# -*- coding: utf-8 -*- """Top-level display functions for displaying object in different formats.""" # Copyright (c) IPython Development Team. # Distributed under the terms of the Modified BSD License. from binascii import b2a_hex, b2a_base64, hexlify import json import mimetypes import os import struct import sys import warnings from copy import deepcopy from IPython.utils.py3compat import cast_unicode from IPython.testing.skipdoctest import skip_doctest __all__ = ['display', 'display_pretty', 'display_html', 'display_markdown', 'display_svg', 'display_png', 'display_jpeg', 'display_latex', 'display_json', 'display_javascript', 'display_pdf', 'DisplayObject', 'TextDisplayObject', 'Pretty', 'HTML', 'Markdown', 'Math', 'Latex', 'SVG', 'ProgressBar', 'JSON', 'GeoJSON', 'Javascript', 'Image', 'clear_output', 'set_matplotlib_formats', 'set_matplotlib_close', 'publish_display_data', 'update_display', 'DisplayHandle', 'Video'] #----------------------------------------------------------------------------- # utility functions #----------------------------------------------------------------------------- def _safe_exists(path): """Check path, but don't let exceptions raise""" try: return os.path.exists(path) except Exception: return False def _merge(d1, d2): """Like update, but merges sub-dicts instead of clobbering at the top level. Updates d1 in-place """ if not isinstance(d2, dict) or not isinstance(d1, dict): return d2 for key, value in d2.items(): d1[key] = _merge(d1.get(key), value) return d1 def _display_mimetype(mimetype, objs, raw=False, metadata=None): """internal implementation of all display_foo methods Parameters ---------- mimetype : str The mimetype to be published (e.g. 'image/png') objs : tuple of objects The Python objects to display, or if raw=True raw text data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ if metadata: metadata = {mimetype: metadata} if raw: # turn list of pngdata into list of { 'image/png': pngdata } objs = [ {mimetype: obj} for obj in objs ] display(*objs, raw=raw, metadata=metadata, include=[mimetype]) #----------------------------------------------------------------------------- # Main functions #----------------------------------------------------------------------------- # use * to indicate transient is keyword-only def publish_display_data(data, metadata=None, source=None, *, transient=None, **kwargs): """Publish data and metadata to all frontends. See the ``display_data`` message in the messaging documentation for more details about this message type. Keys of data and metadata can be any mime-type. Parameters ---------- data : dict A dictionary having keys that are valid MIME types (like 'text/plain' or 'image/svg+xml') and values that are the data for that MIME type. The data itself must be a JSON'able data structure. Minimally all data should have the 'text/plain' data, which can be displayed by all frontends. If more than the plain text is given, it is up to the frontend to decide which representation to use. metadata : dict A dictionary for metadata related to the data. This can contain arbitrary key, value pairs that frontends can use to interpret the data. mime-type keys matching those in data can be used to specify metadata about particular representations. source : str, deprecated Unused. transient : dict, keyword-only A dictionary of transient data, such as display_id. """ from IPython.core.interactiveshell import InteractiveShell display_pub = InteractiveShell.instance().display_pub # only pass transient if supplied, # to avoid errors with older ipykernel. # TODO: We could check for ipykernel version and provide a detailed upgrade message. if transient: kwargs['transient'] = transient display_pub.publish( data=data, metadata=metadata, **kwargs ) def _new_id(): """Generate a new random text id with urandom""" return b2a_hex(os.urandom(16)).decode('ascii') def display(*objs, include=None, exclude=None, metadata=None, transient=None, display_id=None, **kwargs): """Display a Python object in all frontends. By default all representations will be computed and sent to the frontends. Frontends can decide which representation is used and how. In terminal IPython this will be similar to using :func:`print`, for use in richer frontends see Jupyter notebook examples with rich display logic. Parameters ---------- objs : tuple of objects The Python objects to display. raw : bool, optional Are the objects to be displayed already mimetype-keyed dicts of raw display data, or Python objects that need to be formatted before display? [default: False] include : list, tuple or set, optional A list of format type strings (MIME types) to include in the format data dict. If this is set *only* the format types included in this list will be computed. exclude : list, tuple or set, optional A list of format type strings (MIME types) to exclude in the format data dict. If this is set all format types will be computed, except for those included in this argument. metadata : dict, optional A dictionary of metadata to associate with the