nopaque/app/corpora/CQiWrapper/CQi.py

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2019-11-07 14:48:47 +00:00
# ########################################################################### #
# IMS CQi specification #
# #
# Version: 0.1a ;o) #
# Author: Stefan Evert (evert@ims.uni-stuttgart.de) #
# Modified by: Patrick Jentsch <p.jentsch@uni-bielefeld.de #
# Modified date: Thurs Oct 10 <Uhrzeit> #
# ########################################################################### #
2020-03-11 12:34:09 +00:00
import socket
import struct
2019-11-07 14:48:47 +00:00
""" 1. padding """
PAD = 0x00
""" 2. CQi responses """
""" 2.1 CQI_STATUS_* """
STATUS = 0x01
STATUS_OK = 0x0101
STATUS_CONNECT_OK = 0x0102
STATUS_BYE_OK = 0x0103
STATUS_PING_OK = 0x0104
""" 2.2 CQI_ERROR_* """
ERROR = 0x02
ERROR_GENERAL_ERROR = 0x0201
ERROR_CONNECT_REFUSED = 0x0202
ERROR_USER_ABORT = 0x0203
ERROR_SYNTAX_ERROR = 0x0204
# includes corpus/attribute/subcorpus specifier syntax
""" 2.3 CQI_DATA_* """
DATA = 0x03
DATA_BYTE = 0x0301
DATA_BOOL = 0x0302
DATA_INT = 0x0303
DATA_STRING = 0x0304
DATA_BYTE_LIST = 0x0305
DATA_BOOL_LIST = 0x0306
DATA_INT_LIST = 0x0307
DATA_STRING_LIST = 0x0308
DATA_INT_INT = 0x0309
DATA_INT_INT_INT_INT = 0x030A
DATA_INT_TABLE = 0x030B
""" 2.4 CQI_CL_ERROR_* """
"""
" NOTE: some CL error codes are not represented in the CQi specs
" - usually because they're not used in the CL any more
" - CDA_ENOSTRING is not considered an error (returns -1)
" - CDA_EARGS: dynamic attribute calls not yet supported
"""
CL_ERROR = 0x04
CL_ERROR_NO_SUCH_ATTRIBUTE = 0x0401
# returned if CQi server couldn't open attribute
CL_ERROR_WRONG_ATTRIBUTE_TYPE = 0x0402
# CDA_EATTTYPE
CL_ERROR_OUT_OF_RANGE = 0x0403
# CDA_EIDORNG, CDA_EIDXORNG, CDA_EPOSORNG
CL_ERROR_REGEX = 0x0404
# CDA_EPATTERN (not used), CDA_EBADREGEX
CL_ERROR_CORPUS_ACCESS = 0x0405
# CDA_ENODATA
CL_ERROR_OUT_OF_MEMORY = 0x0406
# CDA_ENOMEM
# this means the CQi server has run out of memory;
# try discarding some other corpora and/or subcorpora
CL_ERROR_INTERNAL = 0x0407
# CDA_EOTHER, CDA_ENYI
# this is the classical 'please contact technical support' error
""" 2.5 CQI_CQP_ERROR_* """
CQP_ERROR = 0x05
# CQP error messages yet to be defined
CQP_ERROR_GENERAL = 0x0501
CQP_ERROR_NO_SUCH_CORPUS = 0x0502
CQP_ERROR_INVALID_FIELD = 0x0503
CQP_ERROR_OUT_OF_RANGE = 0x0504
# various cases where a number is out of range
""" 3. CQi commands """
""" 3.1 CQI_CTRL_* """
CTRL = 0x11
CTRL_CONNECT = 0x1101
# INPUT: (STRING username, STRING password)
# OUTPUT: CQI_STATUS_CONNECT_OK, CQI_ERROR_CONNECT_REFUSED
CTRL_BYE = 0x1102
# INPUT: ()
# OUTPUT: CQI_STATUS_BYE_OK
CTRL_USER_ABORT = 0x1103
# INPUT: ()
# OUTPUT:
CTRL_PING = 0x1104
# INPUT: ()
# OUTPUT: CQI_STATUS_PING_OK
CTRL_LAST_GENERAL_ERROR = 0x1105
# INPUT: ()
# OUTPUT: CQI_DATA_STRING
# full-text error message for the last general error reported by the CQi server
""" 3.2 CQI_ASK_FEATURE_* """
ASK_FEATURE = 0x12
ASK_FEATURE_CQI_1_0 = 0x1201
# INPUT: ()
# OUTPUT: CQI_DATA_BOOL
ASK_FEATURE_CL_2_3 = 0x1202
# INPUT: ()
# OUTPUT: CQI_DATA_BOOL
ASK_FEATURE_CQP_2_3 = 0x1203
# INPUT: ()
# OUTPUT: CQI_DATA_BOOL
""" 3.3 CQI_CORPUS_* """
CORPUS = 0x13
CORPUS_LIST_CORPORA = 0x1301
# INPUT: ()
# OUTPUT: CQI_DATA_STRING_LIST
CORPUS_CHARSET = 0x1303
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING
CORPUS_PROPERTIES = 0x1304
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
CORPUS_POSITIONAL_ATTRIBUTES = 0x1305
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
CORPUS_STRUCTURAL_ATTRIBUTES = 0x1306
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
CORPUS_STRUCTURAL_ATTRIBUTE_HAS_VALUES = 0x1307
# INPUT: (STRING attribute)
# OUTPUT: CQI_DATA_BOOL
CORPUS_ALIGNMENT_ATTRIBUTES = 0x1308
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
CORPUS_FULL_NAME = 0x1309
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING
# the full name of <corpus> as specified in its registry entry
CORPUS_INFO = 0x130A
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
# returns the contents of the .info file of <corpus> as a list of lines
CORPUS_DROP_CORPUS = 0x130B
# INPUT: (STRING corpus)
# OUTPUT: CQI_STATUS_OK
# try to unload a corpus and all its attributes from memory
""" 3.4 CQI_CL_* """
CL = 0x14
# low-level corpus access (CL functions)
CL_ATTRIBUTE_SIZE = 0x1401
# INPUT: (STRING attribute)
# OUTPUT: CQI_DATA_INT
# returns the size of <attribute>:
# - number of tokens (positional)
# - number of regions (structural)
# - number of alignments (alignment)
CL_LEXICON_SIZE = 0x1402
# INPUT: (STRING attribute)
# OUTPUT: CQI_DATA_INT
# returns the number of entries in the lexicon of a positional attribute;
# valid lexicon IDs range from 0 .. (lexicon_size - 1)
CL_DROP_ATTRIBUTE = 0x1403
# INPUT: (STRING attribute)
# OUTPUT: CQI_STATUS_OK
# unload attribute from memory
"""
" NOTE: simple (scalar) mappings are applied to lists (the returned list has
" exactly the same length as the list passed as an argument)
"""
CL_STR2ID = 0x1404
# INPUT: (STRING attribute, STRING_LIST strings)
# OUTPUT: CQI_DATA_INT_LIST
# returns -1 for every string in <strings> that is not found in the lexicon
CL_ID2STR = 0x1405
# INPUT: (STRING attribute, INT_LIST id)
# OUTPUT: CQI_DATA_STRING_LIST
# returns "" for every ID in <id> that is out of range
CL_ID2FREQ = 0x1406
# INPUT: (STRING attribute, INT_LIST id)
# OUTPUT: CQI_DATA_INT_LIST
# returns 0 for every ID in <id> that is out of range
CL_CPOS2ID = 0x1407
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns -1 for every corpus position in <cpos> that is out of range
CL_CPOS2STR = 0x1408
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_STRING_LIST
# returns "" for every corpus position in <cpos> that is out of range
CL_CPOS2STRUC = 0x1409
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns -1 for every corpus position not inside a structure region
"""
" NOTE: temporary addition for the Euralex2000 tutorial, but should probably be
" included in CQi specs
"""
CL_CPOS2LBOUND = 0x1420
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns left boundary of s-attribute region enclosing cpos, -1 if not in
# region
CL_CPOS2RBOUND = 0x1421
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns right boundary of s-attribute region enclosing cpos, -1 if not in
# region
CL_CPOS2ALG = 0x140A
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns -1 for every corpus position not inside an alignment
CL_STRUC2STR = 0x140B
# INPUT: (STRING attribute, INT_LIST strucs)
# OUTPUT: CQI_DATA_STRING_LIST
# returns annotated string values of structure regions in <strucs>; "" if out
# of range
# check CQI_CORPUS_STRUCTURAL_ATTRIBUTE_HAS_VALUES(<attribute>) first
"""
" NOTE: the following mappings take a single argument and return multiple
" values, including lists of arbitrary size
"""
CL_ID2CPOS = 0x140C
# INPUT: (STRING attribute, INT id)
# OUTPUT: CQI_DATA_INT_LIST
# returns all corpus positions where the given token occurs
CL_IDLIST2CPOS = 0x140D
# INPUT: (STRING attribute, INT_LIST id_list)
# OUTPUT: CQI_DATA_INT_LIST
# returns all corpus positions where one of the tokens in <id_list>
# occurs; the returned list is sorted as a whole, not per token id
CL_REGEX2ID = 0x140E
# INPUT: (STRING attribute, STRING regex)
# OUTPUT: CQI_DATA_INT_LIST
# returns lexicon IDs of all tokens that match <regex>; the returned
# list may be empty (size 0);
CL_STRUC2CPOS = 0x140F
# INPUT: (STRING attribute, INT struc)
# OUTPUT: CQI_DATA_INT_INT
# returns start and end corpus positions of structure region <struc>
CL_ALG2CPOS = 0x1410
# INPUT: (STRING attribute, INT alg)
# OUTPUT: CQI_DATA_INT_INT_INT_INT
# returns (src_start, src_end, target_start, target_end)
""" 3.5 CQI_CQP_* """
