# -*- coding: utf-8 -*- # imageio is distributed under the terms of the (new) BSD License. """Plugin for multi-image freeimafe formats, like animated GIF and ico. """ import logging import numpy as np from ..core import Format, image_as_uint from ._freeimage import fi, IO_FLAGS from .freeimage import FreeimageFormat logger = logging.getLogger(__name__) class FreeimageMulti(FreeimageFormat): """Base class for freeimage formats that support multiple images.""" _modes = "iI" _fif = -1 class Reader(Format.Reader): def _open(self, flags=0): flags = int(flags) # Create bitmap self._bm = fi.create_multipage_bitmap( self.request.filename, self.format.fif, flags ) self._bm.load_from_filename(self.request.get_local_filename()) def _close(self): self._bm.close() def _get_length(self): return len(self._bm) def _get_data(self, index): sub = self._bm.get_page(index) try: return sub.get_image_data(), sub.get_meta_data() finally: sub.close() def _get_meta_data(self, index): index = index or 0 if index < 0 or index >= len(self._bm): raise IndexError() sub = self._bm.get_page(index) try: return sub.get_meta_data() finally: sub.close() # -- class Writer(FreeimageFormat.Writer): def _open(self, flags=0): # Set flags self._flags = flags = int(flags) # Instantiate multi-page bitmap self._bm = fi.create_multipage_bitmap( self.request.filename, self.format.fif, flags ) self._bm.save_to_filename(self.request.get_local_filename()) def _close(self): # Close bitmap self._bm.close() def _append_data(self, im, meta): # Prepare data if im.ndim == 3 and im.shape[-1] == 1: im = im[:, :, 0] im = image_as_uint(im, bitdepth=8) # Create sub bitmap sub1 = fi.create_bitmap(self._bm._filename, self.format.fif) # Let subclass add data to bitmap, optionally return new sub2 = self._append_bitmap(im, meta, sub1) # Add self._bm.append_bitmap(sub2) sub2.close() if sub1 is not sub2: sub1.close() def _append_bitmap(self, im, meta, bitmap): # Set data bitmap.allocate(im) bitmap.set_image_data(im) bitmap.set_meta_data(meta) # Return that same bitmap return bitmap def _set_meta_data(self, meta): pass # ignore global meta data class MngFormat(FreeimageMulti): """An Mng format based on the Freeimage library. Read only. Seems broken. """ _fif = 6 def _can_write(self, request): # pragma: no cover return False class IcoFormat(FreeimageMulti): """An ICO format based on the Freeimage library. This format supports grayscale, RGB and RGBA images. The freeimage plugin requires a `freeimage` binary. If this binary is not available on the system, it can be downloaded by either - the command line script ``imageio_download_bin freeimage`` - the Python method ``imageio.plugins.freeimage.download()`` Parameters for reading ---------------------- makealpha : bool Convert to 32-bit and create an alpha channel from the AND- mask when loading. Default False. Note that this returns wrong results if the image was already RGBA. """ _fif = 1 class Reader(FreeimageMulti.Reader): def _open(self, flags=0, makealpha=False): # Build flags from kwargs flags = int(flags) if makealpha: flags |= IO_FLAGS.ICO_MAKEALPHA return FreeimageMulti.Reader._open(self, flags) class GifFormat(FreeimageMulti): """A format for reading and writing static and animated GIF, based on the Freeimage library. Images read with this format are always RGBA. Currently, the alpha channel is ignored when saving RGB images with this format. The freeimage plugin requires a `freeimage` binary. If this binary is not available on the system, it can be downloaded by either - the command line script ``imageio_download_bin freeimage`` - the Python method ``imageio.plugins.freeimage.download()`` Parameters for reading ---------------------- playback : bool 'Play' the GIF to generate each frame (as 32bpp) instead of returning raw frame data when loading. Default True. Parameters for saving --------------------- loop : int The number of iterations. Default 0 (meaning loop indefinitely) duration : {float, list} The duration (in seconds) of each frame. Either specify one value that is used for all frames, or one value for each frame. Note that in the GIF format the duration/delay is expressed in hundredths of a second, which limits the precision of the duration. fps : float The number of frames per second. If duration