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sphinxapi.py
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sphinxapi.py
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#!/usr/bin/env python
# -*- coding: utf-8 -*-
#
# $Id$
#
# Python version of Sphinx searchd client (Python API)
#
# Copyright (c) 2006, Mike Osadnik
# Copyright (c) 2006-2015, Andrew Aksyonoff
# Copyright (c) 2008-2015, Sphinx Technologies Inc
# All rights reserved
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU Library General Public License. You should
# have received a copy of the LGPL license along with this program; if you
# did not, you can find it at http://www.gnu.org/
#
# WARNING!!!
#
# As of 2015, we strongly recommend to use either SphinxQL or REST APIs
# rather than the native SphinxAPI.
#
# While both the native SphinxAPI protocol and the existing APIs will
# continue to exist, and perhaps should not even break (too much), exposing
# all the new features via multiple different native API implementations
# is too much of a support complication for us.
#
# That said, you're welcome to overtake the maintenance of any given
# official API, and remove this warning ;)
#
import sys
import select
import socket
import re
from struct import *
# 修改查询操作为异步
from tornado import ioloop
from tornado import gen
from tornado.concurrent import Future
# known searchd commands
SEARCHD_COMMAND_SEARCH = 0
SEARCHD_COMMAND_EXCERPT = 1
SEARCHD_COMMAND_UPDATE = 2
SEARCHD_COMMAND_KEYWORDS = 3
SEARCHD_COMMAND_PERSIST = 4
SEARCHD_COMMAND_STATUS = 5
SEARCHD_COMMAND_FLUSHATTRS = 7
# current client-side command implementation versions
VER_COMMAND_SEARCH = 0x11E
VER_COMMAND_EXCERPT = 0x104
VER_COMMAND_UPDATE = 0x103
VER_COMMAND_KEYWORDS = 0x100
VER_COMMAND_STATUS = 0x101
VER_COMMAND_FLUSHATTRS = 0x100
# known searchd status codes
SEARCHD_OK = 0
SEARCHD_ERROR = 1
SEARCHD_RETRY = 2
SEARCHD_WARNING = 3
# known match modes
SPH_MATCH_ALL = 0
SPH_MATCH_ANY = 1
SPH_MATCH_PHRASE = 2
SPH_MATCH_BOOLEAN = 3
SPH_MATCH_EXTENDED = 4
SPH_MATCH_FULLSCAN = 5
SPH_MATCH_EXTENDED2 = 6
# known ranking modes (extended2 mode only)
SPH_RANK_PROXIMITY_BM25 = 0 # default mode, phrase proximity major factor and BM25 minor one
SPH_RANK_BM25 = 1 # statistical mode, BM25 ranking only (faster but worse quality)
SPH_RANK_NONE = 2 # no ranking, all matches get a weight of 1
SPH_RANK_WORDCOUNT = 3 # simple word-count weighting, rank is a weighted sum of per-field keyword occurence counts
SPH_RANK_PROXIMITY = 4
SPH_RANK_MATCHANY = 5
SPH_RANK_FIELDMASK = 6
SPH_RANK_SPH04 = 7
SPH_RANK_EXPR = 8
SPH_RANK_TOTAL = 9
# known sort modes
SPH_SORT_RELEVANCE = 0
SPH_SORT_ATTR_DESC = 1
SPH_SORT_ATTR_ASC = 2
SPH_SORT_TIME_SEGMENTS = 3
SPH_SORT_EXTENDED = 4
SPH_SORT_EXPR = 5
# known filter types
SPH_FILTER_VALUES = 0
SPH_FILTER_RANGE = 1
SPH_FILTER_FLOATRANGE = 2
SPH_FILTER_STRING = 3
# known attribute types
SPH_ATTR_NONE = 0
SPH_ATTR_INTEGER = 1
SPH_ATTR_TIMESTAMP = 2
SPH_ATTR_ORDINAL = 3
SPH_ATTR_BOOL = 4
SPH_ATTR_FLOAT = 5
SPH_ATTR_BIGINT = 6
SPH_ATTR_STRING = 7
SPH_ATTR_FACTORS = 1001
SPH_ATTR_MULTI = 0X40000001L
SPH_ATTR_MULTI64 = 0X40000002L
SPH_ATTR_TYPES = (SPH_ATTR_NONE,
SPH_ATTR_INTEGER,
SPH_ATTR_TIMESTAMP,
SPH_ATTR_ORDINAL,
SPH_ATTR_BOOL,
SPH_ATTR_FLOAT,
SPH_ATTR_BIGINT,
SPH_ATTR_STRING,
SPH_ATTR_MULTI,
SPH_ATTR_MULTI64)
# known grouping functions
SPH_GROUPBY_DAY = 0
SPH_GROUPBY_WEEK = 1
SPH_GROUPBY_MONTH = 2
SPH_GROUPBY_YEAR = 3
SPH_GROUPBY_ATTR = 4
SPH_GROUPBY_ATTRPAIR = 5
class SphinxClient:
def __init__ (self):
"""
Create a new client object, and fill defaults.