CQP = 0x15
CQP_QUERY = 0x1501
# INPUT: (STRING mother_corpus, STRING subcorpus_name, STRING query)
# OUTPUT: CQI_STATUS_OK
# <query> must include the ';' character terminating the query.
CQP_LIST_SUBCORPORA = 0x1502
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
CQP_SUBCORPUS_SIZE = 0x1503
# INPUT: (STRING subcorpus)
# OUTPUT: CQI_DATA_INT
CQP_SUBCORPUS_HAS_FIELD = 0x1504
# INPUT: (STRING subcorpus, BYTE field)
# OUTPUT: CQI_DATA_BOOL
CQP_DUMP_SUBCORPUS = 0x1505
# INPUT: (STRING subcorpus, BYTE field, INT first, INT last)
# OUTPUT: CQI_DATA_INT_LIST
# Dump the values of <field> for match ranges <first> .. <last> in <subcorpus>.
# <field> is one of the CQI_CONST_FIELD_* constants.
CQP_DROP_SUBCORPUS = 0x1509
# INPUT: (STRING subcorpus)
# OUTPUT: CQI_STATUS_OK
# delete a subcorpus from memory
"""
" NOTE: The following two functions are temporarily included for the Euralex
" 2000 tutorial demo
"""
""" NOTE: frequency distribution of single tokens """
CQP_FDIST_1 = 0x1510
# INPUT: (STRING subcorpus, INT cutoff, BYTE field, STRING attribute)
# OUTPUT: CQI_DATA_INT_LIST
# returns <n> (id, frequency) pairs flattened into a list of size 2*<n>
# field is one of CQI_CONST_FIELD_MATCH, CQI_CONST_FIELD_TARGET,
# CQI_CONST_FIELD_KEYWORD
# NB: pairs are sorted by frequency desc.
""" NOTE: frequency distribution of pairs of tokens """
CQP_FDIST_2 = 0x1511
# INPUT: (STRING subcorpus, INT cutoff, BYTE field1, STRING attribute1,
# BYTE field2, STRING attribute2)
# OUTPUT: CQI_DATA_INT_LIST
# returns <n> (id1, id2, frequency) pairs flattened into a list of size 3*<n>
# NB: triples are sorted by frequency desc.
""" 4. Constant Definitions """
CONST_FALSE = 0x00
CONST_NO = 0x00
CONST_TRUE = 0x01
CONST_YES = 0x01
"""
" NOTE: The following constants specify which field will be returned by
" CQI_CQP_DUMP_SUBCORPUS and some other subcorpus commands.
"""
CONST_FIELD_MATCH = 0x10
CONST_FIELD_MATCHEND = 0x11
"""
" NOTE: The constants specifiying target0 .. target9 are guaranteed to have the
" numerical values 0 .. 9, so clients do not need to look up the constant
" values if they're handling arbitrary targets.
"""
CONST_FIELD_TARGET_0 = 0x00
CONST_FIELD_TARGET_1 = 0x01
CONST_FIELD_TARGET_2 = 0x02
CONST_FIELD_TARGET_3 = 0x03
CONST_FIELD_TARGET_4 = 0x04
CONST_FIELD_TARGET_5 = 0x05
CONST_FIELD_TARGET_6 = 0x06
CONST_FIELD_TARGET_7 = 0x07
CONST_FIELD_TARGET_8 = 0x08
CONST_FIELD_TARGET_9 = 0x09
"""
" NOTE: The following constants are provided for backward compatibility with
" traditional CQP field names & while the generalised target concept
" isn't yet implemented in the CQPserver.
"""
CONST_FIELD_TARGET = 0x00
CONST_FIELD_KEYWORD = 0x09
""" NOTE: CQi version is CQI_MAJOR_VERSION.CQI_MINOR_VERSION """
MAJOR_VERSION = 0x00
MINOR_VERSION = 0x01
""" 5. CQi lookup dictionary. """
lookup = {
257: 'CQI_STATUS_OK',
258: 'CQI_STATUS_CONNECT_OK',
259: 'CQI_STATUS_BYE_OK',
260: 'CQI_STATUS_PING_OK',
513: 'CQI_ERROR_GENERAL_ERROR',
514: 'CQI_ERROR_CONNECT_REFUSED',
515: 'CQI_ERROR_USER_ABORT',
516: 'CQI_ERROR_SYNTAX_ERROR',
769: 'CQI_DATA_BYTE',
770: 'CQI_DATA_BOOL',
771: 'CQI_DATA_INT',
772: 'CQI_DATA_STRING',
773: 'CQI_DATA_BYTE_LIST',
774: 'CQI_DATA_BOOL_LIST',
775: 'CQI_DATA_INT_LIST',
776: 'CQI_DATA_STRING_LIST',
777: 'CQI_DATA_INT_INT',
778: 'CQI_DATA_INT_INT_INT_INT',
779: 'CQI_DATA_INT_TABLE',
1025: 'CQI_CL_ERROR_NO_SUCH_ATTRIBUTE',
1026: 'CQI_CL_ERROR_WRONG_ATTRIBUTE_TYPE',
1027: 'CQI_CL_ERROR_OUT_OF_RANGE',
1028: 'CQI_CL_ERROR_REGEX',
1029: 'CQI_CL_ERROR_CORPUS_ACCESS',
1030: 'CQI_CL_ERROR_OUT_OF_MEMORY',
1031: 'CQI_CL_ERROR_INTERNAL',
1281: 'CQI_CQP_ERROR_GENERAL',
1282: 'CQI_CQP_ERROR_NO_SUCH_CORPUS',
1283: 'CQI_CQP_ERROR_INVALID_FIELD',
1284: 'CQI_CQP_ERROR_OUT_OF_RANGE',
4353: 'CQI_CTRL_CONNECT',
4354: 'CQI_CTRL_BYE',
4355: 'CQI_CTRL_USER_ABORT',
4356: 'CQI_CTRL_PING',
4357: 'CQI_CTRL_LAST_GENERAL_ERROR',
