Exemple #1
0
    def __init__(self,
                 corpus,
                 fonts,
                 bgs,
                 cfg,
                 width=256,
                 height=32,
                 clip_max_chars=False,
                 debug=True,
                 gpu=False,
                 strict=False):
        self.cnt = 0
        self.corpus = corpus
        self.fonts = fonts
        self.bgs = bgs
        self.out_width = width
        self.out_height = height
        self.clip_max_chars = clip_max_chars
        self.max_chars = math.floor(width / 4) - 1
        self.debug = debug
        self.gpu = gpu
        self.strict = strict
        self.cfg = cfg

        self.timer = Timer()
        self.liner = Liner(cfg)
        self.noiser = Noiser(cfg)
        self.remaper = Remaper(cfg)

        self.create_kernals()

        if not self.is_bgr():
            for i, bg in enumerate(self.bgs):
                self.bgs[i] = cv2.cvtColor(bg, cv2.COLOR_BGR2GRAY)

        if self.strict:
            self.font_unsupport_chars = font_utils.get_unsupported_chars(
                self.fonts, corpus.chars_file)
Exemple #2
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    def __init__(self, corpus, fonts, bgs, cfg, width=256, height=32,
                 clip_max_chars=False, debug=False, gpu=False, strict=False):
        self.corpus = corpus
        self.fonts = fonts
        self.bgs = bgs
        self.out_width = width
        self.out_height = height
        self.clip_max_chars = clip_max_chars
        self.max_chars = math.floor(width / 4) - 1
        self.debug = debug
        self.gpu = gpu
        self.strict = strict
        self.cfg = cfg

        self.timer = Timer()
        self.liner = Liner(cfg)
        self.noiser = Noiser(cfg)
        self.remaper = Remaper(cfg)

        self.create_kernals()

        if self.strict:
            self.font_chars = get_fonts_chars(self.fonts, corpus.chars_file)
Exemple #3
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    def __init__(self,
                 corpus,
                 fonts,
                 bgs,
                 cfg,
                 width=256,
                 height=32,
                 clip_max_chars=False,
                 debug=False,
                 gpu=False,
                 strict=False,
                 fonts_by_image=False):
        self.corpus = corpus
        self.fonts = fonts
        self.bgs = bgs
        self.out_width = width
        self.out_height = height
        self.clip_max_chars = clip_max_chars
        self.max_chars = math.floor(width / 4) - 1
        self.debug = debug
        self.gpu = gpu
        self.strict = strict
        self.cfg = cfg
        self.fonts_by_image = fonts_by_image

        self.timer = Timer()
        self.liner = Liner(cfg)
        self.noiser = Noiser(cfg)
        self.texture = Texture(cfg)
        self.remaper = Remaper(cfg)
        self.start = time.time()

        self.create_kernals()

        if self.strict:
            self.font_unsupport_chars = font_utils.get_unsupported_chars(
                self.fonts, corpus.chars_file, self.fonts_by_image)
Exemple #4
0
    def __init__(self, corpus, fonts, bgs, cfg, width=256, height=32, space_ratio=0.0,
                 clip_max_chars=False, max_chars=None, debug=False, gpu=False, strict=False):
        self.corpus = corpus
        self.fonts = fonts
        self.bgs = bgs
        self.out_width = width
        self.out_height = height
        self.space_ratio = space_ratio
        self.clip_max_chars = clip_max_chars
        self.max_chars = math.floor(width / 4) - 1 if max_chars is None else max_chars
        self.debug = debug
        self.gpu = gpu
        self.strict = strict
        self.cfg = cfg

        self.timer = Timer()
        self.liner = Liner(cfg)
        self.noiser = Noiser(cfg)
        self.remaper = Remaper(cfg)

        self.create_kernals()

        if self.strict:
            self.font_unsupport_chars = font_utils.get_unsupported_chars(self.fonts, corpus.chars_file)
Exemple #5
0
class Renderer(object):
    def __init__(self, corpus, fonts, bgs, cfg, width=256, height=32, space_ratio=0.0,
                 clip_max_chars=False, max_chars=None, debug=False, gpu=False, strict=False):
        self.corpus = corpus
        self.fonts = fonts
        self.bgs = bgs
        self.out_width = width
        self.out_height = height
        self.space_ratio = space_ratio
        self.clip_max_chars = clip_max_chars
        self.max_chars = math.floor(width / 4) - 1 if max_chars is None else max_chars
        self.debug = debug
        self.gpu = gpu
        self.strict = strict
        self.cfg = cfg

        self.timer = Timer()
        self.liner = Liner(cfg)
        self.noiser = Noiser(cfg)
        self.remaper = Remaper(cfg)

        self.create_kernals()

        if self.strict:
            self.font_unsupport_chars = font_utils.get_unsupported_chars(self.fonts, corpus.chars_file)

    def gen_img(self, img_index):
        word, font, word_size = self.pick_font(img_index)
        if self.space_ratio > 0 and len(word) > 2:
            word = list(word)
            for i in range(1, len(word) - 1):
                if word[i-1] != ' ' and random.random() < self.space_ratio:
                    # 不允许出现连续的空格
                    word[i] = ' '
            word = ''.join(word)

        self.dmsg("after pick font")

        # Background's height should much larger than raw word image's height,
        # to make sure we can crop full word image after apply perspective
        bg = self.gen_bg(width=word_size[0] * 8, height=word_size[1] * 8)
        word_img, text_box_pnts, word_color = self.draw_text_on_bg(word, font, bg)
        self.dmsg("After draw_text_on_bg")

        if apply(self.cfg.crop):
            text_box_pnts = self.apply_crop(text_box_pnts, self.cfg.crop)

        if apply(self.cfg.line):
            word_img, text_box_pnts = self.liner.apply(word_img, text_box_pnts, word_color)
            self.dmsg("After draw line")

        if self.debug:
            word_img = draw_box(word_img, text_box_pnts, (0, 255, 155))

        if apply(self.cfg.curve):
            word_img, text_box_pnts = self.remaper.apply(word_img, text_box_pnts, word_color)
            self.dmsg("After remapping")

        if self.debug:
            word_img = draw_box(word_img, text_box_pnts, (155, 255, 0))

        word_img, img_pnts_transformed, text_box_pnts_transformed = \
            self.apply_perspective_transform(word_img, text_box_pnts,
                                             max_x=self.cfg.perspective_transform.max_x,
                                             max_y=self.cfg.perspective_transform.max_y,
                                             max_z=self.cfg.perspective_transform.max_z,
                                             gpu=self.gpu)

        self.dmsg("After perspective transform")

        if self.debug:
            _, crop_bbox = self.crop_img(word_img, text_box_pnts_transformed)
            word_img = draw_bbox(word_img, crop_bbox, (255, 0, 0))
        else:
            word_img, crop_bbox = self.crop_img(word_img, text_box_pnts_transformed)

        self.dmsg("After crop_img")

        if apply(self.cfg.noise):
            word_img = np.clip(word_img, 0., 255.)
            word_img = self.noiser.apply(word_img)
            self.dmsg("After noiser")

        blured = False
        if apply(self.cfg.blur):
            blured = True
            word_img = self.apply_blur_on_output(word_img)
            self.dmsg("After blur")

        if not blured:
            if apply(self.cfg.prydown):
                word_img = self.apply_prydown(word_img)
                self.dmsg("After prydown")

        word_img = np.clip(word_img, 0., 255.)

        if apply(self.cfg.reverse_color):
            word_img = self.reverse_img(word_img)
            self.dmsg("After reverse_img")

        if apply(self.cfg.emboss):
            word_img = self.apply_emboss(word_img)
            self.dmsg("After emboss")

        if apply(self.cfg.sharp):
            word_img = self.apply_sharp(word_img)
            self.dmsg("After sharp")

        # word_img = cv2.resize(word_img, None, fx=0.5, fy=0.5)
        return word_img, word

    def dmsg(self, msg):
        if self.debug:
            print(msg)

    def random_xy_offset(self, src_height, src_width, dst_height, dst_width):
        """
        Get random left-top point for putting a small rect in a large rect.
        Normally dst_height>src_height and dst_width>src_width
        """
        y_max_offset = 0
        if dst_height > src_height:
            y_max_offset = dst_height - src_height

        x_max_offset = 0
        if dst_width > src_width:
            x_max_offset = dst_width - src_width

        y_offset = 0
        if y_max_offset != 0:
            y_offset = random.randint(0, y_max_offset)

        x_offset = 0
        if x_max_offset != 0:
            x_offset = random.randint(0, x_max_offset)

        return x_offset, y_offset

    def crop_img(self, img, text_box_pnts_transformed):
        """
        Crop text from large input image
        :param img: image to crop
        :param text_box_pnts_transformed: text_bbox_pnts after apply_perspective_transform
        :return:
            dst: image with desired output size, height=32, width=flags.img_width
            crop_bbox: bounding box on input image
        """
        bbox = cv2.boundingRect(text_box_pnts_transformed)
        bbox_width = bbox[2]
        bbox_height = bbox[3]

        # Output shape is (self.out_width, self.out_height)
        # We randomly put bounding box of transformed text in the output shape
        # so the max value of dst_height is out_height

        # TODO: If rotate angle(z) of text is too big, text will become very small,
        # we should do something to prevent text too small