"""
self._host = 'localhost' # searchd host (default is "localhost")
self._port = 9312 # searchd port (default is 9312)
self._path = None # searchd unix-domain socket path
self._socket = None
self._offset = 0 # how much records to seek from result-set start (default is 0)
self._limit = 20 # how much records to return from result-set starting at offset (default is 20)
self._mode = SPH_MATCH_EXTENDED2 # query matching mode (default is SPH_MATCH_EXTENDED2)
self._weights = [] # per-field weights (default is 1 for all fields)
self._sort = SPH_SORT_RELEVANCE # match sorting mode (default is SPH_SORT_RELEVANCE)
self._sortby = '' # attribute to sort by (defualt is "")
self._min_id = 0 # min ID to match (default is 0)
self._max_id = 0 # max ID to match (default is UINT_MAX)
self._filters = [] # search filters
self._groupby = '' # group-by attribute name
self._groupfunc = SPH_GROUPBY_DAY # group-by function (to pre-process group-by attribute value with)
self._groupsort = '@group desc' # group-by sorting clause (to sort groups in result set with)
self._groupdistinct = '' # group-by count-distinct attribute
self._maxmatches = 1000 # max matches to retrieve
self._cutoff = 0 # cutoff to stop searching at
self._retrycount = 0 # distributed retry count
self._retrydelay = 0 # distributed retry delay
self._anchor = {} # geographical anchor point
self._indexweights = {} # per-index weights
self._ranker = SPH_RANK_PROXIMITY_BM25 # ranking mode
self._rankexpr = '' # ranking expression for SPH_RANK_EXPR
self._maxquerytime = 0 # max query time, milliseconds (default is 0, do not limit)
self._timeout = 1.0 # connection timeout
self._fieldweights = {} # per-field-name weights
self._overrides = {} # per-query attribute values overrides
self._select = '*' # select-list (attributes or expressions, with optional aliases)
self._query_flags = SetBit ( 0, 6, True ) # default idf=tfidf_normalized
self._predictedtime = 0 # per-query max_predicted_time
self._outerorderby = '' # outer match sort by
self._outeroffset = 0 # outer offset
self._outerlimit = 0 # outer limit
self._hasouter = False # sub-select enabled
self._error = '' # last error message
self._warning = '' # last warning message
self._reqs = [] # requests array for multi-query
def __del__ (self):
if self._socket:
self._socket.close()
def GetLastError (self):
"""
Get last error message (string).
"""
return self._error
def GetLastWarning (self):
"""
Get last warning message (string).
"""
return self._warning
def SetServer (self, host, port = None):
"""
Set searchd server host and port.
"""
assert(isinstance(host, str))
if host.startswith('/'):
self._path = host
return
elif host.startswith('unix://'):
self._path = host[7:]
return
self._host = host
if isinstance(port, int):
assert(port>0 and port<65536)
self._port = port
self._path = None
def SetConnectTimeout ( self, timeout ):
"""
Set connection timeout ( float second )
"""
assert (isinstance(timeout, float))
# set timeout to 0 make connaection non-blocking that is wrong so timeout got clipped to reasonable minimum
self._timeout = max ( 0.001, timeout )
def _Connect (self):
"""
INTERNAL METHOD, DO NOT CALL. Connects to searchd server.