4609: 'CQI_ASK_FEATURE_CQI_1_0',
4610: 'CQI_ASK_FEATURE_CL_2_3',
4611: 'CQI_ASK_FEATURE_CQP_2_3',
4865: 'CQI_CORPUS_LIST_CORPORA',
4867: 'CQI_CORPUS_CHARSET',
4868: 'CQI_CORPUS_PROPERTIES',
4869: 'CQI_CORPUS_POSITIONAL_ATTRIBUTES',
4870: 'CQI_CORPUS_STRUCTURAL_ATTRIBUTES',
4871: 'CQI_CORPUS_STRUCTURAL_ATTRIBUTE_HAS_VALUES',
4872: 'CQI_CORPUS_ALIGNMENT_ATTRIBUTES',
4873: 'CQI_CORPUS_FULL_NAME',
4874: 'CQI_CORPUS_INFO',
4875: 'CQI_CORPUS_DROP_CORPUS',
5121: 'CQI_CL_ATTRIBUTE_SIZE',
5122: 'CQI_CL_LEXICON_SIZE',
5123: 'CQI_CL_DROP_ATTRIBUTE',
5124: 'CQI_CL_STR2ID',
5125: 'CQI_CL_ID2STR',
5126: 'CQI_CL_ID2FREQ',
5127: 'CQI_CL_CPOS2ID',
5128: 'CQI_CL_CPOS2STR',
5129: 'CQI_CL_CPOS2STRUC',
5130: 'CQI_CL_CPOS2ALG',
5131: 'CQI_CL_STRUC2STR',
5132: 'CQI_CL_ID2CPOS',
5133: 'CQI_CL_IDLIST2CPOS',
5134: 'CQI_CL_REGEX2ID',
5135: 'CQI_CL_STRUC2CPOS',
5136: 'CQI_CL_ALG2CPOS',
5152: 'CQI_CL_CPOS2LBOUND',
5153: 'CQI_CL_CPOS2RBOUND',
5377: 'CQI_CQP_QUERY',
5378: 'CQI_CQP_LIST_SUBCORPORA',
5379: 'CQI_CQP_SUBCORPUS_SIZE',
5380: 'CQI_CQP_SUBCORPUS_HAS_FIELD',
5381: 'CQI_CQP_DUMP_SUBCORPUS',
5385: 'CQI_CQP_DROP_SUBCORPUS',
5392: 'CQI_CQP_FDIST_1',
5393: 'CQI_CQP_FDIST_2'
}
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class Client:
def __init__(self, host='127.0.0.1', port=4877):
self.host = host
self.port = port
self.connection = socket.socket()
self.connection.connect((self.host, self.port))
def ctrl_connect(self, username, password):
# INPUT: (STRING username, STRING password)
# OUTPUT: CQI_STATUS_CONNECT_OK, CQI_ERROR_CONNECT_REFUSED
# print('CTRL_CONNECT')
self.__send_WORD(CTRL_CONNECT)
self.__send_STRING(username)
self.__send_STRING(password)
return self.__recv_response()
def ctrl_bye(self):
# INPUT: ()
# OUTPUT: CQI_STATUS_BYE_OK
# print('CTRL_BYE')
self.__send_WORD(CTRL_BYE)
return self.__recv_response()
def ctrl_user_abort(self):
# INPUT: ()
# OUTPUT:
# print('CTRL_USER_ABORT')
self.__send_WORD(CTRL_USER_ABORT)
def ctrl_ping(self):
# INPUT: ()
# OUTPUT: CQI_STATUS_PING_OK
# print('CTRL_PING')
self.__send_WORD(CTRL_PING)
return self.__recv_response()
def ctrl_last_general_error(self):
# INPUT: ()
# OUTPUT: CQI_DATA_STRING
# full-text error message for the last general error reported by the
# CQi server
# print('CTRL_LAST_GENERAL_ERROR')
self.__send_WORD(CTRL_LAST_GENERAL_ERROR)
return self.__recv_response()
def ask_feature_cqi_1_0(self):
# INPUT: ()
# OUTPUT: CQI_DATA_BOOL
# print('ASK_FEATURE_CQI_1_0')
self.__send_WORD(ASK_FEATURE_CQI_1_0)
return self.__recv_response()
def ask_feature_cl_2_3(self):
# INPUT: ()
# OUTPUT: CQI_DATA_BOOL
# print('ASK_FEATURE_CL_2_3')
self.__send_WORD(ASK_FEATURE_CL_2_3)
return self.__recv_response()
def ask_feature_cqp_2_3(self):
# INPUT: ()
# OUTPUT: CQI_DATA_BOOL
# print('ASK_FEATURE_CL_2_3')
self.__send_WORD(ASK_FEATURE_CL_2_3)
return self.__recv_response()
def corpus_list_coprora(self):
# INPUT: ()
# OUTPUT: CQI_DATA_STRING_LIST
# print('CORPUS_LIST_CORPORA')
self.__send_WORD(CORPUS_LIST_CORPORA)
return self.__recv_response()
def corpus_charset(self, corpus):
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING
# print('CORPUS_CHARSET')
self.__send_WORD(CORPUS_CHARSET)
self.__send_STRING(corpus)
return self.__recv_response()
def corpus_properties(self, corpus):
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
# print('CORPUS_PROPERTIES')
self.__send_WORD(CORPUS_PROPERTIES)
self.__send_STRING(corpus)
return self.__recv_response()
def corpus_positional_attributes(self, corpus):
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
# print('CORPUS_POSITIONAL_ATTRIBUTES')
self.__send_WORD(CORPUS_POSITIONAL_ATTRIBUTES)
self.__send_STRING(corpus)
return self.__recv_response()
def corpus_structural_attributes(self, corpus):
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
# print('CORPUS_STRUCTURAL_ATTRIBUTES')
self.__send_WORD(CORPUS_STRUCTURAL_ATTRIBUTES)
self.__send_STRING(corpus)