is not given, the duration for each frame is set to 1/fps. Default 10. palettesize : int The number of colors to quantize the image to. Is rounded to the nearest power of two. Default 256. quantizer : {'wu', 'nq'} The quantization algorithm: * wu - Wu, Xiaolin, Efficient Statistical Computations for Optimal Color Quantization * nq (neuqant) - Dekker A. H., Kohonen neural networks for optimal color quantization subrectangles : bool If True, will try and optimize the GIF by storing only the rectangular parts of each frame that change with respect to the previous. Unfortunately, this option seems currently broken because FreeImage does not handle DisposalMethod correctly. Default False. """ _fif = 25 class Reader(FreeimageMulti.Reader): def _open(self, flags=0, playback=True): # Build flags from kwargs flags = int(flags) if playback: flags |= IO_FLAGS.GIF_PLAYBACK FreeimageMulti.Reader._open(self, flags) def _get_data(self, index): im, meta = FreeimageMulti.Reader._get_data(self, index) # im = im[:, :, :3] # Drop alpha channel return im, meta # -- writer class Writer(FreeimageMulti.Writer): # todo: subrectangles # todo: global palette def _open( self, flags=0, loop=0, duration=None, fps=10, palettesize=256, quantizer="Wu", subrectangles=False, ): # Check palettesize if palettesize < 2 or palettesize > 256: raise ValueError("GIF quantize param must be 2..256") if palettesize not in [2, 4, 8, 16, 32, 64, 128, 256]: palettesize = 2 ** int(np.log2(128) + 0.999) logger.warning( "Warning: palettesize (%r) modified to a factor of " "two between 2-256." % palettesize ) self._palettesize = palettesize # Check quantizer self._quantizer = {"wu": 0, "nq": 1}.get(quantizer.lower(), None) if self._quantizer is None: raise ValueError('Invalid quantizer, must be "wu" or "nq".') # Check frametime if duration is None: self._frametime = [int(1000 / float(fps) + 0.5)] elif isinstance(duration, list): self._frametime = [int(1000 * d) for d in duration] elif isinstance(duration, (float, int)): self._frametime = [int(1000 * duration)] else: raise ValueError("Invalid value for duration: %r" % duration) # Check subrectangles self._subrectangles = bool(subrectangles) self._prev_im = None # Init FreeimageMulti.Writer._open(self, flags) # Set global meta data self._meta = {} self._meta["ANIMATION"] = { # 'GlobalPalette': np.array([0]).astype(np.uint8), "Loop": np.array([loop]).astype(np.uint32), # 'LogicalWidth': np.array([x]).astype(np.uint16), # 'LogicalHeight': np.array([x]).astype(np.uint16), } def _append_bitmap(self, im, meta, bitmap): # Prepare meta data meta = meta.copy() meta_a = meta["ANIMATION"] = {} # If this is the first frame, assign it our "global" meta data if len(self._bm) == 0: meta.update(self._meta) meta_a = meta["ANIMATION"] # Set frame time index = len(self._bm) if index < len(self._frametime): ft = self._frametime[index] else: ft = self._frametime[-1] meta_a["FrameTime"] = np.array([ft]).astype(np.uint32) # Check array if im.ndim == 3 and im.shape[-1] == 4: im = im[:, :, :3] # Process subrectangles im_uncropped = im if self._subrectangles and self._prev_im is not None: im, xy = self._get_sub_rectangles(self._prev_im, im) meta_a["DisposalMethod"] = np.array([1]).astype(np.uint8) meta_a["FrameLeft"] = np.array([xy[0]]).astype(np.uint16) meta_a["FrameTop"] = np.array([xy[1]]).astype(np.uint16) self._prev_im = im_uncropped # Set image data sub2 = sub1 = bitmap sub1.allocate(im) sub1.set_image_data(im) # Quantize it if its RGB if im.ndim == 3 and im.shape[-1] == 3: sub2 = sub1.quantize(self._quantizer, self._palettesize) # Set meta data and return sub2.set_meta_data(meta) return sub2 def _get_sub_rectangles(self, prev, im): """ Calculate the minimal rectangles that need updating each frame. Returns a two-element tuple containing the cropped images and a list of x-y positions. """ # Get difference, sum over colors diff = np.abs(im - prev) if diff.ndim == 3: diff = diff.sum(2) # Get begin and end for both dimensions X = np.argwhere(diff.sum(0)) Y = np.argwhere(diff.sum(1)) # Get rect coordinates if X.size and Y.size: x0, x1 = int(X[0]), int(X[-1]) + 1 y0, y1 = int(Y[0]), int(Y[-1]) + 1 else: # No change ... make it minimal x0, x1 = 0, 2 y0, y1 = 0, 2 # Cut out and return return im[y0:y1, x0:x1], (x0, y0)