r""" A module for parsing a subset of the TeX math syntax and rendering it to a Matplotlib backend. For a tutorial of its usage, see :doc:`/tutorials/text/mathtext`. This document is primarily concerned with implementation details. The module uses pyparsing_ to parse the TeX expression. .. _pyparsing: https://pypi.org/project/pyparsing/ The Bakoma distribution of the TeX Computer Modern fonts, and STIX fonts are supported. There is experimental support for using arbitrary fonts, but results may vary without proper tweaking and metrics for those fonts. """ from collections import namedtuple import functools from io import StringIO import logging import types import numpy as np from PIL import Image from matplotlib import ( _api, colors as mcolors, rcParams, _mathtext, _mathtext_data) from matplotlib.ft2font import FT2Image, LOAD_NO_HINTING from matplotlib.font_manager import FontProperties _log = logging.getLogger(__name__) @_api.caching_module_getattr class __getattr__: locals().update({ name: _api.deprecated("3.4")( property(lambda self, _mod=mod, _name=name: getattr(_mod, _name))) for mod, names in [ (_mathtext, ["SHRINK_FACTOR", "GROW_FACTOR", "NUM_SIZE_LEVELS"]), (_mathtext_data, [ "latex_to_bakoma", "latex_to_cmex", "latex_to_standard", "stix_virtual_fonts", "tex2uni"])] for name in names}) get_unicode_index = _mathtext.get_unicode_index get_unicode_index.__module__ = __name__ class MathtextBackend: """ The base class for the mathtext backend-specific code. `MathtextBackend` subclasses interface between mathtext and specific Matplotlib graphics backends. Subclasses need to override the following: - :meth:`render_glyph` - :meth:`render_rect_filled` - :meth:`get_results` And optionally, if you need to use a FreeType hinting style: - :meth:`get_hinting_type` """ def __init__(self): self.width = 0 self.height = 0 self.depth = 0 def set_canvas_size(self, w, h, d): """Set the dimension of the drawing canvas.""" self.width = w self.height = h self.depth = d def render_glyph(self, ox, oy, info): """ Draw a glyph described by *info* to the reference point (*ox*, *oy*). """ raise NotImplementedError() def render_rect_filled(self, x1, y1, x2, y2): """ Draw a filled black rectangle from (*x1*, *y1*) to (*x2*, *y2*). """ raise NotImplementedError() def get_results(self, box): """ Return a backend-specific tuple to return to the backend after all processing is done. """ raise NotImplementedError() def get_hinting_type(self): """ Get the FreeType hinting type to use with this particular backend. """ return LOAD_NO_HINTING class MathtextBackendAgg(MathtextBackend): """ Render glyphs and rectangles to an FTImage buffer, which is later transferred to the Agg image by the Agg backend. """ def __init__(self): self.ox = 0 self.oy = 0 self.image = None self.mode = 'bbox' self.bbox = [0, 0, 0, 0] super().__init__() def _update_bbox(self, x1, y1, x2, y2): self.bbox = [min(self.bbox[0], x1), min(self.bbox[1], y1), max(self.bbox[2], x2), max(self.bbox[3], y2)] def set_canvas_size(self, w, h, d): super().set_canvas_size(w, h, d) if self.mode != 'bbox': self.image = FT2Image(np.ceil(w), np.ceil(h + max(d, 0))) def render_glyph(self, ox, oy, info): if self.mode == 'bbox': self._update_bbox(ox + info.metrics.xmin, oy - info.metrics.ymax, ox + info.metrics.xmax, oy - info.metrics.ymin) else: info.font.draw_glyph_to_bitmap( self.image, ox, oy - info.metrics.iceberg, info.glyph, antialiased=rcParams['text.antialiased']) def render_rect_filled(self, x1, y1, x2, y2): if self.mode == 'bbox': self._update_bbox(x1, y1, x2, y2) else: height = max(int(y2 - y1) - 1, 0) if height == 0: center = (y2 + y1) / 2.0 y = int(center - (height + 1) / 2.0) else: y = int(y1) self.image.draw_rect_filled(int(x1), y, np.ceil(x2), y + height) def get_results(self, box, used_characters): self.mode = 'bbox' orig_height = box.height