return self.__recv_response()
def corpus_structural_attribute_has_values(self, attribute):
# INPUT: (STRING attribute)
# OUTPUT: CQI_DATA_BOOL
# print('CORPUS_STRUCTURAL_ATTRIBUTE_HAS_VALUES')
self.__send_WORD(CORPUS_STRUCTURAL_ATTRIBUTE_HAS_VALUES)
self.__send_STRING(attribute)
return self.__recv_response()
def corpus_alignment_attributes(self, corpus):
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
# print('CORPUS_ALIGNMENT_ATTRIBUTES')
self.__send_WORD(CORPUS_ALIGNMENT_ATTRIBUTES)
self.__send_STRING(corpus)
return self.__recv_response()
def corpus_full_name(self, corpus):
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING
# the full name of <corpus> as specified in its registry entry
# print('CORPUS_FULL_NAME')
self.__send_WORD(CORPUS_FULL_NAME)
self.__send_STRING(corpus)
return self.__recv_response()
def corpus_info(self, corpus):
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
# returns the contents of the .info file of <corpus> as a list of lines
# print('CORPUS_INFO')
self.__send_WORD(CORPUS_INFO)
self.__send_STRING(corpus)
return self.__recv_response()
def corpus_drop_corpus(self, corpus):
'''
' Broken
' TODO: Check what type of return value is provided by the server.
'''
# INPUT: (STRING corpus)
# OUTPUT: CQI_STATUS_OK
# try to unload a corpus and all its attributes from memory
# print('CORPUS_DROP_CORPUS')
self.__send_WORD(CORPUS_DROP_CORPUS)
self.__send_STRING(corpus)
return self.__recv_response()
def cl_attribute_size(self, attribute):
# INPUT: (STRING attribute)
# OUTPUT: CQI_DATA_INT
# returns the size of <attribute>:
# number of tokens (positional)
# number of regions (structural)
# number of alignments (alignment)
# print('CL_ATTRIBUTE_SIZE')
self.__send_WORD(CL_ATTRIBUTE_SIZE)
self.__send_STRING(attribute)
return self.__recv_response()
def cl_lexicon_size(self, attribute):
# INPUT: (STRING attribute)
# OUTPUT: CQI_DATA_INT
# returns the number of entries in the lexicon of a positional
# attribute;
# valid lexicon IDs range from 0 .. (lexicon_size - 1)
# print('CL_LEXICON_SIZE')
self.__send_WORD(CL_LEXICON_SIZE)
self.__send_STRING(attribute)
return self.__recv_response()
def cl_drop_attribute(self, attribute):
# INPUT: (STRING attribute)
# OUTPUT: CQI_STATUS_OK
# unload attribute from memory
# print('CL_DROP_ATTRIBUTE')
self.__send_WORD(CL_LEXICON_SIZE)
self.__send_STRING(attribute)
return self.__recv_response()
"""
" NOTE: simple (scalar) mappings are applied to lists (the returned list
" has exactly the same length as the list passed as an argument)
"""
def cl_str2id(self, attribute, strings):
# INPUT: (STRING attribute, STRING_LIST strings)
# OUTPUT: CQI_DATA_INT_LIST
# returns -1 for every string in <strings> that is not found in the
# lexicon
# print('CL_STR2ID')
self.__send_WORD(CL_LEXICON_SIZE)
self.__send_STRING(attribute)
self.__send_STRING_LIST(strings)
return self.__recv_response()
def cl_id2str(self, attribute, id):
# INPUT: (STRING attribute, INT_LIST id)
# OUTPUT: CQI_DATA_STRING_LIST
# returns "" for every ID in <id> that is out of range
# print('CL_ID2STR')
self.__send_WORD(CL_ID2STR)
self.__send_STRING(attribute)
self.__send_INT_LIST(id)
return self.__recv_response()
def cl_id2freq(self, attribute, id):
# INPUT: (STRING attribute, INT_LIST id)
# OUTPUT: CQI_DATA_INT_LIST
# returns 0 for every ID in <id> that is out of range
# print('CL_ID2FREQ')
self.__send_WORD(CL_ID2FREQ)
self.__send_STRING(attribute)
self.__send_INT_LIST(id)
return self.__recv_response()
def cl_cpos2id(self, attribute, cpos):
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns -1 for every corpus position in <cpos> that is out of range
# print('CL_CPOS2ID')
self.__send_WORD(CL_ID2FREQ)
self.__send_STRING(attribute)
self.__send_INT_LIST(cpos)
return self.__recv_response()
def cl_cpos2str(self, attribute, cpos):
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_STRING_LIST
