def __init__(self, filename=None): """Initializes a new Raw object.""" if filename is None: raise NoFileSpecified() self.libraw = LibRaw() self.data = self.libraw.libraw_init(0) self.libraw.libraw_open_file(self.data, filename.encode('ascii')) self.options = Options() self.image_unpacked = False self.thumb_unpacked = False
def __init__(self, filename=None): """Initializes a new Raw object.""" if filename is None: raise NoFileSpecified() self.libraw = LibRaw() self.data = self.libraw.libraw_init(0) try: # pragma: no cover _fname = os.fsencode(filename) except Exception: # pragma: no cover _fname = filename self.libraw.libraw_open_file(self.data, _fname) self.options = Options() self.image_unpacked = False self.thumb_unpacked = False
def __init__(self, filename=None): """Initializes a new DarkFrame object.""" super(DarkFrame, self).__init__(filename=filename) self.options = Options({ 'auto_brightness': False, 'brightness': 1.0, 'auto_stretch': True, 'bps': 16, 'gamma': (1, 1), 'rotation': 0, }) self._tmp = os.path.join( tempfile.gettempdir(), '{prefix}{rand}'.format( prefix=tempfile.gettempprefix(), rand=''.join( random.SystemRandom().choice(string.ascii_uppercase + string.digits) for _ in range(8)))) self._filetype = None
class Raw(object): """ Represents a raw file (of any format) and exposes development options to the user. For example, the basic workflow (open a file, process the file, save the file) looks like this:: from rawkit.raw import Raw from rawkit.options import WhiteBalance with Raw(filename='some/raw/image.CR2') as raw: raw.options.white_balance = WhiteBalance(camera=False, auto=True) raw.save(filename='some/destination/image.ppm') Args: filename (str): The name of a raw file to load. Returns: Raw: A raw object. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. libraw.errors.FileUnsupported: If the specified file is not a supported raw type. libraw.errors.InsufficientMemory: If we run out of memory while loading the raw file. IOError: If the file does not exist, or cannot be opened (eg. incorrect permissions). """ def __init__(self, filename=None): """Initializes a new Raw object.""" if filename is None: raise NoFileSpecified() self.libraw = LibRaw() self.data = self.libraw.libraw_init(0) self.libraw.libraw_open_file(self.data, filename.encode('ascii')) self.options = Options() self.image_unpacked = False self.thumb_unpacked = False def __enter__(self): """Return a Raw object for use in context managers.""" return self def __exit__(self, exc_type, exc_value, traceback): """Clean up after ourselves when leaving the context manager.""" self.close() def close(self): """Free the underlying raw representation.""" self.libraw.libraw_close(self.data) def unpack(self): """Unpack the raw data.""" if not self.image_unpacked: self.libraw.libraw_unpack(self.data) self.image_unpacked = True def unpack_thumb(self): """ Unpack the thumbnail data. Raises: libraw.errors.NoThumbnail: If the raw file does not contain a thumbnail. libraw.errors.UnsupportedThumbnail: If the thumbnail format is unsupported. """ if not self.thumb_unpacked: self.libraw.libraw_unpack_thumb(self.data) self.thumb_unpacked = True def process(self): """ Process the raw data based on ``self.options``. Raises: libraw.errors.DataError: If invalid or corrupt data is encountered in the data struct. libraw.errors.BadCrop: If the image has been cropped poorly (eg. the edges are outside of the image bounds, or the crop box coordinates don't make sense). """ self.options._map_to_libraw_params(self.data.contents.params) self.libraw.libraw_dcraw_process(self.data) def save(self, filename=None, filetype=None): """ Save the image data as a new PPM or TIFF image. Args: filename (str): The name of an image file to save. filetype (output_file_types): The type of file to output. By default, guess based on the filename, falling back to PPM. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. rawkit.errors.InvalidFileType: If `filetype` is not None or in :class:`output_file_types`. """ if filename is None: raise NoFileSpecified() if filetype is None: ext = os.path.splitext(filename)[-1].lower()[1:] filetype = ext or output_file_types.ppm if filetype not in output_file_types: raise InvalidFileType( "Output filetype must be in raw.output_file_types") self.data.contents.params.output_tiff = ( filetype == output_file_types.tiff ) self.unpack() self.process() self.libraw.libraw_dcraw_ppm_tiff_writer( self.data, filename.encode('ascii')) def save_thumb(self, filename=None): """ Save the thumbnail data. Args: filename (str): The name of an image file to save. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. """ if filename is None: raise NoFileSpecified() self.unpack_thumb() self.libraw.libraw_dcraw_thumb_writer( self.data, filename.encode('ascii')) def to_buffer(self): """ Convert the image to an RGB buffer. Returns: bytearray: RGB data of the image. """ self.unpack() self.process() status = ctypes.c_int(0) processed_image = self.libraw.libraw_dcraw_make_mem_image( self.data, ctypes.cast( ctypes.addressof(status), ctypes.POINTER(ctypes.c_int), ), ) raise_if_error(status.value) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size) ) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data def thumbnail_to_buffer(self): """ Convert the thumbnail data as an RGB buffer. Returns: bytearray: RGB data of the thumbnail. """ self.unpack_thumb() status = ctypes.c_int(0) processed_image = self.libraw.libraw_dcraw_make_mem_thumb( self.data, ctypes.cast( ctypes.addressof(status), ctypes.POINTER(ctypes.c_int), ), ) raise_if_error(status.value) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size) ) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data @property def metadata(self): """ Common metadata for the photo Returns: rawkit.metadata.Metadata: A metadata object. """ return Metadata( aperture=self.data.contents.other.aperture, timestamp=self.data.contents.other.timestamp, shutter=self.data.contents.other.shutter, flash=bool(self.data.contents.color.flash_used), focal_length=self.data.contents.other.focal_len, height=self.data.contents.sizes.height, iso=self.data.contents.other.iso_speed, make=self.data.contents.idata.make, model=self.data.contents.idata.model, orientation=self.data.contents.sizes.flip, width=self.data.contents.sizes.width, )
class Raw(object): """ Represents a raw file (of any format) and exposes development options to the user. For example, the basic workflow (open a file, process the file, save the file) looks like this:: from rawkit.raw import Raw from rawkit.options import WhiteBalance with Raw(filename='some/raw/image.CR2') as raw: raw.options.white_balance = WhiteBalance(camera=False, auto=True) raw.save(filename='some/destination/image.ppm') Args: filename (str): The name of a raw file to load. Returns: Raw: A raw object. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. """ def __init__(self, filename=None): """Initializes a new Raw object.""" if filename is None: raise NoFileSpecified() self.libraw = LibRaw() self.data = self.libraw.libraw_init(0) self.libraw.libraw_open_file(self.data, filename.encode("ascii")) self.options = Options() self.image_unpacked = False self.thumb_unpacked = False def __enter__(self): """Return a Raw object for use in context managers.""" return self def __exit__(self, exc_type, exc_value, traceback): """Clean up after ourselves when leaving the context manager.""" self.close() def close(self): """Free the underlying raw representation.""" self.libraw.libraw_close(self.data) def unpack(self): """Unpack the raw data.""" if not self.image_unpacked: self.libraw.libraw_unpack(self.data) self.image_unpacked = True def unpack_thumb(self): """Unpack the thumbnail data.""" if not self.thumb_unpacked: self.libraw.libraw_unpack_thumb(self.data) self.thumb_unpacked = True def process(self): """Process the raw data based on self.options""" self.options._map_to_libraw_params(self.data.contents.params) self.libraw.libraw_dcraw_process(self.data) def save(self, filename=None, filetype="ppm"): """ Save the image data as a new PPM or TIFF image. Args: filename (str): The name of an image file to save. filetype (str): The type of file to output (``ppm`` or ``tiff``). Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. rawkit.errors.InvalidFileTypeError: If `filetype` is not ``ppm`` or ``tiff``. """ if filename is None: raise NoFileSpecified() if filetype not in ("ppm", "tiff"): raise InvalidFileType('Output filetype must be "ppm" or "tiff"') self.data.contents.params.output_tiff = 0 if filetype is "ppm" else 1 self.unpack() self.process() self.libraw.libraw_dcraw_ppm_tiff_writer(self.data, filename.encode("ascii")) def save_thumb(self, filename=None): """ Save the thumbnail data. Args: filename (str): The name of an image file to save. