Beispiel #1
0
    def _calcNetInputs(self):
        self.inputMatrixs = [translib.get_aug_matrix(img.shape[1], img.shape[0], 512, 512,
                                                      angle_range=(-0., 0.),
                                                      scale_range=(1., 1.),
                                                      trans_range=(-0., 0.))[0] \
                             for img in self.batchimgs]

        inputs = [cv2.warpAffine(img, matrix[0:2], (512, 512)) \
                  for img, matrix in zip(self.batchimgs, self.inputMatrixs)]

        if len(inputs) == 1:
            inputs = inputs[0][np.newaxis, ...]
        else:
            inputs = np.array(inputs)

        inputs = inputs[..., ::-1]  #BGR to RGB
        inputs = inputs.transpose(0, 3, 1, 2)
        inputs = inputs.astype('float32')

        self.inputs = inputs
Beispiel #2
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    def _calcAlignMatrixs(self):
        ## 1. transform kpts to feature coordinates.
        ## 2. featAlignMatrixs (size feature -> size align) used by affine-align
        ## 3. maskAlignMatrixs (size origin -> size output) used by Reverse affine-align
        ## matrix: size origin ->(m1)-> input ->(m2)-> feature ->(m3(mAug))-> align ->(m4)-> output
        size_input = self.size_input
        size_feat = self.size_feat
        size_align = self.size_align
        size_output = self.size_output
        m2 = translib.stride_matrix(size_feat / size_input)
        m4 = translib.stride_matrix(size_output / size_align)

        self.featAlignMatrixs = [[] for _ in range(self.bz)]
        self.maskAlignMatrixs = [[] for _ in range(self.bz)]
        if self.cat_skeleton:
            self.skeletonFeats = [[] for _ in range(self.bz)]
        for i, (matrix, kpts, masks) in enumerate(
                zip(self.inputMatrixs, self.batchkpts, self.batchmasks)):
            m1 = matrix
            # transform gt_kpts to feature coordinates.
            kpts = translib.warpAffineKpts(kpts, m2.dot(m1))

            self.featAlignMatrixs[i] = np.zeros((len(kpts), 3, 3),
                                                dtype=np.float32)
            self.maskAlignMatrixs[i] = np.zeros((len(kpts), 3, 3),
                                                dtype=np.float32)
            if self.cat_skeleton:
                self.skeletonFeats[i] = np.zeros(
                    (len(kpts), 55, size_align, size_align), dtype=np.float32)

            for j, (kpt, mask) in enumerate(zip(kpts, masks)):
                timers['2'].tic()
                ## best_align: {'category', 'template', 'matrix', 'score', 'history'}
                best_align = self.poseAlignOp.align(kpt,
                                                    size_feat,
                                                    size_feat,
                                                    size_align,
                                                    size_align,
                                                    visualize=False,
                                                    return_history=False)

                ## aug
                if self.training:
                    mAug, _ = translib.get_aug_matrix(size_align,
                                                      size_align,
                                                      size_align,
                                                      size_align,
                                                      angle_range=(-30, 30),
                                                      scale_range=(0.8, 1.2),
                                                      trans_range=(-0.1, 0.1))
                    m3 = mAug.dot(best_align['matrix'])
                else:
                    m3 = best_align['matrix']

                self.featAlignMatrixs[i][j] = m3
                self.maskAlignMatrixs[i][j] = m4.dot(m3).dot(m2).dot(m1)

                if self.cat_skeleton:
                    # size_align (sigma=3, threshold=1) for size_align=64
                    self.skeletonFeats[i][j] = genSkeletons(
                        translib.warpAffineKpts([kpt], m3),
                        size_align,
                        size_align,
                        stride=1,
                        sigma=3,
                        threshold=1,
                        visdiff=True).transpose(2, 0, 1)
    def preprocess(batchimgs, batchkpts, batchmasks):
        bz = len(batchimgs)

        inputMatrixs = [translib.get_aug_matrix(img.shape[1], img.shape[0], 512, 512,
                                                      angle_range=(-0., 0.),
                                                      scale_range=(1., 1.),
                                                      trans_range=(-0., 0.))[0] \
                             for img in batchimgs]

        inputs = [cv2.warpAffine(img, matrix[0:2], (512, 512)) \
                  for img, matrix in zip(batchimgs, inputMatrixs)]

        if len(inputs) == 1:
            inputs = inputs[0][np.newaxis, ...]
        else:
            inputs = np.array(inputs)

        inputs = inputs[..., ::-1]
        inputs = inputs.transpose(0, 3, 1, 2)
        inputs = inputs.astype('float32')

        ## 1. transform kpts to feature coordinates.
        ## 2. featAlignMatrixs (size feature -> size align) used by affine-align
        ## 3. maskAlignMatrixs (size origin -> size output) used by Reverse affine-align
        ## matrix: size origin ->(m1)-> input ->(m2)-> feature ->(m3(mAug))-> align ->(m4)-> output
        size_input = 512
        size_feat = 128
        size_align = 64
        size_output = 64
        cat_skeleton = True

        poseAlignOp = PoseAlign(
            template_file='/'.join(osp.abspath(__file__).split('/')[:-2]) +
            '/modeling/templates.json',
            visualize=False,
            factor=1.0)

        m2 = translib.stride_matrix(size_feat / size_input)
        m4 = translib.stride_matrix(size_output / size_align)

        featAlignMatrixs = [[] for _ in range(bz)]
        maskAlignMatrixs = [[] for _ in range(bz)]
        if cat_skeleton:
            skeletonFeats = [[] for _ in range(bz)]
        for i, (matrix, kpts) in enumerate(zip(inputMatrixs, batchkpts)):
            m1 = matrix
            # transform gt_kpts to feature coordinates.
            kpts = translib.warpAffineKpts(kpts, m2.dot(m1))

            featAlignMatrixs[i] = np.zeros((len(kpts), 3, 3), dtype=np.float32)
            maskAlignMatrixs[i] = np.zeros((len(kpts), 3, 3), dtype=np.float32)
            if cat_skeleton:
                skeletonFeats[i] = np.zeros(
                    (len(kpts), 55, size_align, size_align), dtype=np.float32)

            for j, kpt in enumerate(kpts):
                ## best_align: {'category', 'template', 'matrix', 'score', 'history'}
                best_align = poseAlignOp.align(kpt,
                                               size_feat,
                                               size_feat,
                                               size_align,
                                               size_align,
                                               visualize=False,
                                               return_history=False)

                m3 = best_align['matrix']

                featAlignMatrixs[i][j] = m3
                maskAlignMatrixs[i][j] = m4.dot(m3).dot(m2).dot(m1)

                if cat_skeleton:
                    # size_align (sigma=3, threshold=1) for size_align=64
                    skeletonFeats[i][j] = genSkeletons(
                        translib.warpAffineKpts([kpt], m3),
                        size_align,
                        size_align,
                        stride=1,
                        sigma=3,
                        threshold=1,
                        visdiff=True).transpose(2, 0, 1)
        return [
            batchimgs, batchkpts, batchmasks, inputMatrixs, inputs,
            featAlignMatrixs, maskAlignMatrixs, skeletonFeats
        ]