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diff --git a/debug_tools/WatchYourStep/ptxjitplus/inc/cub/device/device_histogram.cuh b/debug_tools/WatchYourStep/ptxjitplus/inc/cub/device/device_histogram.cuh new file mode 100644 index 0000000..a2556a6 --- /dev/null +++ b/debug_tools/WatchYourStep/ptxjitplus/inc/cub/device/device_histogram.cuh @@ -0,0 +1,866 @@ + +/****************************************************************************** + * Copyright (c) 2011, Duane Merrill. All rights reserved. + * Copyright (c) 2011-2018, NVIDIA CORPORATION. All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * * Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * * Neither the name of the NVIDIA CORPORATION nor the + * names of its contributors may be used to endorse or promote products + * derived from this software without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND + * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED + * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL NVIDIA CORPORATION BE LIABLE FOR ANY + * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND + * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + ******************************************************************************/ + +/** + * \file + * cub::DeviceHistogram provides device-wide parallel operations for constructing histogram(s) from a sequence of samples data residing within device-accessible memory. + */ + +#pragma once + +#include <stdio.h> +#include <iterator> +#include <limits> + +#include "dispatch/dispatch_histogram.cuh" +#include "../util_namespace.cuh" + +/// Optional outer namespace(s) +CUB_NS_PREFIX + +/// CUB namespace +namespace cub { + + +/** + * \brief DeviceHistogram provides device-wide parallel operations for constructing histogram(s) from a sequence of samples data residing within device-accessible memory.  + * \ingroup SingleModule + * + * \par Overview + * A <a href="http://en.wikipedia.org/wiki/Histogram"><em>histogram</em></a> + * counts the number of observations that fall into each of the disjoint categories (known as <em>bins</em>). + * + * \par Usage Considerations + * \cdp_class{DeviceHistogram} + * + */ +struct DeviceHistogram +{ + /******************************************************************//** + * \name Evenly-segmented bin ranges + *********************************************************************/ + //@{ + + /** + * \brief Computes an intensity histogram from a sequence of data samples using equal-width bins. + * + * \par + * - The number of histogram bins is (\p num_levels - 1) + * - All bins comprise the same width of sample values: (\p upper_level - \p lower_level) / (\p num_levels - 1) + * - \devicestorage + * + * \par Snippet + * The code snippet below illustrates the computation of a six-bin histogram + * from a sequence of float samples + * + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/device/device_histogram.cuh> + * + * // Declare, allocate, and initialize device-accessible pointers for input samples and + * // output histogram + * int num_samples; // e.g., 10 + * float* d_samples; // e.g., [2.2, 6.0, 7.1, 2.9, 3.5, 0.3, 2.9, 2.0, 6.1, 999.5] + * int* d_histogram; // e.g., [ -, -, -, -, -, -, -, -] + * int num_levels; // e.g., 7 (seven level boundaries for six bins) + * float lower_level; // e.g., 0.0 (lower sample value boundary of lowest bin) + * float upper_level; // e.g., 12.0 (upper sample value boundary of upper bin) + * ... + * + * // Determine temporary device storage requirements + * void* d_temp_storage = NULL; + * size_t temp_storage_bytes = 0; + * cub::DeviceHistogram::HistogramEven(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, lower_level, upper_level, num_samples); + * + * // Allocate temporary storage + * cudaMalloc(&d_temp_storage, temp_storage_bytes); + * + * // Compute histograms + * cub::DeviceHistogram::HistogramEven(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, lower_level, upper_level, num_samples); + * + * // d_histogram <-- [1, 0, 5, 0, 3, 0, 0, 0]; + * + * \endcode + * + * \tparam SampleIteratorT <b>[inferred]</b> Random-access input iterator type for reading input samples. \iterator + * \tparam CounterT <b>[inferred]</b> Integer type for histogram bin counters + * \tparam LevelT <b>[inferred]</b> Type for specifying boundaries (levels) + * \tparam OffsetT <b>[inferred]</b> Signed integer type for sequence offsets, list lengths, pointer differences, etc. \offset_size1 + */ + template < + typename SampleIteratorT, + typename CounterT, + typename LevelT, + typename OffsetT> + CUB_RUNTIME_FUNCTION + static cudaError_t HistogramEven( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + SampleIteratorT d_samples, ///< [in] The pointer to the input sequence of data samples. + CounterT* d_histogram, ///< [out] The pointer to the histogram counter output array of length <tt>num_levels</tt> - 1. + int num_levels, ///< [in] The number of boundaries (levels) for delineating histogram samples. Implies that the number of bins is <tt>num_levels</tt> - 1. + LevelT lower_level, ///< [in] The lower sample value bound (inclusive) for the lowest histogram bin. + LevelT upper_level, ///< [in] The upper sample value bound (exclusive) for the highest histogram bin. + OffsetT num_samples, ///< [in] The number of