textgrids is a module for handling Praat TextGrid files in any format (short text, long text, or binary). The module implements five classes, from largest to smallest:
TextGrid-- adictwith tier names as keys andTiers as valuesTier-- alistof eitherIntervalorPointobjectsInterval-- anobjectrepresenting Praat intervalsPoint-- anamedtuplerepresenting Praat pointsTranscript-- astrwith special methods for transcription handling
All Praat text objects are represented as Transcript objects.
The module also exports the following variables:
diacritics-- adictof all diacritics with their Unicode counterpartsinline_diacritics-- adictof inline (symbol-like) diacriticsindex_diacritics-- adictof over/understrike diacriticssymbols-- adictof special Praat symbols with their Unicode counterpartsvowels-- alistof all vowels in either Praat or Unicode notation
And the following constants (although they are not actually constants in Python, they SHOULDN’T be changed):
BINARY-- symbolic name for the binary file formatTEXT_LONG-- symbolic name for the long text file formatTEXT_SHORT-- symbolic name for the short text file formatversion-- module version as string
This file documents praat-textgrids version 1.4.0.
Copyright © 2019–24 Legisign.org, Tommi Nieminen [email protected]
This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with this program. If not, see https://www.gnu.org/licenses/.
Besides textgrids.version, which contains the module version number as string, the module exports the following properties:
symbols is a dict that contains all the Praat special notation symbols (as keys) and their Unicode counterparts (as values).
vowels is a list of all vowel symbols in either Praat notation (e.g., "\as") or in Unicode. It is used by Interval methods containsvowel() and startswithvowel(), so changing it, for example, adding new symbols to it or removing symbols used for other purposes in a specific case, will change how those methods function.
diacritics is a dict of all diacritics in Praat notation (as keys) and their Unicode counterparts (as values).
inline_diacritics and index_diacritics are subsets of diacritics. The former are semantically diacritics but appear as inline symbols, the latter are the "true" diacritics (i.e., under- or overstrikes) that need special handling when transcoding.
Symbolic constants specifying different file formats in TextGrid.format() and TextGrid.write() methods. Internally they are just small integers (0, 1, and 2, respectively). The default format is TEXT_LONG.
TextGrid is an collections.OrderedDict whose keys are tier names (strings) and values are Tier objects. The constructor takes an optional filename argument for easy loading and parsing textgrid files.
All the properties of dict plus:
filenameholds the textgrid filename, if any.read()andwrite()methods both set or update it.
All the methods of dict plus:
parse()-- parse string into a TextGridread()-- read (and parse) a TextGrid filetier_from_csv()-- read a textgrid tier from a CSV filetier_to_csv()-- write a textgrid tier into a CSV filewrite()-- write a TextGrid file
parse() takes an obligatory string (or bytes) argument which contains textgrid data in any of Praat’s three formats (long text, short text, or binary).
read() and write() both take an obligatory filename argument.
write() can take an optional argument specifying the file format; this can be one of BINARY (= int 2), TEXT_LONG (= int 0, the default), or TEXT_SHORT (= int 1).
tier_from_csv() and tier_to_csv() both take two obligatory arguments, the tier name and the filename, in that order.
Tier is a list of either Interval or Point objects.
NOTE: Tier only allows adding Interval or Point objects. Adding anything else or mixing Intervals and Points will trigger an exception.
All the properties of list plus:
is_point_tier--boolTruefor point tier,Falsefor interval tier.tier_type--str, either"IntervalTier"or"PointTier"
tier_type exists principally for the convenience of the formatting functions.
All the methods of list plus:
merge()-- merge intervals NOTE renamed from 1.3!to_csv()-- convert tier data into a CSV-like list
merge() merges given intervals into one. It takes two arguments, first= and last=, both of which are integer indexes with the usual Python semantics: 0 stands for the first element, -1 for the last element, these being also the defaults. The function raises a TypeError if used with a point tier, and ValueError if the parameters do not specify a valid slice. NB! This is a function and returns the result instead of modifying the Tier in place.
to_csv() returns a CSV-like list. It’s mainly intended to be used from the TextGrid level method tier_to_csv() but can be called directly if writing to a file is not desired.