output. mime-type keys in this dictionary will be associated with the individual representation formats, if they exist. transient : dict, optional A dictionary of transient data to associate with the output. Data in this dict should not be persisted to files (e.g. notebooks). display_id : str, bool optional Set an id for the display. This id can be used for updating this display area later via update_display. If given as `True`, generate a new `display_id` kwargs: additional keyword-args, optional Additional keyword-arguments are passed through to the display publisher. Returns ------- handle: DisplayHandle Returns a handle on updatable displays for use with :func:`update_display`, if `display_id` is given. Returns :any:`None` if no `display_id` is given (default). Examples -------- >>> class Json(object): ... def __init__(self, json): ... self.json = json ... def _repr_pretty_(self, pp, cycle): ... import json ... pp.text(json.dumps(self.json, indent=2)) ... def __repr__(self): ... return str(self.json) ... >>> d = Json({1:2, 3: {4:5}}) >>> print(d) {1: 2, 3: {4: 5}} >>> display(d) { "1": 2, "3": { "4": 5 } } >>> def int_formatter(integer, pp, cycle): ... pp.text('I'*integer) >>> plain = get_ipython().display_formatter.formatters['text/plain'] >>> plain.for_type(int, int_formatter) >>> display(7-5) II >>> del plain.type_printers[int] >>> display(7-5) 2 See Also -------- :func:`update_display` Notes ----- In Python, objects can declare their textual representation using the `__repr__` method. IPython expands on this idea and allows objects to declare other, rich representations including: - HTML - JSON - PNG - JPEG - SVG - LaTeX A single object can declare some or all of these representations; all are handled by IPython's display system. The main idea of the first approach is that you have to implement special display methods when you define your class, one for each representation you want to use. Here is a list of the names of the special methods and the values they must return: - `_repr_html_`: return raw HTML as a string - `_repr_json_`: return a JSONable dict - `_repr_jpeg_`: return raw JPEG data - `_repr_png_`: return raw PNG data - `_repr_svg_`: return raw SVG data as a string - `_repr_latex_`: return LaTeX commands in a string surrounded by "$". - `_repr_mimebundle_`: return a full mimebundle containing the mapping from all mimetypes to data. Use this for any mime-type not listed above. When you are directly writing your own classes, you can adapt them for display in IPython by following the above approach. But in practice, you often need to work with existing classes that you can't easily modify. You can refer to the documentation on IPython display formatters in order to register custom formatters for already existing types. .. versionadded:: 5.4 display available without import .. versionadded:: 6.1 display available without import Since IPython 5.4 and 6.1 :func:`display` is automatically made available to the user without import. If you are using display in a document that might be used in a pure python context or with older version of IPython, use the following import at the top of your file:: from IPython.display import display """ from IPython.core.interactiveshell import InteractiveShell if not InteractiveShell.initialized(): # Directly print objects. print(*objs) return raw = kwargs.pop('raw', False) if transient is None: transient = {} if metadata is None: metadata={} if display_id: if display_id is True: display_id = _new_id() transient['display_id'] = display_id if kwargs.get('update') and 'display_id' not in transient: raise TypeError('display_id required for update_display') if transient: kwargs['transient'] = transient if not raw: format = InteractiveShell.instance().display_formatter.format for obj in objs: if raw: publish_display_data(data=obj, metadata=metadata, **kwargs) else: format_dict, md_dict = format(obj, include=include, exclude=exclude) if not format_dict: # nothing to display (e.g. _ipython_display_ took over) continue if metadata: # kwarg-specified metadata gets precedence _merge(md_dict, metadata) publish_display_data(data=format_dict, metadata=md_dict, **kwargs) if display_id: return DisplayHandle(display_id) # use * for keyword-only display_id arg def update_display(obj, *, display_id, **kwargs): """Update an existing display by id Parameters ---------- obj: The object with which to update the display display_id: keyword-only The id of the display to update See Also -------- :func:`display` """ kwargs['update'] = True display(obj, display_id=display_id, **kwargs) class DisplayHandle(object): """A handle on an updatable display Call `.update(obj)` to display a new object. Call `.display(obj`) to add a new instance of this display, and update existing instances. See Also -------- :func:`display`, :func:`update_display` """ def __init__(self, display_id=None): if display_id is None: display_id = _new_id() self.display_id = display_id def __repr__(self): return "<%s display_id=%s>" % (self.__class__.