. * - Its dimensions don't match the full window's ones * - The step for each of its dimension is not identical to the corresponding one of the full window. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] full Full size window * @param[in] win Window to validate. */ void error_on_mismatching_windows(const char *function, const char *file, const int line, const Window &full, const Window &win); #define ARM_COMPUTE_ERROR_ON_MISMATCHING_WINDOWS(f, w) ::arm_compute::error_on_mismatching_windows(__func__, __FILE__, __LINE__, f, w) /** Throw an error if the passed subwindow is invalid. * * The subwindow is invalid if: * - It is not a valid window. * - It is not fully contained inside the full window * - The step for each of its dimension is not identical to the corresponding one of the full window. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] full Full size window * @param[in] sub Sub-window to validate. */ void error_on_invalid_subwindow(const char *function, const char *file, const int line, const Window &full, const Window &sub); #define ARM_COMPUTE_ERROR_ON_INVALID_SUBWINDOW(f, s) ::arm_compute::error_on_invalid_subwindow(__func__, __FILE__, __LINE__, f, s) /** Throw an error if the window can't be collapsed at the given dimension. * * The window cannot be collapsed if the given dimension not equal to the full window's dimension or not start from 0. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] full Full size window * @param[in] window Window to be collapsed. * @param[in] dim Dimension need to be checked. */ void error_on_window_not_collapsable_at_dimension(const char *function, const char *file, const int line, const Window &full, const Window &window, const int dim); #define ARM_COMPUTE_ERROR_ON_WINDOW_NOT_COLLAPSABLE_AT_DIMENSION(f, w, d) ::arm_compute::error_on_window_not_collapsable_at_dimension(__func__, __FILE__, __LINE__, f, w, d) /** Throw an error if the passed coordinates have too many dimensions. * * The coordinates have too many dimensions if any of the dimensions greater or equal to max_dim is different from 0. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] pos Coordinates to validate * @param[in] max_dim Maximum number of dimensions allowed. */ void error_on_coordinates_dimensions_gte(const char *function, const char *file, const int line, const Coordinates &pos, unsigned int max_dim); #define ARM_COMPUTE_ERROR_ON_COORDINATES_DIMENSIONS_GTE(p, md) ::arm_compute::error_on_coordinates_dimensions_gte(__func__, __FILE__, __LINE__, p, md) /** Throw an error if the passed window has too many dimensions. * * The window has too many dimensions if any of the dimension greater or equal to max_dim is different from 0. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] win Window to validate * @param[in] max_dim Maximum number of dimensions allowed. */ void error_on_window_dimensions_gte(const char *function, const char *file, const int line, const Window &win, unsigned int max_dim); #define ARM_COMPUTE_ERROR_ON_WINDOW_DIMENSIONS_GTE(w, md) ::arm_compute::error_on_window_dimensions_gte(__func__, __FILE__, __LINE__, w, md) /** Throw an error if the passed dimension objects differ. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] dim1 The first object to be compared. * @param[in] dim2 The second object to be compared. * @param[in] dims (Optional) Further allowed objects. */ template void error_on_mismatching_dimensions(const char *function, const char *file, int line, const Dimensions &dim1, const Dimensions &dim2, Ts &&... dims) { ARM_COMPUTE_UNUSED(function); ARM_COMPUTE_UNUSED(file); ARM_COMPUTE_UNUSED(line); for_each(detail::compare_dimension(dim1, function, file, line), dim2, std::forward(dims)...); } #define