Interval is an object class representing one Interval on an IntervalTier.
dur-- interval duration (float)mid-- interval midpoint (float)text-- text label (Transcript)xmax-- interval end time (float)xmin-- interval start time (float)
containsvowel()-- does the interval contain a vowel?endswithvowel()-- does the interval end with a vowel?startswithvowel()-- does the interval start with a vowel?timegrid()-- create a time grid
containsvowel(), endswithvowel(), and startswithvowel() are bool functions (or predicates, in Lisp-parlance). They check for possible vowels in the text property in both Praat notation and Unicode, but can of course make an error if symbols are used in an unexpected way. They don’t take arguments. (Internally, endswithvowel() first transcodes the text to IPA removing all diacritics to simplify the test.)
timegrid() returns a list of timepoints (in float) evenly distributed from xmin to xmax. It takes an optional integer argument specifying the number of timepoints desired; the default is 3. It raises a ValueError if the argument is not an integer or is less than 1.
Point is a namedtuple representing one Point on a PointTier.
text-- text label (Transcript)xpos-- temporal position (float)
Transcript is a str-derived class with one special method: transcode().
All the properties of str.
All the methods of str plus:
transcode()-- convert Praat notation to Unicode or vice versa.
Without arguments, transcode() assumes its input to be in Praat notation and converts it to Unicode; no check is made as to whether the input really is in Praat notation but nothing should happen if it isn’t. User should take care and handle any exceptions.
Optional to_unicode=False argument inverts the direction of the transcoding from Unicode to Praat. Again, it is not checked whether input is in Unicode.
With optional retain_diacritics=True argument the transcoding does not remove over- and understrike diacritics from the result.
BinaryError-- invalid or unknown binary file formatParseError-- invalid or unknown text file format
import sys
import pathlib
import textgrids
for arg in sys.argv[1:]:
pathname = pathlib.Path(arg)
try:
grid = textgrids.TextGrid(pathname)
except FileNotFoundError:
print(f'File not found: {pathname.stem}', file=sys.stderr)
continue
except PermissionError:
print(f'Cannot read: {pathname.stem}', file=sys.stderr)
continue
except (textgrids.ParseError, textgrids.BinaryError):
print(f'Invalid file format: {pathname.stem}', file=sys.stderr)
continue
# We are only interested in the "syllables" tier
if 'syllables' not in grid:
print(f'No "syllables" grid in: {pathname.stem}', file=sys.stderr)
continue
for syll in grid['syllables']:
# Convert Praat to Unicode in the label
label = syll.text.transcode()
# Print label and syllable duration, CSV-like
print(f'"{label}";{syll.dur}')
import sys
import pathlib
import textgrids
for arg in sys.argv[1:]:
name = pathlib.Path(arg).stem
try:
grid = textgrids.Grid(arg)
except FileNotFoundError:
print(f'File not found: "{name}"', file=sys.stderr)
continue
except PermissionError:
print(f'Cannot read: "{name}"', file=sys.stderr)
continue
except (textgrids.ParseError, textgrids.BinaryError):
print(f'Invalid file format: "{name}"', file=sys.stderr)
continue
if 'segments' not in grid:
print(f'No "segments" grid in: "{name}"', file=sys.stderr)
continue
# I usually use `#' to caption unclear or otherwise not applicable
# segments in textgrids; this weeds them out
segments = [s for s in grid['segments'] if s.text and s.text != '#']
mean = sum(segm.dur for segm in segments) / len(segments)
print(f'{name}: mean segment duration = {mean}')
import sys
import pathlib
import textgrids
for arg in sys.argv[1:]:
path = pathlib.Path(arg)
try:
grid = textgrids.TextGrid(path)
except (textgrids.ParseError, textgrids.BinaryError):
print('Not a recognized file format!', file=sys.stderr)
continue
# Write a new file
grid.write(path.with_suffix('.bin'), fmt=textgrids.BINARY)
