Esempio n. 1
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    def writeImage(self, o_image):

        oBmp = bmp.Bmp()
        oBmp.fromBmp(o_image.data_s)
        ##  User can assign new bitmap, so reload image parameters from it.
        o_image.initFromBmp(oBmp)

        nWidth = o_image.width_n
        assert nWidth <= 256
        if 256 == nWidth:
            nWidth = 0
        self.write('<B', nWidth)

        nHeight = o_image.width_n
        assert nHeight <= 256
        if 256 == nHeight:
            nHeight = 0
        self.write('<B', o_image.height_n)
        if 256 == o_image.colors_n:
            o_image.colors_n = 0
        self.write('<B', o_image.colors_n)
        self.write('<B', 0)
        self.write('<H', o_image.planes_n)
        self.write('<H', o_image.bpp_n)

        self.writeSize('<I', o_image.index_n)
        self.writeOffset('<I', o_image.index_n)

        self.writeArrayEnd(oBmp.toIco(), n_id=o_image.index_n)
Esempio n. 2
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    def addFromRaw(self, s_data, n_width, n_height, n_bpp):
        assert 32 == n_bpp

        oBmp = bmp.Bmp()
        oBmp.fromRaw(s_data, n_width, n_height, n_bpp)
        oImage = Image()
        oImage.initFromBmp(oBmp)
        self.images_l.append(oImage)
Esempio n. 3
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        def image(self):
            if hasattr(self, '_m_image'):
                return self._m_image if hasattr(self, '_m_image') else None

            if self.image_size != 4294967295:
                _pos = self._io.pos()
                self._io.seek(self.image_start_address)
                self._raw__m_image = self._io.read_bytes((self.image_size * 512))
                _io__raw__m_image = KaitaiStream(BytesIO(self._raw__m_image))
                self._m_image = bmp.Bmp(_io__raw__m_image)
                self._io.seek(_pos)

            return self._m_image if hasattr(self, '_m_image') else None
Esempio n. 4
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        def images(self):
            if hasattr(self, '_m_images'):
                return self._m_images if hasattr(self, '_m_images') else None

            _pos = self._io.pos()
            self._io.seek((self.story_start_address +
                           ((1 + self.navigation.image_start_sector) * 512)))
            self._raw__m_images = self._io.read_bytes(
                (self.navigation.image_size * 512))
            _io__raw__m_images = KaitaiStream(BytesIO(self._raw__m_images))
            self._m_images = bmp.Bmp(_io__raw__m_images)
            self._io.seek(_pos)
            return self._m_images if hasattr(self, '_m_images') else None
Esempio n. 5
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    def addFromBmp(
        self,
        ##i Image data as loaded from |.bmp| file.
        s_data,
        ##i If specified, image's 'bits per pixel' value will be converted
        ##  to specified. Used if image is programmatically generated (for
        ##  expample, via PIL) and generator can't produce required bits per
        ##  pixel for .bmp format (for example, PIL can't create 4 bits per
        ##  pixel BMP).
        n_bpp=None):

        oBmp = bmp.Bmp()
        oBmp.fromBmp(s_data, n_bpp)
        oImage = Image()
        oImage.initFromBmp(oBmp)
        self.images_l.append(oImage)
Esempio n. 6
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    def readImage(self):

        oImage = Image()
        oImage.width_n = self.read('<B')
        if 0 == oImage.width_n:
            oImage.width_n = 256
        oImage.height_n = self.read('<B')
        if 0 == oImage.height_n:
            oImage.height_n = 256
        oImage.colors_n = self.read('<B')
        assert 0 == self.read('<B')
        oImage.planes_n = self.read('<H')
        assert oImage.planes_n in [0, 1]
        oImage.bpp_n = self.read('<H')
        nData = self.read('<I')
        nOffset = self.read('<I')

        self.push(nOffset)
        oImage.data_s = self.readArray(nData)
        self.pop()