input samples (i.e., the length of \p d_samples) + cudaStream_t stream = 0, ///< [in] <b>[optional]</b> CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous = false) ///< [in] <b>[optional]</b> Whether or not to synchronize the stream after every kernel launch to check for errors. May cause significant slowdown. Default is \p false. + { + /// The sample value type of the input iterator + typedef typename std::iterator_traits<SampleIteratorT>::value_type SampleT; + + CounterT* d_histogram1[1] = {d_histogram}; + int num_levels1[1] = {num_levels}; + LevelT lower_level1[1] = {lower_level}; + LevelT upper_level1[1] = {upper_level}; + + return MultiHistogramEven<1, 1>( + d_temp_storage, + temp_storage_bytes, + d_samples, + d_histogram1, + num_levels1, + lower_level1, + upper_level1, + num_samples, + 1, + sizeof(SampleT) * num_samples, + stream, + debug_synchronous); + } + + + /** + * \brief Computes an intensity histogram from a sequence of data samples using equal-width bins. + * + * \par + * - A two-dimensional <em>region of interest</em> within \p d_samples can be specified + * using the \p num_row_samples, num_rows, and \p row_stride_bytes parameters. + * - The row stride must be a whole multiple of the sample data type + * size, i.e., <tt>(row_stride_bytes % sizeof(SampleT)) == 0</tt>. + * - The number of histogram bins is (\p num_levels - 1) + * - All bins comprise the same width of sample values: (\p upper_level - \p lower_level) / (\p num_levels - 1) + * - \devicestorage + * + * \par Snippet + * The code snippet below illustrates the computation of a six-bin histogram + * from a 2x5 region of interest within a flattened 2x7 array of float samples. + * + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/device/device_histogram.cuh> + * + * // Declare, allocate, and initialize device-accessible pointers for input samples and + * // output histogram + * int num_row_samples; // e.g., 5 + * int num_rows; // e.g., 2; + * size_t row_stride_bytes; // e.g., 7 * sizeof(float) + * float* d_samples; // e.g., [2.2, 6.0, 7.1, 2.9, 3.5, -, -, + * // 0.3, 2.9, 2.0, 6.1, 999.5, -, -] + * int* d_histogram; // e.g., [ -, -, -, -, -, -, -, -] + * int num_levels; // e.g., 7 (seven level boundaries for six bins) + * float lower_level; // e.g., 0.0 (lower sample value boundary of lowest bin) + * float upper_level; // e.g., 12.0 (upper sample value boundary of upper bin) + * ... + * + * // Determine temporary device storage requirements + * void* d_temp_storage = NULL; + * size_t temp_storage_bytes = 0; + * cub::DeviceHistogram::HistogramEven(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, lower_level, upper_level, + * num_row_samples, num_rows, row_stride_bytes); + * + * // Allocate temporary storage + * cudaMalloc(&d_temp_storage, temp_storage_bytes); + * + * // Compute histograms + * cub::DeviceHistogram::HistogramEven(d_temp_storage, temp_storage_bytes, d_samples, d_histogram, + * d_samples, d_histogram, num_levels, lower_level, upper_level, + * num_row_samples, num_rows, row_stride_bytes); + * + * // d_histogram <-- [1, 0, 5, 0, 3, 0, 0, 0]; + * + * \endcode + * + * \tparam SampleIteratorT <b>[inferred]</b> Random-access input iterator type for reading input samples. \iterator + * \tparam CounterT <b>[inferred]</b> Integer type for histogram bin counters + * \tparam LevelT <b>[inferred]</b> Type for specifying boundaries (levels) + * \tparam OffsetT <b>[inferred]</b> Signed integer type for sequence offsets, list lengths, pointer differences, etc. \offset_size1 + */ + template < + typename SampleIteratorT, + typename CounterT, + typename LevelT, + typename OffsetT> + CUB_RUNTIME_FUNCTION + static cudaError_t HistogramEven( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + SampleIteratorT d_samples, ///< [in] The pointer to the input sequence of data samples. + CounterT* d_histogram, ///< [out] The pointer to the histogram counter output array of length <tt>num_levels</tt> - 1. + int num_levels, ///< [in] The number of boundaries (levels) for delineating histogram samples. Implies that the number of bins is <tt>num_levels</tt> - 1. + LevelT lower_level, ///< [in] The lower sample value bound (inclusive) for the lowest histogram bin. + LevelT upper_level, ///< [in] The upper sample value bound (exclusive) for the highest histogram bin. + OffsetT num_row_samples, ///< [in] The number of data samples per row in the region of interest + OffsetT num_rows, ///< [in] The number of rows in the region of interest + size_t row_stride_bytes, ///< [in] The number of bytes between starts of consecutive rows in the region of interest + cudaStream_t stream = 0, ///< [in] <b>[optional]</b> CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous = false) ///< [in] <b>[optional]</b> Whether or not to synchronize the stream after every kernel launch to check for errors. May cause significant slowdown. Default is \p false. + { + CounterT* d_histogram1[1] = {d_histogram}; + int num_levels1[1] = {num_levels}; + LevelT lower_level1[1] = {lower_level}; + LevelT upper_level1[1] = {upper_level}; + + return MultiHistogramEven<1, 1>( + d_temp_storage, + temp_storage_bytes, + d_samples, + d_histogram1, + num_levels1, + lower_level1, + upper_level1, + num_row_samples, + num_rows, + row_stride_bytes, + stream, + debug_synchronous); + } + + /** + * \brief