"""
if self._socket:
# we have a socket, but is it still alive?
sr, sw, _ = select.select ( [self._socket], [self._socket], [], 0 )
# this is how alive socket should look
if len(sr)==0 and len(sw)==1:
return self._socket
# oops, looks like it was closed, lets reopen
self._socket.close()
self._socket = None
try:
if self._path:
af = socket.AF_UNIX
addr = self._path
desc = self._path
else:
af = socket.AF_INET
addr = ( self._host, self._port )
desc = '%s;%s' % addr
sock = socket.socket ( af, socket.SOCK_STREAM )
sock.settimeout ( self._timeout )
sock.connect ( addr )
except socket.error, msg:
if sock:
sock.close()
self._error = 'connection to %s failed (%s)' % ( desc, msg )
return
v = unpack('>L', sock.recv(4))
if v<1:
sock.close()
self._error = 'expected searchd protocol version, got %s' % v
return
# all ok, send my version
sock.send(pack('>L', 1))
return sock
def _GetResponse (self, sock, client_ver):
"""
INTERNAL METHOD, DO NOT CALL. Gets and checks response packet from searchd server.
"""
(status, ver, length) = unpack('>2HL', sock.recv(8))
response = ''
left = length
while left>0:
chunk = sock.recv(left)
if chunk:
response += chunk
left -= len(chunk)
else:
break
if not self._socket:
sock.close()
# check response
read = len(response)
if not response or read!=length:
if length:
self._error = 'failed to read searchd response (status=%s, ver=%s, len=%s, read=%s)' \
% (status, ver, length, read)
else:
self._error = 'received zero-sized searchd response'
return None
# check status
if status==SEARCHD_WARNING:
wend = 4 + unpack ( '>L', response[0:4] )[0]
self._warning = response[4:wend]
return response[wend:]
if status==SEARCHD_ERROR:
self._error = 'searchd error: '+response[4:]
return None
if status==SEARCHD_RETRY:
self._error = 'temporary searchd error: '+response[4:]
return None
if status!=SEARCHD_OK:
self._error = 'unknown status code %d' % status
return None
# check version
if ver<client_ver:
self._warning = 'searchd command v.%d.%d older than client\'s v.%d.%d, some options might not work' \
% (ver>>8, ver&0xff, client_ver>>8, client_ver&0xff)
return response
def _Send ( self, sock, req ):
"""
INTERNAL METHOD, DO NOT CALL. send request to searchd server.
"""
total = 0
while True:
sent = sock.send ( req[total:] )
if sent<=0:
break
total = total + sent
return total
def SetLimits (self, offset, limit, maxmatches=0, cutoff=0):
"""
Set offset and count into result set, and optionally set max-matches and cutoff limits.
"""
assert ( type(offset) in [int,long] and 0<=offset<16777216 )
assert ( type(limit) in [int,long] and 0<limit<16777216 )
assert(maxmatches>=0)
self._offset = offset
self._limit = limit
if maxmatches>0:
self._maxmatches = maxmatches
if cutoff>=0:
self._cutoff = cutoff
def SetMaxQueryTime (self, maxquerytime):
"""
Set maximum query time, in milliseconds, per-index. 0 means 'do not limit'.
"""
assert(isinstance(maxquerytime,int) and maxquerytime>0)
self._maxquerytime = maxquerytime
def SetMatchMode (self, mode):
"""
Set matching mode.
"""
print >> sys.stderr, 'DEPRECATED: Do not call this method or, even better, use SphinxQL instead of an API'
assert(mode in [SPH_MATCH_ALL, SPH_MATCH_ANY, SPH_MATCH_PHRASE, SPH_MATCH_BOOLEAN, SPH_MATCH_EXTENDED, SPH_MATCH_FULLSCAN, SPH_MATCH_EXTENDED2])
self._mode = mode
def SetRankingMode ( self, ranker, rankexpr='' ):
"""
Set ranking mode.