orig_depth = box.depth _mathtext.ship(0, 0, box) bbox = self.bbox bbox = [bbox[0] - 1, bbox[1] - 1, bbox[2] + 1, bbox[3] + 1] self.mode = 'render' self.set_canvas_size( bbox[2] - bbox[0], (bbox[3] - bbox[1]) - orig_depth, (bbox[3] - bbox[1]) - orig_height) _mathtext.ship(-bbox[0], -bbox[1], box) result = (self.ox, self.oy, self.width, self.height + self.depth, self.depth, self.image, used_characters) self.image = None return result def get_hinting_type(self): from matplotlib.backends import backend_agg return backend_agg.get_hinting_flag() @_api.deprecated("3.4", alternative="mathtext.math_to_image") class MathtextBackendBitmap(MathtextBackendAgg): def get_results(self, box, used_characters): ox, oy, width, height, depth, image, characters = \ super().get_results(box, used_characters) return image, depth @_api.deprecated("3.4", alternative="MathtextBackendPath") class MathtextBackendPs(MathtextBackend): """ Store information to write a mathtext rendering to the PostScript backend. """ _PSResult = namedtuple( "_PSResult", "width height depth pswriter used_characters") def __init__(self): super().__init__() self.pswriter = StringIO() self.lastfont = None def render_glyph(self, ox, oy, info): oy = self.height - oy + info.offset postscript_name = info.postscript_name fontsize = info.fontsize if (postscript_name, fontsize) != self.lastfont: self.lastfont = postscript_name, fontsize self.pswriter.write( f"/{postscript_name} findfont\n" f"{fontsize} scalefont\n" f"setfont\n") self.pswriter.write( f"{ox:f} {oy:f} moveto\n" f"/{info.symbol_name} glyphshow\n") def render_rect_filled(self, x1, y1, x2, y2): ps = "%f %f %f %f rectfill\n" % ( x1, self.height - y2, x2 - x1, y2 - y1) self.pswriter.write(ps) def get_results(self, box, used_characters): _mathtext.ship(0, 0, box) return self._PSResult(self.width, self.height + self.depth, self.depth, self.pswriter, used_characters) @_api.deprecated("3.4", alternative="MathtextBackendPath") class MathtextBackendPdf(MathtextBackend): """Store information to write a mathtext rendering to the PDF backend.""" _PDFResult = namedtuple( "_PDFResult", "width height depth glyphs rects used_characters") def __init__(self): super().__init__() self.glyphs = [] self.rects = [] def render_glyph(self, ox, oy, info): filename = info.font.fname oy = self.height - oy + info.offset self.glyphs.append( (ox, oy, filename, info.fontsize, info.num, info.symbol_name)) def render_rect_filled(self, x1, y1, x2, y2): self.rects.append((x1, self.height - y2, x2 - x1, y2 - y1)) def get_results(self, box, used_characters): _mathtext.ship(0, 0, box) return self._PDFResult(self.width, self.height + self.depth, self.depth, self.glyphs, self.rects, used_characters) @_api.deprecated("3.4", alternative="MathtextBackendPath") class MathtextBackendSvg(MathtextBackend): """ Store information to write a mathtext rendering to the SVG backend. """ def __init__(self): super().__init__() self.svg_glyphs = [] self.svg_rects = [] def render_glyph(self, ox, oy, info): oy = self.height - oy + info.offset self.svg_glyphs.append( (info.font, info.fontsize, info.num, ox, oy, info.metrics)) def render_rect_filled(self, x1, y1, x2, y2): self.svg_rects.append( (x1, self.height - y1 + 1, x2 - x1, y2 - y1)) def get_results(self, box, used_characters): _mathtext.ship(0, 0, box) svg_elements = types.SimpleNamespace(svg_glyphs=self.svg_glyphs, svg_rects=self.svg_rects) return (self.width, self.height + self.depth, self.depth, svg_elements, used_characters) class MathtextBackendPath(MathtextBackend): """ Store information to write a mathtext rendering to the text path machinery. """ _Result = namedtuple("_Result", "width height depth glyphs rects") def __init__(self): super().__init__() self.glyphs = [] self.rects = [] def render_glyph(self, ox, oy, info): oy = self.height - oy + info.offset self.glyphs.append((info.font, info.fontsize, info.num, ox, oy)) def render_rect_filled(self, x1, y1, x2, y2): self.rects.append((x1, self.height - y2, x2 - x1, y2 - y1)) def get_results(self, box, used_characters): _mathtext.ship(0, 0, box) return self._Result(self.width, self.height + self.depth, self.depth, self.glyphs, self.rects) @_api.deprecated("3.4", alternative="MathtextBackendPath") class MathtextBackendCairo(MathtextBackend): """ Store information to write a mathtext rendering to the Cairo backend. """ def __init__(self): super().__init__() self.glyphs = [] self.rects = [] def render_glyph(self, ox, oy, info): oy = oy - info.offset - self.height thetext = chr(info.num) self.glyphs.append( (info.font, info.fontsize, thetext, ox, oy)) def render_rect_filled(self, x1, y1, x2, y2): self.rects.append( (x1, y1 - self.height, x2 - x1, y2 - y1)) def get_results(self, box, used_characters): _mathtext.ship(0, 0, box) return (self.width, self.height + self.depth, self.depth, self.glyphs, self.rects) for _cls_name in [ "Fonts", *[c.__name__ for c in _mathtext.Fonts.__subclasses__()], "FontConstantsBase", *[c.__name__ for c in _mathtext.FontConstantsBase.__subclasses__()], "Node", *[c.__name__ for c in _mathtext.Node.__subclasses__()], "Ship", "Parser", ]: globals()[_cls_name] = _api.deprecated("3.4")( type(_cls_name, (getattr(_mathtext, _cls_name),), {})) class MathTextWarning(Warning): pass @_api.deprecated("3.4") def ship(ox, oy, box): _mathtext.ship(ox, oy, box) ############################################################################## # MAIN class MathTextParser: _parser = None _backend_mapping = { 'bitmap': MathtextBackendBitmap, 'agg': MathtextBackendAgg, 'ps': MathtextBackendPs, 'pdf': MathtextBackendPdf, 'svg': MathtextBackendSvg, 'path': MathtextBackendPath, 'cairo': MathtextBackendCairo, 'macosx': MathtextBackendAgg, } _font_type_mapping = { 'cm': _mathtext.BakomaFonts, 'dejavuserif': _mathtext.DejaVuSerifFonts, 'dejavusans': _mathtext.DejaVuSansFonts, 'stix': _mathtext.StixFonts, 'stixsans': _mathtext.StixSansFonts, 'custom': _mathtext.UnicodeFonts, } def __init__(self, output): """Create a MathTextParser for the given backend *output*.""" self._output = output.lower() def parse(self, s, dpi=72, prop=None, *, _force_standard_ps_fonts=False): """ Parse the given math expression *s* at the given *dpi*. If *prop* is provided, it is a `.FontProperties` object specifying the "default" font to use in the math expression, used for all non-math text. The results are cached, so multiple calls to `parse` with the same expression should be fast. """ if _force_standard_ps_fonts: _api.warn_deprecated( "3.4", removal="3.5", message=( "Mathtext using only standard PostScript fonts has " "been likely to produce wrong output for a while, " "has been deprecated in %(since)s and will be removed " "in %(removal)s, after which ps.useafm will have no " "effect on mathtext." ) ) # lru_cache can't decorate parse() directly because the ps.useafm and # mathtext.fontset rcParams also affect the parse (e.g. by affecting # the glyph metrics). return self._parse_cached(s, dpi, prop, _force_standard_ps_fonts) @functools.lru_cache(50) def _parse_cached(self, s, dpi, prop, force_standard_ps_fonts): if prop is None: prop = FontProperties() fontset_class = ( _mathtext.StandardPsFonts if force_standard_ps_fonts else _api.check_getitem( self._font_type_mapping, fontset=prop.get_math_fontfamily())) backend = self._backend_mapping[self._output]() font_output = fontset_class(prop, backend) fontsize = prop.get_size_in_points() # This is a class variable so we don't rebuild the parser # with each request. if self._parser is None: self.