# returns "" for every corpus position in <cpos> that is out of range
# print('CL_CPOS2STR')
self.__send_WORD(CL_CPOS2STR)
self.__send_STRING(attribute)
self.__send_INT_LIST(cpos)
return self.__recv_response()
def cl_cpos2struc(self, attribute, cpos):
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns -1 for every corpus position not inside a structure region
# print('CL_CPOS2STRUC')
self.__send_WORD(CL_CPOS2STRUC)
self.__send_STRING(attribute)
self.__send_INT_LIST(cpos)
return self.__recv_response()
"""
" NOTE: temporary addition for the Euralex2000 tutorial, but should
" probably be included in CQi specs
"""
def cl_cpos2lbound(self, attribute, cpos):
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns left boundary of s-attribute region enclosing cpos, -1 if not
# in region
# print('CL_CPOS2LBOUND')
self.__send_WORD(CL_CPOS2LBOUND)
self.__send_STRING(attribute)
self.__send_INT_LIST(cpos)
return self.__recv_response()
def cl_cpos2rbound(self, attribute, cpos):
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns right boundary of s-attribute region enclosing cpos, -1 if
# not in region
# print('CL_CPOS2RBOUND')
self.__send_WORD(CL_CPOS2RBOUND)
self.__send_STRING(attribute)
self.__send_INT_LIST(cpos)
return self.__recv_response()
def cl_cpos2alg(self, attribute, cpos):
# INPUT: (STRING attribute, INT_LIST cpos)
# OUTPUT: CQI_DATA_INT_LIST
# returns -1 for every corpus position not inside an alignment
# print('CL_CPOS2ALG')
self.__send_WORD(CL_CPOS2ALG)
self.__send_STRING(attribute)
self.__send_INT_LIST(cpos)
return self.__recv_response()
def cl_struc2str(self, attribute, strucs):
# INPUT: (STRING attribute, INT_LIST strucs)
# OUTPUT: CQI_DATA_STRING_LIST
# returns annotated string values of structure regions in <strucs>; ""
# if out of range
# check CQI_CORPUS_STRUCTURAL_ATTRIBUTE_HAS_VALUES(<attribute>) first
# print('CL_STRUC2STR')
self.__send_WORD(CL_STRUC2STR)
self.__send_STRING(attribute)
self.__send_INT_LIST(strucs)
return self.__recv_response()
"""
" NOTE: the following mappings take a single argument and return multiple
" values, including lists of arbitrary size
"""
def cl_id2cpos(self, attribute, id):
# INPUT: (STRING attribute, INT id)
# OUTPUT: CQI_DATA_INT_LIST
# returns all corpus positions where the given token occurs
# print('CL_ID2CPOS')
self.__send_WORD(CL_ID2CPOS)
self.__send_STRING(attribute)
self.__send_INT(id)
return self.__recv_response()
def cl_idlist2cpos(self, attribute, id_list):
# INPUT: (STRING attribute, INT_LIST id_list)
# OUTPUT: CQI_DATA_INT_LIST
# returns all corpus positions where one of the tokens in <id_list>
# occurs; the returned list is sorted as a whole, not per token id
# print('CL_IDLIST2CPOS')
self.__send_WORD(CL_IDLIST2CPOS)
self.__send_STRING(attribute)
self.__send_INT_LIST(id_list)
return self.__recv_response()
def cl_regex2id(self, attribute, regex):
# INPUT: (STRING attribute, STRING regex)
# OUTPUT: CQI_DATA_INT_LIST
# returns lexicon IDs of all tokens that match <regex>; the returned
# list may be empty (size 0);
# print('CL_REGEX2ID')
self.__send_WORD(CL_REGEX2ID)
self.__send_STRING(attribute)
self.__send_STRING(regex)
return self.__recv_response()
def cl_struc2cpos(self, attribute, struc):
# INPUT: (STRING attribute, INT struc)
# OUTPUT: CQI_DATA_INT_INT
# returns start and end corpus positions of structure region <struc>
# print('CL_STRUC2CPOS')
self.__send_WORD(CL_STRUC2CPOS)
self.__send_STRING(attribute)
self.__send_INT(struc)
return self.__recv_response()
def cl_alg2cpos(self, attribute, alg):
# INPUT: (STRING attribute, INT alg)
# OUTPUT: CQI_DATA_INT_INT_INT_INT
# returns (src_start, src_end, target_start, target_end)
# print('CL_ALG2CPOS')
self.__send_WORD(CL_ALG2CPOS)
self.__send_STRING(attribute)
self.__send_INT(alg)
return self.__recv_response()
def cqp_query(self, mother_corpus, subcorpus_name, query):