        ##  .ico don't have any means to distinguish BMP and PNG data, so
        ##  PNG is detected by 8-byte signature.
        PNG_MAGIC = '\x89\x50\x4E\x47\x0D\x0A\x1A\x0A'
        if nData > 8 and oImage.data_s.startswith(PNG_MAGIC):
            oImage.png_f = True
        else:
            oImage.png_f = False
            ##  Read .ico version of BMP file (with doubled height,
            ##  'AND' transparency image etc) and convert to a BMP file data so
            ##  it can be writen back to valid .bmp file.
            oBmp = bmp.Bmp()
            oBmp.fromIco(oImage.data_s)
            ##! Otherwrite image header data from |BMP| file structure, since
            ##  it can be corrpupted: for example, |bpp| value can be 0.
            oImage.initFromBmp(oBmp)

        return oImage
Esempio n. 7
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def gif_to_bmp(file_name):
    file = open(file_name, 'rb')
    reader = gif.Reader()
    reader.feed(file.read())
    if reader.has_screen_descriptor():
        k = 0
        width = reader.width
        height = reader.height
        for block in reader.blocks:
            if isinstance(block, gif.Image):
                pixels = block.get_pixels()
                if len(pixels) >= width * height:
                    c = bmp.Bmp(height, width)
                    for i in range(height):
                        for j in range(width):  # Заполняем ее цветами
                            color_number = pixels[i * width + j]
                            if color_number in block.color_table:
                                cc = block.color_table[color_number]
                            else:
                                cc = reader.color_table[color_number]
                            c.set_pixel(i, j, cc)
                    c.write_to_file('test' + str(k) + '.bmp')
                    k += 1
Esempio n. 8
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    def read_from_file(self, file_name):
        with open(file_name, 'rb') as gif_byte:
            self.gif_arr = gif_byte.read()

        self.version = self.gif_arr[:6]  # Версия
        self.width = struct.unpack('H', self.gif_arr[6:8])[0]
        self.height = struct.unpack('H', self.gif_arr[8:10])[0]
        for_flags = self.gif_arr[10]
        self.ct = (for_flags >> 7) & 1
        self.color = (for_flags >> 4) & 7
        self.sf = (for_flags >> 3) & 1
        self.size_color = for_flags & 7
        self.sreen_coolor = self.gif_arr[11]
        self.r = self.gif_arr[12]
        array_shift = 13
        if self.ct:
            n = 2**(self.size_color + 1)
            self.global_color_table = [0 * i for i in range(n)]
            for i in range(n):
                offset = 13 + i * 3
                (red, green,
                 blue) = struct.unpack('BBB', self.gif_arr[offset:offset + 3])
                self.global_color_table[i] = (blue, green, red)
            array_shift = 13 + n * 3

        num_of_img = 0

        while True:
            block_type = self.gif_arr[array_shift]

            if block_type == 0x21:  #EXTENSION
                start_of_subblock = array_shift + 2
                while self.gif_arr[start_of_subblock] != 0:
                    start_of_subblock += self.gif_arr[start_of_subblock] + 1
                array_shift = start_of_subblock + 1
            elif block_type == 0x2c:  #IMAGE
                width = struct.unpack(
                    'H', self.gif_arr[array_shift + 5:array_shift + 7])[0]
                height = struct.unpack(
                    'H', self.gif_arr[array_shift + 7:array_shift + 9])[0]
                for_flags = self.gif_arr[array_shift + 9]
                ct = (for_flags >> 7) & 1
                if ct != 0:
                    local_pallete = []
                    colors = 1 << ((for_flags & 7) + 1)
                    for i in range(colors):
                        (red, green, blue) = struct.unpack(
                            'BBB',
                            self.gif_arr[array_shift + 10 + 3 * i:array_shift +
                                         10 + 3 * i + 3])
                        local_pallete.append((blue, green, red))
                    array_shift += 3 * colors

