# Tencent is pleased to support the open source community by making ncnn available. # # Copyright (C) 2020 THL A29 Limited, a Tencent company. All rights reserved. # # Licensed under the BSD 3-Clause License (the "License"); you may not use this file except # in compliance with the License. You may obtain a copy of the License at # # https://opensource.org/licenses/BSD-3-Clause # # Unless required by applicable law or agreed to in writing, software distributed # under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR # CONDITIONS OF ANY KIND, either express or implied. See the License for the # specific language governing permissions and limitations under the License. import sys import numpy as np import pytest import ncnn def test_mat_dims1(): mat = ncnn.Mat(1) assert mat.dims == 1 and mat.w == 1 mat = ncnn.Mat(2, elemsize=4) assert mat.dims == 1 and mat.w == 2 and mat.elemsize == 4 mat = ncnn.Mat(3, elemsize=4, elempack=1) assert mat.dims == 1 and mat.w == 3 and mat.elemsize == 4 and mat.elempack == 1 mat = ncnn.Mat(4, elemsize=4, elempack=1, allocator=None) assert ( mat.dims == 1 and mat.w == 4 and mat.elemsize == 4 and mat.elempack == 1 and mat.allocator == None ) mat = ncnn.Mat((1,)) assert mat.dims == 1 and mat.w == 1 mat = ncnn.Mat((2,), elemsize=4) assert mat.dims == 1 and mat.w == 2 and mat.elemsize == 4 mat = ncnn.Mat((3,), elemsize=4, elempack=1) assert mat.dims == 1 and mat.w == 3 and mat.elemsize == 4 and mat.elempack == 1 mat = ncnn.Mat((4,), elemsize=4, elempack=1, allocator=None) assert ( mat.dims == 1 and mat.w == 4 and mat.elemsize == 4 and mat.elempack == 1 and mat.allocator == None ) def test_mat_dims2(): mat = ncnn.Mat(1, 2) assert mat.dims == 2 and mat.w == 1 and mat.h == 2 mat = ncnn.Mat(3, 4, elemsize=4) assert mat.dims == 2 and mat.w == 3 and mat.h == 4 and mat.elemsize == 4 mat = ncnn.Mat(5, 6, elemsize=4, elempack=1) assert ( mat.dims == 2 and mat.w == 5 and mat.h == 6 and mat.elemsize == 4 and mat.elempack == 1 ) mat = ncnn.Mat(7, 8, elemsize=4, elempack=1, allocator=None) assert ( mat.dims == 2 and mat.w == 7 and mat.h == 8 and mat.elemsize == 4 and mat.elempack == 1 and mat.allocator == None ) mat = ncnn.Mat((1, 2)) assert mat.dims == 2 and mat.w == 1 and mat.h == 2 mat = ncnn.Mat((3, 4), elemsize=4) assert mat.dims == 2 and mat.w == 3 and mat.h == 4 and mat.elemsize == 4 mat = ncnn.Mat((5, 6), elemsize=4, elempack=1) assert ( mat.dims == 2 and mat.w == 5 and mat.h == 6 and mat.elemsize == 4 and mat.elempack == 1 ) mat = ncnn.Mat((7, 8), elemsize=4, elempack=1, allocator=None) assert ( mat.dims == 2 and mat.w == 7 and mat.h == 8 and mat.elemsize == 4 and mat.elempack == 1 and mat.allocator == None ) def test_mat_dims3(): mat = ncnn.Mat(1, 2, 3) assert mat.dims == 3 and mat.w == 1 and mat.h == 2 and mat.c == 3 mat = ncnn.Mat(4, 5, 6, elemsize=4) assert ( mat.dims == 3 and mat.w == 4 and mat.h == 5 and mat.c == 6 