New in version 2.3.
The so-called CSV (Comma Separated Values) format is the most common import and export format for spreadsheets and databases. There is no “CSV standard”, so the format is operationally defined by the many applications which read and write it. The lack of a standard means that subtle differences often exist in the data produced and consumed by different applications. These differences can make it annoying to process CSV files from multiple sources. Still, while the delimiters and quoting characters vary, the overall format is similar enough that it is possible to write a single module which can efficiently manipulate such data, hiding the details of reading and writing the data from the programmer.
The csv module implements classes to read and write tabular data in CSV format. It allows programmers to say, “write this data in the format preferred by Excel,” or “read data from this file which was generated by Excel,” without knowing the precise details of the CSV format used by Excel. Programmers can also describe the CSV formats understood by other applications or define their own special-purpose CSV formats.
The csv module’s reader and writer objects read and write sequences. Programmers can also read and write data in dictionary form using the DictReader and DictWriter classes.
- PEP 305 - CSV File API
- The Python Enhancement Proposal which proposed this addition to Python.
The csv module defines the following functions:
csv.reader(csvfile[, dialect=’excel’][, fmtparam])
Return a reader object which will iterate over lines in the given csvfile. csvfile can be any object which supports the iterator protocol and returns a string each time its next() method is called — file objects and list objects are both suitable. If csvfile is a file object, it must be opened with the ‘b’ flag on platforms where that makes a difference. An optional dialect parameter can be given which is used to define a set of parameters specific to a particular CSV dialect. It may be an instance of a subclass of the Dialect class or one of the strings returned by the list_dialects() function. The other optional fmtparam keyword arguments can be given to override individual formatting parameters in the current dialect. For full details about the dialect and formatting parameters, see section Dialects and Formatting Parameters.
All data read are returned as strings. No automatic data type conversion is performed.
A short usage example:>>> import csv >>> spamReader = csv.reader(open('eggs.csv'), delimiter=' ', quotechar='|') >>> for row in spamReader: ... print ', '.join(row) Spam, Spam, Spam, Spam, Spam, Baked Beans Spam, Lovely Spam, Wonderful Spam
Changed in version 2.5: The parser is now stricter with respect to multi-line quoted fields. Previously, if a line ended within a quoted field without a terminating newline character, a newline would be inserted into the returned field. This behavior caused problems when reading files which contained carriage return characters within fields. The behavior was changed to return the field without inserting newlines. As a consequence, if newlines embedded within fields are important, the input should be split into lines in a manner which preserves the newline characters.
csv.writer(csvfile[, dialect=’excel’][, fmtparam])
Return a writer object responsible for converting the user’s data into delimited strings on the given file-like object. csvfile can be any object with a write() method. If csvfile is a file object, it must be opened with the ‘b’ flag on platforms where that makes a difference. An optional dialect parameter can be given which is used to define a set of parameters specific to a particular CSV dialect. It may be an instance of a subclass of the Dialect class or one of the strings returned by the list_dialects() function. The other optional fmtparam keyword arguments can be given to override individual formatting parameters in the current dialect. For full details about the dialect and formatting parameters, see section Dialects and Formatting Parameters. To make it as easy as possible to interface with modules which implement the DB API, the value None is written as the empty string. While this isn’t a reversible transformation, it makes it easier to dump SQL NULL data values to CSV files without preprocessing the data returned from a cursor.fetch* call. All other non-string data are stringified with str() before being written.
A short usage example:>>> import csv >>> spamWriter = csv.writer(open('eggs.csv', 'w'), delimiter=' ', ... quotechar='|', quoting=QUOTE_MINIMAL) >>> spamWriter.writerow(['Spam'] * 5 + ['Baked Beans']) >>> spamWriter.writerow(['Spam', 'Lovely Spam', 'Wonderful Spam'])
csv.register_dialect(name[, dialect][, fmtparam])
Associate dialect with name. name must be a string or Unicode object. The dialect can be specified either by passing a sub-class of Dialect, or by fmtparam keyword arguments, or both, with keyword arguments overriding parameters of the dialect. For full details about the dialect and formatting parameters, see section Dialects and Formatting Parameters.
Delete the dialect associated with name from the dialect registry. An Error is raised if name is not a registered dialect name.
Return the dialect associated with name. An Error is raised if name is not a registered dialect name.
Changed in version 2.5: This function now returns an immutable Dialect. Previously an instance of the requested dialect was returned. Users could modify the underlying class, changing the behavior of active readers and writers.
Return the names of all registered dialects.
Returns the current maximum field size allowed by the parser. If new_limit is given, this becomes the new limit.
New in version 2.5.