Computes per-channel intensity histograms from a sequence of multi-channel "pixel" data samples using equal-width bins. + * + * \par + * - The input is a sequence of <em>pixel</em> structures, where each pixel comprises + * a record of \p NUM_CHANNELS consecutive data samples (e.g., an <em>RGBA</em> pixel). + * - Of the \p NUM_CHANNELS specified, the function will only compute histograms + * for the first \p NUM_ACTIVE_CHANNELS (e.g., only <em>RGB</em> histograms from <em>RGBA</em> + * pixel samples). + * - The number of histogram bins for channel<sub><em>i</em></sub> is <tt>num_levels[i]</tt> - 1. + * - For channel<sub><em>i</em></sub>, the range of values for all histogram bins + * have the same width: (<tt>upper_level[i]</tt> - <tt>lower_level[i]</tt>) / (<tt> num_levels[i]</tt> - 1) + * - \devicestorage + * + * \par Snippet + * The code snippet below illustrates the computation of three 256-bin <em>RGB</em> histograms + * from a quad-channel sequence of <em>RGBA</em> pixels (8 bits per channel per pixel) + * + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/device/device_histogram.cuh> + * + * // Declare, allocate, and initialize device-accessible pointers for input samples + * // and output histograms + * int num_pixels; // e.g., 5 + * unsigned char* d_samples; // e.g., [(2, 6, 7, 5), (3, 0, 2, 1), (7, 0, 6, 2), + * // (0, 6, 7, 5), (3, 0, 2, 6)] + * int* d_histogram[3]; // e.g., three device pointers to three device buffers, + * // each allocated with 256 integer counters + * int num_levels[3]; // e.g., {257, 257, 257}; + * unsigned int lower_level[3]; // e.g., {0, 0, 0}; + * unsigned int upper_level[3]; // e.g., {256, 256, 256}; + * ... + * + * // Determine temporary device storage requirements + * void* d_temp_storage = NULL; + * size_t temp_storage_bytes = 0; + * cub::DeviceHistogram::MultiHistogramEven<4, 3>(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, lower_level, upper_level, num_pixels); + * + * // Allocate temporary storage + * cudaMalloc(&d_temp_storage, temp_storage_bytes); + * + * // Compute histograms + * cub::DeviceHistogram::MultiHistogramEven<4, 3>(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, lower_level, upper_level, num_pixels); + * + * // d_histogram <-- [ [1, 0, 1, 2, 0, 0, 0, 1, 0, 0, 0, ..., 0], + * // [0, 3, 0, 0, 0, 0, 2, 0, 0, 0, 0, ..., 0], + * // [0, 0, 2, 0, 0, 0, 1, 2, 0, 0, 0, ..., 0] ] + * + * \endcode + * + * \tparam NUM_CHANNELS Number of channels interleaved in the input data (may be greater than the number of channels being actively histogrammed) + * \tparam NUM_ACTIVE_CHANNELS <b>[inferred]</b> Number of channels actively being histogrammed + * \tparam SampleIteratorT <b>[inferred]</b> Random-access input iterator type for reading input samples. \iterator + * \tparam CounterT <b>[inferred]</b> Integer type for histogram bin counters + * \tparam LevelT <b>[inferred]</b> Type for specifying boundaries (levels) + * \tparam OffsetT <b>[inferred]</b> Signed integer type for sequence offsets, list lengths, pointer differences, etc. \offset_size1 + */ + template < + int NUM_CHANNELS, + int NUM_ACTIVE_CHANNELS, + typename SampleIteratorT, + typename CounterT, + typename LevelT, + typename OffsetT> + CUB_RUNTIME_FUNCTION + static cudaError_t MultiHistogramEven( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + SampleIteratorT d_samples, ///< [in] The pointer to the multi-channel input sequence of data samples. The samples from different channels are assumed to be interleaved (e.g., an array of 32-bit pixels where each pixel consists of four <em>RGBA</em> 8-bit samples). + CounterT* d_histogram[NUM_ACTIVE_CHANNELS], ///< [out] The pointers to the histogram counter output arrays, one for each active channel. For channel<sub><em>i</em></sub>, the allocation length of <tt>d_histogram[i]</tt> should be <tt>num_levels[i]</tt> - 1. + int num_levels[NUM_ACTIVE_CHANNELS], ///< [in] The number of boundaries (levels) for delineating histogram samples in each active channel. Implies that the number of bins for channel<sub><em>i</em></sub> is <tt>num_levels[i]</tt> - 1. + LevelT lower_level[NUM_ACTIVE_CHANNELS], ///< [in] The lower sample value bound (inclusive) for the lowest histogram bin in each active channel. + LevelT upper_level[NUM_ACTIVE_CHANNELS], ///< [in] The upper sample value bound (exclusive) for the highest histogram bin in each active channel. + OffsetT num_pixels, ///< [in] The number of multi-channel pixels (i.e., the length of \p d_samples / NUM_CHANNELS) + cudaStream_t stream = 0, ///< [in] <b>[optional]</b> CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous = false) ///< [in] <b>[optional]</b> Whether or not to synchronize the stream after every kernel launch to check for errors. May cause significant slowdown. Default is \p false. + { + /// The sample value type of the input iterator + typedef typename std::iterator_traits<SampleIteratorT>::value_type SampleT; + + return MultiHistogramEven<NUM_CHANNELS, NUM_ACTIVE_CHANNELS>( + d_temp_storage, + temp_storage_bytes, + d_samples, + d_histogram, + num_levels, + lower_level, + upper_level, + num_pixels, + 1, + sizeof(SampleT) * NUM_CHANNELS * num_pixels, + stream, + debug_synchronous); + } + + + /** + * \brief Computes per-channel intensity histograms from