and mat.elemsize == 4 ) mat = ncnn.Mat(7, 8, 9, elemsize=4, elempack=1) assert ( mat.dims == 3 and mat.w == 7 and mat.h == 8 and mat.c == 9 and mat.elemsize == 4 and mat.elempack == 1 ) mat = ncnn.Mat(10, 11, 12, elemsize=4, elempack=1, allocator=None) assert ( mat.dims == 3 and mat.w == 10 and mat.h == 11 and mat.c == 12 and mat.elemsize == 4 and mat.elempack == 1 and mat.allocator == None ) mat = ncnn.Mat((1, 2, 3)) assert mat.dims == 3 and mat.w == 1 and mat.h == 2 and mat.c == 3 mat = ncnn.Mat((4, 5, 6), elemsize=4) assert ( mat.dims == 3 and mat.w == 4 and mat.h == 5 and mat.c == 6 and mat.elemsize == 4 ) mat = ncnn.Mat((7, 8, 9), elemsize=4, elempack=1) assert ( mat.dims == 3 and mat.w == 7 and mat.h == 8 and mat.c == 9 and mat.elemsize == 4 and mat.elempack == 1 ) mat = ncnn.Mat((10, 11, 12), elemsize=4, elempack=1, allocator=None) assert ( mat.dims == 3 and mat.w == 10 and mat.h == 11 and mat.c == 12 and mat.elemsize == 4 and mat.elempack == 1 and mat.allocator == None ) def test_mat_dims4(): mat = ncnn.Mat(1, 2, 3, 4) assert mat.dims == 4 and mat.w == 1 and mat.h == 2 and mat.d == 3 and mat.c == 4 mat = ncnn.Mat(4, 5, 6, 7, elemsize=4) assert ( mat.dims == 4 and mat.w == 4 and mat.h == 5 and mat.d == 6 and mat.c == 7 and mat.elemsize == 4 ) mat = ncnn.Mat(7, 8, 9, 10, elemsize=4, elempack=1) assert ( mat.dims == 4 and mat.w == 7 and mat.h == 8 and mat.d == 9 and mat.c == 10 and mat.elemsize == 4 and mat.elempack == 1 ) mat = ncnn.Mat(10, 11, 12, 13, elemsize=4, elempack=1, allocator=None) assert ( mat.dims == 4 and mat.w == 10 and mat.h == 11 and mat.d == 12 and mat.c == 13 and mat.elemsize == 4 and mat.elempack == 1 and mat.allocator == None ) mat = ncnn.Mat((1, 2, 3, 4)) assert mat.dims == 4 and mat.w == 1 and mat.h == 2 and mat.d == 3 and mat.c == 4 mat = ncnn.Mat((4, 5, 6, 7), elemsize=4) assert ( mat.dims == 4 and mat.w == 4 and mat.h == 5 and mat.d == 6 and mat.c == 7 and mat.elemsize == 4 ) mat = ncnn.Mat((7, 8, 9, 10), elemsize=4, elempack=1) assert ( mat.dims == 4 and mat.w == 7 and mat.h == 8 and mat.d == 9 and mat.c == 10 and mat.elemsize == 4 and mat.elempack == 1 ) mat = ncnn.Mat((10, 11, 12, 13), elemsize=4, elempack=1, allocator=None) assert ( mat.dims == 4 and mat.w == 10 and mat.h == 11 and mat.d == 12 and mat.c == 13 and mat.elemsize == 4 and mat.elempack == 1 and mat.allocator == None ) def test_numpy(): mat = ncnn.Mat(1) array = np.array(mat) assert mat.dims == array.ndim and mat.w == array.shape[0] mat = ncnn.Mat(2, 3) array = np.array(mat) assert ( mat.dims == array.ndim and mat.w == array.shape[1] and mat.h == array.shape[0] ) mat = ncnn.Mat(4, 5, 6) array = np.array(mat) assert ( mat.dims == array.ndim and mat.w == array.shape[2] and mat.h == array.shape[1] and mat.c == array.shape[0] ) mat = ncnn.Mat(7, 8, 9, 10) array = np.array(mat) assert ( mat.dims == array.ndim and mat.w == array.shape[3] and mat.h == array.shape[2] and