Using ConfigParser to read a file without section name
Question:
I am using ConfigParser to read the runtime configuration of a script.
I would like to have the flexibility of not providing a section name (there are scripts which are simple enough; they don’t need a ‘section’). ConfigParser will throw a NoSectionError exception, and will not accept the file.
How can I make ConfigParser simply retrieve the (key, value) tuples of a config file without section names?
For instance:
key1=val1
key2:val2
I would rather not write to the config file.
Answers:
Alex Martelli provided a solution for using ConfigParser to parse .properties files (which are apparently section-less config files).
His solution is a file-like wrapper that will automagically insert a dummy section heading to satisfy ConfigParser‘s requirements.
You can use the ConfigObj library to do that simply : http://www.voidspace.org.uk/python/configobj.html
Updated: Find latest code here.
If you are under Debian/Ubuntu, you can install this module using your package manager :
apt-get install python-configobj
An example of use:
from configobj import ConfigObj
config = ConfigObj('myConfigFile.ini')
config.get('key1') # You will get val1
config.get('key2') # You will get val2
Having ran into this problem myself, I wrote a complete wrapper to ConfigParser (the version in Python 2) that can read and write files without sections transparently, based on Alex Martelli’s approach linked on the accepted answer. It should be a drop-in replacement to any usage of ConfigParser. Posting it in case anyone in need of that finds this page.
import ConfigParser
import StringIO
class SectionlessConfigParser(ConfigParser.RawConfigParser):
"""
Extends ConfigParser to allow files without sections.
This is done by wrapping read files and prepending them with a placeholder
section, which defaults to '__config__'
"""
def __init__(self, *args, **kwargs):
default_section = kwargs.pop('default_section', None)
ConfigParser.RawConfigParser.__init__(self, *args, **kwargs)
self._default_section = None
self.set_default_section(default_section or '__config__')
def get_default_section(self):
return self._default_section
def set_default_section(self, section):
self.add_section(section)
# move all values from the previous default section to the new one
try:
default_section_items = self.items(self._default_section)
self.remove_section(self._default_section)
except ConfigParser.NoSectionError:
pass
else:
for (key, value) in default_section_items:
self.set(section, key, value)
self._default_section = section
def read(self, filenames):
if isinstance(filenames, basestring):
filenames = [filenames]
read_ok = []
for filename in filenames:
try:
with open(filename) as fp:
self.readfp(fp)
except IOError:
continue
else:
read_ok.append(filename)
return read_ok
def readfp(self, fp, *args, **kwargs):
stream = StringIO()
try:
stream.name = fp.name
except AttributeError:
pass
stream.write('[' + self._default_section + ']n')
stream.write(fp.read())
stream.seek(0, 0)
return ConfigParser.RawConfigParser.readfp(self, stream, *args,
**kwargs)
def write(self, fp):
# Write the items from the default section manually and then remove them
# from the data. They'll be re-added later.
try:
default_section_items = self.items(self._default_section)
self.remove_section(self._default_section)
for (key, value) in default_section_items:
fp.write("{0} = {1}n".format(key, value))
fp.write("n")
except ConfigParser.NoSectionError:
pass
ConfigParser.RawConfigParser.write(self, fp)
self.add_section(self._default_section)
for (key, value) in default_section_items:
self.set(self._default_section, key, value)
Enlightened by this answer by jterrace, I come up with this solution:
- Read entire file into a string
- Prefix with a default section name
- Use StringIO to mimic a file-like object
ini_str = '[root]n' + open(ini_path, 'r').read()
ini_fp = StringIO.StringIO(ini_str)
config = ConfigParser.RawConfigParser()
config.readfp(ini_fp)
EDIT for future googlers: As of Python 3.4+ readfp is deprecated, and StringIO is not needed anymore. Instead we can use read_string directly:
with open('config_file') as f:
file_content = '[dummy_section]n' + f.read()
config_parser = ConfigParser.RawConfigParser()
config_parser.read_string(file_content)
The easiest way to do this is to use python’s CSV parser, in my opinion. Here’s a read/write function demonstrating this approach as well as a test driver. This should work provided the values are not allowed to be multi-line. 🙂
import csv
import operator
def read_properties(filename):
""" Reads a given properties file with each line of the format key=value. Returns a dictionary containing the pairs.
Keyword arguments:
filename -- the name of the file to be read
"""
result={ }
with open(filename, "rb") as csvfile:
reader = csv.reader(csvfile, delimiter='=', escapechar='\', quoting=csv.QUOTE_NONE)
for row in reader:
if len(row) != 2:
raise csv.Error("Too many fields on row with contents: "+str(row))
result[row[0]] = row[1]
return result
def write_properties(filename,dictionary):
""" Writes the provided dictionary in key-sorted order to a properties file with each line of the format key=value
Keyword arguments:
filename -- the name of the file to be written
dictionary -- a dictionary containing the key/value pairs.