"""
assert(ranker>=0 and ranker<SPH_RANK_TOTAL)
self._ranker = ranker
self._rankexpr = rankexpr
def SetSortMode ( self, mode, clause='' ):
"""
Set sorting mode.
"""
assert ( mode in [SPH_SORT_RELEVANCE, SPH_SORT_ATTR_DESC, SPH_SORT_ATTR_ASC, SPH_SORT_TIME_SEGMENTS, SPH_SORT_EXTENDED, SPH_SORT_EXPR] )
assert ( isinstance ( clause, str ) )
self._sort = mode
self._sortby = clause
def SetFieldWeights (self, weights):
"""
Bind per-field weights by name; expects (name,field_weight) dictionary as argument.
"""
assert(isinstance(weights,dict))
for key,val in weights.items():
assert(isinstance(key,str))
AssertUInt32 ( val )
self._fieldweights = weights
def SetIndexWeights (self, weights):
"""
Bind per-index weights by name; expects (name,index_weight) dictionary as argument.
"""
assert(isinstance(weights,dict))
for key,val in weights.items():
assert(isinstance(key,str))
AssertUInt32(val)
self._indexweights = weights
def SetIDRange (self, minid, maxid):
"""
Set IDs range to match.
Only match records if document ID is beetwen $min and $max (inclusive).
"""
assert(isinstance(minid, (int, long)))
assert(isinstance(maxid, (int, long)))
assert(minid<=maxid)
self._min_id = minid
self._max_id = maxid
def SetFilter ( self, attribute, values, exclude=0 ):
"""
Set values set filter.
Only match records where 'attribute' value is in given 'values' set.
"""
assert(isinstance(attribute, str))
assert iter(values)
for value in values:
AssertInt32 ( value )
self._filters.append ( { 'type':SPH_FILTER_VALUES, 'attr':attribute, 'exclude':exclude, 'values':values } )
def SetFilterString ( self, attribute, value, exclude=0 ):
"""
Set string filter.
Only match records where 'attribute' value is equal
"""
assert(isinstance(attribute, str))
assert(isinstance(value, str))
print ( "attr='%s' val='%s' " % ( attribute, value ) )
self._filters.append ( { 'type':SPH_FILTER_STRING, 'attr':attribute, 'exclude':exclude, 'value':value } )
def SetFilterRange (self, attribute, min_, max_, exclude=0 ):
"""
Set range filter.
Only match records if 'attribute' value is beetwen 'min_' and 'max_' (inclusive).
"""
assert(isinstance(attribute, str))
AssertInt32(min_)
AssertInt32(max_)
assert(min_<=max_)
self._filters.append ( { 'type':SPH_FILTER_RANGE, 'attr':attribute, 'exclude':exclude, 'min':min_, 'max':max_ } )
def SetFilterFloatRange (self, attribute, min_, max_, exclude=0 ):
assert(isinstance(attribute,str))
assert(isinstance(min_,float))
assert(isinstance(max_,float))
assert(min_ <= max_)
self._filters.append ( {'type':SPH_FILTER_FLOATRANGE, 'attr':attribute, 'exclude':exclude, 'min':min_, 'max':max_} )
def SetGeoAnchor (self, attrlat, attrlong, latitude, longitude):
assert(isinstance(attrlat,str))
assert(isinstance(attrlong,str))
assert(isinstance(latitude,float))
assert(isinstance(longitude,float))
self._anchor['attrlat'] = attrlat
self._anchor['attrlong'] = attrlong
self._anchor['lat'] = latitude
self._anchor['long'] = longitude
def SetGroupBy ( self, attribute, func, groupsort='@group desc' ):
"""
Set grouping attribute and function.