mat.d == array.shape[1] and mat.c == array.shape[0] ) mat = ncnn.Mat(1, elemsize=1) array = np.array(mat) assert array.dtype == np.int8 mat = ncnn.Mat(1, elemsize=2) array = np.array(mat) assert array.dtype == np.float16 # pybind11 def_buffer throw bug # with pytest.raises(RuntimeError) as execinfo: # mat = ncnn.Mat(1, elemsize=3) # array = np.array(mat) # assert "convert ncnn.Mat to numpy.ndarray only elemsize 1, 2, 4 support now, but given 3" in str( # execinfo.value # ) assert array.dtype == np.float16 mat = ncnn.Mat(1, elemsize=4) array = np.array(mat) assert array.dtype == np.float32 mat = np.random.randint(0, 128, size=(12,)).astype(np.uint8) array = np.array(mat) assert (mat == array).all() mat = np.random.rand(12).astype(np.float32) array = np.array(mat) assert (mat == array).all() mat = np.random.randint(0, 128, size=(12, 11)).astype(np.uint8) array = np.array(mat) assert (mat == array).all() mat = np.random.rand(12, 11).astype(np.float32) array = np.array(mat) assert (mat == array).all() mat = np.random.randint(0, 256, size=(12, 11, 3)).astype(np.uint8) array = np.array(mat) assert (mat == array).all() mat = np.random.rand(12, 11, 3).astype(np.float32) array = np.array(mat) assert (mat == array).all() mat = np.random.randint(0, 256, size=(12, 11, 7, 3)).astype(np.uint8) array = np.array(mat) assert (mat == array).all() mat = np.random.rand(12, 11, 7, 3).astype(np.float32) array = np.array(mat) assert (mat == array).all() def test_fill(): mat = ncnn.Mat(1) mat.fill(1.0) array = np.array(mat) assert np.abs(array[0] - 1.0) < sys.float_info.min def test_clone(): mat1 = ncnn.Mat(1) mat2 = mat1.clone() assert mat1.dims == mat2.dims and mat1.w == mat2.w mat1 = ncnn.Mat(2, 3) mat2 = mat1.clone() assert mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h mat1 = ncnn.Mat(4, 5, 6) mat2 = mat1.clone() assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.c == mat2.c ) mat1 = ncnn.Mat(7, 8, 9, 10) mat2 = mat1.clone() assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.d == mat2.d and mat1.c == mat2.c ) mat1 = ncnn.Mat((1,)) mat2 = mat1.clone() assert mat1.dims == mat2.dims and mat1.w == mat2.w mat1 = ncnn.Mat((2, 3)) mat2 = mat1.clone() assert mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h mat1 = ncnn.Mat((4, 5, 6)) mat2 = mat1.clone() assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.c == mat2.c ) mat1 = ncnn.Mat((7, 8, 9, 10)) mat2 = mat1.clone() assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.d == mat2.d and mat1.c == mat2.c ) def test_clone_from(): mat2 = ncnn.Mat() mat1 = ncnn.Mat(1) mat2.clone_from(mat1) assert mat1.dims == mat2.dims and mat1.w == mat2.w mat1 = ncnn.Mat(2, 3) mat2.clone_from(mat1) assert mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h mat1 = ncnn.Mat(4, 5, 6) mat2.clone_from(mat1) assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.c == mat2.c ) mat1 = ncnn.Mat(7, 8, 