# INPUT: (STRING mother_corpus, STRING subcorpus_name, STRING query)
# OUTPUT: CQI_STATUS_OK
# <query> must include the ';' character terminating the query.
# print('CQP_QUERY')
self.__send_WORD(CQP_QUERY)
self.__send_STRING(mother_corpus)
self.__send_STRING(subcorpus_name)
self.__send_STRING(query)
return self.__recv_response()
def cqp_list_subcorpora(self, corpus):
# INPUT: (STRING corpus)
# OUTPUT: CQI_DATA_STRING_LIST
# print('CQP_LIST_SUBCORPORA')
self.__send_WORD(CQP_LIST_SUBCORPORA)
self.__send_STRING(corpus)
return self.__recv_response()
def cqp_subcorpus_size(self, subcorpus):
# INPUT: (STRING subcorpus)
# OUTPUT: CQI_DATA_INT
# print('CQP_SUBCORPUS_SIZE')
self.__send_WORD(CQP_SUBCORPUS_SIZE)
self.__send_STRING(subcorpus)
return self.__recv_response()
def cqp_subcorpus_has_field(self, subcorpus, field):
# INPUT: (STRING subcorpus, BYTE field)
# OUTPUT: CQI_DATA_BOOL
# print('CQP_SUBCORPUS_HAS_FIELD')
self.__send_WORD(CQP_SUBCORPUS_HAS_FIELD)
self.__send_STRING(subcorpus)
self.__send_BYTE(field)
return self.__recv_response()
def cqp_dump_subcorpus(self, subcorpus, field, first, last):
# INPUT: (STRING subcorpus, BYTE field, INT first, INT last)
# OUTPUT: CQI_DATA_INT_LIST
# Dump the values of <field> for match ranges <first> .. <last>
# in <subcorpus>. <field> is one of the CQI_CONST_FIELD_* constants.
# print('CQP_DUMP_SUBCORPUS')
self.__send_WORD(CQP_DUMP_SUBCORPUS)
self.__send_STRING(subcorpus)
self.__send_BYTE(field)
self.__send_INT(first)
self.__send_INT(last)
return self.__recv_response()
def cqp_drop_subcorpus(self, subcorpus):
# INPUT: (STRING subcorpus)
# OUTPUT: CQI_STATUS_OK
# delete a subcorpus from memory
# print('CQP_DROP_SUBCORPUS')
self.__send_WORD(CQP_DROP_SUBCORPUS)
self.__send_STRING(subcorpus)
return self.__recv_response()
"""
" NOTE: The following two functions are temporarily included for the
" Euralex 2000 tutorial demo
"""
def cqp_fdist_1(self, subcorpus, cutoff, field, attribute):
""" NOTE: frequency distribution of single tokens """
# INPUT: (STRING subcorpus, INT cutoff, BYTE field, STRING attribute)
# OUTPUT: CQI_DATA_INT_LIST
# returns <n> (id, frequency) pairs flattened into a list of size 2*<n>
# field is one of CQI_CONST_FIELD_MATCH, CQI_CONST_FIELD_TARGET,
# CQI_CONST_FIELD_KEYWORD
# NB: pairs are sorted by frequency desc.
# print('CQP_FDIST_1')
self.__send_WORD(CQP_FDIST_1)
self.__send_STRING(subcorpus)
self.__send_INT(cutoff)
self.__send_BYTE(field)
self.__send_STRING(attribute)
return self.__recv_response()
def cqp_fdist_2(self, subcorpus, cutoff, field1, attribute1, field2,
attribute2):
""" NOTE: frequency distribution of pairs of tokens """