The csv module defines the following classes:
Create an object which operates like a regular reader but maps the information read into a dict whose keys are given by the optional fieldnames parameter. If the fieldnames parameter is omitted, the values in the first row of the csvfile will be used as the fieldnames. If the row read has fewer fields than the fieldnames sequence, the value of restval will be used as the default value. If the row read has more fields than the fieldnames sequence, the remaining data is added as a sequence keyed by the value of restkey. If the row read has fewer fields than the fieldnames sequence, the remaining keys take the value of the optional restval parameter. Any other optional or keyword arguments are passed to the underlying reader instance.
Create an object which operates like a regular writer but maps dictionaries onto output rows. The fieldnames parameter identifies the order in which values in the dictionary passed to the writerow() method are written to the csvfile. The optional restval parameter specifies the value to be written if the dictionary is missing a key in fieldnames. If the dictionary passed to the writerow() method contains a key not found in fieldnames, the optional extrasaction parameter indicates what action to take. If it is set to 'raise' a ValueError is raised. If it is set to 'ignore', extra values in the dictionary are ignored. Any other optional or keyword arguments are passed to the underlying writer instance.
Note that unlike the DictReader class, the fieldnames parameter of the DictWriter is not optional. Since Python’s dict objects are not ordered, there is not enough information available to deduce the order in which the row should be written to the csvfile.
class class csv.Dialect
The Dialect class is a container class relied on primarily for its attributes, which are used to define the parameters for a specific reader or writer instance.
class class csv.excel
The excel class defines the usual properties of an Excel- generated CSV file. It is registered with the dialect name 'excel'.
class class csv.excel_tab
The excel_tab class defines the usual properties of an Excel- generated TAB-delimited file. It is registered with the dialect name 'excel-tab'.
class class csv.Sniffer
The Sniffer class is used to deduce the format of a CSV file.
The Sniffer class provides two methods:
sniff(sample[, delimiters=None])Analyze the given sample and return a Dialect subclass reflecting the parameters found. If the optional delimiters parameter is given, it is interpreted as a string containing possible valid delimiter characters.
has_header(sample)Analyze the sample text (presumed to be in CSV format) and return True if the first row appears to be a series of column headers.
An example for Sniffer use:
csvfile = open(“example.csv”) dialect = csv.Sniffer().sniff(csvfile.read(1024)) csvfile.seek(0) reader = csv.reader(csvfile, dialect) # ... process CSV file contents here ...
The csv module defines the following constants:
Instructs writer objects to quote all fields.
Instructs writer objects to only quote those fields which contain special characters such as delimiter, quotechar or any of the characters in lineterminator.
Instructs writer objects to quote all non-numeric fields.
Instructs the reader to convert all non-quoted fields to type float.
Instructs writer objects to never quote fields. When the current delimiter occurs in output data it is preceded by the current escapechar character. If escapechar is not set, the writer will raise Error if any characters that require escaping are encountered.
Instructs reader to perform no special processing of quote characters.
The csv module defines the following exception:
exception exception csv.Error
Raised by any of the functions when an error is detected.
To make it easier to specify the format of input and output records, specific formatting parameters are grouped together into dialects. A dialect is a subclass of the Dialect class having a set of specific methods and a single validate() method. When creating reader or writer objects, the programmer can specify a string or a subclass of the Dialect class as the dialect parameter. In addition to, or instead of, the dialect parameter, the programmer can also specify individual formatting parameters, which have the same names as the attributes defined below for the Dialect class.
Dialects support the following attributes:
A one-character string used to separate fields. It defaults to ','.
Controls how instances of quotechar appearing inside a field should be themselves be quoted. When True, the character is doubled. When False, the escapechar is used as a prefix to the quotechar. It defaults to True.
On output, if doublequote is False and no escapechar is set, Error is raised if a quotechar is found in a field.
A one-character string used by the writer to escape the delimiter if quoting is set to QUOTE_NONE and the quotechar if doublequote is False. On reading, the escapechar removes any special meaning from the following character. It defaults to None, which disables escaping.
The string used to terminate lines produced by the writer. It defaults to '\r\n'.
- Note: The reader is hard-coded to recognise either '\r' or
- '\n' as end-of-line, and ignores lineterminator. This behavior may change in the future.
A one-character string used to quote fields containing special characters, such as the delimiter or quotechar, or which contain new-line characters. It defaults to '"'.
Controls when quotes should be generated by the writer and recognised by the reader. It can take on any of the QUOTE_* constants (see section Module Contents) and defaults to QUOTE_MINIMAL.
When True, whitespace immediately following the delimiter is ignored. The default is False.
Reader objects (DictReader instances and objects returned by the reader() function) have the following public methods:
Return the next row of the reader’s iterable object as a list, parsed according to the current dialect.
Reader objects have the following public attributes:
A read-only description of the dialect in use by the parser.