9, 10) mat2.clone_from(mat1) assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.d == mat2.d and mat1.c == mat2.c ) mat1 = ncnn.Mat((1,)) mat2.clone_from(mat1) assert mat1.dims == mat2.dims and mat1.w == mat2.w mat1 = ncnn.Mat((2, 3)) mat2.clone_from(mat1) assert mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h mat1 = ncnn.Mat((4, 5, 6)) mat2.clone_from(mat1) assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.c == mat2.c ) mat1 = ncnn.Mat((7, 8, 9, 10)) mat2.clone_from(mat1) assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.d == mat2.d and mat1.c == mat2.c ) def test_reshape(): mat1 = ncnn.Mat() mat2 = mat1.reshape(1) assert mat2.dims == 0 mat2 = mat1.reshape(1, 1) assert mat2.dims == 0 mat2 = mat1.reshape(1, 1, 1) assert mat2.dims == 0 mat2 = mat1.reshape(1, 1, 1, 1) assert mat2.dims == 0 mat1 = ncnn.Mat(1) mat2 = mat1.reshape(1, 1) assert mat2.dims == 2 and mat2.w == 1 and mat2.h == 1 mat2 = mat1.reshape(1, 1, 1) assert mat2.dims == 3 and mat2.w == 1 and mat2.h == 1 and mat2.c == 1 mat2 = mat1.reshape(1, 1, 1, 1) assert mat2.dims == 4 and mat2.w == 1 and mat2.h == 1 and mat2.d == 1 and mat2.c == 1 mat1 = ncnn.Mat(1, 2) mat2 = mat1.reshape(2) assert mat2.dims == 1 and mat2.w == 2 mat2 = mat1.reshape(2, 1) assert mat2.dims == 2 and mat2.w == 2 and mat2.h == 1 mat2 = mat1.reshape(2, 1, 1) assert mat2.dims == 3 and mat2.w == 2 and mat2.h == 1 and mat2.c == 1 mat2 = mat1.reshape(2, 1, 1, 1) assert mat2.dims == 4 and mat2.w == 2 and mat2.h == 1 and mat2.d == 1 and mat2.c == 1 mat1 = ncnn.Mat(1, 2, 3) mat2 = mat1.reshape(6) assert mat2.dims == 1 and mat2.w == 6 mat2 = mat1.reshape(2, 3) assert mat2.dims == 2 and mat2.w == 2 and mat2.h == 3 mat2 = mat1.reshape(2, 3, 1) assert mat2.dims == 3 and mat2.w == 2 and mat2.h == 3 and mat2.c == 1 mat2 = mat1.reshape(2, 1, 3, 1) assert mat2.dims == 4 and mat2.w == 2 and mat2.h == 1 and mat2.d == 3 and mat2.c == 1 mat1 = ncnn.Mat((1,)) mat2 = mat1.reshape((1, 1)) assert mat2.dims == 2 and mat2.w == 1 and mat2.h == 1 mat2 = mat1.reshape((1, 1, 1)) assert mat2.dims == 3 and mat2.w == 1 and mat2.h == 1 and mat2.c == 1 mat2 = mat1.reshape((1, 1, 1, 1)) assert mat2.dims == 4 and mat2.w == 1 and mat2.h == 1 and mat2.d == 1 and mat2.c == 1 mat1 = ncnn.Mat((1, 2)) mat2 = mat1.reshape((2,)) assert mat2.dims == 1 and mat2.w == 2 mat2 = mat1.reshape((2, 1)) assert mat2.dims == 2 and mat2.w == 2 and mat2.h == 1 mat2 = mat1.reshape((2, 1, 1)) assert mat2.dims == 3 and mat2.w == 2 and mat2.h == 1 and mat2.c == 1 mat2 = mat1.reshape((2, 1, 1, 1)) assert mat2.dims == 4 and mat2.w == 2 and mat2.h == 1 and mat2.d == 1 and mat2.c == 1 mat1 = ncnn.Mat((1, 2, 3)) mat2 = mat1.reshape((6,)) assert mat2.dims == 1 and mat2.w == 6 mat2 = mat1.reshape((2, 3)) assert mat2.dims == 2 and mat2.w == 2 and mat2.h == 3 and mat2.c == 1 mat2 = mat1.reshape((2, 3, 1)) assert mat2.dims == 3 and mat2.w == 2 and mat2.h == 3 and