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Synapse-Cortex / synapse-cortex / .venv / Lib / site-packages / PIL / ImageText.py
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If ``None``, the default font from :py:meth:`.ImageFont.load_default` will be used. :param mode: The image mode this will be used with. :param spacing: The number of pixels between lines. :param direction: Direction of the text. It can be ``"rtl"`` (right to left), ``"ltr"`` (left to right) or ``"ttb"`` (top to bottom). Requires libraqm. :param features: A list of OpenType font features to be used during text layout. This is usually used to turn on optional font features that are not enabled by default, for example ``"dlig"`` or ``"ss01"``, but can be also used to turn off default font features, for example ``"-liga"`` to disable ligatures or ``"-kern"`` to disable kerning. To get all supported features, see `OpenType docs`_. Requires libraqm. :param language: Language of the text. Different languages may use different glyph shapes or ligatures. This parameter tells the font which language the text is in, and to apply the correct substitutions as appropriate, if available. It should be a `BCP 47 language code`_. Requires libraqm. """ self.text: AnyStr = text self.font = font or ImageFont.load_default() self.mode = mode self.spacing = spacing self.direction = direction self.features = features self.language = language self.embedded_color = False self.stroke_width: float = 0 self.stroke_fill: _Ink | None = None def embed_color(self) -> None: """ Use embedded color glyphs (COLR, CBDT, SBIX). """ if self.mode not in ("RGB", "RGBA"): msg = "Embedded color supported only in RGB and RGBA modes" raise ValueError(msg) self.embedded_color = True def stroke(self, width: float = 0, fill: _Ink | None = None) -> None: """ :param width: The width of the text stroke. :param fill: Color to use for the text stroke when drawing. If not given, will default to the ``fill`` parameter from :py:meth:`.ImageDraw.ImageDraw.text`. """ self.stroke_width = width self.stroke_fill = fill def _get_fontmode(self) -> str: if self.mode in ("1", "P", "I", "F"): return "1" elif self.embedded_color: return "RGBA" else: return "L" def wrap( self, width: int, height: int | None = None, scaling: str | tuple[str, int] | None = None, ) -> Text[AnyStr] | None: """ Wrap text to fit within a given width. :param width: The width to fit within. :param height: An optional height limit. Any text that does not fit within this will be returned as a new :py:class:`.Text` object. :param scaling: An optional directive to scale the text, either "grow" as much as possible within the given dimensions, or "shrink" until it fits. It can also be a tuple of (direction, limit), with an integer limit to stop scaling at. :returns: An :py:class:`.Text` object, or None. """ if isinstance(self.font, ImageFont.TransposedFont): msg = "TransposedFont not supported" raise ValueError(msg) if self.direction not in (None, "ltr"): msg = "Only ltr direction supported" raise ValueError(msg) if scaling is None: wrap = _Wrap(self, width, height) else: if not isinstance(self.font, ImageFont.FreeTypeFont): msg = "'scaling' only supports FreeTypeFont" raise ValueError(msg) if height is None: msg = "'scaling' requires 'height'" raise ValueError(msg) if isinstance(scaling, str): limit = 1 else: scaling, limit = scaling font = self.font wrap = _Wrap(self, width, height, font) if scaling == "shrink": if not wrap.remaining_text: return None size = math.ceil(font.size) while wrap.remaining_text: if size == max(limit, 1): msg = "Text could not be scaled" raise ValueError(msg) size -= 1 font = self.font.font_variant(size=size) wrap = _Wrap(self, width, height, font) self.font = font else: if wrap.remaining_text: msg = "Text could not be scaled" raise ValueError(msg) size = math.floor(font.size) while not wrap.remaining_text: if size == limit: msg = "Text could not be scaled" raise ValueError(msg) size += 1 font = self.font.font_variant(size=size) last_wrap = wrap wrap = _Wrap(self, width, height, font) size -= 1 if size != self.font.size: self.font = self.font.font_variant(size=size) wrap = last_wrap if wrap.remaining_text: text = Text( text=wrap.remaining_text, font=self.font, mode=self.mode, spacing=self.spacing, direction=self.direction, features=self.features, language=self.language, ) text.embedded_color = self.embedded_color text.stroke_width = self.stroke_width text.stroke_fill = self.stroke_fill else: text = None newline = "\n" if isinstance(self.text, str) else b"\n" self.text = newline.join(wrap.lines) return text def get_length(self) -> float: """ Returns length (in pixels with 1/64 precision) of text. This is the amount by which following text should be offset. Text bounding box may extend past the length in some fonts, e.g. when using italics or accents. The result is returned as a float; it is a whole number if using basic layout. Note that the sum of two lengths may not equal the length of a concatenated string due to kerning. If you need to adjust for kerning, include the following character and subtract its length. For example, instead of:: hello = ImageText.Text("Hello", font).get_length() world = ImageText.Text("World", font).get_length() helloworld = ImageText.Text("HelloWorld", font).get_length() assert hello + world == helloworld use:: hello = ( ImageText.Text("HelloW", font).get_length() - ImageText.Text("W", font).get_length() ) # adjusted for kerning world = ImageText.Text("World", font).get_length() helloworld = ImageText.Text("HelloWorld", font).get_length() assert hello + world == helloworld or disable kerning with (requires libraqm):: hello = ImageText.Text("Hello", font, features=["-kern"]).get_length() world = ImageText.Text("World", font, features=["-kern"]).get_length() helloworld = ImageText.Text( "HelloWorld", font, features=["-kern"] ).get_length() assert hello + world == helloworld :return: Either width for horizontal text, or height for vertical text. """ if isinstance(self.text, str): multiline = "\n" in self.text else: multiline = b"\n" in self.text if multiline: msg = "can't measure length of multiline text" raise ValueError(msg) return self.font.getlength( self.text, self._get_fontmode(), self.direction, self.features, self.language, ) def _split( self, xy: tuple[float, float] = (0, 0), anchor: str | None = None, align: str = "left", lines: list[str] | list[bytes] | None = None, ) -> list[_Line]: if anchor is None: anchor = "lt" if self.direction == "ttb" else "la" elif len(anchor) != 2: msg = "anchor must be a 2 character string" raise ValueError(msg) if lines is None: lines = ( self.text.split("\n") if isinstance(self.text, str) else self.text.split(b"\n") ) if len(lines) == 1: return [_Line(xy[0], xy[1], anchor, lines[0])] if anchor[1] in "tb" and self.direction != "ttb": msg = "anchor not supported for multiline text" raise ValueError(msg) fontmode = self._get_fontmode() line_spacing = ( self.font.getbbox( "A", fontmode, None, self.features, self.language, self.stroke_width, )[3] + self.stroke_width + self.spacing ) top = xy[1] parts = [] if self.direction == "ttb": left = xy[0] for line in lines: parts.append(_Line(left, top, anchor, line)) left += line_spacing else: widths = [] max_width: float = 0 for line in lines: line_width = self.font.getlength( line, fontmode, self.direction, self.features, self.language ) widths.append(line_width) max_width = max(max_width, line_width) if anchor[1] == "m": top -= (len(lines) - 1) * line_spacing / 2.0 elif anchor[1] == "d": top -= (len(lines) - 1) * line_spacing idx = -1 for line in lines: left = xy[0] idx += 1 width_difference = max_width - widths[idx] # align by align parameter if align in ("left", "justify"): pass elif align == "center": left += width_difference / 2.0 elif align == "right": left += width_difference else: msg = 'align must be "left", "center", "right" or "justify"' raise ValueError(msg) if ( align == "justify" and width_difference != 0 and idx != len(lines) - 1 ): words = ( line.split(" ") if isinstance(line, str) else line.split(b" ") ) if len(words) > 1: # align left by anchor if anchor[0] == "m": left -= max_width / 2.0 elif anchor[0] == "r": left -= max_width word_widths = [ self.font.getlength( word, fontmode, self.direction, self.features, self.language, ) for word in words ] word_anchor = "l" + anchor[1] width_difference = max_width - sum(word_widths) i = 0 for word in words: parts.append(_Line(left, top, word_anchor, word)) left += word_widths[i] + width_difference / (len(words) - 1) i += 1 top += line_spacing continue # align left by anchor if anchor[0] == "m": left -= width_difference / 2.0 elif anchor[0] == "r": left -= width_difference parts.append(_Line(left, top, anchor, line)) top += line_spacing return parts def _get_bbox( self, text: str | bytes, font: ImageFont.BaseImageFont | None = None, anchor: str | None = None, ) -> tuple[float, float, float, float]: return (font or self.font).getbbox( text, self._get_fontmode(), self.direction, self.features, self.language, self.stroke_width, anchor, ) def get_bbox( self, xy: tuple[float, float] = (0, 0), anchor: str | None = None, align: str = "left", ) -> tuple[float, float, float, float]: """ Returns bounding box (in pixels) of text. Use :py:meth:`get_length` to get the offset of following text with 1/64 pixel precision. The bounding box includes extra margins for some fonts, e.g. italics or accents. :param xy: The anchor coordinates of the text. :param anchor: The text anchor alignment. Determines the relative location of the anchor to the text. The default alignment is top left, specifically ``la`` for horizontal text and ``lt`` for vertical text. See :ref:`text-anchors` for details. :param align: For multiline text, ``"left"``, ``"center"``, ``"right"`` or ``"justify"`` determines the relative alignment of lines. Use the ``anchor`` parameter to specify the alignment to ``xy``. :return: ``(left, top, right, bottom)`` bounding box """ bbox: tuple[float, float, float, float] | None = None for x, y, anchor, text in self._split(xy, anchor, align): bbox_line = self._get_bbox(text, anchor=anchor) bbox_line = ( bbox_line[0] + x, bbox_line[1] + y, bbox_line[2] + x, bbox_line[3] + y, ) if bbox is None: bbox = bbox_line else: bbox = ( min(bbox[0], bbox_line[0]), min(bbox[1], bbox_line[1]), max(bbox[2], bbox_line[2]), max(bbox[3], bbox_line[3]), ) assert bbox is not None return bbox |