"""
assert(isinstance(attribute, str))
assert(func in [SPH_GROUPBY_DAY, SPH_GROUPBY_WEEK, SPH_GROUPBY_MONTH, SPH_GROUPBY_YEAR, SPH_GROUPBY_ATTR, SPH_GROUPBY_ATTRPAIR] )
assert(isinstance(groupsort, str))
self._groupby = attribute
self._groupfunc = func
self._groupsort = groupsort
def SetGroupDistinct (self, attribute):
assert(isinstance(attribute,str))
self._groupdistinct = attribute
def SetRetries (self, count, delay=0):
assert(isinstance(count,int) and count>=0)
assert(isinstance(delay,int) and delay>=0)
self._retrycount = count
self._retrydelay = delay
def SetOverride (self, name, type, values):
print >> sys.stderr, 'DEPRECATED: Do not call this method. Use SphinxQL REMAP() function instead.'
assert(isinstance(name, str))
assert(type in SPH_ATTR_TYPES)
assert(isinstance(values, dict))
self._overrides[name] = {'name': name, 'type': type, 'values': values}
def SetSelect (self, select):
assert(isinstance(select, str))
self._select = select
def SetQueryFlag ( self, name, value ):
known_names = [ "reverse_scan", "sort_method", "max_predicted_time", "boolean_simplify", "idf", "global_idf" ]
flags = { "reverse_scan":[0, 1], "sort_method":["pq", "kbuffer"],"max_predicted_time":[0], "boolean_simplify":[True, False], "idf":["normalized", "plain", "tfidf_normalized", "tfidf_unnormalized"], "global_idf":[True, False] }
assert ( name in known_names )
assert ( value in flags[name] or ( name=="max_predicted_time" and isinstance(value, (int, long)) and value>=0))
if name=="reverse_scan":
self._query_flags = SetBit ( self._query_flags, 0, value==1 )
if name=="sort_method":
self._query_flags = SetBit ( self._query_flags, 1, value=="kbuffer" )
if name=="max_predicted_time":
self._query_flags = SetBit ( self._query_flags, 2, value>0 )
self._predictedtime = int(value)
if name=="boolean_simplify":
self._query_flags= SetBit ( self._query_flags, 3, value )
if name=="idf" and ( value=="plain" or value=="normalized" ) :
self._query_flags = SetBit ( self._query_flags, 4, value=="plain" )
if name=="global_idf":
self._query_flags= SetBit ( self._query_flags, 5, value )
if name=="idf" and ( value=="tfidf_normalized" or value=="tfidf_unnormalized" ) :
self._query_flags = SetBit ( self._query_flags, 6, value=="tfidf_normalized" )
def SetOuterSelect ( self, orderby, offset, limit ):
assert(isinstance(orderby, str))
assert(isinstance(offset, (int, long)))
assert(isinstance(limit, (int, long)))
assert ( offset>=0 )
assert ( limit>0 )
self._outerorderby = orderby
self._outeroffset = offset
self._outerlimit = limit
self._hasouter = True
def ResetOverrides (self):
self._overrides = {}
def ResetFilters (self):
"""
Clear all filters (for multi-queries).
"""
self._filters = []
self._anchor = {}
def ResetGroupBy (self):
"""
Clear groupby settings (for multi-queries).
"""
self._groupby = ''
self._groupfunc = SPH_GROUPBY_DAY
self._groupsort = '@group desc'
self._groupdistinct = ''
def ResetQueryFlag (self):
self._query_flags = SetBit ( 0, 6, True ) # default idf=tfidf_normalized
self._predictedtime = 0
def ResetOuterSelect (self):
self._outerorderby = ''
self._outeroffset = 0
self._outerlimit = 0
self._hasouter = False
@gen.coroutine
def Query (self, query, index='*', comment=''):
"""
Connect to searchd server and run given search query.
Returns None on failure; result set hash on success (see documentation for details).
"""
assert(len(self._reqs)==0)
self.AddQuery(query,index,comment)
results = yield self.RunQueries()
self._reqs = [] # we won't re-run erroneous batch
if not results or len(results) == 0:
raise gen.Return(None)
self._error = results[0]['error']
self._warning = results[0]['warning']
if results[0]['status'] == SEARCHD_ERROR:
raise gen.Return(None)
raise gen.Return(results[0])
def AddQuery (self, query, index='*', comment=''):
"""
Add query to batch.