a sequence of multi-channel "pixel" data samples using equal-width bins. + * + * \par + * - The input is a sequence of <em>pixel</em> structures, where each pixel comprises + * a record of \p NUM_CHANNELS consecutive data samples (e.g., an <em>RGBA</em> pixel). + * - Of the \p NUM_CHANNELS specified, the function will only compute histograms + * for the first \p NUM_ACTIVE_CHANNELS (e.g., only <em>RGB</em> histograms from <em>RGBA</em> + * pixel samples). + * - A two-dimensional <em>region of interest</em> within \p d_samples can be specified + * using the \p num_row_samples, num_rows, and \p row_stride_bytes parameters. + * - The row stride must be a whole multiple of the sample data type + * size, i.e., <tt>(row_stride_bytes % sizeof(SampleT)) == 0</tt>. + * - The number of histogram bins for channel<sub><em>i</em></sub> is <tt>num_levels[i]</tt> - 1. + * - For channel<sub><em>i</em></sub>, the range of values for all histogram bins + * have the same width: (<tt>upper_level[i]</tt> - <tt>lower_level[i]</tt>) / (<tt> num_levels[i]</tt> - 1) + * - \devicestorage + * + * \par Snippet + * The code snippet below illustrates the computation of three 256-bin <em>RGB</em> histograms from a 2x3 region of + * interest of within a flattened 2x4 array of quad-channel <em>RGBA</em> pixels (8 bits per channel per pixel). + * + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/device/device_histogram.cuh> + * + * // Declare, allocate, and initialize device-accessible pointers for input samples + * // and output histograms + * int num_row_pixels; // e.g., 3 + * int num_rows; // e.g., 2 + * size_t row_stride_bytes; // e.g., 4 * sizeof(unsigned char) * NUM_CHANNELS + * unsigned char* d_samples; // e.g., [(2, 6, 7, 5), (3, 0, 2, 1), (7, 0, 6, 2), (-, -, -, -), + * // (0, 6, 7, 5), (3, 0, 2, 6), (1, 1, 1, 1), (-, -, -, -)] + * int* d_histogram[3]; // e.g., three device pointers to three device buffers, + * // each allocated with 256 integer counters + * int num_levels[3]; // e.g., {257, 257, 257}; + * unsigned int lower_level[3]; // e.g., {0, 0, 0}; + * unsigned int upper_level[3]; // e.g., {256, 256, 256}; + * ... + * + * // Determine temporary device storage requirements + * void* d_temp_storage = NULL; + * size_t temp_storage_bytes = 0; + * cub::DeviceHistogram::MultiHistogramEven<4, 3>(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, lower_level, upper_level, + * num_row_pixels, num_rows, row_stride_bytes); + * + * // Allocate temporary storage + * cudaMalloc(&d_temp_storage, temp_storage_bytes); + * + * // Compute histograms + * cub::DeviceHistogram::MultiHistogramEven<4, 3>(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, lower_level, upper_level, + * num_row_pixels, num_rows, row_stride_bytes); + * + * // d_histogram <-- [ [1, 1, 1, 2, 0, 0, 0, 1, 0, 0, 0, ..., 0], + * // [0, 4, 0, 0, 0, 0, 2, 0, 0, 0, 0, ..., 0], + * // [0, 1, 2, 0, 0, 0, 1, 2, 0, 0, 0, ..., 0] ] + * + * \endcode + * + * \tparam NUM_CHANNELS Number of channels interleaved in the input data (may be greater than the number of channels being actively histogrammed) + * \tparam NUM_ACTIVE_CHANNELS <b>[inferred]</b> Number of channels actively being histogrammed + * \tparam SampleIteratorT <b>[inferred]</b> Random-access input iterator type for reading input samples. \iterator + * \tparam CounterT <b>[inferred]</b> Integer type for histogram bin counters + * \tparam LevelT <b>[inferred]</b> Type for specifying boundaries (levels) + * \tparam OffsetT <b>[inferred]</b> Signed integer type for sequence offsets, list lengths, pointer differences, etc. \offset_size1 + */ + template < + int NUM_CHANNELS, + int NUM_ACTIVE_CHANNELS, + typename SampleIteratorT, + typename CounterT, + typename LevelT, + typename OffsetT> + CUB_RUNTIME_FUNCTION + static cudaError_t MultiHistogramEven( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + SampleIteratorT d_samples, ///< [in] The pointer to the multi-channel input sequence of data samples. The samples from different channels are assumed to be interleaved (e.g., an array of 32-bit pixels where each pixel consists of four <em>RGBA</em> 8-bit samples). + CounterT* d_histogram[NUM_ACTIVE_CHANNELS], ///< [out] The pointers to the histogram counter output arrays, one for each active channel. For channel<sub><em>i</em></sub>, the allocation length of <tt>d_histogram[i]</tt> should be <tt>num_levels[i]</tt> - 1. + int num_levels[NUM_ACTIVE_CHANNELS], ///< [in] The number of boundaries (levels) for delineating histogram samples in each active channel. Implies that the number of bins for channel<sub><em>i</em></sub> is <tt>num_levels[i]</tt> - 1. + LevelT lower_level[NUM_ACTIVE_CHANNELS], ///< [in] The lower sample value bound (inclusive) for the lowest histogram bin in each active channel. + LevelT upper_level[NUM_ACTIVE_CHANNELS], ///< [in] The upper sample value bound (exclusive) for the highest histogram bin in each active channel. + OffsetT num_row_pixels, ///< [in] The number of multi-channel pixels per row in the region of interest + OffsetT num_rows, ///< [in] The number of rows in the region of interest + size_t row_stride_bytes, ///< [in] The number of bytes between starts of consecutive rows in the region of interest + cudaStream_t stream = 0, ///< [in] <b>[optional]</b> CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous = false) ///< [in] <b>[optional]</b> Whether or not to synchronize the stream after every kernel launch to check for errors. May cause significant slowdown. Default is \p false. + { + /// The sample value type of the input iterator + typedef typename std::iterator_traits<SampleIteratorT>::value_type SampleT; + Int2Type<sizeof(SampleT) == 1> is_byte_sample; + + if ((sizeof(OffsetT) > sizeof(int)) && + ((unsigned long long) (num_rows * row_stride_bytes) < (unsigned long long) std::numeric_limits<int>::max())) + { + // Down-convert OffsetT data type + + + return DipatchHistogram<NUM_CHANNELS, NUM_ACTIVE_CHANNELS, SampleIteratorT, CounterT, LevelT, int>::DispatchEven( + d_temp_storage, temp_storage_bytes, d_samples, d_histogram, num_levels, lower_level, upper_level, + (int) num_row_pixels, (int) num_rows, (int) (row_stride_bytes / sizeof(SampleT)), + stream, debug_synchronous, is_byte_sample); + } + + return DipatchHistogram<NUM_CHANNELS, NUM_ACTIVE_CHANNELS, SampleIteratorT, CounterT, LevelT, OffsetT>::DispatchEven( + d_temp_storage, temp_storage_bytes, d_samples, d_histogram, num_levels, lower_level, upper_level, + num_row_pixels, num_rows, (OffsetT) (row_stride_bytes / sizeof(SampleT)), + stream, debug_synchronous, is_byte_sample); + } + + + //@} end member group + /******************************************************************//** + * \name Custom bin ranges + *********************************************************************/ + //@{ + + /** + * \brief Computes an intensity histogram from a sequence of data samples using the specified bin boundary levels. + * + * \par + * - The number of histogram bins is (\p num_levels - 1) + * - The value range for bin<sub><em>i</em></sub> is [<tt>level[i]</tt>, <tt>level[i+1]</tt>) + * - \devicestorage + * + * \par Snippet + * The code snippet below illustrates the computation of an six-bin histogram + * from a sequence of float samples + * + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/device/device_histogram.cuh> + * + * // Declare, allocate, and initialize device-accessible pointers for input samples and + * // output histogram + * int num_samples; // e.g., 10 + * float* d_samples; // e.g., [2.2, 6.0, 7.1, 2.9, 3.5, 0.3, 2.9, 2.0, 6.1, 999.5] + * int* d_histogram; // e.g., [ -, -, -, -, -, -, -, -] + * int num_levels // e.g., 7 (seven level boundaries for six bins) + * float* d_levels; // e.g., [0.0, 2.0, 4.0, 6.0, 8.0, 12.0, 16.0] + * ... + * + * // Determine temporary device storage requirements + * void* d_temp_storage = NULL; + * size_t temp_storage_bytes = 0; + * cub::DeviceHistogram::HistogramRange(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, d_levels, num_samples); + * + * // Allocate temporary storage + * cudaMalloc(&d_temp_storage, temp_storage_bytes); + * + * // Compute histograms + * cub::DeviceHistogram::HistogramRange(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, d_levels, num_samples); + * + * // d_histogram <-- [1, 0, 5, 0, 3, 0, 0, 0]; + * + * \endcode + * + * \tparam SampleIteratorT <b>[inferred]</b> Random-access input iterator type for reading input samples. \iterator + * \tparam CounterT <b>[inferred]</b> Integer type for histogram bin counters + * \tparam LevelT <b>[inferred]</b> Type for specifying boundaries (levels) + * \tparam OffsetT <b>[inferred]</b> Signed integer type for sequence offsets, list lengths, pointer differences, etc. \offset_size1 + */ + template < + typename SampleIteratorT, + typename CounterT, + typename LevelT, + typename OffsetT> + CUB_RUNTIME_FUNCTION + static cudaError_t HistogramRange( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + SampleIteratorT d_samples, ///< [in] The pointer to the input sequence of data samples. + CounterT* d_histogram, ///< [out] The pointer to the histogram counter output array of length <tt>num_levels</tt> - 1. + int num_levels, ///< [in] The number of boundaries (levels) for delineating histogram samples. Implies that the number of bins is <tt>num_levels</tt> - 1. + LevelT* d_levels, ///< [in] The pointer to the array of boundaries (levels). Bin ranges are defined by consecutive boundary pairings: lower sample value boundaries are inclusive and upper sample value boundaries are exclusive. + OffsetT num_samples, ///< [in] The number of data samples per row in the region of interest + cudaStream_t stream = 0, ///< [in] <b>[optional]</b> CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous = false) ///< [in] <b>[optional]</b> Whether or not to synchronize the stream after every kernel launch to check for errors. May cause significant slowdown. Default is \p false. + { + /// The sample value type of the input iterator + typedef typename std::iterator_traits<SampleIteratorT>::value_type SampleT; + + CounterT* d_histogram1[1] = {d_histogram}; + int num_levels1[1] = {num_levels}; + LevelT* d_levels1[1] = {d_levels}; + + return MultiHistogramRange<1, 1>( + d_temp_storage, + temp_storage_bytes, + d_samples, + d_histogram1, + num_levels1, + d_levels1, + num_samples, + 1, + sizeof(SampleT) * num_samples, + stream, + debug_synchronous); + } + + + /** + * \brief Computes an intensity histogram from a sequence of data samples using the specified bin boundary levels. + * + * \par + * - A two-dimensional <em>region of