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search_engine.py
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# -*- coding: utf-8 -*-
## $Id$
## This file is part of CDS Invenio.
## Copyright (C) 2002, 2003, 2004, 2005, 2006 CERN.
##
## CDS Invenio is free software; you can redistribute it and/or
## modify it under the terms of the GNU General Public License as
## published by the Free Software Foundation; either version 2 of the
## License, or (at your option) any later version.
##
## CDS Invenio is distributed in the hope that it will be useful, but
## WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
## General Public License for more details.
##
## You should have received a copy of the GNU General Public License
## along with CDS Invenio; if not, write to the Free Software Foundation, Inc.,
## 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA.
# pylint: disable-msg=C0301
"""CDS Invenio Search Engine in mod_python."""
__lastupdated__ = """$Date$"""
__revision__ = "$Id$"
## import general modules:
import cgi
import copy
import string
import os
import sre
import time
import urllib
import zlib
import Numeric
## import CDS Invenio stuff:
from invenio.config import \
CFG_CERN_SITE, \
CFG_MAX_RECID, \
CFG_OAI_ID_FIELD, \
CFG_WEBCOMMENT_ALLOW_COMMENTS, \
CFG_WEBCOMMENT_ALLOW_REVIEWS, \
CFG_WEBCOMMENT_NB_COMMENTS_IN_DETAILED_VIEW, \
CFG_WEBCOMMENT_NB_REVIEWS_IN_DETAILED_VIEW, \
CFG_WEBSEARCH_CALL_BIBFORMAT, \
CFG_WEBSEARCH_CREATE_SIMILARLY_NAMED_AUTHORS_LINK_BOX, \
CFG_WEBSEARCH_FIELDS_CONVERT, \
CFG_WEBSEARCH_NB_RECORDS_TO_SORT, \
CFG_WEBSEARCH_SEARCH_CACHE_SIZE, \
cdslang, \
cdsname, \
cdsnameintl, \
logdir, \
weburl
from invenio.search_engine_config import CFG_EXPERIMENTAL_FEATURES
from invenio.bibrank_record_sorter import get_bibrank_methods, rank_records
from invenio.bibrank_downloads_similarity import register_page_view_event, calculate_reading_similarity_list
from invenio.bibformat import format_record, format_records, get_output_format_content_type, create_excel
from invenio.bibformat_config import CFG_BIBFORMAT_USE_OLD_BIBFORMAT
from invenio.websearch_external_collections import print_external_results_overview, perform_external_collection_search
if CFG_EXPERIMENTAL_FEATURES:
from invenio.bibrank_citation_searcher import calculate_cited_by_list, calculate_co_cited_with_list
from invenio.bibrank_citation_grapher import create_citation_history_graph_and_box
from invenio.bibrank_downloads_grapher import create_download_history_graph_and_box
from invenio.dbquery import run_sql, get_table_update_time, escape_string, Error
try:
from mod_python import apache
from invenio.webuser import getUid
from invenio.webpage import pageheaderonly, pagefooteronly, create_error_box
except ImportError, e:
pass # ignore user personalisation, needed e.g. for command-line
from invenio.messages import gettext_set_language
try:
import invenio.template
websearch_templates = invenio.template.load('websearch')
except:
pass
## global vars:
search_cache = {} # will cache results of previous searches
cfg_nb_browse_seen_records = 100 # limit of the number of records to check when browsing certain collection
cfg_nicely_ordered_collection_list = 0 # do we propose collection list nicely ordered or alphabetical?
## precompile some often-used regexp for speed reasons:
sre_word = sre.compile('[\s]')
sre_quotes = sre.compile('[\'\"]')
sre_doublequote = sre.compile('\"')
sre_equal = sre.compile('\=')
sre_logical_and = sre.compile('\sand\s', sre.I)
sre_logical_or = sre.compile('\sor\s', sre.I)
sre_logical_not = sre.compile('\snot\s', sre.I)
sre_operators = sre.compile(r'\s([\+\-\|])\s')
sre_pattern_wildcards_at_beginning = sre.compile(r'(\s)[\*\%]+')
sre_pattern_single_quotes = sre.compile("'(.*?)'")
sre_pattern_double_quotes = sre.compile("\"(.*?)\"")
sre_pattern_regexp_quotes = sre.compile("\/(.*?)\/")
sre_pattern_short_words = sre.compile(r'([\s\"]\w{1,3})[\*\%]+')
sre_pattern_space = sre.compile("__SPACE__")
sre_pattern_today = sre.compile("\$TODAY\$")
sre_unicode_lowercase_a = sre.compile(unicode(r"(?u)[áàäâãå]", "utf-8"))
sre_unicode_lowercase_ae = sre.compile(unicode(r"(?u)[æ]", "utf-8"))
sre_unicode_lowercase_e = sre.compile(unicode(r"(?u)[éèëê]", "utf-8"))
sre_unicode_lowercase_i = sre.compile(unicode(r"(?u)[íìïî]", "utf-8"))
sre_unicode_lowercase_o = sre.compile(unicode(r"(?u)[óòöôõø]", "utf-8"))
sre_unicode_lowercase_u = sre.compile(unicode(r"(?u)[úùüû]", "utf-8"))
sre_unicode_lowercase_y = sre.compile(unicode(r"(?u)[ýÿ]", "utf-8"))
sre_unicode_lowercase_c = sre.compile(unicode(r"(?u)[çć]", "utf-8"))
sre_unicode_lowercase_n = sre.compile(unicode(r"(?u)[ñ]", "utf-8"))
sre_unicode_uppercase_a = sre.compile(unicode(r"(?u)[ÁÀÄÂÃÅ]", "utf-8"))
sre_unicode_uppercase_ae = sre.compile(unicode(r"(?u)[Æ]", "utf-8"))
sre_unicode_uppercase_e = sre.compile(unicode(r"(?u)[ÉÈËÊ]", "utf-8"))
sre_unicode_uppercase_i = sre.compile(unicode(r"(?u)[ÍÌÏÎ]", "utf-8"))
sre_unicode_uppercase_o = sre.compile(unicode(r"(?u)[ÓÒÖÔÕØ]", "utf-8"))
sre_unicode_uppercase_u = sre.compile(unicode(r"(?u)[ÚÙÜÛ]", "utf-8"))
sre_unicode_uppercase_y = sre.compile(unicode(r"(?u)[Ý]", "utf-8"))
sre_unicode_uppercase_c = sre.compile(unicode(r"(?u)[ÇĆ]", "utf-8"))
sre_unicode_uppercase_n = sre.compile(unicode(r"(?u)[Ñ]", "utf-8"))
def get_alphabetically_ordered_collection_list(level=0):
"""Returns nicely ordered (score respected) list of collections, more exactly list of tuples
(collection name, printable collection name).
Suitable for create_search_box()."""
out = []
query = "SELECT id,name FROM collection ORDER BY name ASC"
res = run_sql(query)
for c_id, c_name in res:
# make a nice printable name (e.g. truncate c_printable for for long collection names):
if len(c_name)>30:
c_printable = c_name[:30] + "..."
else:
c_printable = c_name
if level:
c_printable = " " + level * '-' + " " + c_printable
out.append([c_name, c_printable])
return out
def get_nicely_ordered_collection_list(collid=1, level=0):
"""Returns nicely ordered (score respected) list of collections, more exactly list of tuples
(collection name, printable collection name).