ARM_COMPUTE_ERROR_ON_MISMATCHING_DIMENSIONS(...) ::arm_compute::error_on_mismatching_dimensions(__func__, __FILE__, __LINE__, __VA_ARGS__) /** Throw an error if the passed two tensors have different shapes from the given dimension * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] tensor_1 The first tensor to be compared. * @param[in] tensor_2 The second tensor to be compared. * @param[in] tensors (Optional) Further allowed tensors. */ template void error_on_mismatching_shapes(const char *function, const char *file, const int line, const ITensor *tensor_1, const ITensor *tensor_2, Ts... tensors) { error_on_mismatching_shapes(function, file, line, 0U, tensor_1, tensor_2, std::forward(tensors)...); } /** Throw an error if the passed two tensors have different shapes from the given dimension * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] upper_dim The dimension from which to check. * @param[in] tensor_1 The first tensor to be compared. * @param[in] tensor_2 The second tensor to be compared. * @param[in] tensors (Optional) Further allowed tensors. */ template void error_on_mismatching_shapes(const char *function, const char *file, const int line, unsigned int upper_dim, const ITensor *tensor_1, const ITensor *tensor_2, Ts... tensors) { ARM_COMPUTE_UNUSED(function); ARM_COMPUTE_UNUSED(file); ARM_COMPUTE_UNUSED(line); const std::array < const ITensor *, 2 + sizeof...(Ts) > tensors_array{ { tensor_1, tensor_2, std::forward(tensors)... } }; ARM_COMPUTE_UNUSED(tensors_array); ARM_COMPUTE_ERROR_ON_LOC(tensors_array.cbegin() == nullptr, function, file, line); ARM_COMPUTE_ERROR_ON_LOC_MSG(std::any_of(std::next(tensors_array.cbegin()), tensors_array.cend(), [&](const ITensor * tensor) { ARM_COMPUTE_ERROR_ON_LOC(tensor == nullptr, function, file, line); return detail::have_different_dimensions((*tensors_array.cbegin())->info()->tensor_shape(), tensor->info()->tensor_shape(), upper_dim); }), function, file, line, "Tensors have different shapes"); } #define ARM_COMPUTE_ERROR_ON_MISMATCHING_SHAPES(...) ::arm_compute::error_on_mismatching_shapes(__func__, __FILE__, __LINE__, __VA_ARGS__) /** Throw an error if the passed two tensors have different data types * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] tensor The first tensor to be compared. * @param[in] tensors (Optional) Further allowed tensors. */ template void error_on_mismatching_data_types(const char *function, const char *file, const int line, const ITensor *tensor, Ts... tensors) { ARM_COMPUTE_UNUSED(function); ARM_COMPUTE_UNUSED(file); ARM_COMPUTE_UNUSED(line); ARM_COMPUTE_UNUSED(tensor); ARM_COMPUTE_ERROR_ON_LOC(tensor == nullptr, function, file, line); DataType &&tensor_data_type = tensor->info()->data_type(); ARM_COMPUTE_UNUSED(tensor_data_type); const std::array tensors_array{ { std::forward(tensors)... } }; ARM_COMPUTE_UNUSED(tensors_array); ARM_COMPUTE_ERROR_ON_LOC_MSG(std::any_of(tensors_array.begin(), tensors_array.end(), [&](const ITensor * tensor_obj) { ARM_COMPUTE_ERROR_ON_LOC(tensor_obj == nullptr, function, file, line); return tensor_obj->info()->data_type() != tensor_data_type; }), function, file, line, "Tensors have different data types"); } #define ARM_COMPUTE_ERROR_ON_MISMATCHING_DATA_TYPES(...) ::arm_compute::error_on_mismatching_data_types(__func__, __FILE__, __LINE__, __VA_ARGS__) /** Throw an error if the passed tensors have different fixed point data types or different fixed point positions * * @note: If the first tensor doesn't have fixed point data type, the function returns without throwing an error * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] tensor_1 The first tensor to be compared. * @param[in] tensor_2 The second tensor to be compared. * @param[in] tensors (Optional) Further