interest</em> within \p d_samples can be specified + * using the \p num_row_samples, num_rows, and \p row_stride_bytes parameters. + * - The row stride must be a whole multiple of the sample data type + * size, i.e., <tt>(row_stride_bytes % sizeof(SampleT)) == 0</tt>. + * - The number of histogram bins is (\p num_levels - 1) + * - The value range for bin<sub><em>i</em></sub> is [<tt>level[i]</tt>, <tt>level[i+1]</tt>) + * - \devicestorage + * + * \par Snippet + * The code snippet below illustrates the computation of a six-bin histogram + * from a 2x5 region of interest within a flattened 2x7 array of float samples. + * + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/device/device_histogram.cuh> + * + * // Declare, allocate, and initialize device-accessible pointers for input samples and + * // output histogram + * int num_row_samples; // e.g., 5 + * int num_rows; // e.g., 2; + * int row_stride_bytes; // e.g., 7 * sizeof(float) + * float* d_samples; // e.g., [2.2, 6.0, 7.1, 2.9, 3.5, -, -, + * // 0.3, 2.9, 2.0, 6.1, 999.5, -, -] + * int* d_histogram; // e.g., [ , , , , , , , ] + * int num_levels // e.g., 7 (seven level boundaries for six bins) + * float *d_levels; // e.g., [0.0, 2.0, 4.0, 6.0, 8.0, 12.0, 16.0] + * ... + * + * // Determine temporary device storage requirements + * void* d_temp_storage = NULL; + * size_t temp_storage_bytes = 0; + * cub::DeviceHistogram::HistogramRange(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, d_levels, + * num_row_samples, num_rows, row_stride_bytes); + * + * // Allocate temporary storage + * cudaMalloc(&d_temp_storage, temp_storage_bytes); + * + * // Compute histograms + * cub::DeviceHistogram::HistogramRange(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, d_levels, + * num_row_samples, num_rows, row_stride_bytes); + * + * // d_histogram <-- [1, 0, 5, 0, 3, 0, 0, 0]; + * + * \endcode + * + * \tparam SampleIteratorT <b>[inferred]</b> Random-access input iterator type for reading input samples. \iterator + * \tparam CounterT <b>[inferred]</b> Integer type for histogram bin counters + * \tparam LevelT <b>[inferred]</b> Type for specifying boundaries (levels) + * \tparam OffsetT <b>[inferred]</b> Signed integer type for sequence offsets, list lengths, pointer differences, etc. \offset_size1 + */ + template < + typename SampleIteratorT, + typename CounterT, + typename LevelT, + typename OffsetT> + CUB_RUNTIME_FUNCTION + static cudaError_t HistogramRange( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + SampleIteratorT d_samples, ///< [in] The pointer to the input sequence of data samples. + CounterT* d_histogram, ///< [out] The pointer to the histogram counter output array of length <tt>num_levels</tt> - 1. + int num_levels, ///< [in] The number of boundaries (levels) for delineating histogram samples. Implies that the number of bins is <tt>num_levels</tt> - 1. + LevelT* d_levels, ///< [in] The pointer to the array of boundaries (levels). Bin ranges are defined by consecutive boundary pairings: lower sample value boundaries are inclusive and upper sample value boundaries are exclusive. + OffsetT num_row_samples, ///< [in] The number of data samples per row in the region of interest + OffsetT num_rows, ///< [in] The number of rows in the region of interest + size_t row_stride_bytes, ///< [in] The number of bytes between starts of consecutive rows in the region of interest + cudaStream_t stream = 0, ///< [in] <b>[optional]</b> CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous = false) ///< [in] <b>[optional]</b> Whether or not to synchronize the stream after every kernel launch to check for errors. May cause significant slowdown. Default is \p false. + { + CounterT* d_histogram1[1] = {d_histogram}; + int num_levels1[1] = {num_levels}; + LevelT* d_levels1[1] = {d_levels}; + + return MultiHistogramRange<1, 1>( + d_temp_storage, + temp_storage_bytes, + d_samples, + d_histogram1, + num_levels1, + d_levels1, + num_row_samples, + num_rows, + row_stride_bytes, + stream, + debug_synchronous); + } + + /** + * \brief Computes per-channel intensity histograms from a sequence of multi-channel "pixel" data samples using the specified bin boundary levels. + * + * \par + * - The input is a sequence of <em>pixel</em> structures, where each pixel comprises + * a record of \p NUM_CHANNELS consecutive data samples (e.g., an <em>RGBA</em> pixel). + * - Of the \p NUM_CHANNELS specified, the function will only compute histograms + * for the first \p NUM_ACTIVE_CHANNELS (e.g., <em>RGB</em> histograms from <em>RGBA</em> + * pixel samples). + * - The number of histogram bins for channel<sub><em>i</em></sub> is <tt>num_levels[i]</tt> - 1. + * - For channel<sub><em>i</em></sub>, the range of values for all histogram bins + * have the same width: (<tt>upper_level[i]</tt> - <tt>lower_level[i]</tt>) / (<tt> num_levels[i]</tt> - 1) + * - \devicestorage + * + * \par Snippet + * The code snippet below illustrates the computation of three 4-bin <em>RGB</em> histograms + * from a quad-channel sequence of <em>RGBA</em> pixels (8 bits per channel per pixel) + * + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/device/device_histogram.cuh> + * + * // Declare, allocate, and initialize device-accessible pointers for input samples + * // and output histograms + * int num_pixels; // e.g., 