v]c@sddlmZddlmZd"ed"d"d"dZd"eeeed"d"d"dZd"d"d"d"dZd"d"d"d"dZd"eed"d"d"dZ d"eed"d"d"d Z d"eeeed"d"d"d Z d"eed"d"d"d Z d"d"d"d"d Z d"d"d"d"d Zd"eed"d"d"dZd"ed"d"d"dZd"eed"d"d"dZd"eeed"d"d"dZd"d"d"d"dZdddddddddddddd d!gZd"S(#i(t SymbolBasei(t_NullcKsdS(sAdjust the lighting level of the input. Follow the AlexNet style. Defined in src/operator/image/image_random.cc:L242 Parameters ---------- data : Symbol The input. alpha : tuple of , required The lighting alphas for the R, G, B channels. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((tdatatalphatnametattrtouttkwargs((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytadjust_lightingsc KsdS(sCrop an image NDArray of shape (H x W x C) or (N x H x W x C) to the given size. Example: .. code-block:: python image = mx.nd.random.uniform(0, 255, (4, 2, 3)).astype(dtype=np.uint8) mx.nd.image.crop(image, 1, 1, 2, 2) [[[144 34 4] [ 82 157 38]] [[156 111 230] [177 25 15]]] image = mx.nd.random.uniform(0, 255, (2, 4, 2, 3)).astype(dtype=np.uint8) mx.nd.image.crop(image, 1, 1, 2, 2) [[[[ 35 198 50] [242 94 168]] [[223 119 129] [249 14 154]]] [[[137 215 106] [ 79 174 133]] [[116 142 109] [ 35 239 50]]]] Defined in src/operator/image/crop.cc:L65 Parameters ---------- data : Symbol The input. x : int, required Left boundary of the cropping area. y : int, required Top boundary of the cropping area. width : int, required Width of the cropping area. height : int, required Height of the cropping area. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i(( RtxtytwidththeightRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytcrops5cKsdS(s Defined in src/operator/image/image_random.cc:L192 Parameters ---------- data : Symbol The input. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((RRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytflip_left_rightSscKsdS(s Defined in src/operator/image/image_random.cc:L200 Parameters ---------- data : Symbol The input. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((RRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytflip_top_bottomgscKsdS(s Normalize an tensor of shape (C x H x W) or (N x C x H x W) with mean and standard deviation. Given mean `(m1, ..., mn)` and std `(s\ :sub:`1`\ , ..., s\ :sub:`n`)` for `n` channels, this transform normalizes each channel of the input tensor with: .. math:: output[i] = (input[i] - m\ :sub:`i`\ ) / s\ :sub:`i` If mean or std is scalar, the same value will be applied to all channels. Default value for mean is 0.0 and stand deviation is 1.0. Example: .. code-block:: python image = mx.nd.random.uniform(0, 1, (3, 4, 2)) normalize(image, mean=(0, 1, 2), std=(3, 2, 1)) [[[ 0.18293785 0.19761486] [ 0.23839645 0.28142193] [ 0.20092112 0.28598186] [ 0.18162774 0.28241724]] [[-0.2881726 -0.18821815] [-0.17705294 -0.30780914] [-0.2812064 -0.3512327 ] [-0.05411351 -0.4716435 ]] [[-1.0363373 -1.7273437 ] [-1.6165586 -1.5223348 ] [-1.208275 -1.1878313 ] [-1.4711051 -1.5200229 ]]] image = mx.nd.random.uniform(0, 1, (2, 3, 4, 2)) normalize(image, mean=(0, 1, 2), std=(3, 2, 1)) [[[[ 0.18934818 0.13092826] [ 0.3085322 0.27869293] [ 0.02367868 0.11246539] [ 0.0290431 0.2160573 ]] [[-0.4898908 -0.31587923] [-0.08369008 -0.02142242] [-0.11092162 -0.42982462] [-0.06499392 -0.06495637]] [[-1.0213816 -1.526392 ] [-1.2008414 -1.1990893 ] [-1.5385206 -1.4795225 ] [-1.2194707 -1.3211205 ]]] [[[ 0.03942481 0.24021089] [ 0.21330701 0.1940066 ] [ 0.04778443 0.17912441] [ 0.31488964 0.25287187]] [[-0.23907584 -0.4470462 ] [-0.29266903 -0.2631998 ] [-0.3677222 -0.40683383] [-0.11288315 -0.13154092]] [[-1.5438497 -1.7834496 ] [-1.431566 -1.8647819 ] [-1.9812102 -1.675859 ] [-1.3823645 -1.8503251 ]]]] Defined in src/operator/image/image_random.cc:L165 Parameters ---------- data : Symbol Input ndarray mean : tuple of , optional, default=[0,0,0,0] Sequence of means for each channel. Default value is 0. std : tuple of , optional, default=[1,1,1,1] Sequence of standard deviations for each channel. Default value is 1. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((RtmeantstdRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pyt normalize{sRcKsdS(sv Defined in src/operator/image/image_random.cc:L208 Parameters ---------- data : Symbol The input. min_factor : float, required Minimum factor. max_factor : float, required Maximum factor. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((Rt min_factort max_factorRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytrandom_brightnesssc KsdS(s Defined in src/operator/image/image_random.cc:L235 Parameters ---------- data : Symbol The input. brightness : float, required How much to jitter brightness. contrast : float, required How much to jitter contrast. saturation : float, required How much to jitter saturation. hue : float, required How much to jitter hue. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i(( Rt brightnesstcontrastt saturationthueRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytrandom_color_jitterscKsdS(sv Defined in src/operator/image/image_random.cc:L214 Parameters ---------- data : Symbol The input. min_factor : float, required Minimum factor. max_factor : float, required Maximum factor. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((RRRRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytrandom_contrastscKsdS(s Defined in src/operator/image/image_random.cc:L196 Parameters ---------- data : Symbol The input. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((RRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytrandom_flip_left_rightscKsdS(s Defined in src/operator/image/image_random.cc:L204 Parameters ---------- data : Symbol The input. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((RRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytrandom_flip_top_bottom/scKsdS(sv Defined in src/operator/image/image_random.cc:L228 Parameters ---------- data : Symbol The input. min_factor : float, required Minimum factor. max_factor : float, required Maximum factor. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((RRRRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pyt random_hueCscKsdS(sRandomly add PCA noise. Follow the AlexNet style. Defined in src/operator/image/image_random.cc:L249 Parameters ---------- data : Symbol The input. alpha_std : float, optional, default=0.0500000007 Level of the lighting noise. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((Rt alpha_stdRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytrandom_lighting[scKsdS(sv Defined in src/operator/image/image_random.cc:L221 Parameters ---------- data : Symbol The input. min_factor : float, required Minimum factor. max_factor : float, required Maximum factor. name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((RRRRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytrandom_saturationqscKsdS(sResize an image NDArray of shape (H x W x C) or (N x H x W x C) to the given size Example: .. code-block:: python image = mx.nd.random.uniform(0, 255, (4, 2, 3)).astype(dtype=np.uint8) mx.nd.image.resize(image, (3, 3)) [[[124 111 197] [158 80 155] [193 50 112]] [[110 100 113] [134 165 148] [157 231 182]] [[202 176 134] [174 191 149] [147 207 164]]] image = mx.nd.random.uniform(0, 255, (2, 4, 2, 3)).astype(dtype=np.uint8) mx.nd.image.resize(image, (2, 2)) [[[[ 59 133 80] [187 114 153]] [[ 38 142 39] [207 131 124]]] [[[117 125 136] [191 166 150]] [[129 63 113] [182 109 48]]]] Defined in src/operator/image/resize.cc:L70 Parameters ---------- data : Symbol The input. size : Shape(tuple), optional, default=[] Size of new image. Could be (width, height) or (size) keep_ratio : boolean, optional, default=0 Whether to resize the short edge or both edges to `size`, if size is give as an integer. interp : int, optional, default='1' Interpolation method for resizing. By default uses bilinear interpolationOptions are INTER_NEAREST - a nearest-neighbor interpolationINTER_LINEAR - a bilinear interpolationINTER_AREA - resampling using pixel area relationINTER_CUBIC - a bicubic interpolation over 4x4 pixel neighborhoodINTER_LANCZOS4 - a Lanczos interpolation over 8x8 pixel neighborhoodNote that the GPU version only support bilinear interpolation(1) and the result on cpu would be slightly different from gpu.It uses opencv resize function which tend to align center on cpuwhile using contrib.bilinearResize2D which aligns corner on gpu name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((Rtsizet keep_ratiotinterpRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pytresizes9cKsdS(sX Converts an image NDArray of shape (H x W x C) or (N x H x W x C) with values in the range [0, 255] to a tensor NDArray of shape (C x H x W) or (N x C x H x W) with values in the range [0, 1] Example: .. code-block:: python image = mx.nd.random.uniform(0, 255, (4, 2, 3)).astype(dtype=np.uint8) to_tensor(image) [[[ 0.85490197 0.72156864] [ 0.09019608 0.74117649] [ 0.61960787 0.92941177] [ 0.96470588 0.1882353 ]] [[ 0.6156863 0.73725492] [ 0.46666667 0.98039216] [ 0.44705883 0.45490196] [ 0.01960784 0.8509804 ]] [[ 0.39607844 0.03137255] [ 0.72156864 0.52941179] [ 0.16470589 0.7647059 ] [ 0.05490196 0.70588237]]] image = mx.nd.random.uniform(0, 255, (2, 4, 2, 3)).astype(dtype=np.uint8) to_tensor(image) [[[[0.11764706 0.5803922 ] [0.9411765 0.10588235] [0.2627451 0.73333335] [0.5647059 0.32156864]] [[0.7176471 0.14117648] [0.75686276 0.4117647 ] [0.18431373 0.45490196] [0.13333334 0.6156863 ]] [[0.6392157 0.5372549 ] [0.52156866 0.47058824] [0.77254903 0.21568628] [0.01568628 0.14901961]]] [[[0.6117647 0.38431373] [0.6784314 0.6117647 ] [0.69411767 0.96862745] [0.67058825 0.35686275]] [[0.21960784 0.9411765 ] [0.44705883 0.43529412] [0.09803922 0.6666667 ] [0.16862746 0.1254902 ]] [[0.6156863 0.9019608 ] [0.35686275 0.9019608 ] [0.05882353 0.6509804 ] [0.20784314 0.7490196 ]]]] Defined in src/operator/image/image_random.cc:L91 Parameters ---------- data : Symbol Input ndarray name : string, optional. Name of the resulting symbol. Returns ------- Symbol The result symbol. i(i((RRRRR((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pyt to_tensorsCRR RRRRRRRRRR R!R%R&N(t _internalRtbaseRtNoneRR RRRRRRRRRR R!R%R&t__all__(((s7/tmp/pip-install-Qvdv_2/mxnet/mxnet/symbol/gen_image.pyts"!7T!;E