"""
# build request
req = []
req.append(pack('>5L', self._query_flags, self._offset, self._limit, self._mode, self._ranker))
if self._ranker==SPH_RANK_EXPR:
req.append(pack('>L', len(self._rankexpr)))
req.append(self._rankexpr)
req.append(pack('>L', self._sort))
req.append(pack('>L', len(self._sortby)))
req.append(self._sortby)
if isinstance(query,unicode):
query = query.encode('utf-8')
assert(isinstance(query,str))
req.append(pack('>L', len(query)))
req.append(query)
req.append(pack('>L', len(self._weights)))
for w in self._weights:
req.append(pack('>L', w))
assert(isinstance(index,str))
req.append(pack('>L', len(index)))
req.append(index)
req.append(pack('>L',1)) # id64 range marker
req.append(pack('>Q', self._min_id))
req.append(pack('>Q', self._max_id))
# filters
req.append ( pack ( '>L', len(self._filters) ) )
for f in self._filters:
req.append ( pack ( '>L', len(f['attr'])) + f['attr'])
filtertype = f['type']
req.append ( pack ( '>L', filtertype))
if filtertype == SPH_FILTER_VALUES:
req.append ( pack ('>L', len(f['values'])))
for val in f['values']:
req.append ( pack ('>q', val))
elif filtertype == SPH_FILTER_RANGE:
req.append ( pack ('>2q', f['min'], f['max']))
elif filtertype == SPH_FILTER_FLOATRANGE:
req.append ( pack ('>2f', f['min'], f['max']))
elif filtertype == SPH_FILTER_STRING:
req.append ( pack ( '>L', len(f['value']) ) )
req.append ( f['value'] )
req.append ( pack ( '>L', f['exclude'] ) )
# group-by, max-matches, group-sort
req.append ( pack ( '>2L', self._groupfunc, len(self._groupby) ) )
req.append ( self._groupby )
req.append ( pack ( '>2L', self._maxmatches, len(self._groupsort) ) )
req.append ( self._groupsort )
req.append ( pack ( '>LLL', self._cutoff, self._retrycount, self._retrydelay))
req.append ( pack ( '>L', len(self._groupdistinct)))
req.append ( self._groupdistinct)
# anchor point
if len(self._anchor) == 0:
req.append ( pack ('>L', 0))
else:
attrlat, attrlong = self._anchor['attrlat'], self._anchor['attrlong']
latitude, longitude = self._anchor['lat'], self._anchor['long']
req.append ( pack ('>L', 1))
req.append ( pack ('>L', len(attrlat)) + attrlat)
req.append ( pack ('>L', len(attrlong)) + attrlong)
req.append ( pack ('>f', latitude) + pack ('>f', longitude))
# per-index weights
req.append ( pack ('>L',len(self._indexweights)))
for indx,weight in self._indexweights.items():
req.append ( pack ('>L',len(indx)) + indx + pack ('>L',weight))
# max query time
req.append ( pack ('>L', self._maxquerytime) )
# per-field weights
req.append ( pack ('>L',len(self._fieldweights) ) )
for field,weight in self._fieldweights.items():
req.append ( pack ('>L',len(field)) + field + pack ('>L',weight) )
# comment
comment = str(comment)
req.append ( pack('>L',len(comment)) + comment )
# attribute overrides
req.append ( pack('>L', len(self._overrides)) )
for v in self._overrides.values():
req.extend ( ( pack('>L', len(v['name'])), v['name'] ) )
req.append ( pack('>LL', v['type'], len(v['values'])) )
for id, value in v['values'].iteritems():
req.append ( pack('>Q', id) )
if v['type'] == SPH_ATTR_FLOAT:
req.append ( pack('>f', value) )
elif v['type'] == SPH_ATTR_BIGINT:
req.append ( pack('>q', value) )
else:
req.append ( pack('>l', value) )
# select-list
req.append ( pack('>L', len(self._select)) )
req.append ( self._select )
if self._predictedtime>0:
req.append ( pack('>L', self._predictedtime ) )
# outer
req.append ( pack('>L',len(self._outerorderby)) + self._outerorderby )
req.append ( pack ( '>2L', self._outeroffset, self._outerlimit ) )
if self._hasouter:
req.append ( pack('>L', 1) )
else:
req.append ( pack('>L', 0) )
# send query, get response
req = ''.join(req)
self._reqs.append(req)
return
def RunQueries (self):
"""
Run queries batch.