__name__, self.display_id) def display(self, obj, **kwargs): """Make a new display with my id, updating existing instances. Parameters ---------- obj: object to display **kwargs: additional keyword arguments passed to display """ display(obj, display_id=self.display_id, **kwargs) def update(self, obj, **kwargs): """Update existing displays with my id Parameters ---------- obj: object to display **kwargs: additional keyword arguments passed to update_display """ update_display(obj, display_id=self.display_id, **kwargs) def display_pretty(*objs, **kwargs): """Display the pretty (default) representation of an object. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw text data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('text/plain', objs, **kwargs) def display_html(*objs, **kwargs): """Display the HTML representation of an object. Note: If raw=False and the object does not have a HTML representation, no HTML will be shown. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw HTML data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('text/html', objs, **kwargs) def display_markdown(*objs, **kwargs): """Displays the Markdown representation of an object. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw markdown data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('text/markdown', objs, **kwargs) def display_svg(*objs, **kwargs): """Display the SVG representation of an object. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw svg data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('image/svg+xml', objs, **kwargs) def display_png(*objs, **kwargs): """Display the PNG representation of an object. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw png data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('image/png', objs, **kwargs) def display_jpeg(*objs, **kwargs): """Display the JPEG representation of an object. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw JPEG data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('image/jpeg', objs, **kwargs) def display_latex(*objs, **kwargs): """Display the LaTeX representation of an object. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw latex data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('text/latex', objs, **kwargs) def display_json(*objs, **kwargs): """Display the JSON representation of an object. Note that not many frontends support displaying JSON. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw json data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('application/json', objs, **kwargs) def display_javascript(*objs, **kwargs): """Display the Javascript representation of an object. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw javascript data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('application/javascript', objs, **kwargs) def display_pdf(*objs, **kwargs): """Display the PDF representation of an object. Parameters ---------- objs : tuple of objects The Python objects to display, or if raw=True raw javascript data to display. raw : bool Are the data objects raw data or Python objects that need to be formatted before display? [default: False] metadata : dict (optional) Metadata to be associated with the specific mimetype output. """ _display_mimetype('application/pdf', objs, **kwargs) #----------------------------------------------------------------------------- # Smart classes #----------------------------------------------------------------------------- class DisplayObject(object): """An object that wraps data to be displayed.""" _read_flags = 'r' _show_mem_addr = False metadata = None def __init__(self, data=None, url=None, filename=None, metadata=None): """Create a display object given raw data. When this object is returned by an expression or passed to the display function, it will result in the data being displayed in the frontend. The MIME type of the data should match the subclasses used, so the Png subclass should be used for 'image/png' data. If the data is a URL, the data will first be downloaded and then displayed. If Parameters ---------- data : unicode, str or bytes The raw data or a URL or file to load the data from url : unicode A URL to download the data from. filename : unicode Path to a local file to load the data from. metadata : dict Dict of metadata associated to be the object when displayed """ if data is not None and isinstance(data, str): if data.startswith('http') and url is None: url = data filename = None data = None elif _safe_exists(data) and filename is None: url = None filename = data data = None self.data = data self.url = url self.filename = filename if metadata is not None: self.metadata = metadata elif self.metadata is None: self.metadata = {} self.reload() self._check_data() def __repr__(self): if not self._show_mem_addr: cls = self.__class__ r = "<%s.%s object>" % (cls.__module__, cls.__name__) else: r = super(DisplayObject, self).