Pytorch上下采样函数--interpolate-创新互联
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最近用到了上采样下采样操作,pytorch中使用interpolate可以很轻松的完成
def interpolate(input, size=None, scale_factor=None, mode='nearest', align_corners=None): r""" 根据给定 size 或 scale_factor,上采样或下采样输入数据input. 当前支持 temporal, spatial 和 volumetric 输入数据的上采样,其shape 分别为:3-D, 4-D 和 5-D. 输入数据的形式为:mini-batch x channels x [optional depth] x [optional height] x width. 上采样算法有:nearest, linear(3D-only), bilinear(4D-only), trilinear(5D-only). 参数: - input (Tensor): input tensor - size (int or Tuple[int] or Tuple[int, int] or Tuple[int, int, int]):输出的 spatial 尺寸. - scale_factor (float or Tuple[float]): spatial 尺寸的缩放因子. - mode (string): 上采样算法:nearest, linear, bilinear, trilinear, area. 默认为 nearest. - align_corners (bool, optional): 如果 align_corners=True,则对齐 input 和 output 的角点像素(corner pixels),保持在角点像素的值. 只会对 mode=linear, bilinear 和 trilinear 有作用. 默认是 False. """ from numbers import Integral from .modules.utils import _ntuple def _check_size_scale_factor(dim): if size is None and scale_factor is None: raise ValueError('either size or scale_factor should be defined') if size is not None and scale_factor is not None: raise ValueError('only one of size or scale_factor should be defined') if scale_factor is not None and isinstance(scale_factor, tuple)\ and len(scale_factor) != dim: raise ValueError('scale_factor shape must match input shape. ' 'Input is {}D, scale_factor size is {}'.format(dim, len(scale_factor))) def _output_size(dim): _check_size_scale_factor(dim) if size is not None: return size scale_factors = _ntuple(dim)(scale_factor) # math.floor might return float in py2.7 return [int(math.floor(input.size(i + 2) * scale_factors[i])) for i in range(dim)] if mode in ('nearest', 'area'): if align_corners is not None: raise ValueError("align_corners option can only be set with the " "interpolating modes: linear | bilinear | trilinear") else: if align_corners is None: warnings.warn("Default upsampling behavior when mode={} is changed " "to align_corners=False since 0.4.0. Please specify " "align_corners=True if the old behavior is desired. " "See the documentation of nn.Upsample for details.".format(mode)) align_corners = False if input.dim() == 3 and mode == 'nearest': return torch._C._nn.upsample_nearest1d(input, _output_size(1)) elif input.dim() == 4 and mode == 'nearest': return torch._C._nn.upsample_nearest2d(input, _output_size(2)) elif input.dim() == 5 and mode == 'nearest': return torch._C._nn.upsample_nearest3d(input, _output_size(3)) elif input.dim() == 3 and mode == 'area': return adaptive_avg_pool1d(input, _output_size(1)) elif input.dim() == 4 and mode == 'area': return adaptive_avg_pool2d(input, _output_size(2)) elif input.dim() == 5 and mode == 'area': return adaptive_avg_pool3d(input, _output_size(3)) elif input.dim() == 3 and mode == 'linear': return torch._C._nn.upsample_linear1d(input, _output_size(1), align_corners) elif input.dim() == 3 and mode == 'bilinear': raise NotImplementedError("Got 3D input, but bilinear mode needs 4D input") elif input.dim() == 3 and mode == 'trilinear': raise NotImplementedError("Got 3D input, but trilinear mode needs 5D input") elif input.dim() == 4 and mode == 'linear': raise NotImplementedError("Got 4D input, but linear mode needs 3D input") elif input.dim() == 4 and mode == 'bilinear': return torch._C._nn.upsample_bilinear2d(input, _output_size(2), align_corners) elif input.dim() == 4 and mode == 'trilinear': raise NotImplementedError("Got 4D input, but trilinear mode needs 5D input") elif input.dim() == 5 and mode == 'linear': raise NotImplementedError("Got 5D input, but linear mode needs 3D input") elif input.dim() == 5 and mode == 'bilinear': raise NotImplementedError("Got 5D input, but bilinear mode needs 4D input") elif input.dim() == 5 and mode == 'trilinear': return torch._C._nn.upsample_trilinear3d(input, _output_size(3), align_corners) else: raise NotImplementedError("Input Error: Only 3D, 4D and 5D input Tensors supported" " (got {}D) for the modes: nearest | linear | bilinear | trilinear" " (got {})".format(input.dim(), mode))
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