        # dst_height and dst_width is used to leave some padding around text bbox
        dst_height = random.randint(self.out_height // 4 * 3, self.out_height)

        if self.out_width == 0:
            scale = bbox_height / dst_height
        else:
            dst_width = self.out_width
            scale = max(bbox_height / dst_height, bbox_width / self.out_width)

        s_bbox_width = math.ceil(bbox_width / scale)
        s_bbox_height = math.ceil(bbox_height / scale)

        if self.out_width == 0:
            padding = random.randint(s_bbox_width // 10, s_bbox_width // 8)
            dst_width = s_bbox_width + padding * 2

        s_bbox = (np.around(bbox[0] / scale),
                  np.around(bbox[1] / scale),
                  np.around(bbox[2] / scale),
                  np.around(bbox[3] / scale))

        x_offset, y_offset = self.random_xy_offset(s_bbox_height, s_bbox_width, self.out_height, dst_width)

        dst_bbox = (
            self.int_around((s_bbox[0] - x_offset) * scale),
            self.int_around((s_bbox[1] - y_offset) * scale),
            self.int_around(dst_width * scale),
            self.int_around(self.out_height * scale)
        )

        # It's important do crop first and than do resize for speed consider
        dst = img[dst_bbox[1]:dst_bbox[1] + dst_bbox[3], dst_bbox[0]:dst_bbox[0] + dst_bbox[2]]

        dst = cv2.resize(dst, (dst_width, self.out_height), interpolation=cv2.INTER_CUBIC)

        return dst, dst_bbox

    def int_around(self, val):
        return int(np.around(val))

    def get_word_color(self, bg, text_x, text_y, word_height, word_width):
        """
        Only use word roi area to get word color
        """
        offset = 10
        ymin = text_y - offset
        ymax = text_y + word_height + offset
        xmin = text_x - offset
        xmax = text_x + word_width + offset

        word_roi_bg = bg[ymin: ymax, xmin: xmax]

        bg_mean = int(np.mean(word_roi_bg) * (2 / 3))
        word_color = random.randint(0, bg_mean)
        return word_color

    def draw_text_on_bg(self, word, font, bg):
        """
        Draw word in the center of background
        :param word: word to draw
        :param font: font to draw word
        :param bg: background numpy image
        :return:
            np_img: word image
            text_box_pnts: left-top, right-top, right-bottom, left-bottom
        """
        bg_height = bg.shape[0]
        bg_width = bg.shape[1]

        word_size = self.get_word_size(font, word)
        word_height = word_size[1]
        word_width = word_size[0]

        offset = font.getoffset(word)

        pil_img = Image.fromarray(np.uint8(bg))
        draw = ImageDraw.Draw(pil_img)

        # Draw text in the center of bg
        text_x = int((bg_width - word_width) / 2)
        text_y = int((bg_height - word_height) / 2)

        word_color = self.get_word_color(bg, text_x, text_y, word_height, word_width)

        if apply(self.cfg.random_space):
            text_x, text_y, word_width, word_height = self.draw_text_with_random_space(draw, font, word, word_color,
                                                                                       bg_width, bg_height)
            np_img = np.array(pil_img).astype(np.float32)
        else:
            if apply(self.cfg.seamless_clone):
                np_img = self.draw_text_seamless(font, bg, word, word_color, word_height, word_width, offset)
            else:
                self.draw_text_wrapper(draw, word, text_x - offset[0], text_y - offset[1], font, word_color)
                # draw.text((text_x - offset[0], text_y - offset[1]), word, fill=word_color, font=font)

                np_img = np.array(pil_img).astype(np.float32)

        text_box_pnts = [
            [text_x, text_y],
            [text_x + word_width, text_y],
            [text_x + word_width, text_y + word_height],
            [text_x, text_y + word_height]
        ]

        return np_img, text_box_pnts, word_color

    def draw_text_seamless(self, font, bg, word, word_color, word_height, word_width, offset):
        # For better seamlessClone
        seamless_offset = 6

        # Draw text on a white image, than draw it on background
        white_bg = np.ones((word_height + seamless_offset, word_width + seamless_offset)) * 255
        text_img = Image.fromarray(np.uint8(white_bg))
        draw = ImageDraw.Draw(text_img)

        # draw.text((0 + seamless_offset // 2, 0 - offset[1] + seamless_offset // 2), word,
        #           fill=word_color, font=font)

        self.draw_text_wrapper(draw, word,
                               0 + seamless_offset // 2,
                               0 - offset[1] + seamless_offset // 2,
                               font, word_color)

        # assume whole text_img as mask
        text_img = np.array(text_img).astype(np.uint8)
        text_mask = 255 * np.ones(text_img.shape, text_img.dtype)

        # This is where the CENTER of the airplane will be placed
        center = (bg.shape[1] // 2, bg.shape[0] // 2)

        # opencv seamlessClone require bgr image
        text_img_bgr = np.ones((text_img.shape[0], text_img.shape[1], 3), np.uint8)
        bg_bgr = np.ones((bg.shape[0], bg.shape[1], 3), np.uint8)
        cv2.cvtColor(text_img, cv2.COLOR_GRAY2BGR, text_img_bgr)
        cv2.cvtColor(bg, cv2.COLOR_GRAY2BGR, bg_bgr)

        flag = np.random.choice([
            cv2.NORMAL_CLONE,
            cv2.MIXED_CLONE,
            cv2.MONOCHROME_TRANSFER
        ])

        mixed_clone = cv2.seamlessClone(text_img_bgr, bg_bgr, text_mask, center, flag)

        np_img = cv2.cvtColor(mixed_clone, cv2.COLOR_BGR2GRAY)

        return np_img

    def draw_text_with_random_space(self, draw, font, word, word_color, bg_width, bg_height):
        """ If random_space applied, text_x, text_y, word_width, word_height may change"""
        width = 0
        height = 0
        chars_size = []
        y_offset = 10 ** 5
        for c in word:
            size = font.getsize(c)
            chars_size.append(size)

            width += size[0]
            # set max char height as word height
            if size[1] > height:
                height = size[1]

            # Min chars y offset as word y offset
            # Assume only y offset
            c_offset = font.getoffset(c)
            if c_offset[1] < y_offset:
                y_offset = c_offset[1]

        char_space_width = int(height * np.random.uniform(self.cfg.random_space.min, self.cfg.random_space.max))

        width += (char_space_width * (len(word) - 1))

        text_x = int((bg_width - width) / 2)
        text_y = int((bg_height - height) / 2)

        c_x = text_x
        c_y = text_y

        for i, c in enumerate(word):
            # self.draw_text_wrapper(draw, c, c_x, c_y - y_offset, font, word_color, force_text_border)
            draw.text((c_x, c_y - y_offset), c, fill=word_color, font=font)

            c_x += (chars_size[i][0] + char_space_width)

        return text_x, text_y, width, height

    def draw_text_wrapper(self, draw, text, x, y, font, text_color):
        """
        :param x/y: 应该是移除了 offset 的
        """
        if apply(self.cfg.text_border):
            self.draw_border_text(draw, text, x, y, font, text_color)
        else:
            draw.text((x, y), text, fill=text_color, font=font)

    def draw_border_text(self, draw, text, x, y, font, text_color):
        """
        :param x/y: 应该是移除了 offset 的
        """
        # thickness larger than 1 may give bad border result
        thickness = 1

        choices = []
        p = []
        if self.cfg.text_border.light.enable:
            choices.append(0)
            p.append(self.cfg.text_border.light.fraction)
        if self.cfg.text_border.dark.enable:
            choices.append(1)
            p.append(self.cfg.text_border.dark.fraction)

        light_or_dark = np.random.choice(choices, p=p)

        if light_or_dark == 0:
            border_color = text_color + np.random.randint(0, 255 - text_color - 1)
        elif light_or_dark == 1:
            border_color = text_color - np.random.randint(0, text_color + 1)

        # thin border
        draw.text((x - thickness, y), text, font=font, fill=border_color)
        draw.text((x + thickness, y), text, font=font, fill=border_color)
        draw.text((x, y - thickness), text, font=font, fill=border_color)
        draw.text((x, y + thickness), text, font=font, fill=border_color)

        # thicker border
        draw.text((x - thickness, y - thickness), text, font=font, fill=border_color)
        draw.text((x + thickness, y - thickness), text, font=font, fill=border_color)
        draw.text((x - thickness, y + thickness), text, font=font, fill=border_color)
        draw.text((x + thickness, y + thickness), text, font=font, fill=border_color)

        # now draw the text over it
        draw.text((x, y), text, font=font, fill=text_color)

    def gen_bg(self, width, height):
        if apply(self.cfg.img_bg):
            bg = self.gen_bg_from_image(int(width), int(height))
        else:
            bg = self.gen_rand_bg(int(width), int(height))
        return bg

    def gen_rand_bg(self, width, height):
        """
        Generate random background
        """
        bg_high = random.uniform(220, 255)
        bg_low = bg_high - random.uniform(1, 60)

        bg = np.random.randint(bg_low, bg_high, (height, width)).astype(np.uint8)

        bg = self.apply_gauss_blur(bg)

        return bg

    def gen_bg_from_image(self, width, height):
        """
        Resize background, let bg_width>=width, bg_height >=height, and random crop from resized background
        """
        assert width > height

        bg = random.choice(self.bgs)

        scale = max(width / bg.shape[1], height / bg.shape[0])

        out = cv2.resize(bg, None, fx=scale, fy=scale)

        x_offset, y_offset = self.random_xy_offset(height, width, out.shape[0], out.shape[1])

        out = out[y_offset:y_offset + height, x_offset:x_offset + width]

        out = self.apply_gauss_blur(out, ks=[7, 11, 13, 15, 17])