Suitable for create_search_box()."""
colls_nicely_ordered = []
query = "SELECT c.name,cc.id_son FROM collection_collection AS cc, collection AS c "\
" WHERE c.id=cc.id_son AND cc.id_dad='%s' ORDER BY score DESC" % collid
res = run_sql(query)
for c, cid in res:
# make a nice printable name (e.g. truncate c_printable for for long collection names):
if len(c)>30:
c_printable = c[:30] + "..."
else:
c_printable = c
if level:
c_printable = " " + level * '-' + " " + c_printable
colls_nicely_ordered.append([c, c_printable])
colls_nicely_ordered = colls_nicely_ordered + get_nicely_ordered_collection_list(cid, level+1)
return colls_nicely_ordered
def get_index_id(field):
"""Returns first index id where the field code FIELD is indexed.
Returns zero in case there is no table for this index.
Example: field='author', output=4."""
out = 0
query = """SELECT w.id FROM idxINDEX AS w, idxINDEX_field AS wf, field AS f
WHERE f.code='%s' AND wf.id_field=f.id AND w.id=wf.id_idxINDEX
LIMIT 1""" % escape_string(field)
res = run_sql(query, None, 1)
if res:
out = res[0][0]
return out
def get_words_from_pattern(pattern):
"Returns list of whitespace-separated words from pattern."
words = {}
for word in string.split(pattern):
if not words.has_key(word):
words[word] = 1;
return words.keys()
def create_basic_search_units(req, p, f, m=None, of='hb'):
"""Splits search pattern and search field into a list of independently searchable units.
- A search unit consists of '(operator, pattern, field, type, hitset)' tuples where
'operator' is set union (|), set intersection (+) or set exclusion (-);
'pattern' is either a word (e.g. muon*) or a phrase (e.g. 'nuclear physics');
'field' is either a code like 'title' or MARC tag like '100__a';
'type' is the search type ('w' for word file search, 'a' for access file search).
- Optionally, the function accepts the match type argument 'm'.
If it is set (e.g. from advanced search interface), then it
performs this kind of matching. If it is not set, then a guess is made.
'm' can have values: 'a'='all of the words', 'o'='any of the words',
'p'='phrase/substring', 'r'='regular expression',
'e'='exact value'.
- Warnings are printed on req (when not None) in case of HTML output formats."""
opfts = [] # will hold (o,p,f,t,h) units
## check arguments: if matching type phrase/string/regexp, do we have field defined?
if (m=='p' or m=='r' or m=='e') and not f:
m = 'a'
if of.startswith("h"):
print_warning(req, "This matching type cannot be used within <em>any field</em>. I will perform a word search instead." )
print_warning(req, "If you want to phrase/substring/regexp search in a specific field, e.g. inside title, then please choose <em>within title</em> search option.")
## is desired matching type set?
if m:
## A - matching type is known; good!
if m == 'e':
# A1 - exact value:
opfts.append(['+', p, f, 'a']) # '+' since we have only one unit
elif m == 'p':
# A2 - phrase/substring:
opfts.append(['+', "%" + p + "%", f, 'a']) # '+' since we have only one unit
elif m == 'r':
# A3 - regular expression:
opfts.append(['+', p, f, 'r']) # '+' since we have only one unit
elif m == 'a' or m == 'w':
# A4 - all of the words:
p = strip_accents(p) # strip accents for 'w' mode, FIXME: delete when not needed
for word in get_words_from_pattern(p):
opfts.append(['+', word, f, 'w']) # '+' in all units
elif m == 'o':
# A5 - any of the words:
p = strip_accents(p) # strip accents for 'w' mode, FIXME: delete when not needed
for word in get_words_from_pattern(p):
if len(opfts)==0:
opfts.append(['+', word, f, 'w']) # '+' in the first unit
else:
opfts.append(['|', word, f, 'w']) # '|' in further units
else:
if of.startswith("h"):
print_warning(req, "Matching type '%s' is not implemented yet." % m, "Warning")
opfts.append(['+', "%" + p + "%", f, 'a'])
else:
## B - matching type is not known: let us try to determine it by some heuristics
if f and p[0] == '"' and p[-1] == '"':
## B0 - does 'p' start and end by double quote, and is 'f' defined? => doing ACC search
opfts.append(['+', p[1:-1], f, 'a'])
elif f and p[0] == "'" and p[-1] == "'":
## B0bis - does 'p' start and end by single quote, and is 'f' defined? => doing ACC search
opfts.append(['+', '%' + p[1:-1] + '%', f, 'a'])
elif f and p[0] == "/" and p[-1] == "/":
## B0ter - does 'p' start and end by a slash, and is 'f' defined? => doing regexp search
opfts.append(['+', p[1:-1], f, 'r'])
elif f and string.find(p, ',') >= 0:
## B1 - does 'p' contain comma, and is 'f' defined? => doing ACC search
opfts.append(['+', p, f, 'a'])
elif f and str(f[0:2]).isdigit():
## B2 - does 'f' exist and starts by two digits? => doing ACC search
opfts.append(['+', p, f, 'a'])
else:
## B3 - doing WRD search, but maybe ACC too
# search units are separated by spaces unless the space is within single or double quotes
# so, let us replace temporarily any space within quotes by '__SPACE__'
p = sre_pattern_single_quotes.sub(lambda x: "'"+string.replace(x.group(1), ' ', '__SPACE__')+"'", p)
p = sre_pattern_double_quotes.sub(lambda x: "\""+string.replace(x.group(1), ' ', '__SPACE__')+"\"", p)
p = sre_pattern_regexp_quotes.sub(lambda x: "/"+string.replace(x.group(1), ' ', '__SPACE__')+"/", p)
# wash argument:
p = sre_equal.sub(":", p)
p = sre_logical_and.sub(" ", p)
p = sre_logical_or.sub(" |", p)
p = sre_logical_not.sub(" -", p)
p = sre_operators.sub(r' \1', p)
for pi in string.split(p): # iterate through separated units (or items, as "pi" stands for "p item")
pi = sre_pattern_space.sub(" ", pi) # replace back '__SPACE__' by ' '
# firstly, determine set operator
if pi[0] == '+' or pi[0] == '-' or pi[0] == '|':
oi = pi[0]
pi = pi[1:]
else:
# okay, there is no operator, so let us decide what to do by default
oi = '+' # by default we are doing set intersection...
# secondly, determine search pattern and field:
if string.find(pi, ":") > 0:
fi, pi = string.split(pi, ":", 1)
else:
fi, pi = f, pi
# look also for old ALEPH field names:
if fi and CFG_WEBSEARCH_FIELDS_CONVERT.has_key(string.lower(fi)):
fi = CFG_WEBSEARCH_FIELDS_CONVERT[string.lower(fi)]
# wash 'pi' argument:
if sre_quotes.match(pi):
# B3a - quotes are found => do ACC search (phrase search)
if fi:
if pi[0] == '"' and pi[-1] == '"':
pi = string.replace(pi, '"', '') # remove quote signs
opfts.append([oi, pi, fi, 'a'])
elif pi[0] == "'" and pi[-1] == "'":
pi = string.replace(pi, "'", "") # remove quote signs
opfts.append([oi, "%" + pi + "%", fi, 'a'])
else: # unbalanced quotes, so do WRD query:
opfts.append([oi, pi, fi, 'w'])
else:
# fi is not defined, look at where we are doing exact or subphrase search (single/double quotes):
if pi[0] == '"' and pi[-1] == '"':
opfts.append([oi, pi[1:-1], "anyfield", 'a'])
if of.startswith("h"):
print_warning(req, "Searching for an exact match inside any field may be slow. You may want to search for words instead, or choose to search within specific field.")
else:
# nope, subphrase in global index is not possible => change back to WRD search
pi = strip_accents(pi) # strip accents for 'w' mode, FIXME: delete when not needed
for pii in get_words_from_pattern(pi):
# since there may be '-' and other chars that we do not index in WRD
opfts.append([oi, pii, fi, 'w'])
if of.startswith("h"):
print_warning(req, "The partial phrase search does not work in any field. I'll do a boolean AND searching instead.")