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. """ if filename is None: raise NoFileSpecified() self.unpack_thumb() self.libraw.libraw_dcraw_thumb_writer(self.data, filename.encode("ascii")) def to_buffer(self): """ Convert the image to an RGB buffer. Returns: bytearray: RGB data of the image. """ self.unpack() self.process() # TODO: check the error code stored in the provided int pointer processed_image = self.libraw.libraw_dcraw_make_mem_image(self.data, ctypes.byref(ctypes.c_int())) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size) ) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data def thumbnail_to_buffer(self): """ Convert the thumbnail data as an RGB buffer. Returns: bytearray: RGB data of the thumbnail. """ self.unpack_thumb() # TODO: check the error code stored in the provided int pointer processed_image = self.libraw.libraw_dcraw_make_mem_thumb(self.data, ctypes.byref(ctypes.c_int())) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size) ) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data @property def metadata(self): """ Common metadata for the photo Returns: rawkit.metadata.Metadata: A metadata object. """ return Metadata( aperture=self.data.contents.other.aperture, timestamp=self.data.contents.other.timestamp, shutter=self.data.contents.other.shutter, flash=bool(self.data.contents.color.flash_used), focal_length=self.data.contents.other.focal_len, height=self.data.contents.sizes.height, iso=self.data.contents.other.iso_speed, make=self.data.contents.idata.make, model=self.data.contents.idata.model, orientation=self.data.contents.sizes.flip, width=self.data.contents.sizes.width, )
class Raw(object): """ Represents a raw file (of any format) and exposes development options to the user. For example, the basic workflow (open a file, process the file, save the file) looks like this:: from rawkit.raw import Raw from rawkit.options import WhiteBalance with Raw(filename='some/raw/image.CR2') as raw: raw.options.white_balance = WhiteBalance(camera=False, auto=True) raw.save(filename='some/destination/image.ppm') Args: filename (str): The name of a raw file to load. Returns: Raw: A raw object. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. libraw.errors.FileUnsupported: If the specified file is not a supported raw type. libraw.errors.InsufficientMemory: If we run out of memory while loading the raw file. IOError: If the file does not exist, or cannot be opened (eg. incorrect permissions). """ def __init__(self, filename=None): """Initializes a new Raw object.""" if filename is None: raise NoFileSpecified() self.libraw = LibRaw() self.data = self.libraw.libraw_init(0) self.libraw.libraw_open_file(self.data, filename.encode('ascii')) self.options = Options() self.image_unpacked = False self.thumb_unpacked = False def __enter__(self): """Return a Raw object for use in context managers.""" return self def __exit__(self, exc_type, exc_value, traceback): """Clean up after ourselves when leaving the context manager.""" self.close() def close(self): """Free the underlying raw representation.""" self.libraw.libraw_close(self.data) def unpack(self): """Unpack the raw data.""" if not self.image_unpacked: self.libraw.libraw_unpack(self.data) self.image_unpacked = True def unpack_thumb(self): """ Unpack the thumbnail data. Raises: libraw.errors.NoThumbnail: If the raw file does not contain a thumbnail. libraw.errors.UnsupportedThumbnail: If the thumbnail format is unsupported. """ if not self.thumb_unpacked: self.libraw.libraw_unpack_thumb(self.data) self.thumb_unpacked = True def process(self): """ Process the raw data based on ``self.options``. Raises: libraw.errors.DataError: If invalid or corrupt data is encountered in the data struct. libraw.errors.BadCrop: If the image has been cropped poorly (eg. the edges are outside of the image bounds, or the crop box coordinates don't make sense). """ self.options._map_to_libraw_params(self.data.contents.params) self.libraw.libraw_dcraw_process(self.data) def save(self, filename=None, filetype=None): """ Save the image data as a new PPM or TIFF image. Args: filename (str): The name of an image file to save. filetype (output_file_types): The type of file to output. By default, guess based on the filename, falling back to PPM. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. rawkit.errors.InvalidFileType: If `filetype` is not None or in :class:`output_file_types`. """ if filename is None: raise NoFileSpecified() if filetype is None: ext = os.path.splitext(filename)[-1].lower()[1:] filetype = ext or output_file_types.ppm if filetype not in output_file_types: raise InvalidFileType( "Output filetype must be in raw.output_file_types") self.data.contents.params.output_tiff = ( filetype == output_file_types.tiff) self.unpack() self.process() self.libraw.libraw_dcraw_ppm_tiff_writer(self.data, filename.encode('ascii')) def save_thumb(self, filename=None): """ Save the thumbnail data. Args: filename (str): The name of an image file to save. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. """ if filename is None: raise NoFileSpecified() self.unpack_thumb() self.libraw.libraw_dcraw_thumb_writer(self.data, filename.encode('ascii')) @property def color_description(self): """ Get the color_description of an image. Returns: str: 4 character string representing color format, such as 'RGGB'. """ # TODO: remove the pragma once there is integration testing, # but until then testing this is entirely pointless. return self.data.contents.idata.cdesc # pragma: no cover def color(self, y, x): """ Get the active color of a pixel of bayer data. Args: y (int): the y coordinate (or row) of the pixel x (int): the x coordinate (or column) of the pixel Returns: str: Character representing the color, such as 'R' for red. """ color_index = self.libraw.libraw_COLOR(self.data, y, x) return chr(self.color_description[color_index]) @property def color_filter_array(self): """ EXPERIMENTAL: This method only supports bayer filters for the time being. It will be incorrect when used with other types of sensors. Get the color filter array for the camera sensor. Returns: list: 2D array representing the color format array pattern. For example, the typical 'RGGB' pattern of abayer sensor would be of the format:: [ ['R', 'G'], ['G', 'B'], ] """ # TODO: don't assume 2x2 bayer sensor return [[self.color(0, 0), self.color(0, 1)], [self.color(1, 0), self.color(1, 1)]] def raw_image(self, include_margin=False): """ Get the bayer data for an image if it exists. Args: include_margin (bool): Include margin with calibration pixels. Returns: list: 2D array of bayer pixel data structured as a list of rows, or None if there is no bayer data. For example, if the color format is `RGGB`, the array would be of the format:: [ [R, G, R, G, ...], [G, B, G, B, ...], [R, G, R, G, ...], ... ] """ self.unpack() image = self.data.contents.rawdata.raw_image if not bool(image): return [] sizes = self.data.contents.sizes # TODO: handle this if sizes.pixel_aspect != 1: warnings.warn("The pixel aspect is not unity, it is: " + str(sizes.pixel_aspect)) # TODO: handle this if sizes.flip != 0: warnings.warn("The image is flipped.") pitch = sizes.raw_width if include_margin: first = 0 width = sizes.raw_width height = sizes.raw_height else: first = sizes.raw_width * sizes.top_margin + sizes.left_margin width = sizes.width height = sizes.height data_pointer = ctypes.cast(image, ctypes.POINTER(ctypes.c_ushort)) data = [] for y in range(height): row = [] for x in range(width): row.append(data_pointer[first + y * pitch + x]) data.append(row) return data def bayer_data(self, include_margin=False): """ Get the bayer data and color_description for an image. Returns: tuple: Tuple of bayer data and color filter array. This is a convenience method to return `rawkit.raw.Raw.raw_image` and `rawkit.raw.Raw.color_filter_array` as a single tuple. """ return self.raw_image(include_margin), self.color_filter_array def to_buffer(self): """ Convert the image to an RGB buffer. Returns: bytearray: RGB data of the image. """ self.unpack() self.process() status = ctypes.c_int(0) processed_image = self.libraw.libraw_dcraw_make_mem_image( self.data, ctypes.cast( ctypes.addressof(status), ctypes.POINTER(ctypes.c_int), ), ) raise_if_error(status.value) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size)) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data def thumbnail_to_buffer(self): """ Convert the thumbnail data as an RGB buffer. Returns: bytearray: RGB data of the thumbnail. """ self.unpack_thumb() status = ctypes.c_int(0) processed_image = self.libraw.libraw_dcraw_make_mem_thumb( self.data, ctypes.cast( ctypes.addressof(status), ctypes.POINTER(ctypes.c_int), ), ) raise_if_error(status.value) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size)) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data @property def metadata(self): """ Common metadata for the photo Returns: rawkit.metadata.Metadata: A metadata object. """ return Metadata( aperture=self.data.contents.other.aperture, timestamp=self.data.contents.other.timestamp, shutter=self.data.contents.other.shutter, flash=bool(self.data.contents.color.flash_used), focal_length=self.data.contents.other.focal_len, height=self.data.contents.sizes.height, iso=self.data.contents.other.iso_speed, make=self.data.contents.idata.make, model=self.data.contents.idata.model, orientation=self.data.contents.sizes.flip, width=self.data.contents.sizes.width, )
def options(): return Options()
class Raw(object): """ Represents a raw file (of any format) and exposes development options to the user. For example, the basic workflow (open a file, process the file, save the file) looks like this:: from rawkit.raw import Raw from rawkit.options import WhiteBalance with Raw(filename='some/raw/image.CR2') as raw: raw.options.white_balance = WhiteBalance(camera=False, auto=True) raw.save(filename='some/destination/image.ppm') Args: filename (str): The name of a raw file to load. Returns: Raw: A raw object. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. libraw.errors.FileUnsupported: If the specified file is not a supported raw type. libraw.errors.InsufficientMemory: If we run out of memory while loading the raw file. IOError: If the file does not exist, or cannot be opened (eg. incorrect permissions). """ def __init__(self, filename=None): """Initializes a new Raw object.""" if filename is None: raise NoFileSpecified() self.libraw = LibRaw() self.data = self.libraw.libraw_init(0) self.libraw.libraw_open_file(self.data, filename.encode('ascii')) self.options = Options() self.image_unpacked = False self.thumb_unpacked = False def __enter__(self): """Return a Raw object for use in context managers.""" return self def __exit__(self, exc_type, exc_value, traceback): """Clean up after ourselves when leaving the context manager.""" self.close() def close(self): """Free the underlying raw representation.""" self.libraw.libraw_close(self.data) def unpack(self): """Unpack the raw data.""" if not self.image_unpacked: self.libraw.libraw_unpack(self.data) self.image_unpacked = True def unpack_thumb(self): """ Unpack the thumbnail data. Raises: libraw.errors.NoThumbnail: If the raw file does not contain a thumbnail. libraw.errors.UnsupportedThumbnail: If the thumbnail format is unsupported. """ if not self.thumb_unpacked: self.libraw.libraw_unpack_thumb(self.data) self.thumb_unpacked = True def process(self): """ Process the raw data based on ``self.options``. Raises: libraw.errors.DataError: If invalid or corrupt data is encountered in the data struct. libraw.errors.BadCrop: If the image has been cropped poorly (eg. the edges are outside of the image bounds, or the crop box coordinates don't make sense). """ self.options._map_to_libraw_params(self.data.contents.params) self.libraw.libraw_dcraw_process(self.data) def save(self, filename=None, filetype=None): """ Save the image data as a new PPM or TIFF image. Args: filename (str): The name of an image file to save. filetype (output_file_types): The type of file to output. By default, guess based on the filename, falling back to PPM. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. rawkit.errors.InvalidFileType: If `filetype` is not None or in :class:`output_file_types`. """ if filename is None: raise NoFileSpecified() if filetype is None: ext = os.path.splitext(filename)[-1].lower()[1:] filetype = ext or output_file_types.ppm if filetype not in output_file_types: raise InvalidFileType( "Output filetype must be in raw.output_file_types") self.data.contents.params.output_tiff = ( filetype == output_file_types.tiff ) self.unpack() self.process() self.libraw.libraw_dcraw_ppm_tiff_writer( self.data, filename.encode('ascii')) def save_thumb(self, filename=None): """ Save the thumbnail data. Args: filename (str): The name of an image file to save. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. """ if filename is None: raise NoFileSpecified() self.unpack_thumb() self.libraw.libraw_dcraw_thumb_writer( self.data, filename.encode('ascii')) @property def color_description(self): """ Get the color_description of an image. Returns: str: 4 character string representing color format, such as 'RGGB'. """ # TODO: remove the pragma once there is integration testing, # but until then testing this is entirely pointless. return self.data.contents.idata.cdesc # pragma: no cover def color(self, y, x): """ Get the active color of a pixel of bayer data. Args: y (int): the y coordinate (or row) of the pixel x (int): the x coordinate (or column) of the pixel Returns: str: Character representing the color, such as 'R' for red. """ color_index = self.libraw.libraw_COLOR(self.data, y, x) return