__repr__() return r def _check_data(self): """Override in subclasses if there's something to check.""" pass def _data_and_metadata(self): """shortcut for returning metadata with shape information, if defined""" if self.metadata: return self.data, deepcopy(self.metadata) else: return self.data def reload(self): """Reload the raw data from file or URL.""" if self.filename is not None: with open(self.filename, self._read_flags) as f: self.data = f.read() elif self.url is not None: try: # Deferred import from urllib.request import urlopen response = urlopen(self.url) self.data = response.read() # extract encoding from header, if there is one: encoding = None for sub in response.headers['content-type'].split(';'): sub = sub.strip() if sub.startswith('charset'): encoding = sub.split('=')[-1].strip() break # decode data, if an encoding was specified if encoding: self.data = self.data.decode(encoding, 'replace') except: self.data = None class TextDisplayObject(DisplayObject): """Validate that display data is text""" def _check_data(self): if self.data is not None and not isinstance(self.data, str): raise TypeError("%s expects text, not %r" % (self.__class__.__name__, self.data)) class Pretty(TextDisplayObject): def _repr_pretty_(self, pp, cycle): return pp.text(self.data) class HTML(TextDisplayObject): def _repr_html_(self): return self.data def __html__(self): """ This method exists to inform other HTML-using modules (e.g. Markupsafe, htmltag, etc) that this object is HTML and does not need things like special characters (<>&) escaped. """ return self._repr_html_() class Markdown(TextDisplayObject): def _repr_markdown_(self): return self.data class Math(TextDisplayObject): def _repr_latex_(self): s = self.data.strip('$') return "$$%s$$" % s class Latex(TextDisplayObject): def _repr_latex_(self): return self.data class SVG(DisplayObject): _read_flags = 'rb' # wrap data in a property, which extracts the tag, discarding # document headers _data = None @property def data(self): return self._data @data.setter def data(self, svg): if svg is None: self._data = None return # parse into dom object from xml.dom import minidom x = minidom.parseString(svg) # get svg tag (should be 1) found_svg = x.getElementsByTagName('svg') if found_svg: svg = found_svg[0].toxml() else: # fallback on the input, trust the user # but this is probably an error. pass svg = cast_unicode(svg) self._data = svg def _repr_svg_(self): return self._data_and_metadata() class ProgressBar(DisplayObject): """Progressbar supports displaying a progressbar like element """ def __init__(self, total): """Creates a new progressbar Parameters ---------- total : int maximum size of the progressbar """ self.total = total self._progress = 0 self.html_width = '60ex' self.text_width = 60 self._display_id = hexlify(os.urandom(8)).decode('ascii') def __repr__(self): fraction = self.progress / self.total filled = '=' * int(fraction * self.text_width) rest = ' ' * (self.text_width - len(filled)) return '[{}{}] {}/{}'.format( filled, rest, self.progress, self.total, ) def _repr_html_(self): return "".format( self.html_width, self.total, self.progress) def display(self): display(self, display_id=self._display_id) def update(self): display(self, display_id=self._display_id, update=True) @property def progress(self): return self._progress @progress.setter def progress(self, value): self._progress = value self.update() def __iter__(self): self.display() self._progress = -1 # First iteration is 0 return self def __next__(self): """Returns current value and increments display by one.""" self.progress += 1 if self.progress < self.total: return self.progress else: raise StopIteration() class JSON(DisplayObject): """JSON expects a JSON-able dict or list not an already-serialized JSON string. Scalar types (None, number, string) are not allowed, only dict or list containers. """ # wrap data in a property, which warns about passing already-serialized JSON _data = None def __init__(self, data=None, url=None, filename=None, expanded=False, metadata=None, **kwargs): """Create a JSON display object given raw data. Parameters ---------- data : dict or list JSON data to display. Not an already-serialized JSON string. Scalar types (None, number, string) are not allowed, only dict or list containers. url : unicode A URL to download the data from. filename : unicode Path to a local file to load the data from. expanded : boolean Metadata to control whether a JSON display component is expanded. metadata: dict Specify extra metadata to attach to the json display object. """ self.metadata = {'expanded': expanded} if metadata: self.metadata.update(metadata) if kwargs: self.metadata.update(kwargs) super(JSON, self).__init__(data=data, url=url, filename=filename) def _check_data(self): if self.data is not None and not isinstance(self.data, (dict, list)): raise TypeError("%s expects JSONable dict or list, not %r" % (self.__class__.