print_warning(req, "If you want to do a partial phrase search in a specific field, e.g. inside title, then please choose 'within title' search option.", "Tip")
print_warning(req, "If you want to do exact phrase matching, then please use double quotes.", "Tip")
elif fi and str(fi[0]).isdigit() and str(fi[0]).isdigit():
# B3b - fi exists and starts by two digits => do ACC search
opfts.append([oi, pi, fi, 'a'])
elif fi and not get_index_id(fi):
# B3c - fi exists but there is no words table for fi => try ACC search
opfts.append([oi, pi, fi, 'a'])
elif fi and pi.startswith('/') and pi.endswith('/'):
# B3d - fi exists and slashes found => try regexp search
opfts.append([oi, pi[1:-1], fi, 'r'])
else:
# B3e - general case => do WRD search
pi = strip_accents(pi) # strip accents for 'w' mode, FIXME: delete when not needed
for pii in get_words_from_pattern(pi):
opfts.append([oi, pii, fi, 'w'])
## sanity check:
for i in range(0, len(opfts)):
try:
pi = opfts[i][1]
if pi == '*':
if of.startswith("h"):
print_warning(req, "Ignoring standalone wildcard word.", "Warning")
del opfts[i]
if pi == '' or pi == ' ':
fi = opfts[i][2]
if fi:
if of.startswith("h"):
print_warning(req, "Ignoring empty <em>%s</em> search term." % fi, "Warning")
del opfts[i]
except:
pass
## return search units:
return opfts
def page_start(req, of, cc, as, ln, uid, title_message=None,
description='', keywords=''):
"Start page according to given output format."
_ = gettext_set_language(ln)
if not title_message: title_message = _("Search Results")
if not req:
return # we were called from CLI
content_type = get_output_format_content_type(of)
if of.startswith('x'):
# we are doing XML output:
req.content_type = "text/xml"
req.send_http_header()
req.write("""<?xml version="1.0" encoding="UTF-8"?>\n""")
elif of.startswith('t') or str(of[0:3]).isdigit():
# we are doing plain text output:
req.content_type = "text/plain"
req.send_http_header()
elif of == "id":
pass # nothing to do, we shall only return list of recIDs
elif content_type == 'text/html':
# we are doing HTML output:
req.content_type = "text/html"
req.send_http_header()
if not description:
description = "%s %s." % (cc, _("Search Results"))
if not keywords:
keywords = "CDS Invenio, WebSearch, %s" % cc
req.write(pageheaderonly(req=req, title=title_message,
navtrail=create_navtrail_links(cc, as, ln),
description=description,
keywords=keywords,
uid=uid,
language=ln))
req.write(websearch_templates.tmpl_search_pagestart(ln=ln))
#else:
# req.send_http_header()
def page_end(req, of="hb", ln=cdslang):
"End page according to given output format: e.g. close XML tags, add HTML footer, etc."
if of == "id":
return [] # empty recID list
if not req:
return # we were called from CLI
if of.startswith('h'):
req.write(websearch_templates.tmpl_search_pageend(ln = ln)) # pagebody end
req.write(pagefooteronly(lastupdated=__lastupdated__, language=ln, req=req))
return "\n"
def create_inputdate_box(name="d1", selected_year=0, selected_month=0, selected_day=0, ln=cdslang):
"Produces 'From Date', 'Until Date' kind of selection box. Suitable for search options."
_ = gettext_set_language(ln)
box = ""
# day
box += """<select name="%sd">""" % name
box += """<option value="">%s""" % _("any day")
for day in range(1, 32):
box += """<option value="%02d"%s>%02d""" % (day, is_selected(day, selected_day), day)
box += """</select>"""
# month
box += """<select name="%sm">""" % name
box += """<option value="">%s""" % _("any month")
for mm, month in [(1, _("January")), (2, _("February")), (3, _("March")), (4, _("April")), \
(5, _("May")), (6, _("June")), (7, _("July")), (8, _("August")), \
(9, _("September")), (10, _("October")), (11, _("November")), (12, _("December"))]:
box += """<option value="%02d"%s>%s""" % (mm, is_selected(mm, selected_month), month)
box += """</select>"""
# year
box += """<select name="%sy">""" % name
box += """<option value="">%s""" % _("any year")
this_year = int(time.strftime("%Y", time.localtime()))
for year in range(this_year-20, this_year+1):
box += """<option value="%d"%s>%d""" % (year, is_selected(year, selected_year), year)
box += """</select>"""
return box
def create_search_box(cc, colls, p, f, rg, sf, so, sp, rm, of, ot, as,
ln, p1, f1, m1, op1, p2, f2, m2, op2, p3, f3,
m3, sc, pl, d1y, d1m, d1d, d2y, d2m, d2d, jrec, ec,
action=""):
"Create search box for 'search again in the results page' functionality."
# load the right message language
_ = gettext_set_language(ln)
# some computations
if cc == cdsname:
cc_intl = cdsnameintl[ln]
else:
cc_intl = get_coll_i18nname(cc, ln)
colls_nicely_ordered = []
if cfg_nicely_ordered_collection_list:
colls_nicely_ordered = get_nicely_ordered_collection_list()
else:
colls_nicely_ordered = get_alphabetically_ordered_collection_list()
colls_nice = []
for (cx, cx_printable) in colls_nicely_ordered:
if not cx.startswith("Unnamed collection"):
colls_nice.append({ 'value' : cx,
'text' : cx_printable
})
coll_selects = []
if colls and colls[0] != cdsname:
# some collections are defined, so print these first, and only then print 'add another collection' heading:
for c in colls:
if c:
temp = []
temp.append({ 'value' : '',
'text' : '*** %s ***' % _("any collection")
})
for val in colls_nice:
# print collection:
if not cx.startswith("Unnamed collection"):
temp.append({ 'value' : val['value'],
'text' : val['text'],
'selected' : (c == sre.sub("^[\s\-]*","", val['value']))
})
coll_selects.append(temp)
coll_selects.append([{ 'value' : '',
'text' : '*** %s ***' % _("add another collection")
}] + colls_nice)
else: # we searched in CDSNAME, so print 'any collection' heading
coll_selects.append([{ 'value' : '',
'text' : '*** %s ***' % _("any collection")
}] + colls_nice)
sort_formats = [{
'value' : '',
'text' : _("latest first")
}]
query = """SELECT DISTINCT(f.code),f.name FROM field AS f, collection_field_fieldvalue AS cff
WHERE cff.type='soo' AND cff.id_field=f.id
ORDER BY cff.score DESC, f.name ASC"""
res = run_sql(query)
for code, name in res:
sort_formats.append({
'value' : code,
'text' : name,
})
## ranking methods
ranks = [{
'value' : '',
'text' : "- %s %s -" % (_("OR").lower (), _("rank by")),
}]
for (code, name) in get_bibrank_methods(get_colID(cc), ln):
# propose found rank methods:
ranks.append({
'value' : code,
'text' : name,
})
formats = []
query = """SELECT code,name FROM format ORDER BY name ASC"""
res = run_sql(query)
if res:
# propose found formats:
for code, name in res:
formats.append({ 'value' : code,
'text' : name
})
else:
formats.append({'value' : 'hb',
'text' : _("HTML brief")
})
return websearch_templates.tmpl_search_box(
ln = ln,
as = as,
cc_intl = cc_intl,
cc = cc,
ot = ot,
sp = sp,
action = action,
fieldslist = get_searchwithin_fields(ln = ln),
f1 = f1,
f2 = f2,
f3 = f3,
m1 = m1,
m2 = m2,
m3 = m3,
p1 = p1,
p2 = p2,
p3 = p3,
op1 = op1,
op2 = op2,
rm = rm,
p = p,
f = f,
coll_selects = coll_selects,
d1y = d1y, d2y = d2y, d1m = d1m, d2m = d2m, d1d = d1d, d2d = d2d,
sort_formats = sort_formats,
sf = sf,
so = so,
ranks = ranks,
sc = sc,
rg = rg,
formats = formats,
of = of,
pl = pl,
jrec = jrec,
ec = ec,
)
def create_navtrail_links(cc=cdsname, as=0, ln=cdslang, self_p=1):
"""Creates navigation trail links, i.e. links to collection
ancestors (except Home collection). If as==1, then links to
Advanced Search interfaces; otherwise Simple Search.