chr(self.color_description[color_index]) @property def color_filter_array(self): """ EXPERIMENTAL: This method only supports bayer filters for the time being. It will be incorrect when used with other types of sensors. Get the color filter array for the camera sensor. Returns: list: 2D array representing the color format array pattern. For example, the typical 'RGGB' pattern of abayer sensor would be of the format:: [ ['R', 'G'], ['G', 'B'], ] """ # TODO: don't assume 2x2 bayer sensor return [[self.color(0, 0), self.color(0, 1)], [self.color(1, 0), self.color(1, 1)]] def raw_image(self, include_margin=False): """ Get the bayer data for an image if it exists. Args: include_margin (bool): Include margin with calibration pixels. Returns: list: 2D array of bayer pixel data structured as a list of rows, or None if there is no bayer data. For example, if the color format is `RGGB`, the array would be of the format:: [ [R, G, R, G, ...], [G, B, G, B, ...], [R, G, R, G, ...], ... ] """ self.unpack() image = self.data.contents.rawdata.raw_image if not bool(image): return [] sizes = self.data.contents.sizes # TODO: handle this if sizes.pixel_aspect != 1: warnings.warn( "The pixel aspect is not unity, it is: " + str(sizes.pixel_aspect) ) # TODO: handle this if sizes.flip != 0: warnings.warn( "The image is flipped." ) pitch = sizes.raw_width if include_margin: first = 0 width = sizes.raw_width height = sizes.raw_height else: first = sizes.raw_width * sizes.top_margin + sizes.left_margin width = sizes.width height = sizes.height data_pointer = ctypes.cast( image, ctypes.POINTER(ctypes.c_ushort) ) data = [] for y in range(height): row = [] for x in range(width): row.append(data_pointer[first + y * pitch + x]) data.append(row) return data def bayer_data(self, include_margin=False): """ Get the bayer data and color_description for an image. Returns: tuple: Tuple of bayer data and color filter array. This is a convenience method to return `rawkit.raw.Raw.raw_image` and `rawkit.raw.Raw.color_filter_array` as a single tuple. """ return self.raw_image(include_margin), self.color_filter_array def to_buffer(self): """ Convert the image to an RGB buffer. Returns: bytearray: RGB data of the image. """ self.unpack() self.process() status = ctypes.c_int(0) processed_image = self.libraw.libraw_dcraw_make_mem_image( self.data, ctypes.cast( ctypes.addressof(status), ctypes.POINTER(ctypes.c_int), ), ) raise_if_error(status.value) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size) ) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data def thumbnail_to_buffer(self): """ Convert the thumbnail data as an RGB buffer. Returns: bytearray: RGB data of the thumbnail. """ self.unpack_thumb() status = ctypes.c_int(0) processed_image = self.libraw.libraw_dcraw_make_mem_thumb( self.data, ctypes.cast( ctypes.addressof(status), ctypes.POINTER(ctypes.c_int), ), ) raise_if_error(status.value) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size) ) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data @property def metadata(self): """ Common metadata for the photo Returns: rawkit.metadata.Metadata: A metadata object. """ return Metadata( aperture=self.data.contents.other.aperture, timestamp=self.data.contents.other.timestamp, shutter=self.data.contents.other.shutter, flash=bool(self.data.contents.color.flash_used), focal_length=self.data.contents.other.focal_len, height=self.data.contents.sizes.height, iso=self.data.contents.other.iso_speed, make=self.data.contents.idata.make, model=self.data.contents.idata.model, orientation=self.data.contents.sizes.flip, width=self.data.contents.sizes.width, )
class Raw(object): """ Represents a raw file (of any format) and exposes development options to the user. For example, the basic workflow (open a file, process the file, save the file) looks like this:: from rawkit.raw import Raw from rawkit.options import WhiteBalance with Raw(filename='some/raw/image.CR2') as raw: raw.options.white_balance = WhiteBalance(camera=False, auto=True) raw.save(filename='some/destination/image.ppm') Args: filename (str): The name of a raw file to load. Returns: Raw: A raw object. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. libraw.errors.FileUnsupported: If the specified file is not a supported raw type. libraw.errors.InsufficientMemory: If we run out of memory while loading the raw file. IOError: If the file does not exist, or cannot be opened (eg. incorrect permissions). """ def __init__(self, filename=None): """Initializes a new Raw object.""" if filename is None: raise NoFileSpecified() self.libraw = LibRaw() self.data = self.libraw.libraw_init(0) self.libraw.libraw_open_file(self.data, filename.encode('ascii')) self.options = Options() self.image_unpacked = False self.thumb_unpacked = False def __enter__(self): """Return a Raw object for use in context managers.""" return self def __exit__(self, exc_type, exc_value, traceback): """Clean up after ourselves when leaving the context manager.""" self.close() def close(self): """Free the underlying raw representation.""" self.libraw.libraw_close(self.data) def unpack(self): """Unpack the raw data.""" if not self.image_unpacked: self.libraw.libraw_unpack(self.data) self.image_unpacked = True def unpack_thumb(self): """ Unpack the thumbnail data. Raises: libraw.errors.NoThumbnail: If the raw file does not contain a thumbnail. libraw.errors.UnsupportedThumbnail: If the thumbnail format is unsupported. """ if not self.thumb_unpacked: self.libraw.libraw_unpack_thumb(self.data) self.thumb_unpacked = True def process(self): """ Process the raw data based on ``self.options``. Raises: libraw.errors.DataError: If invalid or corrupt data is encountered in the data struct. libraw.errors.BadCrop: If the image has been cropped poorly (eg. the edges are outside of the image bounds, or the crop box coordinates don't make sense). """ self.options._map_to_libraw_params(self.data.contents.params) self.libraw.libraw_dcraw_process(self.data) def save(self, filename=None, filetype=None): """ Save the image data as a new PPM or TIFF image. Args: filename (str): The name of an image file to save. filetype (output_file_types): The type of file to output. By default, guess based on the filename, falling back to PPM. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. rawkit.errors.InvalidFileType: If `filetype` is not None or in :class:`output_file_types`. """ if filename is None: raise NoFileSpecified() if filetype is None: ext = os.path.splitext(filename)[-1].lower()[1:] filetype = ext or output_file_types.ppm if filetype not in output_file_types: raise InvalidFileType( "Output filetype must be in raw.output_file_types") self.data.contents.params.output_tiff = ( filetype == output_file_types.tiff) self.unpack() self.process() self.libraw.libraw_dcraw_ppm_tiff_writer(self.data, filename.encode('ascii')) def save_thumb(self, filename=None): """ Save the thumbnail data. Args: filename (str): The name of an image file to save. Raises: rawkit.errors.NoFileSpecified: If `filename` is ``None``. """ if filename is None: raise NoFileSpecified() self.unpack_thumb() self.libraw.libraw_dcraw_thumb_writer(self.data, filename.encode('ascii')) def to_buffer(self): """ Convert the image to an RGB buffer. Returns: bytearray: RGB data of the image. """ self.unpack() self.process() status = ctypes.c_int(0) processed_image = self.libraw.libraw_dcraw_make_mem_image( self.data, ctypes.cast( ctypes.addressof(status), ctypes.POINTER(ctypes.c_int), ), ) raise_if_error(status.value) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size)) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data def thumbnail_to_buffer(self): """ Convert the thumbnail data as an RGB buffer. Returns: bytearray: RGB data of the thumbnail. """ self.unpack_thumb() status = ctypes.c_int(0) processed_image = self.libraw.libraw_dcraw_make_mem_thumb( self.data, ctypes.cast( ctypes.addressof(status), ctypes.POINTER(ctypes.c_int), ), ) raise_if_error(status.value) data_pointer = ctypes.cast( processed_image.contents.data, ctypes.POINTER(ctypes.c_byte * processed_image.contents.data_size)) data = bytearray(data_pointer.contents) self.libraw.libraw_dcraw_clear_mem(processed_image) return data @property def metadata(self): """ Common metadata for the photo Returns: rawkit.metadata.Metadata: A metadata object. """ return Metadata( aperture=self.data.contents.other.aperture, timestamp=self.data.contents.other.timestamp, shutter=self.data.contents.other.shutter, flash=bool(self.data.contents.color.flash_used), focal_length=self.data.contents.other.focal_len, height=self.data.contents.sizes.height, iso=self.data.contents.other.iso_speed, make=self.data.contents.idata.make, model=self.data.contents.idata.model, orientation=self.data.contents.sizes.flip, width=self.data.contents.sizes.width, )
def __setattr__(self, name, value): try: Options.__setattr__(self, name, value) self.update() except AttributeError: self.__dict__['name'] = value