        # bg_mean = int(np.mean(out))

        # TODO: find a better way to deal with background
        # alpha = 255 / bg_mean  # 对比度
        # beta = np.random.randint(bg_mean // 4, bg_mean // 2)  # 亮度
        # out = np.uint8(np.clip((alpha * out + beta), 0, 255))

        return out

    @retry
    def pick_font(self, img_index):
        """
        :param img_index when use list corpus, this param is used
        :return:
            font: truetype
            size: word size, removed offset (width, height)
        """
        word = self.corpus.get_sample(img_index)

        if self.clip_max_chars and len(word) > self.max_chars:
            word = self.clip_chars(word)

        font_path = random.choice(self.fonts)

        if self.strict:
            unsupport_chars = self.font_unsupport_chars[font_path]
            for c in word:
                if c == ' ':
                    continue
                if c in unsupport_chars:
                    print('Retry pick_font(), \'%s\' contains chars \'%s\' not supported by font %s' % (
                        word, c, font_path))
                    raise Exception

        # Font size in point
        font_size = random.randint(self.cfg.font_size.min, self.cfg.font_size.max)
        font = ImageFont.truetype(font_path, font_size)

        return word, font, self.get_word_size(font, word)

    def clip_chars(self, word):
        for _ in range(6):
            start = random.randint(0, len(word) - self.max_chars)
            if word[start] != ' ' and word[start + self.max_chars - 1] != ' ':
                # 保证边上的不是空格字符
                return word[start: start + self.max_chars]

        raise Exception

    def get_word_size(self, font, word):
        """
        Get word size removed offset
        :param font: truetype
        :param word:
        :return:
            size: word size, removed offset (width, height)
        """
        offset = font.getoffset(word)
        size = font.getsize(word)
        size = (size[0] - offset[0], size[1] - offset[1])
        return size

    def apply_perspective_transform(self, img, text_box_pnts, max_x, max_y, max_z, gpu=False):
        """
        Apply perspective transform on image
        :param img: origin numpy image
        :param text_box_pnts: four corner points of text
        :param x: max rotate angle around X-axis
        :param y: max rotate angle around Y-axis
        :param z: max rotate angle around Z-axis
        :return:
            dst_img:
            dst_img_pnts: points of whole word image after apply perspective transform
            dst_text_pnts: points of text after apply perspective transform
        """

        x = math_utils.cliped_rand_norm(0, max_x)
        y = math_utils.cliped_rand_norm(0, max_y)
        z = math_utils.cliped_rand_norm(0, max_z)

        # print("x: %f, y: %f, z: %f" % (x, y, z))

        transformer = math_utils.PerspectiveTransform(x, y, z, scale=1.0, fovy=50)

        dst_img, M33, dst_img_pnts = transformer.transform_image(img, gpu)
        dst_text_pnts = transformer.transform_pnts(text_box_pnts, M33)

        return dst_img, dst_img_pnts, dst_text_pnts

    def apply_blur_on_output(self, img):
        if prob(0.5):
            return self.apply_gauss_blur(img, [3, 5])
        else:
            return self.apply_norm_blur(img)

    def apply_gauss_blur(self, img, ks=None):
        if ks is None:
            ks = [7, 9, 11, 13]
        ksize = random.choice(ks)

        sigmas = [0, 1, 2, 3, 4, 5, 6, 7]
        sigma = 0
        if ksize <= 3:
            sigma = random.choice(sigmas)
        img = cv2.GaussianBlur(img, (ksize, ksize), sigma)
        return img

    def apply_norm_blur(self, img, ks=None):
        # kernel == 1, the output image will be the same
        if ks is None:
            ks = [2, 3]
        kernel = random.choice(ks)
        img = cv2.blur(img, (kernel, kernel))
        return img

    def apply_prydown(self, img):
        """
        模糊图像,模拟小图片放大的效果
        """
        scale = random.uniform(1, self.cfg.prydown.max_scale)
        height = img.shape[0]
        width = img.shape[1]

        out = cv2.resize(img, (int(width / scale), int(height / scale)), interpolation=cv2.INTER_AREA)
        return cv2.resize(out, (width, height), interpolation=cv2.INTER_AREA)

    def reverse_img(self, word_img):
        offset = np.random.randint(-10, 10)
        return 255 + offset - word_img

    def create_kernals(self):
        self.emboss_kernal = np.array([
            [-2, -1, 0],
            [-1, 1, 1],
            [0, 1, 2]
        ])

        self.sharp_kernel = np.array([
            [-1, -1, -1],
            [-1, 9, -1],
            [-1, -1, -1]
        ])

    def apply_emboss(self, word_img):
        return cv2.filter2D(word_img, -1, self.emboss_kernal)

    def apply_sharp(self, word_img):
        return cv2.filter2D(word_img, -1, self.sharp_kernel)

    def apply_crop(self, text_box_pnts, crop_cfg):
        """
        Random crop text box height top or bottom, we don't need image information in this step, only change box pnts
        :param text_box_pnts: bbox of text [left-top, right-top, right-bottom, left-bottom]
        :param crop_cfg:
        :return:
            croped_text_box_pnts
        """
        height = abs(text_box_pnts[0][1] - text_box_pnts[3][1])
        scale = float(height) / float(self.out_height)

        croped_text_box_pnts = text_box_pnts

        if prob(0.5):
            top_crop = int(random.randint(crop_cfg.top.min, crop_cfg.top.max) * scale)
            self.dmsg("top crop %d" % top_crop)
            croped_text_box_pnts[0][1] += top_crop
            croped_text_box_pnts[1][1] += top_crop
        else:
            bottom_crop = int(random.randint(crop_cfg.bottom.min, crop_cfg.bottom.max) * scale)
            self.dmsg("bottom crop %d " % bottom_crop)
            croped_text_box_pnts[2][1] -= bottom_crop
            croped_text_box_pnts[3][1] -= bottom_crop

        return croped_text_box_pnts
Exemple #6
0
class Renderer(object):
    def __init__(self,
                 corpus,
                 fonts,
                 bgs,
                 cfg,
                 width=256,
                 height=32,
                 debug=False,
                 gpu=False,
                 strict=False):
        self.corpus = corpus
        self.fonts = fonts
        self.bgs = bgs
        self.out_width = width
        self.out_height = height
        self.debug = debug
        self.gpu = gpu
        self.strict = strict
        self.cfg = cfg

        self.timer = Timer()
        self.liner = Liner(cfg)
        self.noiser = Noiser(cfg)

        if self.strict:
            self.font_chars = get_fonts_chars(self.fonts, corpus.chars_file)

    def gen_img(self):
        word, font, word_size = self.pick_font()

        # Background's height should much larger than raw word image's height,
        # to make sure we can crop full word image after apply perspective
        bg = self.gen_bg(width=word_size[0] * 8, height=word_size[1] * 8)

        word_img, char_pnts, text_box_pnts, word_color = self.draw_text_on_bg_char_pts(
            word, font, bg)

        if self.cfg.line.enable and prob(self.cfg.line.fraction):
            word_img, text_box_pnts = self.liner.apply(word_img, text_box_pnts,
                                                       word_color)

        word_img, img_pnts_transformed, char_pnts_transformed = \
            self.apply_perspective_transform(word_img, char_pnts,
                                             max_x=self.cfg.perspective_transform.max_x,
                                             max_y=self.cfg.perspective_transform.max_y,
                                             max_z=self.cfg.perspective_transform.max_z,
                                             gpu=self.gpu)
        if self.debug:
            word_img = draw_box(word_img, img_pnts_transformed, (0, 255, 0))
            word_img = draw_box(word_img, char_pnts_transformed, (0, 0, 255))
            # _, crop_bbox = self.crop_img(word_img, char_pnts_transformed)
            # word_img = draw_bbox(word_img, crop_bbox, (255, 0, 0))
        else:
            word_img, char_pnts_transformed = self.crop_img(
                word_img, char_pnts_transformed)

        if self.cfg.noise.enable and prob(self.cfg.noise.fraction):
            word_img = np.clip(word_img, 0., 255.)
            word_img = self.noiser.apply(word_img)

        blured = False
        if self.cfg.blur.enable and prob(self.cfg.blur.fraction):
            blured = True
            word_img = self.apply_blur_on_output(word_img)

        if not blured:
            if self.cfg.prydown.enable and prob(self.cfg.prydown.fraction):
                word_img = self.apply_prydown(word_img)

        word_img = np.clip(word_img, 0., 255.)

        return word_img, word, char_pnts_transformed

    def random_xy_offset(self, src_height, src_width, dst_height, dst_width):
        y_max_offset = 0
        if dst_height > src_height:
            y_max_offset = dst_height - src_height

        x_max_offset = 0
        if dst_width > src_width:
            x_max_offset = dst_width - src_width

        y_offset = 0
        if y_max_offset != 0:
            y_offset = random.randint(0, y_max_offset)

        x_offset = 0
        if x_max_offset != 0:
            x_offset = random.randint(0, x_max_offset)

        return x_offset, y_offset

    def crop_img(self, img, text_box_pnts_transformed):
        """
        :param img: image to crop
        :param text_box_pnts_transformed: text_bbox_pnts after apply_perspective_transform
        :return:
            dst: image with desired output size, height=32, width=flags.img_width
            crop_bbox: bounding box on input image
        """
        bbox = cv2.boundingRect(text_box_pnts_transformed)
        bbox_width = bbox[2]
        bbox_height = bbox[3]

        # Output shape is (self.out_width, self.out_height)
        # We randomly put bounding box of transformed text in the output shape
        # so the max value of dst_height is out_height