"""
dads = []
for dad in get_coll_ancestors(cc):
if dad != cdsname: # exclude Home collection
dads.append ((dad, get_coll_i18nname (dad, ln)))
if self_p and cc != cdsname:
dads.append((cc, get_coll_i18nname(cc, ln)))
return websearch_templates.tmpl_navtrail_links(
as=as, ln=ln, dads=dads)
def create_searchwithin_selection_box(fieldname='f', value='', ln='en'):
"Produces 'search within' selection box for the current collection."
out = ""
out += """<select name="%s">""" % fieldname
out += """<option value="">%s""" % get_field_i18nname("any field", ln)
query = "SELECT code,name FROM field ORDER BY name ASC"
res = run_sql(query)
for field_code, field_name in res:
if field_code and field_code != "anyfield":
out += """<option value="%s"%s>%s""" % (field_code, is_selected(field_code, value),
get_field_i18nname(field_name, ln))
if value and str(value[0]).isdigit():
out += """<option value="%s" selected>%s MARC tag""" % (value, value)
out += """</select>"""
return out
def get_searchwithin_fields(ln='en'):
"Retrieves the fields name used in the 'search within' selection box for the current collection."
query = "SELECT code,name FROM field ORDER BY name ASC"
res = run_sql(query)
fields = [{
'value' : '',
'text' : get_field_i18nname("any field", ln)
}]
for field_code, field_name in res:
if field_code and field_code != "anyfield":
fields.append({ 'value' : field_code,
'text' : get_field_i18nname(field_name, ln)
})
return fields
def create_andornot_box(name='op', value='', ln='en'):
"Returns HTML code for the AND/OR/NOT selection box."
_ = gettext_set_language(ln)
out = """
<select name="%s">
<option value="a"%s>%s
<option value="o"%s>%s
<option value="n"%s>%s
</select>
""" % (name,
is_selected('a', value), _("AND"),
is_selected('o', value), _("OR"),
is_selected('n', value), _("AND NOT"))
return out
def create_matchtype_box(name='m', value='', ln='en'):
"Returns HTML code for the 'match type' selection box."
_ = gettext_set_language(ln)
out = """
<select name="%s">
<option value="a"%s>%s
<option value="o"%s>%s
<option value="e"%s>%s
<option value="p"%s>%s
<option value="r"%s>%s
</select>
""" % (name,
is_selected('a', value), _("All of the words:"),
is_selected('o', value), _("Any of the words:"),
is_selected('e', value), _("Exact phrase:"),
is_selected('p', value), _("Partial phrase:"),
is_selected('r', value), _("Regular expression:"))
return out
def is_selected(var, fld):
"Checks if the two are equal, and if yes, returns ' selected'. Useful for select boxes."
if type(var) is int and type(fld) is int:
if var == fld:
return " selected"
elif str(var) == str(fld):
return " selected"
elif fld and len(fld)==3 and fld[0] == "w" and var == fld[1:]:
return " selected"
return ""
class HitSet:
"""Class describing set of records, implemented as bit vectors of recIDs.
Using Numeric arrays for speed (1 value = 8 bits), can use later "real"
bit vectors to save space."""
def __init__(self, init_set=None):
self._nbhits = -1
if init_set:
self._set = init_set
else:
self._set = Numeric.zeros(CFG_MAX_RECID+1, Numeric.Int0)
def __repr__(self, join=string.join):
return "%s(%s)" % (self.__class__.__name__, join(map(repr, self._set), ', '))
def add(self, recID):
"Adds a record to the set."
self._set[recID] = 1
def addmany(self, recIDs):
"Adds several recIDs to the set."
for recID in recIDs: self._set[recID] = 1
def addlist(self, arr):
"Adds an array of recIDs to the set."
Numeric.put(self._set, arr, 1)
def remove(self, recID):
"Removes a record from the set."
self._set[recID] = 0
def removemany(self, recIDs):
"Removes several records from the set."
for recID in recIDs:
self.remove(recID)
def intersect(self, other):
"Does a set intersection with other. Keep result in self."
self._set = Numeric.bitwise_and(self._set, other._set)
def union(self, other):
"Does a set union with other. Keep result in self."
self._set = Numeric.bitwise_or(self._set, other._set)
def difference(self, other):
"Does a set difference with other. Keep result in self."
#self._set = Numeric.bitwise_not(self._set, other._set)
for recID in Numeric.nonzero(other._set):
self.remove(recID)
def contains(self, recID):
"Checks whether the set contains recID."
return self._set[recID]
__contains__ = contains # Higher performance member-test for python 2.0 and above
def __getitem__(self, index):
"Support for the 'for item in set:' protocol."
return Numeric.nonzero(self._set)[index]
def calculate_nbhits(self):
"Calculates the number of records set in the hitset."
self._nbhits = Numeric.sum(self._set.copy().astype(Numeric.Int))
def items(self):
"Return an array containing all recID."
return Numeric.nonzero(self._set)
def tolist(self):
"Return an array containing all recID."
return Numeric.nonzero(self._set).tolist()
# speed up HitSet operations by ~20% if Psyco is installed:
try:
import psyco
psyco.bind(HitSet)
except:
pass
def wash_colls(cc, c, split_colls=0):
"""Wash collection list by checking whether user has deselected
anything under 'Narrow search'. Checks also if cc is a list or not.
Return list of cc, colls_to_display, colls_to_search since the list
of collections to display is different from that to search in.
This is because users might have chosen 'split by collection'
functionality.
The behaviour of "collections to display" depends solely whether
user has deselected a particular collection: e.g. if it started
from 'Articles and Preprints' page, and deselected 'Preprints',
then collection to display is 'Articles'. If he did not deselect
anything, then collection to display is 'Articles & Preprints'.