mat2.c == 1 mat2 = mat1.reshape((2, 1, 3, 1)) assert mat2.dims == 4 and mat2.w == 2 and mat2.h == 1 and mat2.d == 3 and mat2.c == 1 with pytest.raises(RuntimeError) as execinfo: mat1.reshape((1, 1, 1, 1, 1)) assert "shape must be 1, 2, 3 or 4 dims, not 5" in str(execinfo.value) def test_create(): mat = ncnn.Mat() mat.create(1) assert mat.dims == 1 and mat.w == 1 mat.create(2, 3) assert mat.dims == 2 and mat.w == 2 and mat.h == 3 mat.create(4, 5, 6) assert mat.dims == 3 and mat.w == 4 and mat.h == 5 and mat.c == 6 mat.create(7, 8, 9, 10) assert mat.dims == 4 and mat.w == 7 and mat.h == 8 and mat.d == 9 and mat.c == 10 mat.create((1,)) assert mat.dims == 1 and mat.w == 1 mat.create((2, 3)) assert mat.dims == 2 and mat.w == 2 and mat.h == 3 mat.create((4, 5, 6)) assert mat.dims == 3 and mat.w == 4 and mat.h == 5 and mat.c == 6 mat.create((7, 8, 9, 10)) assert mat.dims == 4 and mat.w == 7 and mat.h == 8 and mat.d == 9 and mat.c == 10 def test_create_like(): mat2 = ncnn.Mat() mat1 = ncnn.Mat(1) mat2.create_like(mat1) assert mat1.dims == mat2.dims and mat1.w == mat2.w mat1 = ncnn.Mat(2, 3) mat2.create_like(mat1) assert mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h mat1 = ncnn.Mat(4, 5, 6) mat2.create_like(mat1) assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.c == mat2.c ) mat1 = ncnn.Mat(7, 8, 9, 10) mat2.create_like(mat1) assert ( mat1.dims == mat2.dims and mat1.w == mat2.w and mat1.h == mat2.h and mat1.d == mat2.d and mat1.c == mat2.c ) def test_addref_release(): mat = ncnn.Mat(1) assert mat.refcount == 1 mat.addref() assert mat.refcount == 2 mat.release() assert mat.refcount == None def test_empty(): mat = ncnn.Mat() assert mat.empty() == True mat = ncnn.Mat(1) assert mat.empty() == False def test_total(): mat = ncnn.Mat(1) assert mat.total() == 1 mat = ncnn.Mat(2, 3) assert mat.total() == 2 * 3 mat = ncnn.Mat(4, 5, 6) assert mat.total() == 4 * 5 * 6 mat = ncnn.Mat(7, 8, 9, 10) assert mat.total() == 7 * 8 * 9 * 10 def test_elembits(): mat = ncnn.Mat(1, elemsize=1, elempack=1) assert mat.elembits() == 8 mat = ncnn.Mat(2, elemsize=2, elempack=1) assert mat.elembits() == 16 mat = ncnn.Mat(3, elemsize=4, elempack=1) assert mat.elembits() == 32 def test_shape(): mat = ncnn.Mat(1) shape = mat.shape() assert shape.dims == 1 and shape.w == 1 mat = ncnn.Mat(2, 3) shape = mat.shape() assert shape.dims == 2 and shape.w == 2 and shape.h == 3 mat = ncnn.Mat(4, 5, 6) shape = mat.shape() assert shape.dims == 3 and shape.w == 4 and shape.h == 5 and shape.c == 6 mat = ncnn.Mat(7, 8, 9, 10) shape = mat.shape() assert shape.dims == 4 and shape.w == 7 and shape.h == 8 and shape.d == 9 and shape.c == 10 def test_channel_depth_row(): mat = ncnn.Mat(2, 3, 4, 5) mat.fill(6.0) channel = mat.channel(1) assert channel.dims == 3 and channel.w == 2 and channel.h == 3 and channel.c == 4 depth = channel.depth(1) assert depth.dims == 2 and depth.w == 2 and depth.h == 3 row = depth.row(1) assert len(row) == 2 and np.abs(row[0] - 6.0) < sys.float_info.min def test_channel_row(): mat = ncnn.Mat(2, 3, 4) mat.fill(4.0) channel = mat.channel(1) assert channel.dims == 2 and channel.w == 2 and channel.h == 3 and channel.c == 1 row = channel.row(1) assert len(row) == 2 and np.abs(row[0] - 4.0) < sys.float_info.min def test_channel_range(): mat = ncnn.Mat(1, 2, 3) channel_range = mat.channel_range(0, 2) assert ( channel_range.dims == 3 and channel_range.w == 1 and channel_range.h == 2 and channel_range.c == 2 ) def test_depth_range(): mat = ncnn.Mat(1, 2, 3, 4) depth_range = mat.channel(1).depth_range(1, 2) assert ( depth_range.dims == 3 and depth_range.w == 1 and depth_range.h == 2 and depth_range.c == 2 ) def test_row_range(): mat = ncnn.Mat(1, 2) row_range = mat.row_range(0, 2) assert row_range.dims == 2 and row_range.w == 1 and row_range.h == 2 def test_range(): mat = ncnn.Mat(2) range = mat.range(0, 2) assert range.dims == 1 and range.w == 2 def test_getitem_setitem(): mat = ncnn.Mat(2) mat.fill(1) assert ( np.abs(mat[0] - 1.0) < sys.float_info.min and np.abs(mat[1] - 1.0) < sys.float_info.min ) mat[0] = 2.0 assert ( np.abs(mat[0] - 2.0) < sys.float_info.min and np.abs(mat[1] - 1.0) < sys.float_info.min ) def test_from_pixels(): pixels = np.random.randint(0, 256, size=(300, 400, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels(pixels, ncnn.Mat.PixelType.PIXEL_RGB, 400, 300) # chw assert mat.dims == 3 and mat.w == 400 and mat.h == 300 and mat.c == 3 assert pixels[0, 0, 0] == mat.channel(0).row(0)[0] assert pixels[200, 150, 1] == mat.channel(1).row(200)[150] assert pixels[299, 399, 2] == mat.channel(2).row(299)[399] pixels = np.random.randint(0, 256, size=(300, 500, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels( pixels, ncnn.Mat.PixelType.PIXEL_RGB, 400, 300, stride=500 * 3 ) # chw assert mat.dims == 3 and mat.w == 400 and mat.h == 300 and mat.c == 3 assert pixels[0, 0, 0] == mat.channel(0).row(0)[0] assert pixels[200, 150, 1] == mat.channel(1).row(200)[150] assert pixels[299, 399, 2] == mat.channel(2).row(299)[399] def test_from_pixels_resize(): pixels = np.random.randint(0, 256, size=(300, 400, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels_resize( pixels, ncnn.Mat.PixelType.PIXEL_BGR2RGB, 400, 300, 200, 150 ) # chw assert mat.dims == 3 and mat.w == 200 and mat.h == 150 and mat.c == 3 pixels = np.random.randint(0, 256, size=(300, 400, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels_resize( pixels, ncnn.Mat.PixelType.PIXEL_BGR2RGB, 400, 300, 400, 300 ) # chw assert mat.dims == 3 and mat.w == 400 and mat.h == 300 and mat.c == 3 assert pixels[0, 0, 0] == mat.channel(2).row(0)[0] assert pixels[200, 150, 1] == mat.channel(1).row(200)[150] assert pixels[299, 399, 2] == mat.channel(0).row(299)[399] pixels = np.random.randint(0, 256, size=(300, 500, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels_resize( pixels, ncnn.Mat.PixelType.PIXEL_BGR2RGB, 400, 300, 500 * 3, 200, 150 ) # chw assert mat.dims == 3 and mat.w == 200 and mat.h == 150 and mat.c == 3 pixels = np.random.randint(0, 256, size=(300, 500, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels_resize( pixels, ncnn.Mat.PixelType.PIXEL_BGR2RGB, 400, 300, 500 * 3, 400, 300 ) # chw assert mat.dims == 3 and mat.w == 400 and mat.h == 300 and mat.c == 3 assert pixels[0, 0, 0] == mat.channel(2).row(0)[0] assert pixels[200, 150, 1] == mat.channel(1).row(200)[150] assert pixels[299, 399, 2] == mat.channel(0).row(299)[399] def test_from_pixels_roi(): pixels = np.random.randint(0, 256, size=(300, 400, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels_roi( pixels, ncnn.Mat.PixelType.PIXEL_RGB, 400, 300, 100, 75, 200, 150 ) # chw assert mat.dims == 3 and mat.w == 200 and mat.h == 150 and mat.c == 3 assert pixels[75, 100, 0] == mat.channel(0).row(0)[0] assert pixels[150, 200, 1] == mat.channel(1).row(75)[100] assert pixels[224, 299, 2] == mat.channel(2).row(149)[199] pixels = np.random.randint(0, 256, size=(300, 500, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels_roi( pixels, ncnn.Mat.PixelType.PIXEL_RGB, 400, 300, 500 * 3, 100, 75, 200, 150 ) # chw assert mat.dims == 3 and mat.w == 200 and mat.h == 150 and mat.c == 3 assert pixels[75, 100, 0] == mat.channel(0).row(0)[0] assert pixels[150, 200, 1] == mat.channel(1).row(75)[100] assert pixels[224, 299, 2] == mat.channel(2).row(149)[199] def test_from_pixels_roi_resize(): pixels = np.random.randint(0, 256, size=(300, 400, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels_roi_resize( pixels, ncnn.Mat.PixelType.PIXEL_RGB, 400, 300, 100, 75, 200, 150, 100, 75 ) # chw assert mat.dims == 3 and mat.w == 100 and mat.h == 75 and mat.c == 3 pixels = np.random.randint(0, 256, size=(300, 500, 3)).astype(np.uint8) # hwc mat = ncnn.Mat.from_pixels_roi_resize( pixels, ncnn.Mat.PixelType.PIXEL_RGB, 400, 300, 500 * 3, 100, 75, 200, 150, 100, 75, ) # chw assert mat.dims == 3 and mat.w == 100 and mat.h == 75 and mat.c == 3 def test_substract_mean_normalize(): pixels = np.random.randint(0, 256, size=(300, 400, 3)).astype(np.uint8) # hwc mean_vals = [127.5, 127.5, 127.5] norm_vals = [0.007843, 0.007843, 0.007843] mat = ncnn.Mat.from_pixels(pixels, ncnn.Mat.PixelType.PIXEL_RGB, 400, 300) # chw mat.substract_mean_normalize([], norm_vals) assert np.abs(pixels[0, 0, 0] * 0.007843 - mat.channel(0).row(0)[0]) < 1e-5 mat = ncnn.Mat.from_pixels(pixels, ncnn.Mat.PixelType.PIXEL_RGB, 400, 300) # chw mat.substract_mean_normalize(mean_vals, []) assert np.abs((pixels[0, 0, 0] - 127.5) - mat.channel(0).row(0)[0]) < 1e-5 mat = ncnn.Mat.from_pixels(pixels, ncnn.Mat.PixelType.PIXEL_RGB, 400, 300) # chw mat.substract_mean_normalize(mean_vals, norm_vals) assert ( np.abs((pixels[0, 0, 0] - 127.5) * 0.007843 - mat.channel(0).row(0)[0]) < 1e-5 )