Returns None on network IO failure; or an array of result set hashes on success.
"""
if len(self._reqs)==0:
self._error = 'no queries defined, issue AddQuery() first'
return None
sock = self._Connect()
if not sock:
return None
req = ''.join(self._reqs)
length = len(req)+8
req = pack('>HHLLL', SEARCHD_COMMAND_SEARCH, VER_COMMAND_SEARCH, length, 0, len(self._reqs))+req
self._Send ( sock, req )
# add by littleneko
future = Future()
def handle_data(s, event):
io_loop = ioloop.IOLoop.current()
io_loop.remove_handler(s)
response = self._GetResponse(s, VER_COMMAND_SEARCH)
if not response:
return None
nreqs = len(self._reqs)
# parse response
max_ = len(response)
p = 0
results = []
for i in range(0,nreqs,1):
result = {}
results.append(result)
result['error'] = ''
result['warning'] = ''
status = unpack('>L', response[p:p+4])[0]
p += 4
result['status'] = status
if status != SEARCHD_OK:
length = unpack('>L', response[p:p+4])[0]
p += 4
message = response[p:p+length]
p += length
if status == SEARCHD_WARNING:
result['warning'] = message
else:
result['error'] = message
continue
# read schema
fields = []
attrs = []
nfields = unpack('>L', response[p:p+4])[0]
p += 4
while nfields>0 and p<max_:
nfields -= 1
length = unpack('>L', response[p:p+4])[0]
p += 4
fields.append(response[p:p+length])
p += length
result['fields'] = fields
nattrs = unpack('>L', response[p:p+4])[0]
p += 4
while nattrs>0 and p<max_:
nattrs -= 1
length = unpack('>L', response[p:p+4])[0]
p += 4
attr = response[p:p+length]
p += length
type_ = unpack('>L', response[p:p+4])[0]
p += 4
attrs.append([attr,type_])
result['attrs'] = attrs
# read match count
count = unpack('>L', response[p:p+4])[0]
p += 4
id64 = unpack('>L', response[p:p+4])[0]
p += 4
# read matches
result['matches'] = []
while count>0 and p<max_:
count -= 1
if id64:
doc, weight = unpack('>QL', response[p:p+12])
p += 12
else:
doc, weight = unpack('>2L', response[p:p+8])
p += 8
match = { 'id':doc, 'weight':weight, 'attrs':{} }
for i in range(len(attrs)):
if attrs[i][1] == SPH_ATTR_FLOAT:
match['attrs'][attrs[i][0]] = unpack('>f', response[p:p+4])[0]
elif attrs[i][1] == SPH_ATTR_BIGINT:
match['attrs'][attrs[i][0]] = unpack('>q', response[p:p+8])[0]
p += 4
elif attrs[i][1] == SPH_ATTR_STRING:
slen = unpack('>L', response[p:p+4])[0]
p += 4
match['attrs'][attrs[i][0]] = ''
if slen>0:
match['attrs'][attrs[i][0]] = response[p:p+slen]
p += slen-4
elif attrs[i][1] == SPH_ATTR_FACTORS:
slen = unpack('>L', response[p:p+4])[0]
p += 4
match['attrs'][attrs[i][0]] = ''
if slen>0:
match['attrs'][attrs[i][0]] = response[p:p+slen-4]
p += slen-4
p -= 4
elif attrs[i][1] == SPH_ATTR_MULTI:
match['attrs'][attrs[i][0]] = []
nvals = unpack('>L', response[p:p+4])[0]
p += 4
for n in range(0,nvals,1):
match['attrs'][attrs[i][0]].append(unpack('>L', response[p:p+4])[0])
p += 4
p -= 4
elif attrs[i][1] == SPH_ATTR_MULTI64:
match['attrs'][attrs[i][0]] = []
nvals = unpack('>L', response[p:p+4])[0]
nvals = nvals/2
p += 4
for n in range(0,nvals,1):
match['attrs'][attrs[i][0]].append(unpack('>q', response[p:p+8])[0])
p += 8
p -= 4
else:
match['attrs'][attrs[i][0]] = unpack('>L', response[p:p+4])[0]
p += 4
result['matches'].append ( match )
result['total'], result['total_found'], result['time'], words = unpack('>4L', response[p:p+16])
result['time'] = '%.3f' % (result['time']/1000.0)
p += 16
result['words'] = []
while words>0:
words -= 1
length = unpack('>L', response[p:p+4])[0]
p += 4
word = response[p:p+length]
p += length
docs, hits = unpack('>2L', response[p:p+8])
p += 8
result['words'].append({'word':word, 'docs':docs, 'hits':hits})
self._reqs = []
future.set_result(results)
io_loop = ioloop.IOLoop.current()
io_loop.add_handler(sock, handle_data, io_loop.READ)
return future
def BuildExcerpts (self, docs, index, words, opts=None):
"""
Connect to searchd server and generate exceprts from given documents.