__name__, self.data)) @property def data(self): return self._data @data.setter def data(self, data): if isinstance(data, str): if getattr(self, 'filename', None) is None: warnings.warn("JSON expects JSONable dict or list, not JSON strings") data = json.loads(data) self._data = data def _data_and_metadata(self): return self.data, self.metadata def _repr_json_(self): return self._data_and_metadata() _css_t = """$("head").append($("").attr({ rel: "stylesheet", type: "text/css", href: "%s" })); """ _lib_t1 = """$.getScript("%s", function () { """ _lib_t2 = """}); """ class GeoJSON(JSON): """GeoJSON expects JSON-able dict not an already-serialized JSON string. Scalar types (None, number, string) are not allowed, only dict containers. """ def __init__(self, *args, **kwargs): """Create a GeoJSON display object given raw data. Parameters ---------- data : dict or list VegaLite data. Not an already-serialized JSON string. Scalar types (None, number, string) are not allowed, only dict or list containers. url_template : string Leaflet TileLayer URL template: http://leafletjs.com/reference.html#url-template layer_options : dict Leaflet TileLayer options: http://leafletjs.com/reference.html#tilelayer-options url : unicode A URL to download the data from. filename : unicode Path to a local file to load the data from. metadata: dict Specify extra metadata to attach to the json display object. Examples -------- The following will display an interactive map of Mars with a point of interest on frontend that do support GeoJSON display. >>> from IPython.display import GeoJSON >>> GeoJSON(data={ ... "type": "Feature", ... "geometry": { ... "type": "Point", ... "coordinates": [-81.327, 296.038] ... } ... }, ... url_template="http://s3-eu-west-1.amazonaws.com/whereonmars.cartodb.net/{basemap_id}/{z}/{x}/{y}.png", ... layer_options={ ... "basemap_id": "celestia_mars-shaded-16k_global", ... "attribution" : "Celestia/praesepe", ... "minZoom" : 0, ... "maxZoom" : 18, ... }) In the terminal IPython, you will only see the text representation of the GeoJSON object. """ super(GeoJSON, self).__init__(*args, **kwargs) def _ipython_display_(self): bundle = { 'application/geo+json': self.data, 'text/plain': '' } metadata = { 'application/geo+json': self.metadata } display(bundle, metadata=metadata, raw=True) class Javascript(TextDisplayObject): def __init__(self, data=None, url=None, filename=None, lib=None, css=None): """Create a Javascript display object given raw data. When this object is returned by an expression or passed to the display function, it will result in the data being displayed in the frontend. If the data is a URL, the data will first be downloaded and then displayed. In the Notebook, the containing element will be available as `element`, and jQuery will be available. Content appended to `element` will be visible in the output area. Parameters ---------- data : unicode, str or bytes The Javascript source code or a URL to download it from. url : unicode A URL to download the data from. filename : unicode Path to a local file to load the data from. lib : list or str A sequence of Javascript library URLs to load asynchronously before running the source code. The full URLs of the libraries should be given. A single Javascript library URL can also be given as a string. css: : list or str A sequence of css files to load before running the source code. The full URLs of the css files should be given. A single css URL can also be given as a string. """ if isinstance(lib, str): lib = [lib] elif lib is None: lib = [] if isinstance(css, str): css = [css] elif css is None: css = [] if not isinstance(lib, (list,tuple)): raise TypeError('expected sequence, got: %r' % lib) if not isinstance(css, (list,tuple)): raise TypeError('expected sequence, got: %r' % css) self.lib = lib self.css = css super(Javascript, self).__init__(data=data, url=url, filename=filename) def _repr_javascript_(self): r = '' for c in self.css: r += _css_t % c for l in self.lib: r += _lib_t1 % l r += self.data r += _lib_t2*len(self.lib) return r # constants for identifying png/jpeg data _PNG = b'\x89PNG\r\n\x1a\n' _JPEG = b'\xff\xd8' def _pngxy(data): """read the (width, height) from a PNG header""" ihdr = data.index(b'IHDR') # next 8 bytes are width/height return struct.unpack('>ii', data[ihdr+4:ihdr+12]) def _jpegxy(data): """read the (width, height) from a JPEG header""" # adapted from http://www.64lines.com/jpeg-width-height idx = 4 while True: block_size = struct.unpack('>H', data[idx:idx+2])[0] idx = idx + block_size if data[idx:idx+2] == b'\xFF\xC0': # found Start of Frame iSOF = idx break else: # read another block idx += 2 h, w = struct.unpack('>HH', data[iSOF+5:iSOF+9]) return w, h def _gifxy(data): """read the (width, height) from a GIF header""" return struct.unpack(' tag. Set this to True if you want the image to be viewable later with no internet connection in the notebook. Default is `True`, unless the keyword argument `url` is set, then default value is `False`. Note that QtConsole is not able to display images if `embed` is set to `False` width : int Width in pixels to which to constrain the image in html height : int Height in pixels to which to constrain the image in html retina : bool Automatically set the width and height to half of the measured width and height. This only works for