The behaviour of "collections to search in" depends on the
'split_colls' parameter:
* if is equal to 1, then we can wash the colls list down
and search solely in the collection the user started from;
* if is equal to 0, then we are splitting to the first level
of collections, i.e. collections as they appear on the page
we started to search from;
"""
colls_out = []
colls_out_for_display = []
# check what type is 'cc':
if type(cc) is list:
for ci in cc:
if collection_reclist_cache.has_key(ci):
# yes this collection is real, so use it:
cc = ci
break
else:
# check once if cc is real:
if not collection_reclist_cache.has_key(cc):
cc = cdsname # cc is not real, so replace it with Home collection
# check type of 'c' argument:
if type(c) is list:
colls = c
else:
colls = [c]
# remove all 'unreal' collections:
colls_real = []
for coll in colls:
if collection_reclist_cache.has_key(coll):
colls_real.append(coll)
colls = colls_real
# check if some real collections remain:
if len(colls)==0:
colls = [cc]
# then let us check the list of non-restricted "real" sons of 'cc' and compare it to 'coll':
query = "SELECT c.name FROM collection AS c, collection_collection AS cc, collection AS ccc WHERE c.id=cc.id_son AND cc.id_dad=ccc.id AND ccc.name='%s' AND cc.type='r' AND c.restricted IS NULL" % escape_string(cc)
res = run_sql(query)
l_cc_nonrestricted_sons = []
l_c = colls
for row in res:
l_cc_nonrestricted_sons.append(row[0])
l_c.sort()
l_cc_nonrestricted_sons.sort()
if l_cc_nonrestricted_sons == l_c:
colls_out_for_display = [cc] # yep, washing permitted, it is sufficient to display 'cc'
else:
colls_out_for_display = colls # nope, we need to display all 'colls' successively
# remove duplicates:
colls_out_for_display_nondups=filter(lambda x, colls_out_for_display=colls_out_for_display: colls_out_for_display[x-1] not in colls_out_for_display[x:], range(1, len(colls_out_for_display)+1))
colls_out_for_display = map(lambda x, colls_out_for_display=colls_out_for_display:colls_out_for_display[x-1], colls_out_for_display_nondups)
# second, let us decide on collection splitting:
if split_colls == 0:
# type A - no sons are wanted
colls_out = colls_out_for_display
# elif split_colls == 1:
else:
# type B - sons (first-level descendants) are wanted
for coll in colls_out_for_display:
coll_sons = get_coll_sons(coll)
if coll_sons == []:
colls_out.append(coll)
else:
colls_out = colls_out + coll_sons
# remove duplicates:
colls_out_nondups=filter(lambda x, colls_out=colls_out: colls_out[x-1] not in colls_out[x:], range(1, len(colls_out)+1))
colls_out = map(lambda x, colls_out=colls_out:colls_out[x-1], colls_out_nondups)
return (cc, colls_out_for_display, colls_out)
def strip_accents(x):
"""Strip accents in the input phrase X (assumed in UTF-8) by replacing
accented characters with their unaccented cousins (e.g. é by e).
Return such a stripped X."""
# convert input into Unicode string:
try:
y = unicode(x, "utf-8")
except:
return x # something went wrong, probably the input wasn't UTF-8
# asciify Latin-1 lowercase characters:
y = sre_unicode_lowercase_a.sub("a", y)
y = sre_unicode_lowercase_ae.sub("ae", y)
y = sre_unicode_lowercase_e.sub("e", y)
y = sre_unicode_lowercase_i.sub("i", y)
y = sre_unicode_lowercase_o.sub("o", y)
y = sre_unicode_lowercase_u.sub("u", y)
y = sre_unicode_lowercase_y.sub("y", y)
y = sre_unicode_lowercase_c.sub("c", y)
y = sre_unicode_lowercase_n.sub("n", y)
# asciify Latin-1 uppercase characters:
y = sre_unicode_uppercase_a.sub("A", y)
y = sre_unicode_uppercase_ae.sub("AE", y)
y = sre_unicode_uppercase_e.sub("E", y)
y = sre_unicode_uppercase_i.sub("I", y)
y = sre_unicode_uppercase_o.sub("O", y)
y = sre_unicode_uppercase_u.sub("U", y)
y = sre_unicode_uppercase_y.sub("Y", y)
y = sre_unicode_uppercase_c.sub("C", y)
y = sre_unicode_uppercase_n.sub("N", y)
# return UTF-8 representation of the Unicode string:
return y.encode("utf-8")
def wash_pattern(p):
"""Wash pattern passed by URL. Check for sanity of the wildcard by
removing wildcards if they are appended to extremely short words
(1-3 letters). TODO: instead of this approximative treatment, it
will be much better to introduce a temporal limit, e.g. to kill a
query if it does not finish in 10 seconds."""
# strip accents:
# p = strip_accents(p) # FIXME: when available, strip accents all the time
# add leading/trailing whitespace for the two following wildcard-sanity checking regexps:
p = " " + p + " "
# get rid of wildcards at the beginning of words:
p = sre_pattern_wildcards_at_beginning.sub("\\1", p)
# replace spaces within quotes by __SPACE__ temporarily:
p = sre_pattern_single_quotes.sub(lambda x: "'"+string.replace(x.group(1), ' ', '__SPACE__')+"'", p)
p = sre_pattern_double_quotes.sub(lambda x: "\""+string.replace(x.group(1), ' ', '__SPACE__')+"\"", p)
p = sre_pattern_regexp_quotes.sub(lambda x: "/"+string.replace(x.group(1), ' ', '__SPACE__')+"/", p)
# get rid of extremely short words (1-3 letters with wildcards):
p = sre_pattern_short_words.sub("\\1", p)
# replace back __SPACE__ by spaces:
p = sre_pattern_space.sub(" ", p)
# replace special terms:
p = sre_pattern_today.sub(time.strftime("%Y-%m-%d", time.localtime()), p)
# remove unnecessary whitespace:
p = string.strip(p)
return p
def wash_field(f):
"""Wash field passed by URL."""
# get rid of unnecessary whitespace:
f = string.strip(f)
# wash old-style CDS Invenio/ALEPH 'f' field argument, e.g. replaces 'wau' and 'au' by 'author'
if CFG_WEBSEARCH_FIELDS_CONVERT.has_key(string.lower(f)):
f = CFG_WEBSEARCH_FIELDS_CONVERT[f]
return f
def wash_dates(d1y=0, d1m=0, d1d=0, d2y=0, d2m=0, d2d=0):
"""Take user-submitted washed date arguments (D1Y, D1M, D1Y) and
(D2Y, D2M, D2Y) and return (YYY1-M1-D2, YYY2-M2-D2) strings in the
YYYY-MM-DD format suitable for time restricted searching.
I.e. pay attention when months are not there to put 01 or 12
according to whether it's the starting or the ending date, etc.
"""
day1, day2 = "", ""
# sanity checking:
if d1y == 0 and d1m == 0 and d1d == 0 and d2y == 0 and d2m == 0 and d2d == 0:
return ("", "") # nothing selected, so return empty values
# construct day1 (from):
if d1y:
day1 += "%04d" % d1y
else:
day1 += "0000"
if d1m:
day1 += "-%02d" % d1m
else:
day1 += "-01"
if d1d:
day1 += "-%02d" % d1d
else:
day1 += "-01"
# construct day2 (until):
if d2y:
day2 += "%04d" % d2y
else:
day2 += "9999"
if d2m:
day2 += "-%02d" % d2m
else:
day2 += "-12"
if d2d:
day2 += "-%02d" % d2d
else:
day2 += "-31" # NOTE: perhaps we should add max(datenumber) in
# given month, but for our quering it's not
# needed, 31 will always do
# okay, return constructed YYYY-MM-DD dates
return (day1, day2)
def get_colID(c):
"Return collection ID for collection name C. Return None if no match found."
colID = None
res = run_sql("SELECT id FROM collection WHERE name=%s", (c,), 1)
if res:
colID = res[0][0]
return colID
def get_coll_i18nname(c, ln=cdslang):
"""Return nicely formatted collection name (of name type 'ln',
'long name') for collection C in language LN."""
global collection_i18nname_cache
global collection_i18nname_cache_timestamp
# firstly, check whether the collectionname table was modified:
if get_table_update_time('collectionname') > collection_i18nname_cache_timestamp:
# yes it was, cache clear-up needed:
collection_i18nname_cache = create_collection_i18nname_cache()
# secondly, read i18n name from either the cache or return common name:
out = c
try:
out = collection_i18nname_cache[c][ln]
except KeyError:
pass # translation in LN does not exist
return out
def get_field_i18nname(f, ln=cdslang):
"""Return nicely formatted field name (of type 'ln', 'long name')
for field F in language LN."""