"""
with open(filename, "wb") as csvfile:
writer = csv.writer(csvfile, delimiter='=', escapechar='\', quoting=csv.QUOTE_NONE)
for key, value in sorted(dictionary.items(), key=operator.itemgetter(0)):
writer.writerow([ key, value])
def main():
data={
"Hello": "5+5=10",
"World": "Snausage",
"Awesome": "Possum"
}
filename="test.properties"
write_properties(filename,data)
newdata=read_properties(filename)
print "Read in: "
print newdata
print
contents=""
with open(filename, 'rb') as propfile:
contents=propfile.read()
print "File contents:"
print contents
print ["Failure!", "Success!"][data == newdata]
return
if __name__ == '__main__':
main()
You can do this in a single line of code.
In python 3, prepend a fake section header to your config file data, and pass it to read_string().
from configparser import ConfigParser
parser = ConfigParser()
with open("foo.conf") as stream:
parser.read_string("[top]n" + stream.read()) # This line does the trick.
You could also use itertools.chain() to simulate a section header for read_file(). This might be more memory-efficient than the above approach, which might be helpful if you have large config files in a constrained runtime environment.
from configparser import ConfigParser
from itertools import chain
parser = ConfigParser()
with open("foo.conf") as lines:
lines = chain(("[top]",), lines) # This line does the trick.
parser.read_file(lines)
In python 2, prepend a fake section header to your config file data, wrap the result in a StringIO object, and pass it to readfp().
from ConfigParser import ConfigParser
from StringIO import StringIO
parser = ConfigParser()
with open("foo.conf") as stream:
stream = StringIO("[top]n" + stream.read()) # This line does the trick.
parser.readfp(stream)
With any of these approaches, your config settings will be available in parser.items('top').
You could use StringIO in python 3 as well, perhaps for compatibility with both old and new python interpreters, but note that it now lives in the io package and readfp() is now deprecated.
Alternatively, you might consider using a TOML parser instead of ConfigParser.
Blueicefield’s answer mentioned configobj, but the original lib only supports Python 2. It now has a Python 3+ compatible port:
https://github.com/DiffSK/configobj
APIs haven’t changed, see it’s doc.
I am using ConfigParser to read the runtime configuration of a script.
I would like to have the flexibility of not providing a section name (there are scripts which are simple enough; they don’t need a ‘section’). ConfigParser will throw a NoSectionError exception, and will not accept the file.
How can I make ConfigParser simply retrieve the (key, value) tuples of a config file without section names?
For instance:
key1=val1
key2:val2
I would rather not write to the config file.
Alex Martelli provided a solution for using ConfigParser to parse .properties files (which are apparently section-less config files).
His solution is a file-like wrapper that will automagically insert a dummy section heading to satisfy ConfigParser‘s requirements.
You can use the ConfigObj library to do that simply : http://www.voidspace.org.uk/python/configobj.html
Updated: Find latest code here.
If you are under Debian/Ubuntu, you can install this module using your package manager :
apt-get install python-configobj
An example of use:
from configobj import ConfigObj
config = ConfigObj('myConfigFile.ini')
config.get('key1') # You will get val1
config.get('key2') # You will get val2
Having ran into this problem myself, I wrote a complete wrapper to ConfigParser (the version in Python 2) that can read and write files without sections transparently, based on Alex Martelli’s approach linked on the accepted answer. It should be a drop-in replacement to any usage of ConfigParser. Posting it in case anyone in need of that finds this page.
import ConfigParser
import StringIO
class SectionlessConfigParser(ConfigParser.RawConfigParser):
"""
Extends ConfigParser to allow files without sections.
This is done by wrapping read files and prepending them with a placeholder
section, which defaults to '__config__'
"""
def __init__(self, *args, **kwargs):
default_section = kwargs.pop('default_section', None)
ConfigParser.RawConfigParser.__init__(self, *args, **kwargs)
self._default_section = None
self.set_default_section(default_section or '__config__')
def get_default_section(self):
return self._default_section
def set_default_section(self, section):
self.add_section(section)
# move all values from the previous default section to the new one
try:
default_section_items = self.items(self._default_section)
self.remove_section(self._default_section)
except ConfigParser.NoSectionError:
pass
else:
for (key, value) in default_section_items:
self.set(section, key, value)
self._default_section = section
def read(self, filenames):
if isinstance(filenames, basestring):
filenames = [filenames]
read_ok = []
for filename in filenames:
try:
with open(filename) as fp:
self.readfp(fp)
except IOError:
continue
else:
read_ok.append(filename)
return read_ok
def readfp(self, fp, *args, **kwargs):
stream = StringIO()
try:
stream.name = fp.name
except AttributeError:
pass
stream.write('[' + self._default_section + ']n')
stream.write(fp.read())
stream.seek(0, 0)
return ConfigParser.RawConfigParser.readfp(self, stream, *args,
**kwargs)
def write(self, fp):
