matplotlib.dviread
¶A module for reading dvi files output by TeX. Several limitations make this not (currently) useful as a general-purpose dvi preprocessor, but it is currently used by the pdf backend for processing usetex text.
Interface:
with Dvi(filename, 72) as dvi:
# iterate over pages:
for page in dvi:
w, h, d = page.width, page.height, page.descent
for x,y,font,glyph,width in page.text:
fontname = font.texname
pointsize = font.size
...
for x,y,height,width in page.boxes:
...
matplotlib.dviread.
Dvi
(filename, dpi)¶Bases: object
A reader for a dvi (“device-independent”) file, as produced by TeX. The current implementation can only iterate through pages in order, and does not even attempt to verify the postamble.
This class can be used as a context manager to close the underlying file upon exit. Pages can be read via iteration. Here is an overly simple way to extract text without trying to detect whitespace:
>>> with matplotlib.dviread.Dvi('input.dvi', 72) as dvi:
>>> for page in dvi:
>>> print ''.join(unichr(t.glyph) for t in page.text)
Read the data from the file named filename and convert TeX’s internal units to units of dpi per inch. dpi only sets the units and does not limit the resolution. Use None to return TeX’s internal units.
close
()¶Close the underlying file if it is open.
matplotlib.dviread.
DviFont
(scale, tfm, texname, vf)¶Bases: object
Encapsulation of a font that a DVI file can refer to.
This class holds a font’s texname and size, supports comparison, and knows the widths of glyphs in the same units as the AFM file. There are also internal attributes (for use by dviread.py) that are not used for comparison.
The size is in Adobe points (converted from TeX points).
Parameters: | scale : float
tfm : Tfm
texname : bytes
vf : Vf
|
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Attributes
texname | (bytes) |
size | (float) Size of the font in Adobe points, converted from the slightly smaller TeX points. |
widths | (list) Widths of glyphs in glyph-space units, typically 1/1000ths of the point size. |
size
¶texname
¶widths
¶matplotlib.dviread.
Encoding
(filename)¶Bases: object
Parses a *.enc file referenced from a psfonts.map style file. The format this class understands is a very limited subset of PostScript.
Usage (subject to change):
for name in Encoding(filename):
whatever(name)
Parameters: | filename : string or bytestring |
---|
Attributes
encoding | (list) List of character names |
encoding
¶matplotlib.dviread.
PsFont
¶alias of Font
matplotlib.dviread.
PsfontsMap
(filename)¶Bases: object
A psfonts.map formatted file, mapping TeX fonts to PS fonts.
Usage:
>>> map = PsfontsMap(find_tex_file('pdftex.map'))
>>> entry = map[b'ptmbo8r']
>>> entry.texname
b'ptmbo8r'
>>> entry.psname
b'Times-Bold'
>>> entry.encoding
'/usr/local/texlive/2008/texmf-dist/fonts/enc/dvips/base/8r.enc'
>>> entry.effects
{'slant': 0.16700000000000001}
>>> entry.filename
Parameters: | filename : string or bytestring |
---|
Notes
For historical reasons, TeX knows many Type-1 fonts by different names than the outside world. (For one thing, the names have to fit in eight characters.) Also, TeX’s native fonts are not Type-1 but Metafont, which is nontrivial to convert to PostScript except as a bitmap. While high-quality conversions to Type-1 format exist and are shipped with modern TeX distributions, we need to know which Type-1 fonts are the counterparts of which native fonts. For these reasons a mapping is needed from internal font names to font file names.
A texmf tree typically includes mapping files called e.g.
psfonts.map
, pdftex.map
, or dvipdfm.map
.
The file psfonts.map
is used by dvips,
pdftex.map
by pdfTeX, and dvipdfm.map
by dvipdfm. psfonts.map
might avoid embedding
the 35 PostScript fonts (i.e., have no filename for them, as in
the Times-Bold example above), while the pdf-related files perhaps
only avoid the “Base 14” pdf fonts. But the user may have
configured these files differently.
matplotlib.dviread.
Tfm
(filename)¶Bases: object
A TeX Font Metric file.
This implementation covers only the bare minimum needed by the Dvi class.
Parameters: | filename : string or bytestring |
---|
Attributes
checksum | (int) Used for verifying against the dvi file. |
design_size | (int) Design size of the font (unknown units) |
width, height, depth | (dict) Dimensions of each character, need to be scaled by the factor specified in the dvi file. These are dicts because indexing may not start from 0. |
checksum
¶depth
¶design_size
¶height
¶width
¶matplotlib.dviread.
Vf
(filename)¶Bases: matplotlib.dviread.Dvi
A virtual font (*.vf file) containing subroutines for dvi files.
Usage:
vf = Vf(filename)
glyph = vf[code]
glyph.text, glyph.boxes, glyph.width
Parameters: | filename : string or bytestring |
---|
Notes
The virtual font format is a derivative of dvi:
http://mirrors.ctan.org/info/knuth/virtual-fonts
This class reuses some of the machinery of Dvi
but replaces the _read
loop and dispatch mechanism.
matplotlib.dviread.
find_tex_file
(filename, format=None)¶Find a file in the texmf tree.
Calls kpsewhich which is an interface to the kpathsea library [R22]. Most existing TeX distributions on Unix-like systems use kpathsea. It is also available as part of MikTeX, a popular distribution on Windows.
Parameters: | filename : string or bytestring format : string or bytestring
|
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References
[R22] | (1, 2) Kpathsea documentation The library that kpsewhich is part of. |
matplotlib.dviread.
ord
(x)¶