# INPUT: (STRING subcorpus, INT cutoff, BYTE field1, STRING attribute1,
# BYTE field2, STRING attribute2)
# OUTPUT: CQI_DATA_INT_LIST
# returns <n> (id1, id2, frequency) pairs flattened into a list of size
# 3*<n>
# NB: triples are sorted by frequency desc.
# print('CQP_FDIST_2')
self.__send_WORD(CQP_FDIST_2)
self.__send_STRING(subcorpus)
self.__send_INT(cutoff)
self.__send_BYTE(field1)
self.__send_STRING(attribute1)
self.__send_BYTE(field2)
self.__send_STRING(attribute2)
return self.__recv_response()
def __recv_response(self):
byte_data = self.__recv_WORD()
response_type = byte_data >> 8
if response_type == CL_ERROR:
raise Exception(lookup[byte_data])
elif response_type == CQP_ERROR:
raise Exception(lookup[byte_data])
elif response_type == DATA:
return self.__recv_DATA(byte_data)
elif response_type == ERROR:
raise Exception(lookup[byte_data])
elif response_type == STATUS:
return byte_data
else:
raise Exception(
'Unknown response type: {}'.format(hex(response_type))
)
def __recv_DATA(self, data_type):
if data_type == DATA_BYTE:
data = self.__recv_DATA_BYTE()
elif data_type == DATA_BOOL:
data = self.__recv_DATA_BOOL()
elif data_type == DATA_INT:
data = self.__recv_DATA_INT()
elif data_type == DATA_STRING:
data = self.__recv_DATA_STRING()
elif data_type == DATA_BYTE_LIST:
data = self.__recv_DATA_BYTE_LIST()
elif data_type == DATA_BOOL_LIST:
data = self.__recv_DATA_BOOL_LIST()
elif data_type == DATA_INT_LIST:
data = self.__recv_DATA_INT_LIST()
elif data_type == DATA_STRING_LIST:
data = self.__recv_DATA_STRING_LIST()
elif data_type == DATA_INT_INT:
data = self.__recv_DATA_INT_INT()
elif data_type == DATA_INT_INT_INT_INT:
data = self.__recv_DATA_INT_INT_INT_INT()
elif data_type == DATA_INT_TABLE:
data = self.__recv_DATA_INT_TABLE()
else:
raise Exception('Unknown data type: {}'.format(hex(data_type)))
return data
def __recv_DATA_BYTE(self):
byte_data = self.connection.recv(1, socket.MSG_WAITALL)
return struct.unpack('!B', byte_data)[0]
def __recv_DATA_BOOL(self):
byte_data = self.connection.recv(1, socket.MSG_WAITALL)
return struct.unpack('!?', byte_data)[0]
def __recv_DATA_INT(self):
byte_data = self.connection.recv(4, socket.MSG_WAITALL)
return struct.unpack('!i', byte_data)[0]
def __recv_DATA_STRING(self):
n = self.__recv_WORD()
byte_data = self.connection.recv(n, socket.MSG_WAITALL)
return struct.unpack('!{}s'.format(n), byte_data)[0].decode()
def __recv_DATA_BYTE_LIST(self):
data = []
n = self.__recv_DATA_INT()
while n > 0:
data.append(self.__recv_DATA_BYTE())
n -= 1
return data
def __recv_DATA_BOOL_LIST(self):
data = []
n = self.__recv_DATA_INT()
while n > 0:
data.append(self.__recv_DATA_BOOL())
n -= 1
return data
def __recv_DATA_INT_LIST(self):
data = []
n = self.__recv_DATA_INT()
while n > 0:
data.append(self.__recv_DATA_INT())
n -= 1
return data
def __recv_DATA_STRING_LIST(self):
data = []
n = self.__recv_DATA_INT()
while n > 0:
data.append(self.__recv_DATA_STRING())
n -= 1
return data
def __recv_DATA_INT_INT(self):
return (self.__recv_DATA_INT(), self.__recv_DATA_INT())
def __recv_DATA_INT_INT_INT_INT(self):
return (self.__recv_DATA_INT(),
self.__recv_DATA_INT(),
self.__recv_DATA_INT(),
self.__recv_DATA_INT())
def __recv_DATA_INT_TABLE(self):
rows = self.__recv_DATA_INT()
columns = self.__recv_DATA_INT()
data = []
for i in range(0, rows):
row = []
for j in range(0, columns):
row.append(self.__recv_DATA_INT())
data.append(row)
return data
def __recv_WORD(self):
byte_data = self.connection.recv(2, socket.MSG_WAITALL)
return struct.unpack('!H', byte_data)[0]
def __send_BYTE(self, byte_data):
data = struct.pack('!B', byte_data)
self.connection.sendall(data)
def __send_BOOL(self, bool_data):
data = struct.pack('!?', bool_data)
self.connection.sendall(data)
def __send_INT(self, int_data):
data = struct.pack('!i', int_data)
self.connection.sendall(data)
def __send_STRING(self, string_data):
encoded_string_data = string_data.encode('utf-8')
n = len(encoded_string_data)
data = struct.pack('!H{}s'.format(n), n, encoded_string_data)
self.connection.sendall(data)
def __send_INT_LIST(self, int_list_data):
n = len(int_list_data)
self.__send_INT(n)
for int_data in int_list_data:
self.__send_INT(int_data)
def __send_STRING_LIST(self, string_list_data):
n = len(string_list_data)
self.__send_INT(n)
for string_data in string_list_data:
self.__send_STRING(string_data)
def __send_WORD(self, word_data):
data = struct.pack('!H', word_data)
self.connection.sendall(data)