5 + * unsigned char *d_samples; // e.g., [(2, 6, 7, 5),(3, 0, 2, 1),(7, 0, 6, 2), + * // (0, 6, 7, 5),(3, 0, 2, 6)] + * unsigned int *d_histogram[3]; // e.g., [[ -, -, -, -],[ -, -, -, -],[ -, -, -, -]]; + * int num_levels[3]; // e.g., {5, 5, 5}; + * unsigned int *d_levels[3]; // e.g., [ [0, 2, 4, 6, 8], + * // [0, 2, 4, 6, 8], + * // [0, 2, 4, 6, 8] ]; + * ... + * + * // Determine temporary device storage requirements + * void* d_temp_storage = NULL; + * size_t temp_storage_bytes = 0; + * cub::DeviceHistogram::MultiHistogramRange<4, 3>(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, d_levels, num_pixels); + * + * // Allocate temporary storage + * cudaMalloc(&d_temp_storage, temp_storage_bytes); + * + * // Compute histograms + * cub::DeviceHistogram::MultiHistogramRange<4, 3>(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, d_levels, num_pixels); + * + * // d_histogram <-- [ [1, 3, 0, 1], + * // [3, 0, 0, 2], + * // [0, 2, 0, 3] ] + * + * \endcode + * + * \tparam NUM_CHANNELS Number of channels interleaved in the input data (may be greater than the number of channels being actively histogrammed) + * \tparam NUM_ACTIVE_CHANNELS <b>[inferred]</b> Number of channels actively being histogrammed + * \tparam SampleIteratorT <b>[inferred]</b> Random-access input iterator type for reading input samples. \iterator + * \tparam CounterT <b>[inferred]</b> Integer type for histogram bin counters + * \tparam LevelT <b>[inferred]</b> Type for specifying boundaries (levels) + * \tparam OffsetT <b>[inferred]</b> Signed integer type for sequence offsets, list lengths, pointer differences, etc. \offset_size1 + */ + template < + int NUM_CHANNELS, + int NUM_ACTIVE_CHANNELS, + typename SampleIteratorT, + typename CounterT, + typename LevelT, + typename OffsetT> + CUB_RUNTIME_FUNCTION + static cudaError_t MultiHistogramRange( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + SampleIteratorT d_samples, ///< [in] The pointer to the multi-channel input sequence of data samples. The samples from different channels are assumed to be interleaved (e.g., an array of 32-bit pixels where each pixel consists of four <em>RGBA</em> 8-bit samples). + CounterT* d_histogram[NUM_ACTIVE_CHANNELS], ///< [out] The pointers to the histogram counter output arrays, one for each active channel. For channel<sub><em>i</em></sub>, the allocation length of <tt>d_histogram[i]</tt> should be <tt>num_levels[i]</tt> - 1. + int num_levels[NUM_ACTIVE_CHANNELS], ///< [in] The number of boundaries (levels) for delineating histogram samples in each active channel. Implies that the number of bins for channel<sub><em>i</em></sub> is <tt>num_levels[i]</tt> - 1. + LevelT* d_levels[NUM_ACTIVE_CHANNELS], ///< [in] The pointers to the arrays of boundaries (levels), one for each active channel. Bin ranges are defined by consecutive boundary pairings: lower sample value boundaries are inclusive and upper sample value boundaries are exclusive. + OffsetT num_pixels, ///< [in] The number of multi-channel pixels (i.e., the length of \p d_samples / NUM_CHANNELS) + cudaStream_t stream = 0, ///< [in] <b>[optional]</b> CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous = false) ///< [in] <b>[optional]</b> Whether or not to synchronize the stream after every kernel launch to check for errors. May cause significant slowdown. Default is \p false. + { + /// The sample value type of the input iterator + typedef typename std::iterator_traits<SampleIteratorT>::value_type SampleT; + + return MultiHistogramRange<NUM_CHANNELS, NUM_ACTIVE_CHANNELS>( + d_temp_storage, + temp_storage_bytes, + d_samples, + d_histogram, + num_levels, + d_levels, + num_pixels, + 1, + sizeof(SampleT) * NUM_CHANNELS * num_pixels, + stream, + debug_synchronous); + } + + + /** + * \brief Computes per-channel intensity histograms from a sequence of multi-channel "pixel" data samples using the specified bin boundary levels. + * + * \par + * - The input is a sequence of <em>pixel</em> structures, where each pixel comprises + * a record of \p NUM_CHANNELS consecutive data samples (e.g., an <em>RGBA</em> pixel). + * - Of the \p NUM_CHANNELS specified, the function will only compute histograms + * for the first \p NUM_ACTIVE_CHANNELS (e.g., <em>RGB</em> histograms from <em>RGBA</em> + * pixel samples). + * - A two-dimensional <em>region of interest</em> within \p d_samples can be specified + * using the \p num_row_samples, num_rows, and \p row_stride_bytes parameters. + * - The row stride must be a whole multiple of the sample data type + * size, i.e., <tt>(row_stride_bytes % sizeof(SampleT)) == 0</tt>. + * - The number of histogram bins for channel<sub><em>i</em></sub> is <tt>num_levels[i]</tt> - 1. + * - For channel<sub><em>i</em></sub>, the range of values for all histogram bins + * have the same width: (<tt>upper_level[i]</tt> - <tt>lower_level[i]</tt>) / (<tt> num_levels[i]</tt> - 1) + * - \devicestorage + * + * \par Snippet + * The code snippet below illustrates the computation of three 4-bin <em>RGB</em> histograms from a 2x3 region of + * interest of within a flattened 2x4 array of quad-channel <em>RGBA</em> pixels (8 bits per channel per pixel). + * + * \par + * \code + * #include <cub/cub.cuh> // or equivalently <cub/device/device_histogram.cuh> + * + * // Declare, allocate, and