global field_i18nname_cache
global field_i18nname_cache_timestamp
# firstly, check whether the fieldname table was modified:
if get_table_update_time('fieldname') > field_i18nname_cache_timestamp:
# yes it was, cache clear-up needed:
field_i18nname_cache = create_field_i18nname_cache()
# secondly, read i18n name from either the cache or return common name:
out = f
try:
out = field_i18nname_cache[f][ln]
except KeyError:
pass # translation in LN does not exist
return out
def get_coll_ancestors(coll):
"Returns a list of ancestors for collection 'coll'."
coll_ancestors = []
coll_ancestor = coll
while 1:
query = "SELECT c.name FROM collection AS c "\
"LEFT JOIN collection_collection AS cc ON c.id=cc.id_dad "\
"LEFT JOIN collection AS ccc ON ccc.id=cc.id_son "\
"WHERE ccc.name='%s' ORDER BY cc.id_dad ASC LIMIT 1" \
% escape_string(coll_ancestor)
res = run_sql(query, None, 1)
if res:
coll_name = res[0][0]
coll_ancestors.append(coll_name)
coll_ancestor = coll_name
else:
break
# ancestors found, return reversed list:
coll_ancestors.reverse()
return coll_ancestors
def get_coll_sons(coll, type='r', public_only=1):
"""Return a list of sons (first-level descendants) of type 'type' for collection 'coll'.
If public_only, then return only non-restricted son collections.
"""
coll_sons = []
query = "SELECT c.name FROM collection AS c "\
"LEFT JOIN collection_collection AS cc ON c.id=cc.id_son "\
"LEFT JOIN collection AS ccc ON ccc.id=cc.id_dad "\
"WHERE cc.type='%s' AND ccc.name='%s'" \
% (escape_string(type), escape_string(coll))
if public_only:
query += " AND c.restricted IS NULL "
query += " ORDER BY cc.score DESC"
res = run_sql(query)
for name in res:
coll_sons.append(name[0])
return coll_sons
def get_coll_real_descendants(coll):
"""Return a list of all descendants of collection 'coll' that are defined by a 'dbquery'.
IOW, we need to decompose compound collections like "A & B" into "A" and "B" provided
that "A & B" has no associated database query defined.
"""
coll_sons = []
query = "SELECT c.name,c.dbquery FROM collection AS c "\
"LEFT JOIN collection_collection AS cc ON c.id=cc.id_son "\
"LEFT JOIN collection AS ccc ON ccc.id=cc.id_dad "\
"WHERE ccc.name='%s' ORDER BY cc.score DESC" \
% escape_string(coll)
res = run_sql(query)
for name, dbquery in res:
if dbquery: # this is 'real' collection, so return it:
coll_sons.append(name)
else: # this is 'composed' collection, so recurse:
coll_sons.extend(get_coll_real_descendants(name))
return coll_sons
def get_collection_reclist(coll):
"""Return hitset of recIDs that belong to the collection 'coll'.
But firstly check the last updated date of the collection table.
If it's newer than the cache timestamp, then empty the cache,
since new records could have been added."""
global collection_reclist_cache
global collection_reclist_cache_timestamp
# firstly, check whether the collection table was modified:
if get_table_update_time('collection') > collection_reclist_cache_timestamp:
# yes it was, cache clear-up needed:
collection_reclist_cache = create_collection_reclist_cache()
# secondly, read reclist from either the cache or the database:
if not collection_reclist_cache[coll]:
# not yet it the cache, so calculate it and fill the cache:
set = HitSet()
query = "SELECT nbrecs,reclist FROM collection WHERE name='%s'" % coll
res = run_sql(query, None, 1)
if res:
try:
set._nbhits, set._set = res[0][0], Numeric.loads(zlib.decompress(res[0][1]))
except:
set._nbhits = 0
collection_reclist_cache[coll] = set
# finally, return reclist:
return collection_reclist_cache[coll]
def coll_restricted_p(coll):
"Predicate to test if the collection coll is restricted or not."
if not coll:
return 0
query = "SELECT restricted FROM collection WHERE name='%s'" % escape_string(coll)
res = run_sql(query, None, 1)
if res and res[0][0] != None:
return 1
else:
return 0
def coll_restricted_group(coll):
"Return Apache group to which the collection is restricted. Return None if it's public."
if not coll:
return None
query = "SELECT restricted FROM collection WHERE name='%s'" % escape_string(coll)
res = run_sql(query, None, 1)
if res:
return res[0][0]
else:
return None
def create_collection_reclist_cache():
"""Creates list of records belonging to collections. Called on startup
and used later for intersecting search results with collection universe."""
global collection_reclist_cache_timestamp
# populate collection reclist cache:
collrecs = {}
try:
res = run_sql("SELECT name,reclist FROM collection")
except Error:
# database problems, set timestamp to zero and return empty cache
collection_reclist_cache_timestamp = 0
return collrecs
for name, reclist in res:
collrecs[name] = None # this will be filled later during runtime by calling get_collection_reclist(coll)
# update timestamp:
try:
collection_reclist_cache_timestamp = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime())
except NameError:
collection_reclist_cache_timestamp = 0
return collrecs
try:
collection_reclist_cache.has_key(cdsname)
except:
try:
collection_reclist_cache = create_collection_reclist_cache()
except:
collection_reclist_cache = {}
def create_collection_i18nname_cache():
"""Create cache of I18N collection names of type 'ln' (=long name).
Called on startup and used later during the search time."""
global collection_i18nname_cache_timestamp
# populate collection I18N name cache:
names = {}
try:
res = run_sql("SELECT c.name,cn.ln,cn.value FROM collectionname AS cn, collection AS c WHERE cn.id_collection=c.id AND cn.type='ln'") # ln=long name
except Error:
# database problems, set timestamp to zero and return empty cache
collection_i18nname_cache_timestamp = 0
return names
for c, ln, i18nname in res:
if i18nname:
if not names.has_key(c):
names[c] = {}
names[c][ln] = i18nname
# update timestamp:
try:
collection_i18nname_cache_timestamp = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime())
except NameError:
collection_i18nname_cache_timestamp = 0
return names
try:
collection_i18nname_cache.has_key(cdsname)
except:
try:
collection_i18nname_cache = create_collection_i18nname_cache()
except:
collection_i18nname_cache = {}
def create_field_i18nname_cache():
"""Create cache of I18N field names of type 'ln' (=long name).
Called on startup and used later during the search time."""
global field_i18nname_cache_timestamp
# populate field I18 name cache:
names = {}
try:
res = run_sql("SELECT f.name,fn.ln,fn.value FROM fieldname AS fn, field AS f WHERE fn.id_field=f.id AND fn.type='ln'") # ln=long name
except Error:
# database problems, set timestamp to zero and return empty cache
field_i18nname_cache_timestamp = 0
return names
for f, ln, i18nname in res:
if i18nname:
if not names.has_key(f):
names[f] = {}
names[f][ln] = i18nname
# update timestamp:
try:
field_i18nname_cache_timestamp = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime())
except NameError:
field_i18nname_cache_timestamp = 0
return names
try:
field_i18nname_cache.has_key(cdsname)
except:
try:
field_i18nname_cache = create_field_i18nname_cache()
except:
field_i18nname_cache = {}
def browse_pattern(req, colls, p, f, rg, ln=cdslang):
"""Browse either biliographic phrases or words indexes, and display it."""