allowed tensors. */ template void error_on_mismatching_fixed_point(const char *function, const char *file, const int line, const ITensor *tensor_1, const ITensor *tensor_2, Ts... tensors) { ARM_COMPUTE_UNUSED(function); ARM_COMPUTE_UNUSED(file); ARM_COMPUTE_UNUSED(line); ARM_COMPUTE_UNUSED(tensor_1); ARM_COMPUTE_UNUSED(tensor_2); DataType &&first_data_type = tensor_1->info()->data_type(); const int first_fixed_point_position = tensor_1->info()->fixed_point_position(); ARM_COMPUTE_UNUSED(first_data_type); ARM_COMPUTE_UNUSED(first_fixed_point_position); if((first_data_type != DataType::QS8) && (first_data_type != DataType::QS16)) { return; } const std::array < const ITensor *, 1 + sizeof...(Ts) > tensors_array{ { tensor_2, std::forward(tensors)... } }; ARM_COMPUTE_UNUSED(tensors_array); ARM_COMPUTE_ERROR_ON_LOC_MSG(std::any_of(tensors_array.begin(), tensors_array.end(), [&](const ITensor * tensor) { return tensor->info()->data_type() != first_data_type; }), function, file, line, "Tensors have different fixed point data types"); ARM_COMPUTE_ERROR_ON_LOC_MSG(std::any_of(tensors_array.begin(), tensors_array.end(), [&](const ITensor * tensor) { return tensor->info()->fixed_point_position() != first_fixed_point_position; }), function, file, line, "Tensors have different fixed point positions"); } #define ARM_COMPUTE_ERROR_ON_MISMATCHING_FIXED_POINT(...) ::arm_compute::error_on_mismatching_fixed_point(__func__, __FILE__, __LINE__, __VA_ARGS__) /** Throw an error if the format of the passed tensor/multi-image does not match any of the formats provided. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] object Tensor/multi-image to validate. * @param[in] format First format allowed. * @param[in] formats (Optional) Further allowed formats. */ template void error_on_format_not_in(const char *function, const char *file, const int line, const T *object, F &&format, Fs &&... formats) { ARM_COMPUTE_ERROR_ON_LOC(object == nullptr, function, file, line); Format &&object_format = object->info()->format(); ARM_COMPUTE_UNUSED(object_format); ARM_COMPUTE_ERROR_ON_LOC(object_format == Format::UNKNOWN, function, file, line); const std::array formats_array{ { std::forward(formats)... } }; ARM_COMPUTE_UNUSED(formats_array); ARM_COMPUTE_ERROR_ON_LOC_MSG(object_format != format && std::none_of(formats_array.begin(), formats_array.end(), [&](const F & f) { return f == object_format; }), function, file, line, "Format %s not supported by this kernel", string_from_format(object_format).c_str()); } #define ARM_COMPUTE_ERROR_ON_FORMAT_NOT_IN(t, ...) ::arm_compute::error_on_format_not_in(__func__, __FILE__, __LINE__, t, __VA_ARGS__) /** Throw an error if the data type of the passed tensor does not match any of the data types provided. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] tensor Tensor to validate. * @param[in] dt First data type allowed. * @param[in] dts (Optional) Further allowed data types. */ template void error_on_data_type_not_in(const char *function, const char *file, const int line, const ITensor *tensor, T &&dt, Ts &&... dts) { ARM_COMPUTE_ERROR_ON_LOC(tensor == nullptr, function, file, line); const DataType &tensor_dt = tensor->info()->data_type(); //NOLINT ARM_COMPUTE_UNUSED(tensor_dt); ARM_COMPUTE_ERROR_ON_LOC(tensor_dt == DataType::UNKNOWN, function, file, line); const std::array dts_array{ { std::forward(dts)... } }; ARM_COMPUTE_UNUSED(dts_array); ARM_COMPUTE_ERROR_ON_LOC_MSG(tensor_dt != dt && std::none_of(dts_array.begin(), dts_array.end(), [&](const T & d) { return d == tensor_dt; }), function, file, line, "ITensor data type %s not supported by this kernel", string_from_data_type(tensor_dt).c_str()); } #define ARM_COMPUTE_ERROR_ON_DATA_TYPE_NOT_IN(t, ...) ::arm_compute::error_on_data_type_not_in(__func__, __FILE__, __LINE__, t, __VA_ARGS__) /** Throw an error if the data type or the number of channels of the passed tensor does not match any of the data types and number of channels provided. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] tensor Tensor to validate. * @param[in] num_channels Number of channels to check * @param[in] dt First data type allowed. * @param[in] dts (Optional) Further allowed data types. */ template void error_on_data_type_channel_not_in(const char *function, const char *file, const int line, const ITensor *tensor, size_t num_channels, T &&dt, Ts &&... dts) { error_on_data_type_not_in(function, file, line, tensor, std::forward(dt), std::forward(dts)...); const size_t tensor_nc = tensor->info()->num_channels(); ARM_COMPUTE_UNUSED(tensor_nc); ARM_COMPUTE_ERROR_ON_LOC_MSG(tensor_nc != num_channels, function, file, line, "Number of channels %d. Required number of channels %d", tensor_nc, num_channels); } #define ARM_COMPUTE_ERROR_ON_DATA_TYPE_CHANNEL_NOT_IN(t, c, ...) ::arm_compute::error_on_data_type_channel_not_in(__func__, __FILE__, __LINE__, t, c, __VA_ARGS__) /** Throw an error if the tensor is not 2D. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] tensor Tensor to validate. */ void error_on_tensor_not_2d(const char *function, const char *file, const int line, const ITensor *tensor); #define ARM_COMPUTE_ERROR_ON_TENSOR_NOT_2D(t) ::arm_compute::error_on_tensor_not_2d(__func__, __FILE__, __LINE__, t) /** Throw an error if the channel is not in channels. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] cn Input channel * @param[in] channel First channel allowed. * @param[in] channels (Optional) Further allowed channels. */ template void error_on_channel_not_in(const char *function, const char *file, const int line, T cn, T &&channel, Ts &&... channels) { ARM_COMPUTE_ERROR_ON_LOC(cn == Channel::UNKNOWN, function, file, line); const std::array channels_array{ { std::forward(channels)... } }; ARM_COMPUTE_UNUSED(channels_array); ARM_COMPUTE_ERROR_ON_LOC(channel != cn && std::none_of(channels_array.begin(), channels_array.end(), [&](const T & f) { return f == cn; }), function, file, line); } #define ARM_COMPUTE_ERROR_ON_CHANNEL_NOT_IN(c, ...) ::arm_compute::error_on_channel_not_in(__func__, __FILE__, __LINE__, c, __VA_ARGS__) /** Throw an error if the channel is not in format. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] fmt Input channel * @param[in] cn First channel allowed. */ void error_on_channel_not_in_known_format(const char *function, const char *file, const int line, Format fmt, Channel cn); #define ARM_COMPUTE_ERROR_ON_CHANNEL_NOT_IN_KNOWN_FORMAT(f, c) ::arm_compute::error_on_channel_not_in_known_format(__func__, __FILE__, __LINE__, f, c) /** Throw an error if the @ref IMultiHOG container is invalid * * An @ref IMultiHOG container is invalid if: * * -# it is a nullptr * -# it doesn't contain models * -# it doesn't have the HOG data objects with the same phase_type, normalization_type and l2_hyst_threshold (if normalization_type == L2HYS_NORM) * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] multi_hog IMultiHOG container to validate */ void error_on_invalid_multi_hog(const char *function, const char *file, const int line, const IMultiHOG *multi_hog); #define ARM_COMPUTE_ERROR_ON_INVALID_MULTI_HOG(m) ::arm_compute::error_on_invalid_multi_hog(__func__, __FILE__, __LINE__, m) /** Throw an error if the kernel is not configured. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] kernel Kernel to validate. */ void error_on_unconfigured_kernel(const char *function, const char *file, const int line, const IKernel *kernel); #define ARM_COMPUTE_ERROR_ON_UNCONFIGURED_KERNEL(k) ::arm_compute::error_on_unconfigured_kernel(__func__, __FILE__, __LINE__, k) /** Throw an error if if the coordinates and shape of the subtensor are within the parent tensor. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] parent_shape Parent tensor shape * @param[in] coords Coordinates inside the parent tensor where the first element of the subtensor is * @param[in] shape Shape of the subtensor */ void error_on_invalid_subtensor(const char *function, const char *file, const int line, const TensorShape &parent_shape, const Coordinates &coords, const TensorShape &shape); #define ARM_COMPUTE_ERROR_ON_INVALID_SUBTENSOR(p, c, s) ::arm_compute::error_on_invalid_subtensor(__func__, __FILE__, __LINE__, p, c, s) /** Throw an error if the valid region of a subtensor is not inside the valid region of the parent tensor. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] parent_valid_region Parent valid region. * @param[in] valid_region Valid region of subtensor. */ void error_on_invalid_subtensor_valid_region(const char *function, const char *file, const int line, const ValidRegion &parent_valid_region, const ValidRegion &valid_region); #define ARM_COMPUTE_ERROR_ON_INVALID_SUBTENSOR_VALID_REGION(pv, sv) ::arm_compute::error_on_invalid_subtensor_valid_region(__func__, __FILE__, __LINE__, pv, sv) /** Throw an error if the input fixed-point positions are different. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] tensor_1 The first tensor to be compared. * @param[in] tensor_2 The second tensor to be compared. * @param[in] tensors (Optional) Further allowed tensors. */ template void error_on_mismatching_fixed_point_position(const char *function, const char *file, const int line, const ITensor *tensor_1, const ITensor *tensor_2, Ts... tensors) { const std::array < const ITensor *, 1 + sizeof...(Ts) > tensors_array{ { tensor_2, std::forward(tensors)... } }; ARM_COMPUTE_UNUSED(tensors_array); ARM_COMPUTE_ERROR_ON_LOC_MSG(std::any_of(tensors_array.begin(), tensors_array.end(), [&](const ITensor * tensor) { return tensor->info()->fixed_point_position() != tensor_1->info()->fixed_point_position(); }), function, file, line, "Tensors have different fixed-point positions"); } #define ARM_COMPUTE_ERROR_ON_MISMATCHING_FIXED_POINT_POSITION(...) ::arm_compute::error_on_mismatching_fixed_point_position(__func__, __FILE__, __LINE__, __VA_ARGS__) /** Throw an error if the fixed-point value is not representable in the specified Q format. * * @param[in] function Function in which the error occurred. * @param[in] file Name of the file where the error occurred. * @param[in] line Line on which the error occurred. * @param[in] value The floating point value to be checked. * @param[in] tensor Input tensor that has information on data type and fixed-point position. */ template void error_on_value_not_representable_in_fixed_point(const char *function, const char *file, int line, float value, const ITensor *tensor) { const int fixed_point_position = tensor->info()->fixed_point_position(); const DataType dt = tensor->info()->data_type(); const unsigned int q_max_range = 0xFFFFFFFFu >> (((sizeof(unsigned int) - element_size_from_data_type(dt)) * 8) + 1); const float max_range = q_max_range / (static_cast(1 << fixed_point_position)); ARM_COMPUTE_UNUSED(max_range); ARM_COMPUTE_ERROR_ON_LOC_MSG(value > max_range, function, file, line, "Value %f is not representable in %s with fixed-point position %d", value, string_from_data_type(dt).c_str(), fixed_point_position); } #define ARM_COMPUTE_ERROR_ON_VALUE_NOT_REPRESENTABLE_IN_FIXED_POINT(...) ::arm_compute::error_on_value_not_representable_in_fixed_point(__func__, __FILE__, __LINE__, __VA_ARGS__) } #endif /* __ARM_COMPUTE_VALIDATE_H__*/