initialize device-accessible pointers for input samples + * // and output histograms + * int num_row_pixels; // e.g., 3 + * int num_rows; // e.g., 2 + * size_t row_stride_bytes; // e.g., 4 * sizeof(unsigned char) * NUM_CHANNELS + * unsigned char* d_samples; // e.g., [(2, 6, 7, 5),(3, 0, 2, 1),(1, 1, 1, 1),(-, -, -, -), + * // (7, 0, 6, 2),(0, 6, 7, 5),(3, 0, 2, 6),(-, -, -, -)] + * int* d_histogram[3]; // e.g., [[ -, -, -, -],[ -, -, -, -],[ -, -, -, -]]; + * int num_levels[3]; // e.g., {5, 5, 5}; + * unsigned int* d_levels[3]; // e.g., [ [0, 2, 4, 6, 8], + * // [0, 2, 4, 6, 8], + * // [0, 2, 4, 6, 8] ]; + * ... + * + * // Determine temporary device storage requirements + * void* d_temp_storage = NULL; + * size_t temp_storage_bytes = 0; + * cub::DeviceHistogram::MultiHistogramRange<4, 3>(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, d_levels, num_row_pixels, num_rows, row_stride_bytes); + * + * // Allocate temporary storage + * cudaMalloc(&d_temp_storage, temp_storage_bytes); + * + * // Compute histograms + * cub::DeviceHistogram::MultiHistogramRange<4, 3>(d_temp_storage, temp_storage_bytes, + * d_samples, d_histogram, num_levels, d_levels, num_row_pixels, num_rows, row_stride_bytes); + * + * // d_histogram <-- [ [2, 3, 0, 1], + * // [3, 0, 0, 2], + * // [1, 2, 0, 3] ] + * + * \endcode + * + * \tparam NUM_CHANNELS Number of channels interleaved in the input data (may be greater than the number of channels being actively histogrammed) + * \tparam NUM_ACTIVE_CHANNELS <b>[inferred]</b> Number of channels actively being histogrammed + * \tparam SampleIteratorT <b>[inferred]</b> Random-access input iterator type for reading input samples. \iterator + * \tparam CounterT <b>[inferred]</b> Integer type for histogram bin counters + * \tparam LevelT <b>[inferred]</b> Type for specifying boundaries (levels) + * \tparam OffsetT <b>[inferred]</b> Signed integer type for sequence offsets, list lengths, pointer differences, etc. \offset_size1 + */ + template < + int NUM_CHANNELS, + int NUM_ACTIVE_CHANNELS, + typename SampleIteratorT, + typename CounterT, + typename LevelT, + typename OffsetT> + CUB_RUNTIME_FUNCTION + static cudaError_t MultiHistogramRange( + void* d_temp_storage, ///< [in] %Device-accessible allocation of temporary storage. When NULL, the required allocation size is written to \p temp_storage_bytes and no work is done. + size_t& temp_storage_bytes, ///< [in,out] Reference to size in bytes of \p d_temp_storage allocation + SampleIteratorT d_samples, ///< [in] The pointer to the multi-channel input sequence of data samples. The samples from different channels are assumed to be interleaved (e.g., an array of 32-bit pixels where each pixel consists of four <em>RGBA</em> 8-bit samples). + CounterT* d_histogram[NUM_ACTIVE_CHANNELS], ///< [out] The pointers to the histogram counter output arrays, one for each active channel. For channel<sub><em>i</em></sub>, the allocation length of <tt>d_histogram[i]</tt> should be <tt>num_levels[i]</tt> - 1. + int num_levels[NUM_ACTIVE_CHANNELS], ///< [in] The number of boundaries (levels) for delineating histogram samples in each active channel. Implies that the number of bins for channel<sub><em>i</em></sub> is <tt>num_levels[i]</tt> - 1. + LevelT* d_levels[NUM_ACTIVE_CHANNELS], ///< [in] The pointers to the arrays of boundaries (levels), one for each active channel. Bin ranges are defined by consecutive boundary pairings: lower sample value boundaries are inclusive and upper sample value boundaries are exclusive. + OffsetT num_row_pixels, ///< [in] The number of multi-channel pixels per row in the region of interest + OffsetT num_rows, ///< [in] The number of rows in the region of interest + size_t row_stride_bytes, ///< [in] The number of bytes between starts of consecutive rows in the region of interest + cudaStream_t stream = 0, ///< [in] <b>[optional]</b> CUDA stream to launch kernels within. Default is stream<sub>0</sub>. + bool debug_synchronous = false) ///< [in] <b>[optional]</b> Whether or not to synchronize the stream after every kernel launch to check for errors. May cause significant slowdown. Default is \p false. + { + /// The sample value type of the input iterator + typedef typename std::iterator_traits<SampleIteratorT>::value_type SampleT; + Int2Type<sizeof(SampleT) == 1> is_byte_sample; + + if ((sizeof(OffsetT) > sizeof(int)) && + ((unsigned long long) (num_rows * row_stride_bytes) < (unsigned long long) std::numeric_limits<int>::max())) + { + // Down-convert OffsetT data type + return DipatchHistogram<NUM_CHANNELS, NUM_ACTIVE_CHANNELS, SampleIteratorT, CounterT, LevelT, int>::DispatchRange( + d_temp_storage, temp_storage_bytes, d_samples, d_histogram, num_levels, d_levels, + (int) num_row_pixels, (int) num_rows, (int) (row_stride_bytes / sizeof(SampleT)), + stream, debug_synchronous, is_byte_sample); + } + + return DipatchHistogram<NUM_CHANNELS, NUM_ACTIVE_CHANNELS, SampleIteratorT, CounterT, LevelT, OffsetT>::DispatchRange( + d_temp_storage, temp_storage_bytes, d_samples, d_histogram, num_levels, d_levels, + num_row_pixels, num_rows, (OffsetT) (row_stride_bytes / sizeof(SampleT)), + stream, debug_synchronous, is_byte_sample); + } + + + + //@} end member group +}; + +} // CUB namespace +CUB_NS_POSTFIX // Optional outer namespace(s) + + |