        # TODO: prevent text too small
        dst_height = random.randint(self.out_height // 4 * 3, self.out_height)

        scale = max(bbox_height / dst_height, bbox_width / self.out_width)

        s_bbox_width = math.ceil(bbox_width / scale)
        s_bbox_height = math.ceil(bbox_height / scale)

        s_bbox = (np.around(bbox[0] / scale), np.around(bbox[1] / scale),
                  np.around(bbox[2] / scale), np.around(bbox[3] / scale))

        x_offset, y_offset = self.random_xy_offset(self.out_height,
                                                   self.out_width,
                                                   s_bbox_height, s_bbox_width)

        def int_around(val):
            return int(np.around(val))

        dst_bbox = (int_around((s_bbox[0] - x_offset) * scale),
                    int_around((s_bbox[1] - y_offset) * scale),
                    int_around(self.out_width * scale),
                    int_around(self.out_height * scale))

        # It's important do crop first and than do resize for speed consider
        dst = img[dst_bbox[1]:dst_bbox[1] + dst_bbox[3],
                  dst_bbox[0]:dst_bbox[0] + dst_bbox[2]]
        sc_w, sc_h = self.out_width / dst.shape[
            1], self.out_height / dst.shape[0]
        dst = cv2.resize(dst, (self.out_width, self.out_height),
                         interpolation=cv2.INTER_CUBIC)

        offseted_pts = []
        for pt in text_box_pnts_transformed:
            offseted_pts.append([
                int_around(
                    ((pt[0] / scale - x_offset) * scale - dst_bbox[0]) * sc_w),
                int_around(
                    ((pt[1] / scale - y_offset) * scale - dst_bbox[1]) * sc_h)
            ])

        return dst, offseted_pts

    def draw_text_on_bg(self, word, font, bg):
        """
        Draw word in the center of background
        :param word: word to draw
        :param font: font to draw word
        :param bg: background numpy image
        :return:
            np_img: word image
            text_box_pnts: left-top, right-top, right-bottom, left-bottom
        """
        bg_height = bg.shape[0]
        bg_width = bg.shape[1]

        word_size = self.get_word_size(font, word)
        word_height = word_size[1]
        word_width = word_size[0]

        offset = font.getoffset(word)

        pil_img = Image.fromarray(np.uint8(bg))
        draw = ImageDraw.Draw(pil_img)

        # Draw text in the center of bg
        text_x = int((bg_width - word_width) / 2)
        text_y = int((bg_height - word_height) / 2)

        bg_mean = int(np.mean(bg))
        word_color = random.randint(0, int(bg_mean / 3 * 2))

        draw.text((text_x - offset[0], text_y - offset[1]),
                  word,
                  fill=word_color,
                  font=font)

        np_img = np.array(pil_img).astype(np.float32)

        text_box_pnts = [[text_x, text_y], [text_x + word_width, text_y],
                         [text_x + word_width, text_y + word_height],
                         [text_x, text_y + word_height]]

        return np_img, text_box_pnts, word_color

    def draw_text_on_bg_char_pts(self, word, font, bg):
        """
        Draw word in the center of background
        :param word: word to draw
        :param font: font to draw word
        :param bg: background numpy image
        :return:
            np_img: word image
            text_box_pnts: left-top, right-top, right-bottom, left-bottom
        """
        bg_height = bg.shape[0]
        bg_width = bg.shape[1]

        word_size = self.get_word_size(font, word)
        word_height = word_size[1]
        word_width = word_size[0]

        offset = font.getoffset(word)

        pil_img = Image.fromarray(np.uint8(bg))
        draw = ImageDraw.Draw(pil_img)

        # Draw text in the center of bg
        text_x = int((bg_width - word_width) / 2)
        text_y = int((bg_height - word_height) / 2)

        bg_mean = int(np.mean(bg))
        word_color = random.randint(0, int(bg_mean / 3 * 2))

        draw.text((text_x - offset[0], text_y - offset[1]),
                  word,
                  fill=word_color,
                  font=font)

        np_img = np.array(pil_img).astype(np.float32)

        chars_box_pnts = []
        x, y = text_x, text_y

        maxh = 0
        for char in word:
            char_offset = font.getoffset(char)
            char_size = font.getsize(char)
            char_size = (char_size[0] - char_offset[0],
                         char_size[1] - char_offset[1])
            maxh = max(char_size[1], maxh)

        for char in word:
            char_offset = font.getoffset(char)
            char_size = font.getsize(char)
            char_size = (char_size[0] - char_offset[0],
                         char_size[1] - char_offset[1])

            h, w = char_size[1], char_size[0]

            chars_box_pnts.append([x, y])
            chars_box_pnts.append([x + w, y])
            chars_box_pnts.append([x + w, y + maxh])
            chars_box_pnts.append([x, y + maxh])
            x += w

        text_box_pnts = [[text_x, text_y], [text_x + word_width, text_y],
                         [text_x + word_width, text_y + word_height],
                         [text_x, text_y + word_height]]
        return np_img, chars_box_pnts, text_box_pnts, word_color

    def gen_bg(self, width, height):
        if prob(0.5):
            bg = self.gen_rand_bg(int(width), int(height))
        else:
            bg = self.gen_bg_from_image(int(width), int(height))
        return bg

    def gen_rand_bg(self, width, height):
        """
        Generate random background
        """
        bg_high = random.uniform(220, 255)
        bg_low = bg_high - random.uniform(1, 60)

        bg = np.random.randint(bg_low, bg_high,
                               (height, width)).astype(np.uint8)

        bg = self.apply_gauss_blur(bg)

        return bg

    def gen_bg_from_image(self, width, height):
        """
        Resize background, let bg_width>=width, bg_height >=height, and random crop from resized background
        """
        assert width > height

        bg = random.choice(self.bgs)

        scale = max(width / bg.shape[1], height / bg.shape[0])

        out = cv2.resize(bg, None, fx=scale, fy=scale)

        x_offset, y_offset = self.random_xy_offset(height, width, out.shape[0],
                                                   out.shape[1])

        out = out[y_offset:y_offset + height, x_offset:x_offset + width]

        return out

    @retry
    def pick_font(self):
        """
        :return:
            font: truetype
            size: word size, removed offset (width, height)
        """
        word = self.corpus.get_sample()
        font_path = random.choice(self.fonts)

        if self.strict:
            supported_chars = self.font_chars[font_path]
            for c in word:
                if c not in supported_chars:
                    print(
                        'Retry pick_font(), \'%s\' contains chars \'%s\' not supported by font %s'
                        % (word, c, font_path))
                    raise Exception

        # Font size in point
        font_size = random.randint(20, 40)
        font = ImageFont.truetype(font_path, font_size)

        return word, font, self.get_word_size(font, word)

    def get_word_size(self, font, word):
        """
        Get word size removed offset
        :param font: truetype
        :param word:
        :return:
            size: word size, removed offset (width, height)
        """
        offset = font.getoffset(word)
        size = font.getsize(word)
        size = (size[0] - offset[0], size[1] - offset[1])
        return size

    def apply_perspective_transform(self,
                                    img,
                                    text_box_pnts,
                                    max_x,
                                    max_y,
                                    max_z,
                                    gpu=False):
        """
        Apply perspective transform on image
        :param img: origin numpy image
        :param text_box_pnts: four corner points of text
        :param x: max rotate angle around X-axis
        :param y: max rotate angle around Y-axis
        :param z: max rotate angle around Z-axis
        :return:
            dst_img:
            dst_img_pnts: points of whole word image after apply perspective transform
            dst_text_pnts: points of text after apply perspective transform
        """

        x = math_utils.cliped_rand_norm(0, max_x)
        y = math_utils.cliped_rand_norm(0, max_y)
        z = math_utils.cliped_rand_norm(0, max_z)

        transformer = math_utils.PerspectiveTransform(x,
                                                      y,
                                                      z,
                                                      scale=1.0,
                                                      fovy=50)

        dst_img, M33, dst_img_pnts = transformer.transform_image(img, gpu)
        dst_text_pnts = transformer.transform_pnts(text_box_pnts, M33)

        return dst_img, dst_img_pnts, dst_text_pnts

    def apply_blur_on_output(self, img):
        if prob(0.5):
            return self.apply_gauss_blur(img, [3, 5])
        else:
            return self.apply_norm_blur(img)

    def apply_gauss_blur(self, img, ks=None):
        if ks is None:
            ks = [7, 9, 11, 13]
        ksize = random.choice(ks)

        sigmas = [0, 1, 2, 3, 4, 5, 6, 7]
        sigma = 0
        if ksize <= 3:
            sigma = random.choice(sigmas)
        img = cv2.GaussianBlur(img, (ksize, ksize), sigma)
        return img

    def apply_norm_blur(self, img, ks=None):
        # kernel == 1, the output image will be the same
        if ks is None:
            ks = [2, 3]
        kernel = random.choice(ks)
        img = cv2.blur(img, (kernel, kernel))
        return img

    def apply_prydown(self, img):
        """
        模糊图像,模拟小图片放大的效果
        """
        scale = random.uniform(1, 1.5)
        height = img.shape[0]
        width = img.shape[1]

        out = cv2.resize(img, (int(width / scale), int(height / scale)),
                         interpolation=cv2.INTER_AREA)
        return cv2.resize(out, (width, height), interpolation=cv2.INTER_AREA)
class Renderer(object):
    def __init__(self,
                 corpus,
                 fonts,
                 bgs,
                 cfg,
                 width=256,
                 height=32,
                 clip_max_chars=False,
                 debug=False,
                 gpu=False,
                 strict=False):
        self.corpus = corpus
        self.fonts = fonts
        self.bgs = bgs
        self.out_width = width
        self.out_height = height
        self.clip_max_chars = clip_max_chars
        self.max_chars = math.floor(width / 4) - 1
        self.debug = debug
        self.gpu = gpu
        self.strict = strict
        self.cfg = cfg

        self.timer = Timer()
        self.liner = Liner(cfg)
        self.noiser = Noiser(cfg)

        if self.strict:
            self.font_chars = get_fonts_chars(self.fonts, corpus.chars_file)

    def gen_img(self):
        word, font, word_size = self.pick_font()