                mc = self.gif_arr[array_shift +
                                  10]  # начальный размер LZV кода
                size_of_block = self.gif_arr[array_shift + 11]
                array_shift += 12
                decoder = LZWDecoder(mc + 1)

                while size_of_block > 0:
                    decoder.feed(self.gif_arr, array_shift, size_of_block)
                    array_shift += size_of_block
                    size_of_block = self.gif_arr[array_shift]
                    array_shift += 1
                _bmp = bmp.Bmp(height, width)

                for i in range(height):
                    for j in range(width):
                        _bmp.graphics[(height - i - 1) * width +
                                      j] = self.global_color_table[
                                          decoder.values[width * i + j]]

                _bmp.write_to_file("test1_%d.bmp" % num_of_img)  # выводим bmp
                num_of_img += 1

            elif block_type == 0x3b:  #TRAILER
                break
Esempio n. 9
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import gif_with_bmp
import bmp
import gif
import math
import myGif

# Пример 1: Считываем тестовый файл, созданый в Paint, и записываем получившиеся данные в другой файл

s = bmp.Bmp(2, 2)
s.read_from_file('abc.bmp')
s.write_to_file('cba.bmp')

# Пример 2: Создаем bmp

width = 8
height = 5
c = bmp.Bmp(height, width)
for i in range(height):
   for j in range(width):
        if i == j:
            c.set_pixel(i, j, (0, 0, 150))
c.set_pixel(0, 0, (0, 150, 0))
c.write_to_file('artificial.bmp')

# Пример 3: Создаем анимированную гифку

BLACK        = 0
WHITE        = 1
RED          = 2
GREEN        = 3
BLUE         = 4
Esempio n. 10
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 def alpha(self):
     oBmp = bmp.Bmp()
     oBmp.fromBmp(self.data_s)
     return oBmp.alpha()
Esempio n. 11
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def bmp_to_gif(list_of_files):
    if len(list_of_files) == 0:
        print('Список пустой')
        return 0

    s = bmp.Bmp(2, 2)
    s.read_from_file(list_of_files[0])
    width = s.width
    height = s.height
    colors = [0] * (s.width * s.height)
    colors_dict = {}
    background_color = 0
    version = gif.Version.GIF89a
    filename = 'test.gif'

    writer = gif.Writer(open(filename, 'wb'))
    writer.write_header(version)

    # создание палитры
    k = 0
    for file_name in list_of_files:
        f = bmp.Bmp(2, 2)
        f.read_from_file(file_name)
        for pixel in f.graphics:
            pixel_from_color = (pixel[2], pixel[1], pixel[0])
            if pixel_from_color not in colors:
                colors[k] = pixel_from_color
                k += 1
    colors = colors[:k]

    # перенос палитры в словарь для быстрого доступа
    for i, color in enumerate(colors):
        colors_dict[color] = i

    if len(colors) > 0:
        depth = math.ceil(math.log2(len(colors)))
        writer.write_screen_descriptor(width,
                                       height,
                                       has_color_table=True,
                                       depth=depth,
                                       background_color=background_color)
        writer.write_color_table(colors, depth)
    else:
        writer.write_screen_descriptor(width,
                                       height,
                                       background_color=background_color)
    writer.write_netscape_extension(loop_count=0)

    for file_name in list_of_files:
        writer.write_graphic_control_extension(delay_time=50)
        f = bmp.Bmp(2, 2)
        f.read_from_file(file_name)
        graphics_for_gif = f.graphics.copy()
        for i in range(height):
            for j in range(width):
                graphics_for_gif[(height - i - 1) * width +
                                 j] = f.graphics[width * i + j]
        number_in_colors_for_pixel = [
            colors_dict[(pixel[2], pixel[1], pixel[0])]
            for pixel in graphics_for_gif
        ]

        writer.write_image(width, height, depth, number_in_colors_for_pixel)
    writer.write_trailer()