The number of lines read from the source iterator. This is not the same as the number of records returned, as records can span multiple lines.
New in version 2.5.
DictReader objects have the following public attribute:
If not passed as a parameter when creating the object, this attribute is initialized upon first access or when the first record is read from the file.
Changed in version 2.6.
Writer objects (DictWriter instances and objects returned by the writer() function) have the following public methods. A row must be a sequence of strings or numbers for Writer objects and a dictionary mapping fieldnames to strings or numbers (by passing them through str() first) for DictWriter objects. Note that complex numbers are written out surrounded by parens. This may cause some problems for other programs which read CSV files (assuming they support complex numbers at all).
Write the row parameter to the writer’s file object, formatted according to the current dialect.
Write all the rows parameters (a list of row objects as described above) to the writer’s file object, formatted according to the current dialect.
Writer objects have the following public attribute:
A read-only description of the dialect in use by the writer.
The simplest example of reading a CSV file:
import csv reader = csv.reader(open(“some.csv”, “rb”)) for row in reader:print row
Reading a file with an alternate format:
import csv reader = csv.reader(open(“passwd”, “rb”), delimiter=’:’, quoting=csv.QUOTE_NONE) for row in reader:print row
The corresponding simplest possible writing example is:
import csv writer = csv.writer(open(“some.csv”, “wb”)) writer.writerows(someiterable)
Registering a new dialect:
csv.register_dialect(‘unixpwd’, delimiter=’:’, quoting=csv.QUOTE_NONE)
reader = csv.reader(open(“passwd”, “rb”), ‘unixpwd’)
A slightly more advanced use of the reader — catching and reporting errors:
import csv, sys filename = “some.csv” reader = csv.reader(open(filename, “rb”)) try:
- for row in reader:
- print row
- except csv.Error, e:
- sys.exit(‘file %s, line %d: %s’ % (filename, reader.line_num, e))
And while the module doesn’t directly support parsing strings, it can easily be done:
import csv for row in csv.reader([‘one,two,three’]):print row
The csv module doesn’t directly support reading and writing Unicode, but it is 8-bit-clean save for some problems with ASCII NUL characters. So you can write functions or classes that handle the encoding and decoding for you as long as you avoid encodings like UTF-16 that use NULs. UTF-8 is recommended.
unicode_csv_reader() below is a generator that wraps csv.reader to handle Unicode CSV data (a list of Unicode strings). utf_8_encoder() is a generator that encodes the Unicode strings as UTF-8, one string (or row) at a time. The encoded strings are parsed by the CSV reader, and unicode_csv_reader() decodes the UTF-8-encoded cells back into Unicode:
- def unicode_csv_reader(unicode_csv_data, dialect=csv.excel, **kwargs):
# csv.py doesn’t do Unicode; encode temporarily as UTF-8: csv_reader = csv.reader(utf_8_encoder(unicode_csv_data),dialect=dialect, **kwargs)
- for row in csv_reader:
- # decode UTF-8 back to Unicode, cell by cell: yield [unicode(cell, ‘utf-8’) for cell in row]
- def utf_8_encoder(unicode_csv_data):
- for line in unicode_csv_data:
- yield line.encode(‘utf-8’)
For all other encodings the following UnicodeReader and UnicodeWriter classes can be used. They take an additional encoding parameter in their constructor and make sure that the data passes the real reader or writer encoded as UTF-8:
import csv, codecs, cStringIO
- class UTF8Recoder:
“”” Iterator that reads an encoded stream and reencodes the input to UTF-8 “”” def __init__(self, f, encoding):self.reader = codecs.getreader(encoding)(f)
- def __iter__(self):
- return self
- def next(self):
- return self.reader.next().encode(“utf-8”)
- class UnicodeReader:
“”” A CSV reader which will iterate over lines in the CSV file “f”, which is encoded in the given encoding. “”“
- class UnicodeWriter:
“”” A CSV writer which will write rows to CSV file “f”, which is encoded in the given encoding. “”“
- def __init__(self, f, dialect=csv.excel, encoding=”utf-8”, **kwds):
- # Redirect output to a queue self.queue = cStringIO.StringIO() self.writer = csv.writer(self.queue, dialect=dialect, **kwds) self.stream = f self.encoder = codecs.getincrementalencoder(encoding)()
- def writerow(self, row):
- self.writer.writerow([s.encode(“utf-8”) for s in row]) # Fetch UTF-8 output from the queue ... data = self.queue.getvalue() data = data.decode(“utf-8”) # ... and reencode it into the target encoding data = self.encoder.encode(data) # write to the target stream self.stream.write(data) # empty queue self.queue.truncate(0)
- def writerows(self, rows):
- for row in rows: