Handling lines with arbitrary separators
Project description
GitHub | PyPI | Issues | Changelog
linesep provides basic functions for reading, writing, splitting, & joining text with custom separators that can occur either before, between, or after the segments they separate.
Installation
linesep requires Python 3.6 or higher. Just use pip for Python 3 (You have pip, right?) to install:
python3 -m pip install linesep
Examples
Reading sections separated by a “---” line:
with open('text.txt') as fp:
for entry in linesep.read_separated(fp, '\n---\n'):
...
Parsing output from find -print0:
find = subprocess.Popen(
['find', '/', '-some', '-complicated', '-condition', '-print0'],
stdout=subprocess.PIPE,
)
for filepath in linesep.read_terminated(find.stdout, '\0'):
...
A poor man’s JSON Text Sequence parser:
for entry in linesep.read_preceded(fp, '\x1E'):
try:
obj = json.loads(entry)
except ValueError:
pass
else:
yield obj
API
Note: Strings, filehandles, and regexes passed to the *_preceded, *_separated, and *_terminated functions may be either binary or text. However, the arguments to a single invocation of a function must be either all binary or all text, and the return type will match.
Note: Using the read_* functions with a variable-length regular expression is unreliable. The only truly foolproof way to split on such regexes is to first read the whole file into memory and then call one of the split_* functions.
Note the following about how the different types of delimiters are handled at the beginning & end of input:
When segments are terminated by a given delimiter, a delimiter at the beginning of the input creates an empty leading segment, and a delimiter at the end of the input simply terminates the last segment.
When segments are separated by a given delimiter, a delimiter at the beginning of the input creates an empty leading segment, and a delimiter at the end of the input creates an empty trailing segment.
When segments are preceded by a given delimiter, a delimiter at the beginning of the input simple starts the first segment, and a delimiter at the end of the input creates an empty trailing segment.
Two adjacent delimiters always create an empty segment between them, unless the delimiter is a regex that spans both delimiters at once.
linesep.read_preceded(
fp: IO[AnyStr],
sep: Union[AnyStr, re.Pattern[AnyStr]],
retain: bool = False,
chunk_size: int = 512,
) -> Iterator[AnyStr]
Read segments from a file-like object fp in which the beginning of each segment is indicated by the string or compiled regex sep. A generator of segments is returned; an empty file will always produce an empty generator.
If retain is true, the delimiters are included at the beginning of each segment; otherwise, they are discarded.
Data is read from the filehandle chunk_size characters at a time. If sep is a variable-length compiled regex and a delimiter in the file crosses a chunk boundary, the results are undefined.
linesep.read_separated(
fp: IO[AnyStr],
sep: Union[AnyStr, re.Pattern[AnyStr]],
retain: bool = False,
chunk_size: int = 512,
) -> Iterator[AnyStr]
Read segments from a file-like object fp in which segments are separated by the string or compiled regex sep. A generator of segments is returned; an empty file will always produce a generator with one element, the empty string.
If retain is true, the delimiters are included in the output, with the elements of the generator alternating between segments and separators, starting with a (possibly empty) segment. If retain is false, the delimiters will be discarded.
Data is read from the filehandle chunk_size characters at a time. If sep is a variable-length compiled regex and a delimiter in the file crosses a chunk boundary, the results are undefined.
linesep.read_terminated(
fp: IO[AnyStr],
sep: Union[AnyStr, re.Pattern[AnyStr]],
retain: bool = False,
chunk_size: int = 512,
) -> Iterator[AnyStr]
Read segments from a file-like object fp in which the end of each segment is indicated by the string or compiled regex sep. A generator of segments is returned; an empty file will always produce an empty generator.
If retain is true, the delimiters are included at the end of each segment; otherwise, they are discarded.
Data is read from the filehandle chunk_size characters at a time. If sep is a variable-length compiled regex and a delimiter in the file crosses a chunk boundary, the results are undefined.
linesep.split_preceded(
s: AnyStr,
sep: Union[AnyStr, re.Pattern[AnyStr]],
retain: bool = False,
) -> List[AnyStr]
Split a string s into zero or more segments starting with/preceded by the string or compiled regex sep. A list of segments is returned; an empty input string will always produce an empty list.
If retain is true, the delimiters are included at the beginning of each segment; otherwise, they are discarded.
linesep.split_separated(
s: AnyStr,
sep: Union[AnyStr, re.Pattern[AnyStr]],
retain: bool = False,
) -> List[AnyStr]
Split a string s into one or more segments separated by the string or compiled regex sep. A list of segments is returned; an empty input string will always produce a list with one element, the empty string.
If retain is true, the delimiters are included in the output, with the elements of the list alternating between segments and separators, starting with a (possibly empty) segment. If retain is false, the delimiters will be discarded.
linesep.split_terminated(
s: AnyStr,
sep: Union[AnyStr, re.Pattern[AnyStr]],
retain: bool = False,
) -> List[AnyStr]
Split a string s into zero or more segments terminated by the string or compiled regex sep. A list of segments is returned; an empty input string will always produce an empty list.
If retain is true, the delimiters are included at the end of each segment; otherwise, they are discarded.
linesep.join_preceded(iterable: Iterable[AnyStr], sep: AnyStr) -> AnyStr
Join the elements of iterable together, preceding each one with sep.
linesep.join_separated(iterable: Iterable[AnyStr], sep: AnyStr) -> AnyStr
Join the elements of iterable together, separating consecutive elements with sep.
linesep.join_terminated(iterable: Iterable[AnyStr], sep: AnyStr) -> AnyStr
Join the elements of iterable together, appending sep to each one.
linesep.write_preceded(
fp: IO[AnyStr],
iterable: Iterable[AnyStr],
sep: AnyStr,
) -> None
Write the elements of iterable to the filehandle fp, preceding each one with sep.
linesep.write_separated(
fp: IO[AnyStr],
iterable: Iterable[AnyStr],
sep: AnyStr,
) -> None
Write the elements of iterable to the filehandle fp, separating consecutive elements with sep.
linesep.write_terminated(
fp: IO[AnyStr],
iterable: Iterable[AnyStr],
sep: AnyStr,
) -> None
Write the elements of iterable to the filehandle fp, appending sep to each one.
linesep.ascii_splitlines(s: str, keepends: bool = False) -> List[str]
New in version 0.3.0
Like str.splitlines(), except it only treats LF, CR LF, and CR as line endings.
linesep.read_paragraphs(fp: Iterable[str]) -> Iterator[str]
New in version 0.3.0
Read a text filehandle or other iterable of lines (with trailing line endings retained) paragraph by paragraph. Each paragraph is terminated by one or more blank lines (i.e., lines containining only a line ending). Trailing and embedded line endings in each paragraph are retained.
Only LF, CR LF, and CR are recognized as line endings.
linesep.split_paragraphs(s: str) -> List[str]
New in version 0.3.0
Split a string into paragraphs, each one terminated by one or more blank lines (i.e., lines containining only a line ending). Trailing and embedded line endings in each paragraph are retained.
Only LF, CR LF, and CR are recognized as line endings.
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