        # Background's height should much larger than raw word image's height,
        # to make sure we can crop full word image after apply perspective
        bg = self.gen_bg(width=word_size[0] * 8, height=word_size[1] * 8)

        word_img, text_box_pnts, word_color = self.draw_text_on_bg(
            word, font, bg)

        if apply(self.cfg.line):
            word_img, text_box_pnts = self.liner.apply(word_img, text_box_pnts,
                                                       word_color)

        word_img, img_pnts_transformed, text_box_pnts_transformed = \
            self.apply_perspective_transform(word_img, text_box_pnts,
                                             max_x=self.cfg.perspective_transform.max_x,
                                             max_y=self.cfg.perspective_transform.max_y,
                                             max_z=self.cfg.perspective_transform.max_z,
                                             gpu=self.gpu)

        if self.debug:
            word_img = draw_box(word_img, img_pnts_transformed, (0, 255, 0))
            word_img = draw_box(word_img, text_box_pnts_transformed,
                                (0, 0, 255))
            _, crop_bbox = self.crop_img(word_img, text_box_pnts_transformed)
            word_img = draw_bbox(word_img, crop_bbox, (255, 0, 0))
        else:
            word_img, crop_bbox = self.crop_img(word_img,
                                                text_box_pnts_transformed)

        if apply(self.cfg.noise):
            word_img = np.clip(word_img, 0., 255.)
            word_img = self.noiser.apply(word_img)

        blured = False
        if apply(self.cfg.blur):
            blured = True
            word_img = self.apply_blur_on_output(word_img)

        if not blured:
            if apply(self.cfg.prydown):
                word_img = self.apply_prydown(word_img)

        word_img = np.clip(word_img, 0., 255.)

        if apply(self.cfg.reverse_color):
            word_img = self.reverse_img(word_img)

        return word_img, word

    def random_xy_offset(self, src_height, src_width, dst_height, dst_width):
        """
        Get random left-top point for putting a small rect in a large rect.
        Normally dst_height>src_height and dst_width>src_width
        """
        y_max_offset = 0
        if dst_height > src_height:
            y_max_offset = dst_height - src_height

        x_max_offset = 0
        if dst_width > src_width:
            x_max_offset = dst_width - src_width

        y_offset = 0
        if y_max_offset != 0:
            y_offset = random.randint(0, y_max_offset)

        x_offset = 0
        if x_max_offset != 0:
            x_offset = random.randint(0, x_max_offset)

        return x_offset, y_offset

    def crop_img(self, img, text_box_pnts_transformed):
        """
        :param img: image to crop
        :param text_box_pnts_transformed: text_bbox_pnts after apply_perspective_transform
        :return:
            dst: image with desired output size, height=32, width=flags.img_width
            crop_bbox: bounding box on input image
        """
        bbox = cv2.boundingRect(text_box_pnts_transformed)
        bbox_width = bbox[2]
        bbox_height = bbox[3]

        # Output shape is (self.out_width, self.out_height)
        # We randomly put bounding box of transformed text in the output shape
        # so the max value of dst_height is out_height

        # TODO: prevent text too small
        dst_height = random.randint(self.out_height // 4 * 3, self.out_height)

        scale = max(bbox_height / dst_height, bbox_width / self.out_width)

        s_bbox_width = math.ceil(bbox_width / scale)
        s_bbox_height = math.ceil(bbox_height / scale)

        s_bbox = (np.around(bbox[0] / scale), np.around(bbox[1] / scale),
                  np.around(bbox[2] / scale), np.around(bbox[3] / scale))

        x_offset, y_offset = self.random_xy_offset(s_bbox_height, s_bbox_width,
                                                   self.out_height,
                                                   self.out_width)

        def int_around(val):
            return int(np.around(val))

        dst_bbox = (int_around((s_bbox[0] - x_offset) * scale),
                    int_around((s_bbox[1] - y_offset) * scale),
                    int_around(self.out_width * scale),
                    int_around(self.out_height * scale))

        # It's important do crop first and than do resize for speed consider
        dst = img[dst_bbox[1]:dst_bbox[1] + dst_bbox[3],
                  dst_bbox[0]:dst_bbox[0] + dst_bbox[2]]

        dst = cv2.resize(dst, (self.out_width, self.out_height),
                         interpolation=cv2.INTER_CUBIC)

        return dst, dst_bbox

    def get_word_color(self, bg, text_x, text_y, word_height, word_width):
        """
        Only use word roi area to get word color
        """
        offset = 10
        ymin = text_y - offset
        ymax = text_y + word_height + offset
        xmin = text_x - offset
        xmax = text_x + word_width + offset

        word_roi_bg = bg[ymin:ymax, xmin:xmax]

        bg_mean = int(np.mean(word_roi_bg) * (2 / 3))
        word_color = random.randint(0, bg_mean)
        return word_color

    def draw_text_on_bg(self, word, font, bg):
        """
        Draw word in the center of background
        :param word: word to draw
        :param font: font to draw word
        :param bg: background numpy image
        :return:
            np_img: word image
            text_box_pnts: left-top, right-top, right-bottom, left-bottom
        """
        bg_height = bg.shape[0]
        bg_width = bg.shape[1]

        word_size = self.get_word_size(font, word)
        word_height = word_size[1]
        word_width = word_size[0]

        offset = font.getoffset(word)

        pil_img = Image.fromarray(np.uint8(bg))
        draw = ImageDraw.Draw(pil_img)

        # Draw text in the center of bg
        text_x = int((bg_width - word_width) / 2)
        text_y = int((bg_height - word_height) / 2)

        word_color = self.get_word_color(bg, text_x, text_y, word_height,
                                         word_width)

        if apply(self.cfg.random_space):
            text_x, text_y, word_width, word_height = self.draw_text_with_random_space(
                draw, font, word, word_color, bg_width, bg_height)
        else:
            draw.text((text_x - offset[0], text_y - offset[1]),
                      word,
                      fill=word_color,
                      font=font)

        np_img = np.array(pil_img).astype(np.float32)

        text_box_pnts = [[text_x, text_y], [text_x + word_width, text_y],
                         [text_x + word_width, text_y + word_height],
                         [text_x, text_y + word_height]]

        return np_img, text_box_pnts, word_color

    def draw_text_with_random_space(self, draw, font, word, word_color,
                                    bg_width, bg_height):
        """ If random_space applied, text_x, text_y, word_width, word_height may change"""
        width = 0
        height = 0
        chars_size = []
        y_offset = 10**5
        for c in word:
            size = font.getsize(c)
            chars_size.append(size)

            width += size[0]
            # set max char height as word height
            if size[1] > height:
                height = size[1]

            # Min chars y offset as word y offset
            # Assume only y offset
            c_offset = font.getoffset(c)
            if c_offset[1] < y_offset:
                y_offset = c_offset[1]

        char_space_width = int(height * np.random.uniform(
            self.cfg.random_space.min, self.cfg.random_space.max))

        width += (char_space_width * (len(word) - 1))

        text_x = int((bg_width - width) / 2)
        text_y = int((bg_height - height) / 2)

        c_x = text_x
        c_y = text_y
        for i, c in enumerate(word):
            draw.text((c_x, c_y - y_offset), c, fill=word_color, font=font)

            c_x += (chars_size[i][0] + char_space_width)

        return text_x, text_y, width, height

    def gen_bg(self, width, height):
        if apply(self.cfg.img_bg):
            bg = self.gen_bg_from_image(int(width), int(height))
        else:
            bg = self.gen_rand_bg(int(width), int(height))
        return bg

    def gen_rand_bg(self, width, height):
        """
        Generate random background
        """
        bg_high = random.uniform(220, 255)
        bg_low = bg_high - random.uniform(1, 60)

        bg = np.random.randint(bg_low, bg_high,
                               (height, width)).astype(np.uint8)

        bg = self.apply_gauss_blur(bg)

        return bg

    def gen_bg_from_image(self, width, height):
        """
        Resize background, let bg_width>=width, bg_height >=height, and random crop from resized background
        """
        assert width > height

        bg = random.choice(self.bgs)

        scale = max(width / bg.shape[1], height / bg.shape[0])

        out = cv2.resize(bg, None, fx=scale, fy=scale)

        x_offset, y_offset = self.random_xy_offset(height, width, out.shape[0],
                                                   out.shape[1])

        out = out[y_offset:y_offset + height, x_offset:x_offset + width]

        out = self.apply_gauss_blur(out, ks=[7, 11, 13, 15, 17])

        bg_mean = int(np.mean(out))

        alpha = 255 / bg_mean  # 对比度
        beta = np.random.randint(bg_mean // 2, bg_mean)  # 亮度
        out = np.uint8(np.clip((alpha * out + beta), 0, 255))

        return out

    @retry
    def pick_font(self):
        """
        :return:
            font: truetype
            size: word size, removed offset (width, height)
        """
        word = self.corpus.get_sample()

        if self.clip_max_chars and len(word) > self.max_chars:
            word = word[:self.max_chars]

        font_path = random.choice(self.fonts)

        if self.strict:
            supported_chars = self.font_chars[font_path]
            for c in word:
                if c == ' ':
                    continue
                if c not in supported_chars:
                    print(
                        'Retry pick_font(), \'%s\' contains chars \'%s\' not supported by font %s'
                        % (word, c, font_path))
                    raise Exception