__class__._parser = _mathtext.Parser() box = self._parser.parse(s, font_output, fontsize, dpi) font_output.set_canvas_size(box.width, box.height, box.depth) return font_output.get_results(box) @_api.deprecated("3.4", alternative="mathtext.math_to_image") def to_mask(self, texstr, dpi=120, fontsize=14): r""" Convert a mathtext string to a grayscale array and depth. Parameters ---------- texstr : str A valid mathtext string, e.g., r'IQ: $\sigma_i=15$'. dpi : float The dots-per-inch setting used to render the text. fontsize : int The font size in points Returns ------- array : 2D uint8 alpha Mask array of rasterized tex. depth : int Offset of the baseline from the bottom of the image, in pixels. """ assert self._output == "bitmap" prop = FontProperties(size=fontsize) ftimage, depth = self.parse(texstr, dpi=dpi, prop=prop) return np.asarray(ftimage), depth @_api.deprecated("3.4", alternative="mathtext.math_to_image") def to_rgba(self, texstr, color='black', dpi=120, fontsize=14): r""" Convert a mathtext string to an RGBA array and depth. Parameters ---------- texstr : str A valid mathtext string, e.g., r'IQ: $\sigma_i=15$'. color : color The text color. dpi : float The dots-per-inch setting used to render the text. fontsize : int The font size in points. Returns ------- array : (M, N, 4) array RGBA color values of rasterized tex, colorized with *color*. depth : int Offset of the baseline from the bottom of the image, in pixels. """ x, depth = self.to_mask(texstr, dpi=dpi, fontsize=fontsize) r, g, b, a = mcolors.to_rgba(color) RGBA = np.zeros((x.shape[0], x.shape[1], 4), dtype=np.uint8) RGBA[:, :, 0] = 255 * r RGBA[:, :, 1] = 255 * g RGBA[:, :, 2] = 255 * b RGBA[:, :, 3] = x return RGBA, depth @_api.deprecated("3.4", alternative="mathtext.math_to_image") def to_png(self, filename, texstr, color='black', dpi=120, fontsize=14): r""" Render a tex expression to a PNG file. Parameters ---------- filename A writable filename or fileobject. texstr : str A valid mathtext string, e.g., r'IQ: $\sigma_i=15$'. color : color The text color. dpi : float The dots-per-inch setting used to render the text. fontsize : int The font size in points. Returns ------- int Offset of the baseline from the bottom of the image, in pixels. """ rgba, depth = self.to_rgba( texstr, color=color, dpi=dpi, fontsize=fontsize) Image.fromarray(rgba).save(filename, format="png") return depth @_api.deprecated("3.4", alternative="mathtext.math_to_image") def get_depth(self, texstr, dpi=120, fontsize=14): r""" Get the depth of a mathtext string. Parameters ---------- texstr : str A valid mathtext string, e.g., r'IQ: $\sigma_i=15$'. dpi : float The dots-per-inch setting used to render the text. Returns ------- int Offset of the baseline from the bottom of the image, in pixels. """ assert self._output == "bitmap" prop = FontProperties(size=fontsize) ftimage, depth = self.parse(texstr, dpi=dpi, prop=prop) return depth def math_to_image(s, filename_or_obj, prop=None, dpi=None, format=None): """ Given a math expression, renders it in a closely-clipped bounding box to an image file. Parameters ---------- s : str A math expression. The math portion must be enclosed in dollar signs. filename_or_obj : str or path-like or file-like Where to write the image data. prop : `.FontProperties`, optional The size and style of the text. dpi : float, optional The output dpi. If not set, the dpi is determined as for `.Figure.savefig`. format : str, optional The output format, e.g., 'svg', 'pdf', 'ps' or 'png'. If not set, the format is determined as for `.Figure.savefig`. """ from matplotlib import figure # backend_agg supports all of the core output formats from matplotlib.backends import backend_agg if prop is None: prop = FontProperties() parser = MathTextParser('path') width, height, depth, _, _ = parser.parse(s, dpi=72, prop=prop) fig = figure.Figure(figsize=(width / 72.0, height / 72.0)) fig.text(0, depth/height, s, fontproperties=prop) backend_agg.FigureCanvasAgg(fig) fig.savefig(filename_or_obj, dpi=dpi, format=format) return depth