embedded images because it reads the width/height from image data. For non-embedded images, you can just set the desired display width and height directly. unconfined: bool Set unconfined=True to disable max-width confinement of the image. metadata: dict Specify extra metadata to attach to the image. Examples -------- # embedded image data, works in qtconsole and notebook # when passed positionally, the first arg can be any of raw image data, # a URL, or a filename from which to load image data. # The result is always embedding image data for inline images. Image('http://www.google.fr/images/srpr/logo3w.png') Image('/path/to/image.jpg') Image(b'RAW_PNG_DATA...') # Specifying Image(url=...) does not embed the image data, # it only generates `` tag with a link to the source. # This will not work in the qtconsole or offline. Image(url='http://www.google.fr/images/srpr/logo3w.png') """ if filename is not None: ext = self._find_ext(filename) elif url is not None: ext = self._find_ext(url) elif data is None: raise ValueError("No image data found. Expecting filename, url, or data.") elif isinstance(data, str) and ( data.startswith('http') or _safe_exists(data) ): ext = self._find_ext(data) else: ext = None if format is None: if ext is not None: if ext == u'jpg' or ext == u'jpeg': format = self._FMT_JPEG if ext == u'png': format = self._FMT_PNG if ext == u'gif': format = self._FMT_GIF else: format = ext.lower() elif isinstance(data, bytes): # infer image type from image data header, # only if format has not been specified. if data[:2] == _JPEG: format = self._FMT_JPEG # failed to detect format, default png if format is None: format = self._FMT_PNG if format.lower() == 'jpg': # jpg->jpeg format = self._FMT_JPEG self.format = format.lower() self.embed = embed if embed is not None else (url is None) if self.embed and self.format not in self._ACCEPTABLE_EMBEDDINGS: raise ValueError("Cannot embed the '%s' image format" % (self.format)) if self.embed: self._mimetype = self._MIMETYPES.get(self.format) self.width = width self.height = height self.retina = retina self.unconfined = unconfined super(Image, self).__init__(data=data, url=url, filename=filename, metadata=metadata) if self.width is None and self.metadata.get('width', {}): self.width = metadata['width'] if self.height is None and self.metadata.get('height', {}): self.height = metadata['height'] if retina: self._retina_shape() def _retina_shape(self): """load pixel-doubled width and height from image data""" if not self.embed: return if self.format == self._FMT_PNG: w, h = _pngxy(self.data) elif self.format == self._FMT_JPEG: w, h = _jpegxy(self.data) elif self.format == self._FMT_GIF: w, h = _gifxy(self.data) else: # retina only supports png return self.width = w // 2 self.height = h // 2 def reload(self): """Reload the raw data from file or URL.""" if self.embed: super(Image,self).reload() if self.retina: self._retina_shape() def _repr_html_(self): if not self.embed: width = height = klass = '' if self.width: width = ' width="%d"' % self.width if self.height: height = ' height="%d"' % self.height if self.unconfined: klass = ' class="unconfined"' return u''.format( url=self.url, width=width, height=height, klass=klass, ) def _repr_mimebundle_(self, include=None, exclude=None): """Return the image as a mimebundle Any new mimetype support should be implemented here. """ if self.embed: mimetype = self._mimetype data, metadata = self._data_and_metadata(always_both=True) if metadata: metadata = {mimetype: metadata} return {mimetype: data}, metadata else: return {'text/html': self._repr_html_()} def _data_and_metadata(self, always_both=False): """shortcut for returning metadata with shape information, if defined""" b64_data = b2a_base64(self.data).decode('ascii') md = {} if self.metadata: md.update(self.metadata) if self.width: md['width'] = self.width if self.height: md['height'] = self.height if self.unconfined: md['unconfined'] = self.unconfined if md or always_both: return b64_data, md else: return b64_data def _repr_png_(self): if self.embed and self.format == self._FMT_PNG: return self._data_and_metadata() def _repr_jpeg_(self): if self.embed and self.format == self._FMT_JPEG: return self._data_and_metadata() def _find_ext(self, s): return s.split('.')[-1].lower() class Video(DisplayObject): def __init__(self, data=None, url=None, filename=None, embed=False, mimetype=None): """Create a video object given raw data or an URL. When this object is returned by an input cell or passed to the display function, it will result in the video being displayed in the frontend. Parameters ---------- data : unicode, str or bytes The raw video data or a URL or filename to load the data from. Raw data will require passing `embed=True`. url : unicode A URL for the video. If you specify `url=`, the image data will not be embedded. filename : unicode Path to a local file containing the video. Will be interpreted as a local URL unless `embed=True`. embed : bool Should the video be embedded using a data URI (True) or be loaded using a