        # Font size in point
        font_size = random.randint(self.cfg.font_size.min,
                                   self.cfg.font_size.max)
        font = ImageFont.truetype(font_path, font_size)

        return word, font, self.get_word_size(font, word)

    def get_word_size(self, font, word):
        """
        Get word size removed offset
        :param font: truetype
        :param word:
        :return:
            size: word size, removed offset (width, height)
        """
        offset = font.getoffset(word)
        size = font.getsize(word)
        size = (size[0] - offset[0], size[1] - offset[1])
        return size

    def apply_perspective_transform(self,
                                    img,
                                    text_box_pnts,
                                    max_x,
                                    max_y,
                                    max_z,
                                    gpu=False):
        """
        Apply perspective transform on image
        :param img: origin numpy image
        :param text_box_pnts: four corner points of text
        :param x: max rotate angle around X-axis
        :param y: max rotate angle around Y-axis
        :param z: max rotate angle around Z-axis
        :return:
            dst_img:
            dst_img_pnts: points of whole word image after apply perspective transform
            dst_text_pnts: points of text after apply perspective transform
        """

        x = math_utils.cliped_rand_norm(0, max_x)
        y = math_utils.cliped_rand_norm(0, max_y)
        z = math_utils.cliped_rand_norm(0, max_z)

        # print("x: %f, y: %f, z: %f" % (x, y, z))

        transformer = math_utils.PerspectiveTransform(x,
                                                      y,
                                                      z,
                                                      scale=1.0,
                                                      fovy=50)

        dst_img, M33, dst_img_pnts = transformer.transform_image(img, gpu)
        dst_text_pnts = transformer.transform_pnts(text_box_pnts, M33)

        return dst_img, dst_img_pnts, dst_text_pnts

    def apply_blur_on_output(self, img):
        if prob(0.5):
            return self.apply_gauss_blur(img, [3, 5])
        else:
            return self.apply_norm_blur(img)

    def apply_gauss_blur(self, img, ks=None):
        if ks is None:
            ks = [7, 9, 11, 13]
        ksize = random.choice(ks)

        sigmas = [0, 1, 2, 3, 4, 5, 6, 7]
        sigma = 0
        if ksize <= 3:
            sigma = random.choice(sigmas)
        img = cv2.GaussianBlur(img, (ksize, ksize), sigma)
        return img

    def apply_norm_blur(self, img, ks=None):
        # kernel == 1, the output image will be the same
        if ks is None:
            ks = [2, 3]
        kernel = random.choice(ks)
        img = cv2.blur(img, (kernel, kernel))
        return img

    def apply_prydown(self, img):
        """
        模糊图像,模拟小图片放大的效果
        """
        scale = random.uniform(1, self.cfg.prydown.max_scale)
        height = img.shape[0]
        width = img.shape[1]

        out = cv2.resize(img, (int(width / scale), int(height / scale)),
                         interpolation=cv2.INTER_AREA)
        return cv2.resize(out, (width, height), interpolation=cv2.INTER_AREA)

    def reverse_img(self, word_img):
        offset = np.random.randint(-10, 10)
        return 255 + offset - word_img
Exemple #8
0
class Renderer(object):
    def __init__(self,
                 corpus,
                 fonts,
                 bgs,
                 cfg,
                 width=256,
                 height=32,
                 clip_max_chars=False,
                 debug=False,
                 gpu=False,
                 strict=False,
                 fonts_by_image=False):
        self.corpus = corpus
        self.fonts = fonts
        self.bgs = bgs
        self.out_width = width
        self.out_height = height
        self.clip_max_chars = clip_max_chars
        self.max_chars = math.floor(width / 4) - 1
        self.debug = debug
        self.gpu = gpu
        self.strict = strict
        self.cfg = cfg
        self.fonts_by_image = fonts_by_image

        self.timer = Timer()
        self.liner = Liner(cfg)
        self.noiser = Noiser(cfg)
        self.texture = Texture(cfg)
        self.remaper = Remaper(cfg)
        self.start = time.time()

        self.create_kernals()

        if self.strict:
            self.font_unsupport_chars = font_utils.get_unsupported_chars(
                self.fonts, corpus.chars_file, self.fonts_by_image)

    def gen_img(self, img_index):
        word, font, word_size, font2 = self.pick_font(img_index)
        self.dmsg("after pick font")

        # Background's height should much larger than raw word image's height,
        # to make sure we can crop full word image after apply perspective
        bg = self.gen_bg(width=word_size[0] * 8, height=word_size[1] * 8)
        word_img, text_box_pnts, word_color = self.draw_text_on_bg(
            word, font, bg, font2)
        self.dmsg("After draw_text_on_bg")

        if apply(self.cfg.crop):
            text_box_pnts = self.apply_crop(text_box_pnts, self.cfg.crop)

        if apply(self.cfg.line):
            word_img, text_box_pnts = self.liner.apply(word_img, text_box_pnts)
            self.dmsg("After draw line")

        if self.debug:
            word_img = draw_box(word_img, text_box_pnts, (0, 255, 155))

        if apply(self.cfg.curve):
            word_img, text_box_pnts = self.remaper.apply(
                word_img, text_box_pnts, word_color)
            self.dmsg("After remapping")

        if self.debug:
            word_img = draw_box(word_img, text_box_pnts, (155, 255, 0))

        word_img = self.mix_seamless_bg(word_img, bg)
        if apply(self.cfg.extra_words):
            word_img = self.draw_extra_random_word(word_img, text_box_pnts,
                                                   img_index)
            self.dmsg("After add extra words")

        word_img, img_pnts_transformed, text_box_pnts_transformed = \
            self.apply_perspective_transform(word_img, text_box_pnts,
                                             max_x=self.cfg.perspective_transform.max_x,
                                             max_y=self.cfg.perspective_transform.max_y,
                                             max_z=self.cfg.perspective_transform.max_z,
                                             gpu=self.gpu)

        self.dmsg("After perspective transform")

        if self.debug:
            _, crop_bbox = self.crop_img(word_img, text_box_pnts_transformed)
            word_img = draw_bbox(word_img, crop_bbox, (255, 0, 0))
        else:
            word_img, crop_bbox = self.crop_img(word_img,
                                                text_box_pnts_transformed)

        self.dmsg("After crop_img")

        if apply(self.cfg.noise):
            word_img = np.clip(word_img, 0., 255.)
            word_img = self.noiser.apply(word_img)
            self.dmsg("After noiser")

        if apply(self.cfg.blur):
            word_img = self.apply_blur_on_output(word_img)
            self.dmsg("After blur")

        word_img = np.clip(word_img, 0., 255.)

        if apply(self.cfg.reverse_color):
            word_img = self.reverse_img(word_img)
            self.dmsg("After reverse_img")

        if apply(self.cfg.emboss):
            word_img = self.apply_emboss(word_img)
            self.dmsg("After emboss")

        if apply(self.cfg.sharp):
            word_img = self.apply_sharp(word_img)
            self.dmsg("After sharp")

        return word_img, word

    def dmsg(self, msg):
        if self.debug:
            print(msg)

    def random_xy_offset(self, src_height, src_width, dst_height, dst_width):
        """
        Get random left-top point for putting a small rect in a large rect.
        Normally dst_height>src_height and dst_width>src_width
        """
        y_max_offset = 0
        if dst_height > src_height:
            y_max_offset = dst_height - src_height

        x_max_offset = 0
        if dst_width > src_width:
            x_max_offset = dst_width - src_width

        y_offset = 0
        if y_max_offset != 0:
            y_offset = random.randint(0, y_max_offset)

        x_offset = 0
        if x_max_offset != 0:
            x_offset = random.randint(0, x_max_offset)

        return x_offset, y_offset

    def crop_img(self, img, text_box_pnts_transformed):
        """
        Crop text from large input image
        :param img: image to crop
        :param text_box_pnts_transformed: text_bbox_pnts after apply_perspective_transform
        :return:
            dst: image with desired output size, height=32, width=flags.img_width
            crop_bbox: bounding box on input image
        """
        bbox = cv2.boundingRect(text_box_pnts_transformed)
        bbox_width = bbox[2]
        bbox_height = bbox[3]

        # Output shape is (self.out_width, self.out_height)
        # We randomly put bounding box of transformed text in the output shape
        # so the max value of dst_height is out_height

        # TODO: If rotate angle(z) of text is too big, text will become very small,
        # we should do something to prevent text too small

        # dst_height and dst_width is used to leave some padding around text bbox
        dst_height = random.randint(self.out_height // 4 * 3, self.out_height)

        if self.out_width == 0:
            scale = bbox_height / dst_height
        else:
            dst_width = self.out_width
            scale = max(bbox_height / dst_height, bbox_width / self.out_width)

        s_bbox_width = math.ceil(bbox_width / scale)
        s_bbox_height = math.ceil(bbox_height / scale)

        if self.out_width == 0:
            padding = random.randint(s_bbox_width // 10, s_bbox_width // 8)
            dst_width = s_bbox_width + padding * 2

        s_bbox = (np.around(bbox[0] / scale), np.around(bbox[1] / scale),
                  np.around(bbox[2] / scale), np.around(bbox[3] / scale))

        x_offset, y_offset = self.random_xy_offset(s_bbox_height, s_bbox_width,
                                                   self.out_height, dst_width)

        dst_bbox = (self.int_around((s_bbox[0] - x_offset) * scale),
                    self.int_around((s_bbox[1] - y_offset) * scale),
                    self.int_around(dst_width * scale),
                    self.int_around(self.out_height * scale))