# Write the items from the default section manually and then remove them
# from the data. They'll be re-added later.
try:
default_section_items = self.items(self._default_section)
self.remove_section(self._default_section)
for (key, value) in default_section_items:
fp.write("{0} = {1}n".format(key, value))
fp.write("n")
except ConfigParser.NoSectionError:
pass
ConfigParser.RawConfigParser.write(self, fp)
self.add_section(self._default_section)
for (key, value) in default_section_items:
self.set(self._default_section, key, value)
Enlightened by this answer by jterrace, I come up with this solution:
- Read entire file into a string
- Prefix with a default section name
- Use StringIO to mimic a file-like object
ini_str = '[root]n' + open(ini_path, 'r').read()
ini_fp = StringIO.StringIO(ini_str)
config = ConfigParser.RawConfigParser()
config.readfp(ini_fp)
EDIT for future googlers: As of Python 3.4+ readfp is deprecated, and StringIO is not needed anymore. Instead we can use read_string directly:
with open('config_file') as f:
file_content = '[dummy_section]n' + f.read()
config_parser = ConfigParser.RawConfigParser()
config_parser.read_string(file_content)
The easiest way to do this is to use python’s CSV parser, in my opinion. Here’s a read/write function demonstrating this approach as well as a test driver. This should work provided the values are not allowed to be multi-line. 🙂
import csv
import operator
def read_properties(filename):
""" Reads a given properties file with each line of the format key=value. Returns a dictionary containing the pairs.
Keyword arguments:
filename -- the name of the file to be read
"""
result={ }
with open(filename, "rb") as csvfile:
reader = csv.reader(csvfile, delimiter='=', escapechar='\', quoting=csv.QUOTE_NONE)
for row in reader:
if len(row) != 2:
raise csv.Error("Too many fields on row with contents: "+str(row))
result[row[0]] = row[1]
return result
def write_properties(filename,dictionary):
""" Writes the provided dictionary in key-sorted order to a properties file with each line of the format key=value
Keyword arguments:
filename -- the name of the file to be written
dictionary -- a dictionary containing the key/value pairs.
"""
with open(filename, "wb") as csvfile:
writer = csv.writer(csvfile, delimiter='=', escapechar='\', quoting=csv.QUOTE_NONE)
for key, value in sorted(dictionary.items(), key=operator.itemgetter(0)):
writer.writerow([ key, value])
def main():
data={
"Hello": "5+5=10",
"World": "Snausage",
"Awesome": "Possum"
}
filename="test.properties"
write_properties(filename,data)
newdata=read_properties(filename)
print "Read in: "
print newdata
print
contents=""
with open(filename, 'rb') as propfile:
contents=propfile.read()
print "File contents:"
print contents
print ["Failure!", "Success!"][data == newdata]
return
if __name__ == '__main__':
main()
You can do this in a single line of code.
In python 3, prepend a fake section header to your config file data, and pass it to read_string().
from configparser import ConfigParser
parser = ConfigParser()
with open("foo.conf") as stream:
parser.read_string("[top]n" + stream.read()) # This line does the trick.
You could also use itertools.chain() to simulate a section header for read_file(). This might be more memory-efficient than the above approach, which might be helpful if you have large config files in a constrained runtime environment.
from configparser import ConfigParser
from itertools import chain
parser = ConfigParser()
with open("foo.conf") as lines:
lines = chain(("[top]",), lines) # This line does the trick.
parser.read_file(lines)
In python 2, prepend a fake section header to your config file data, wrap the result in a StringIO object, and pass it to readfp().
from ConfigParser import ConfigParser
from StringIO import StringIO
parser = ConfigParser()
with open("foo.conf") as stream:
stream = StringIO("[top]n" + stream.read()) # This line does the trick.
parser.readfp(stream)
With any of these approaches, your config settings will be available in parser.items('top').
You could use StringIO in python 3 as well, perhaps for compatibility with both old and new python interpreters, but note that it now lives in the io package and readfp() is now deprecated.
Alternatively, you might consider using a TOML parser instead of ConfigParser.
Blueicefield’s answer mentioned configobj, but the original lib only supports Python 2. It now has a Python 3+ compatible port:
https://github.com/DiffSK/configobj
APIs haven’t changed, see it’s doc.