"""
if not opts:
opts = {}
if isinstance(words,unicode):
words = words.encode('utf-8')
assert(isinstance(docs, list))
assert(isinstance(index, str))
assert(isinstance(words, str))
assert(isinstance(opts, dict))
sock = self._Connect()
if not sock:
return None
# fixup options
opts.setdefault('before_match', '<b>')
opts.setdefault('after_match', '</b>')
opts.setdefault('chunk_separator', ' ... ')
opts.setdefault('html_strip_mode', 'index')
opts.setdefault('limit', 256)
opts.setdefault('limit_passages', 0)
opts.setdefault('limit_words', 0)
opts.setdefault('around', 5)
opts.setdefault('start_passage_id', 1)
opts.setdefault('passage_boundary', 'none')
# build request
# v.1.0 req
flags = 1 # (remove spaces)
if opts.get('exact_phrase'): flags |= 2
if opts.get('single_passage'): flags |= 4
if opts.get('use_boundaries'): flags |= 8
if opts.get('weight_order'): flags |= 16
if opts.get('query_mode'): flags |= 32
if opts.get('force_all_words'): flags |= 64
if opts.get('load_files'): flags |= 128
if opts.get('allow_empty'): flags |= 256
if opts.get('emit_zones'): flags |= 512
if opts.get('load_files_scattered'): flags |= 1024
# mode=0, flags
req = [pack('>2L', 0, flags)]
# req index
req.append(pack('>L', len(index)))
req.append(index)
# req words
req.append(pack('>L', len(words)))
req.append(words)
# options
req.append(pack('>L', len(opts['before_match'])))
req.append(opts['before_match'])
req.append(pack('>L', len(opts['after_match'])))
req.append(opts['after_match'])
req.append(pack('>L', len(opts['chunk_separator'])))
req.append(opts['chunk_separator'])
req.append(pack('>L', int(opts['limit'])))
req.append(pack('>L', int(opts['around'])))
req.append(pack('>L', int(opts['limit_passages'])))
req.append(pack('>L', int(opts['limit_words'])))
req.append(pack('>L', int(opts['start_passage_id'])))
req.append(pack('>L', len(opts['html_strip_mode'])))
req.append((opts['html_strip_mode']))
req.append(pack('>L', len(opts['passage_boundary'])))
req.append((opts['passage_boundary']))
# documents
req.append(pack('>L', len(docs)))
for doc in docs:
if isinstance(doc,unicode):
doc = doc.encode('utf-8')
assert(isinstance(doc, str))
req.append(pack('>L', len(doc)))
req.append(doc)
req = ''.join(req)
# send query, get response
length = len(req)
# add header
req = pack('>2HL', SEARCHD_COMMAND_EXCERPT, VER_COMMAND_EXCERPT, length)+req
self._Send ( sock, req )
response = self._GetResponse(sock, VER_COMMAND_EXCERPT )
if not response:
return []