        # It's important do crop first and than do resize for speed consider
        dst = img[dst_bbox[1]:dst_bbox[1] + dst_bbox[3],
                  dst_bbox[0]:dst_bbox[0] + dst_bbox[2]]

        dst = cv2.resize(dst, (dst_width, self.out_height),
                         interpolation=cv2.INTER_CUBIC)

        return dst, dst_bbox

    def int_around(self, val):
        return int(np.around(val))

    def get_word_color(self):
        colors = [i for i in self.cfg.font_color]
        p = [self.cfg.font_color[i].fraction for i in self.cfg.font_color]
        # pick color by fraction
        color_name = np.random.choice(colors, p=p)
        l_boundary = [
            int(i)
            for i in self.cfg.font_color[color_name].l_boundary.split(',')
        ]
        h_boundary = [
            int(i)
            for i in self.cfg.font_color[color_name].h_boundary.split(',')
        ]
        # random color by low and high RGB boundary
        if color_name == 'black' or color_name == 'gray':
            r = g = b = np.random.randint(l_boundary[0], h_boundary[0])
        else:
            r = np.random.randint(l_boundary[0], h_boundary[0])
            g = np.random.randint(l_boundary[1], h_boundary[1])
            b = np.random.randint(l_boundary[2], h_boundary[2])
        return (b, g, r)

    def draw_text_on_bg(self, word, font, bg, font2):
        """
        Draw word in the center of background
        :param word: word to draw
        :param font: font to draw word
        :param bg: background numpy image
        :return:
            np_img: word image
            text_box_pnts: left-top, right-top, right-bottom, left-bottom
        """
        bg_height = bg.shape[0]
        bg_width = bg.shape[1]

        word_size = self.get_word_size(font, word)
        word_height = word_size[1]
        word_width = word_size[0]

        offset = (0, 0) if self.fonts_by_image else font.getoffset(word)
        pure_bg = np.ones((bg_height, bg_width, 3)) * 255

        pil_img = Image.fromarray(np.uint8(pure_bg))
        draw = ImageDraw.Draw(pil_img)

        # Draw text in the center of bg
        text_x = int((bg_width - word_width) / 2)
        text_y = int((bg_height - word_height) / 2)

        word_color = self.get_word_color()

        if apply(self.cfg.random_space):
            text_x, text_y, word_width, word_height = self.draw_text_with_random_space(
                draw, font, word, word_color, bg_width, bg_height, pure_bg)
        else:
            if apply(self.cfg.texture) and not self.fonts_by_image:
                pure_bg = Image.new('RGBA', (bg_width, bg_height),
                                    (255, 255, 255, 255))
                pil_img = Image.new('RGBA', (bg_width, bg_height),
                                    (255, 255, 255, 0))
                draw = ImageDraw.Draw(pil_img)
                _ = self.draw_text_wrapper(draw, word, text_x - offset[0],
                                           text_y - offset[1], font,
                                           word_color, font2, pil_img)
                pil_img = self.texture.apply_cloud_texture(pure_bg, pil_img)
            else:
                if self.fonts_by_image:
                    pil_img = self.draw_text_wrapper(draw, word,
                                                     text_x - offset[0],
                                                     text_y - offset[1], font,
                                                     word_color, font2,
                                                     pure_bg)
                else:
                    _ = self.draw_text_wrapper(draw, word, text_x - offset[0],
                                               text_y - offset[1], font,
                                               word_color, font2, pure_bg)
            # draw.text((text_x - offset[0], text_y - offset[1]), word, fill=word_color, font=font)

        np_img = np.array(pil_img).astype(np.float32)

        text_box_pnts = [[text_x, text_y], [text_x + word_width, text_y],
                         [text_x + word_width, text_y + word_height],
                         [text_x, text_y + word_height]]

        return np_img, text_box_pnts, word_color

    def mix_seamless_bg(self, text_img, bg, anchor=None):
        text_img = np.array(text_img).astype(np.uint8)
        text_mask = 255 * np.ones(text_img.shape, text_img.dtype)
        if self.fonts_by_image and anchor:
            h, w = text_img.shape[:2]
            center = (int(anchor[0] + w / 2), int(anchor[1] + h / 2))
            bg = bg.astype(np.uint8)
        else:
            center = (bg.shape[1] // 2, bg.shape[0] // 2)
        mixed_clone = cv2.seamlessClone(text_img, bg, text_mask, center,
                                        cv2.MIXED_CLONE)
        return mixed_clone

    def draw_extra_random_word(self, text_img, text_box_pnts, img_index):
        pil_img = Image.fromarray(np.uint8(text_img))
        draw = ImageDraw.Draw(pil_img)
        word_color = self.get_word_color()
        word, font, word_size, font2 = self.pick_font(img_index)
        word_len = np.random.randint(1, len(word))
        word_height = word_size[1]
        word_width = word_size[0]
        # calculate text x,y
        text_x = np.random.randint(text_box_pnts[0][0], text_box_pnts[1][0])
        text_y_b = text_box_pnts[2][1]
        text_y_t = 2 * text_box_pnts[0][1] - \
            text_box_pnts[2][1] - word_height * 0.5
        text_y = np.random.choice([text_y_t, text_y_b],
                                  p=[
                                      self.cfg.extra_words.top.fraction,
                                      self.cfg.extra_words.bottom.fraction
                                  ])
        _ = self.draw_text_wrapper(draw, word[:word_len], text_x, text_y, font,
                                   word_color, font2, np.uint8(text_img))
        np_img = np.array(pil_img).astype(np.float32)
        return np_img

    def draw_text_with_random_space(self, draw, font, word, word_color,
                                    bg_width, bg_height, pil_img):
        """ If random_space applied, text_x, text_y, word_width, word_height may change"""
        width = 0
        height = 0
        chars_size = []
        y_offset = 10**5
        for c in word:
            if self.fonts_by_image:
                size = font[c].shape[:2] if c in font else (font_size,
                                                            font_size)
            else:
                size = font.getsize(c)
            chars_size.append(size)

            width += size[0]
            # set max char height as word height
            if size[1] > height:
                height = size[1]

            # Min chars y offset as word y offset
            # Assume only y offset
            c_offset = (0, 0) if self.fonts_by_image else font.getoffset(c)
            if c_offset[1] < y_offset:
                y_offset = c_offset[1]

        char_space_width = int(height * np.random.uniform(
            self.cfg.random_space.min, self.cfg.random_space.max))

        width += (char_space_width * (len(word) - 1))

        text_x = int((bg_width - width) / 2)
        text_y = int((bg_height - height) / 2)

        c_x = text_x
        c_y = text_y

        for i, c in enumerate(word):
            # self.draw_text_wrapper(draw, c, c_x, c_y - y_offset, font, word_color, force_text_border)
            if self.fonts_by_image:
                pil_img = self.mix_seamless_bg(font[c], pil_img,
                                               (c_x, c_y - y_offset))
            else:
                draw.text((c_x, c_y - y_offset), c, fill=word_color, font=font)

            c_x += (chars_size[i][0] + char_space_width)

        return text_x, text_y, width, height

    def draw_text_wrapper(self, draw, text, x, y, font, text_color, font2,
                          pil_img):
        """
        :param x/y: 应该是移除了 offset 的
        """
        if apply(self.cfg.text_border):
            self.draw_border_text(draw, text, x, y, font, text_color)

        #todo: 整合draw_text_wrapper 与 draw_text_with_random_space
        elif apply(self.cfg.second_font):
            if self.cfg.second_font.font_color_change:
                text_color2 = self.get_word_color()
            else:
                text_color2 = text_color
            for i, c in enumerate(text):
                if random.random(
                ) < self.cfg.second_font.change_rate and not self.fonts_by_image:
                    y_offset = np.random.uniform(0, font2.getoffset(c)[1])
                    draw.text((x, y + y_offset),
                              c,
                              fill=text_color2,
                              font=font2)
                    x += font2.getsize(c)[0]
                else:
                    if self.fonts_by_image:
                        pil_img = self.mix_seamless_bg(font[c], pil_img,
                                                       (x, y))
                        x += font[c].shape[1]
                    else:
                        draw.text((x, y), c, fill=text_color, font=font)
                        x += font.getsize(c)[0]
        else:
            if self.fonts_by_image:
                for c in text:
                    pil_img = self.mix_seamless_bg(font[c], pil_img, (x, y))
                    x += font[c].shape[1]
            else:
                draw.text((x, y), text, fill=text_color, font=font)
        return pil_img

    def draw_border_text(self, draw, text, x, y, font, text_color):
        """
        :param x/y: 应该是移除了 offset 的
        """
        # thickness larger than 1 may give bad border result
        thickness = 1

        choices = []
        p = []
        if self.cfg.text_border.light.enable:
            choices.append(0)
            p.append(self.cfg.text_border.light.fraction)
        if self.cfg.text_border.dark.enable:
            choices.append(1)
            p.append(self.cfg.text_border.dark.fraction)

        light_or_dark = np.random.choice(choices, p=p)

        if light_or_dark == 0:
            border_color = text_color + \
                np.random.randint(0, 255 - text_color - 1)
        elif light_or_dark == 1:
            border_color = text_color - np.random.randint(0, text_color + 1)

        # thin border
        draw.text((x - thickness, y), text, font=font, fill=border_color)
        draw.text((x + thickness, y), text, font=font, fill=border_color)
        draw.text((x, y - thickness), text, font=font, fill=border_color)
        draw.text((x, y + thickness), text, font=font, fill=border_color)

        # thicker border
        draw.text((x - thickness, y - thickness),
                  text,
                  font=font,
                  fill=border_color)
        draw.text((x + thickness, y - thickness),
                  text,
                  font=font,
                  fill=border_color)
        draw.text((x - thickness, y + thickness),
                  text,
                  font=font,
                  fill=border_color)
        draw.text((x + thickness, y + thickness),
                  text,
                  font=font,
                  fill=border_color)

        # now draw the text over it
        draw.text((x, y), text, font=font, fill=text_color)

    def gen_bg(self, width, height):
        bg = self.gen_bg_from_image(int(width), int(height))
        return bg

    def gen_bg_from_image(self, width, height):
        """
        Resize background, let bg_width>=width, bg_height >=height, and random crop from resized background
        """
        assert width > height

        bg = random.choice(self.bgs)

        scale = max(width / bg.shape[1], height / bg.shape[0])

        rand_scale = scale * random.random()

        scale = scale if width > rand_scale * bg.shape[1] else rand_scale

        out = cv2.resize(bg, None, fx=scale, fy=scale)

        x_offset, y_offset = self.random_xy_offset(height, width, out.shape[0],
                                                   out.shape[1])

        out = out[y_offset:y_offset + height, x_offset:x_offset + width]

        # out = self.apply_gauss_blur(out, ks=[7, 11, 13, 15, 17]) 尝试不再模糊背景

        # TODO: find a better way to deal with background
        # alpha = 255 / bg_mean  # 对比度
        # beta = np.random.randint(bg_mean // 4, bg_mean // 2)  # 亮度
        # out = np.uint8(np.clip((alpha * out + beta), 0, 255))

        return out

    @retry
    def pick_font(self, img_index):
        """
        :param img_index when use list corpus, this param is used
        :return:
            font: truetype
            size: word size, removed offset (width, height)
        """
        word = self.corpus.get_sample(img_index)

        if self.clip_max_chars and len(word) > self.max_chars:
            word = word[:self.max_chars]

        font_path = random.choice(self.fonts)
        font_path_2 = random.choice(self.fonts)

        if self.strict:
            unsupport_chars = self.font_unsupport_chars[font_path]
            # unsupport_chars.extend(self.font_unsupport_chars[font_path_2])
            for c in word:
                if c == ' ':
                    continue
                if c in unsupport_chars:
                    print(
                        'Retry pick_font(), \'%s\' contains chars \'%s\' not supported by font %s'
                        % (word, c, font_path))
                    raise Exception

        # Font size in point
        font_size = random.randint(self.cfg.font_size.min,
                                   self.cfg.font_size.max)
        if self.fonts_by_image:
            font = self.loads_fonts_by_image(font_path, font_size)
        else:
            font = ImageFont.truetype(font_path, font_size)
        if self.cfg.second_font.font_size_change:
            font_size_2 = font_size - random.randint(1, 10)
        else:
            font_size_2 = font_size
        if self.cfg.second_font.font_change:
            if self.fonts_by_image:
                font2 = self.loads_fonts_by_image(font_path_2, font_size_2)
            else:
                font2 = ImageFont.truetype(font_path_2, font_size_2)
        else:
            if self.fonts_by_image:
                font2 = self.loads_fonts_by_image(font_path, font_size_2)
            else:
                font2 = ImageFont.truetype(font_path, font_size_2)

        return word, font, self.get_word_size(font, word, font_size), font2

    def loads_fonts_by_image(self, font_path, font_size):
        fonts = {}
        for x in os.listdir(font_path):
            img = cv2.imdecode(
                np.fromfile(font_path + "/" + x, dtype=np.uint8),
                cv2.IMREAD_COLOR)
            h, w = img.shape[:2]
            fonts[x.replace(".png",
                            "")] = cv2.resize(img,
                                              (font_size, h * font_size // w))
        return fonts

    def get_word_size(self, font, word, default=None):
        """
        Get word size removed offset
        :param font: truetype
        :param word:
        :return:
            size: word size, removed offset (width, height)
        """
        if self.fonts_by_image:
            offset = (0, 0)
            w_list, h_list = [], []
            for c in word:
                if c in font:
                    h, w = font[c].shape[:2]
                else:
                    h, w = default, default
                w_list.append(w)
                h_list.append(h)
            size = (sum(w_list), max(h_list))
        else:
            offset = font.getoffset(word)
            size = font.getsize(word)
        size = (size[0] - offset[0], size[1] - offset[1])
        return size

    def apply_perspective_transform(self,
                                    img,
                                    text_box_pnts,
                                    max_x,
                                    max_y,
                                    max_z,
                                    gpu=False):
        """
        Apply perspective transform on image
        :param img: origin numpy image
        :param text_box_pnts: four corner points of text
        :param x: max rotate angle around X-axis
        :param y: max rotate angle around Y-axis
        :param z: max rotate angle around Z-axis
        :return:
            dst_img:
            dst_img_pnts: points of whole word image after apply perspective transform
            dst_text_pnts: points of text after apply perspective transform
        """

        x = math_utils.cliped_rand_norm(0, max_x)
        y = math_utils.cliped_rand_norm(0, max_y)
        z = math_utils.cliped_rand_norm(0, max_z)

        # print("x: %f, y: %f, z: %f" % (x, y, z))

        transformer = math_utils.PerspectiveTransform(x,
                                                      y,
                                                      z,
                                                      scale=1.0,
                                                      fovy=50)

        dst_img, M33, dst_img_pnts = transformer.transform_image(img, gpu)
        dst_text_pnts = transformer.transform_pnts(text_box_pnts, M33)

        return dst_img, dst_img_pnts, dst_text_pnts

    def apply_blur_on_output(self, img):
        p = []
        funcs = []
        if self.cfg.blur.gauss.enable:
            p.append(self.cfg.blur.gauss.fraction)
            funcs.append(self.apply_gauss_blur)

        if self.cfg.blur.norm.enable:
            p.append(self.cfg.blur.norm.fraction)
            funcs.append(self.apply_norm_blur)

        if self.cfg.blur.motion.enable:
            p.append(self.cfg.blur.motion.fraction)
            funcs.append(self.apply_motion_blur)

        if self.cfg.blur.prydown.enable:
            p.append(self.cfg.blur.prydown.fraction)
            funcs.append(self.apply_prydown)

        if len(p) == 0:
            return img

        blur_func = np.random.choice(funcs, p=p)

        return blur_func(img)

    def apply_gauss_blur(self, img, ks=None):
        if ks is None:
            ks = [7, 9, 11, 13]
        ksize = random.choice(ks)

        sigmas = [0, 1, 2, 3, 4, 5, 6, 7]
        sigma = 0
        if ksize <= 3:
            sigma = random.choice(sigmas)
        img = cv2.GaussianBlur(img, (ksize, ksize), sigma)
        return img

    def apply_norm_blur(self, img, ks=None):
        # kernel == 1, the output image will be the same
        if ks is None:
            ks = [2, 3]
        kernel = random.choice(ks)
        img = cv2.blur(img, (kernel, kernel))
        return img

    def apply_motion_blur(self, img, ks=None, angle=None):
        if ks is None:
            ks = [7, 9, 11, 13]
        ksize = random.choice(ks)
        if angle is None:
            angle = random.randint(0, 360)
        kernel = np.zeros((ksize, ksize), dtype=np.float32)
        kernel[(ksize - 1) // 2, :] = np.ones(ksize, dtype=np.float32)
        kernel = cv2.warpAffine(
            kernel,
            cv2.getRotationMatrix2D((ksize / 2 - 0.5, ksize / 2 - 0.5), angle,
                                    1.0), (ksize, ksize))
        kernel = kernel * (1.0 / np.sum(kernel))
        img = cv2.filter2D(img, -1, kernel)
        return img

    def apply_prydown(self, img):
        """
        模糊图像,模拟小图片放大的效果
        """
        scale = random.uniform(
            1,
            self.cfg.blur.prydown.max_scale)  # todo: use different h/w scale
        height = img.shape[0]
        width = img.shape[1]

        out = cv2.resize(img, (int(width / scale), int(height / scale)),
                         interpolation=cv2.INTER_AREA)
        return cv2.resize(out, (width, height), interpolation=cv2.INTER_AREA)

    def reverse_img(self, word_img):
        offset = np.random.randint(-10, 10)
        return 255 + offset - word_img

    def create_kernals(self):
        self.emboss_kernal = np.array([[-2, -1, 0], [-1, 1, 1], [0, 1, 2]])

        self.sharp_kernel = np.array([[-1, -1, -1], [-1, 9, -1], [-1, -1, -1]])

    def apply_emboss(self, word_img):
        return cv2.filter2D(word_img, -1, self.emboss_kernal)

    def apply_sharp(self, word_img):
        return cv2.filter2D(word_img, -1, self.sharp_kernel)

    def apply_crop(self, text_box_pnts, crop_cfg):
        """
        Random crop text box height top or bottom, we don't need image information in this step, only change box pnts
        :param text_box_pnts: bbox of text [left-top, right-top, right-bottom, left-bottom]
        :param crop_cfg:
        :return:
            croped_text_box_pnts
        """
        height = abs(text_box_pnts[0][1] - text_box_pnts[3][1])
        scale = float(height) / float(self.out_height)

        croped_text_box_pnts = text_box_pnts

        if prob(0.5):
            top_crop = int(
                random.randint(crop_cfg.top.min, crop_cfg.top.max) * scale)
            self.dmsg("top crop %d" % top_crop)
            croped_text_box_pnts[0][1] += top_crop
            croped_text_box_pnts[1][1] += top_crop
        else:
            bottom_crop = int(
                random.randint(crop_cfg.bottom.min, crop_cfg.bottom.max) *
                scale)
            self.dmsg("bottom crop %d " % bottom_crop)
            croped_text_box_pnts[2][1] -= bottom_crop
            croped_text_box_pnts[3][1] -= bottom_crop

        return croped_text_box_pnts