# load the right message language
_ = gettext_set_language(ln)
## do we search in words indexes?
if not f:
return browse_in_bibwords(req, p, f)
p_orig = p
## okay, "real browse" follows:
browsed_phrases = get_nearest_terms_in_bibxxx(p, f, rg, 1)
while not browsed_phrases:
# try again and again with shorter and shorter pattern:
try:
p = p[:-1]
browsed_phrases = get_nearest_terms_in_bibxxx(p, f, rg, 1)
except:
# probably there are no hits at all:
req.write(_("No values found."))
return
## try to check hits in these particular collection selection:
browsed_phrases_in_colls = []
if 0:
for phrase in browsed_phrases:
phrase_hitset = HitSet()
phrase_hitsets = search_pattern("", phrase, f, 'e')
for coll in colls:
phrase_hitset.union(phrase_hitsets[coll])
phrase_hitset.calculate_nbhits()
if phrase_hitset._nbhits > 0:
# okay, this phrase has some hits in colls, so add it:
browsed_phrases_in_colls.append([phrase, phrase_hitset._nbhits])
## were there hits in collections?
if browsed_phrases_in_colls == []:
if browsed_phrases != []:
#print_warning(req, """<p>No match close to <em>%s</em> found in given collections.
#Please try different term.<p>Displaying matches in any collection...""" % p_orig)
## try to get nbhits for these phrases in any collection:
for phrase in browsed_phrases:
browsed_phrases_in_colls.append([phrase, get_nbhits_in_bibxxx(phrase, f)])
## display results now:
out = websearch_templates.tmpl_browse_pattern(
f=get_field_i18nname(f, ln),
ln=ln,
browsed_phrases_in_colls=browsed_phrases_in_colls,
colls=colls,
)
req.write(out)
return
def browse_in_bibwords(req, p, f, ln=cdslang):
"""Browse inside words indexes."""
if not p:
return
_ = gettext_set_language(ln)
urlargd = {}
urlargd.update(req.argd)
urlargd['action'] = 'search'
nearest_box = create_nearest_terms_box(urlargd, p, f, 'w', ln=ln, intro_text_p=0)
req.write(websearch_templates.tmpl_search_in_bibwords(
p = p,
f = f,
ln = ln,
nearest_box = nearest_box
))
return
def search_pattern(req=None, p=None, f=None, m=None, ap=0, of="id", verbose=0, ln=cdslang):
"""Search for complex pattern 'p' within field 'f' according to
matching type 'm'. Return hitset of recIDs.
The function uses multi-stage searching algorithm in case of no
exact match found. See the Search Internals document for
detailed description.
The 'ap' argument governs whether an alternative patterns are to
be used in case there is no direct hit for (p,f,m). For
example, whether to replace non-alphanumeric characters by
spaces if it would give some hits. See the Search Internals
document for detailed description. (ap=0 forbits the
alternative pattern usage, ap=1 permits it.)
The 'of' argument governs whether to print or not some
information to the user in case of no match found. (Usually it
prints the information in case of HTML formats, otherwise it's
silent).
The 'verbose' argument controls the level of debugging information
to be printed (0=least, 9=most).
All the parameters are assumed to have been previously washed.
This function is suitable as a mid-level API.
"""
_ = gettext_set_language(ln)
hitset_empty = HitSet()
hitset_empty._nbhits = 0
# sanity check:
if not p:
hitset_full = HitSet(Numeric.ones(CFG_MAX_RECID+1, Numeric.Int0))
hitset_full._nbhits = CFG_MAX_RECID
# no pattern, so return all universe
return hitset_full
# search stage 1: break up arguments into basic search units:
if verbose and of.startswith("h"):
t1 = os.times()[4]
basic_search_units = create_basic_search_units(req, p, f, m, of)
if verbose and of.startswith("h"):
t2 = os.times()[4]
print_warning(req, "Search stage 1: basic search units are: %s" % basic_search_units)
print_warning(req, "Search stage 1: execution took %.2f seconds." % (t2 - t1))
# search stage 2: do search for each search unit and verify hit presence:
if verbose and of.startswith("h"):
t1 = os.times()[4]
basic_search_units_hitsets = []
for idx_unit in range(0, len(basic_search_units)):
bsu_o, bsu_p, bsu_f, bsu_m = basic_search_units[idx_unit]
basic_search_unit_hitset = search_unit(bsu_p, bsu_f, bsu_m)
if verbose >= 9 and of.startswith("h"):
print_warning(req, "Search stage 1: pattern %s gave hitlist %s" % (bsu_p, Numeric.nonzero(basic_search_unit_hitset._set)))
if basic_search_unit_hitset._nbhits > 0 or \
ap==0 or \
bsu_o=="|" or \
((idx_unit+1)<len(basic_search_units) and basic_search_units[idx_unit+1][0]=="|"):
# stage 2-1: this basic search unit is retained, since
# either the hitset is non-empty, or the approximate
# pattern treatment is switched off, or the search unit
# was joined by an OR operator to preceding/following
# units so we do not require that it exists
basic_search_units_hitsets.append(basic_search_unit_hitset)
else:
# stage 2-2: no hits found for this search unit, try to replace non-alphanumeric chars inside pattern:
if sre.search(r'[^a-zA-Z0-9\s\:]', bsu_p):
if bsu_p.startswith('"') and bsu_p.endswith('"'): # is it ACC query?
bsu_pn = sre.sub(r'[^a-zA-Z0-9\s\:]+', "*", bsu_p)
else: # it is WRD query
bsu_pn = sre.sub(r'[^a-zA-Z0-9\s\:]+', " ", bsu_p)
if verbose and of.startswith('h') and req:
print_warning(req, "trying (%s,%s,%s)" % (bsu_pn, bsu_f, bsu_m))
basic_search_unit_hitset = search_pattern(req=None, p=bsu_pn, f=bsu_f, m=bsu_m, of="id", ln=ln)
if basic_search_unit_hitset._nbhits > 0:
# we retain the new unit instead
if of.startswith('h'):
print_warning(req, _("No exact match found for %(x_query1)s, using %(x_query2)s instead...") % {'x_query1': "<em>"+bsu_p+"</em>",
'x_query2': "<em>"+bsu_pn+"</em>"})
basic_search_units[idx_unit][1] = bsu_pn
basic_search_units_hitsets.append(basic_search_unit_hitset)
else:
# stage 2-3: no hits found either, propose nearest indexed terms:
if of.startswith('h'):
if req:
if bsu_f == "recid":
print_warning(req, "Requested record does not seem to exist.")
else:
print_warning(req, create_nearest_terms_box(req.argd, bsu_p, bsu_f, bsu_m, ln=ln))
return hitset_empty
else:
# stage 2-3: no hits found either, propose nearest indexed terms:
if of.startswith('h'):
if req:
if bsu_f == "recid":
print_warning(req, "Requested record does not seem to exist.")
else:
print_warning(req, create_nearest_terms_box(req.argd, bsu_p, bsu_f, bsu_m, ln=ln))
return hitset_empty
if verbose and of.startswith("h"):
t2 = os.times()[4]
for idx_unit in range(0, len(basic_search_units)):
print_warning(req, "Search stage 2: basic search unit %s gave %d hits." %
(basic_search_units[idx_unit][1:], basic_search_units_hitsets[idx_unit]._nbhits))
print_warning(req, "Search stage 2: execution took %.2f seconds." % (t2 - t1))
# search stage 3: apply boolean query for each search unit:
if verbose and of.startswith("h"):
t1 = os.times()[4]
# let the initial set be the complete universe:
hitset_in_any_collection = HitSet(Numeric.ones(CFG_MAX_RECID+1, Numeric.Int0))
for idx_unit in range(0, len(basic_search_units)):
this_unit_operation = basic_search_units[idx_unit][0]
this_unit_hitset = basic_search_units_hitsets[idx_unit]
if this_unit_operation == '+':
hitset_in_any_collection.intersect(this_unit_hitset)
elif this_unit_operation == '-':
hitset_in_any_collection.difference(this_unit_hitset)
elif this_unit_operation == '|':
hitset_in_any_collection.union(this_unit_hitset)
else:
if of.startswith("h"):
print_warning(req, "Invalid set operation %s." % this_unit_operation, "Error")
hitset_in_any_collection.calculate_nbhits()
if hitset_in_any_collection._nbhits == 0:
# no hits found, propose alternative boolean query:
if of.startswith('h'):
nearestterms = []
for idx_unit in range(0, len(basic_search_units)):
bsu_o, bsu_p, bsu_f, bsu_m = basic_search_units[idx_unit]
if bsu_p.startswith("%") and bsu_p.endswith("%"):
bsu_p = "'" + bsu_p[1:-1] + "'"
bsu_nbhits = basic_search_units_hitsets[idx_unit]._nbhits
# create a similar query, but with the basic search unit only
argd = {}
argd.update(req.argd)
argd['p'] = bsu_p
argd['f'] = bsu_f
nearestterms.append((bsu_p, bsu_nbhits, argd))
text = websearch_templates.tmpl_search_no_boolean_hits(
ln=ln, nearestterms=nearestterms)
print_warning(req, text)
if verbose and of.startswith("h"):
t2 = os.times()[4]
print_warning(req, "Search stage 3: boolean query gave %d hits." % hitset_in_any_collection._nbhits)
print_warning(req, "Search stage 3: execution took %.2f seconds." % (t2 - t1))
return hitset_in_any_collection
def search_unit(p, f=None, m=None):
"""Search for basic search unit defined by pattern 'p' and field
'f' and matching type 'm'. Return hitset of recIDs.
All the parameters are assumed to have been previously washed.
'p' is assumed to be already a ``basic search unit'' so that it
is searched as such and is not broken up in any way. Only
wildcard and span queries are being detected inside 'p'.
This function is suitable as a low-level API.
"""
## create empty output results set:
set = HitSet()
if not p: # sanity checking
return set
if m == 'a' or m == 'r':
# we are doing either direct bibxxx search or phrase search or regexp search
set = search_unit_in_bibxxx(p, f, m)
else:
# we are doing bibwords search by default
set = search_unit_in_bibwords(p, f)
set.calculate_nbhits()
return set
def search_unit_in_bibwords(word, f, decompress=zlib.decompress):
"""Searches for 'word' inside bibwordsX table for field 'f' and returns hitset of recIDs."""
set = HitSet() # will hold output result set
set_used = 0 # not-yet-used flag, to be able to circumvent set operations
# deduce into which bibwordsX table we will search:
bibwordsX = "idxWORD%02dF" % get_index_id("anyfield")
if f:
index_id = get_index_id(f)
if index_id:
bibwordsX = "idxWORD%02dF" % index_id
else:
return HitSet() # word index f does not exist
# wash 'word' argument and construct query:
word = string.replace(word, '*', '%') # we now use '*' as the truncation character
words = string.split(word, "->", 1) # check for span query
if len(words) == 2:
word0 = sre_word.sub('', words[0])
word1 = sre_word.sub('', words[1])
query = "SELECT term,hitlist FROM %s WHERE term BETWEEN '%s' AND '%s'" % (bibwordsX, escape_string(word0[:50]), escape_string(word1[:50]))
else:
word = sre_word.sub('', word)
if string.find(word, '%') >= 0: # do we have wildcard in the word?
query = "SELECT term,hitlist FROM %s WHERE term LIKE '%s'" % (bibwordsX, escape_string(word[:50]))
else:
query = "SELECT term,hitlist FROM %s WHERE term='%s'" % (bibwordsX, escape_string(word[:50]))
# launch the query:
res = run_sql(query)
# fill the result set:
for word, hitlist in res:
hitset_bibwrd = HitSet(Numeric.loads(decompress(hitlist)))
# add the results:
if set_used:
set.union(hitset_bibwrd)
else:
set = hitset_bibwrd
set_used = 1
# okay, return result set:
return set
def search_unit_in_bibxxx(p, f, type):
"""Searches for pattern 'p' inside bibxxx tables for field 'f' and returns hitset of recIDs found.
The search type is defined by 'type' (e.g. equals to 'r' for a regexp search)."""
p_orig = p # saving for eventual future 'no match' reporting
# wash arguments:
f = string.replace(f, '*', '%') # replace truncation char '*' in field definition
if type == 'r':
pattern = "REGEXP '%s'" % escape_string(p)
else:
p = string.replace(p, '*', '%') # we now use '*' as the truncation character
ps = string.split(p, "->", 1) # check for span query:
if len(ps) == 2:
pattern = "BETWEEN '%s' AND '%s'" % (escape_string(ps[0]), escape_string(ps[1]))
else:
if string.find(p, '%') > -1:
pattern = "LIKE '%s'" % escape_string(ps[0])
else:
pattern = "='%s'" % escape_string(ps[0])
# construct 'tl' which defines the tag list (MARC tags) to search in:
tl = []
if str(f[0]).isdigit() and str(f[1]).isdigit():
tl.append(f) # 'f' seems to be okay as it starts by two digits
else:
# convert old ALEPH tag names, if appropriate: (TODO: get rid of this before entering this function)
if CFG_WEBSEARCH_FIELDS_CONVERT.has_key(string.lower(f)):
f = CFG_WEBSEARCH_FIELDS_CONVERT[string.lower(f)]
# deduce desired MARC tags on the basis of chosen 'f'
tl = get_field_tags(f)
if not tl:
# f index does not exist, nevermind
pass
# okay, start search:
l = [] # will hold list of recID that matched
for t in tl:
# deduce into which bibxxx table we will search:
digit1, digit2 = int(t[0]), int(t[1])
bx = "bib%d%dx" % (digit1, digit2)
bibx = "bibrec_bib%d%dx" % (digit1, digit2)
# construct query:
if t == "001":
query = "SELECT id FROM bibrec WHERE id %s" % pattern
else:
if len(t) != 6 or t[-1:]=='%': # only the beginning of field 't' is defined, so add wildcard character:
query = "SELECT bibx.id_bibrec FROM %s AS bx LEFT JOIN %s AS bibx ON bx.id=bibx.id_bibxxx WHERE bx.value %s AND bx.tag LIKE '%s%%'" % \
(bx, bibx, pattern, t)
else:
query = "SELECT bibx.id_bibrec FROM %s AS bx LEFT JOIN %s AS bibx ON bx.id=bibx.id_bibxxx WHERE bx.value %s AND bx.tag='%s'" % \
(bx, bibx, pattern, t)
# launch the query:
res = run_sql(query)
# fill the result set:
for id_bibrec in res:
if id_bibrec[0]:
l.append(id_bibrec[0])
# check no of hits found:
nb_hits = len(l)
# okay, return result set:
set = HitSet()
set.addlist(Numeric.array(l))
return set
def search_unit_in_bibrec(day1, day2, type='creation_date'):
"""Return hitset of recIDs found that were either created or modified (see 'type' arg)
from day1 until day2, inclusive. Does not pay attention to pattern, collection, anything.
Useful to intersect later on with the 'real' query."""
set = HitSet()
if type != "creation_date" and type != "modification_date":
# type argument is invalid, so search for creation dates by default
type = "creation_date"
res = run_sql("SELECT id FROM bibrec WHERE %s>=%s AND %s<=%s" % (type, "%s", type, "%s"),
(day1, day2))
l = []
for row in res:
l.append(row[0])
set.addlist(Numeric.array(l))
return set
def intersect_results_with_collrecs(req, hitset_in_any_collection, colls, ap=0, of="hb", verbose=0, ln=cdslang):
"""Return dict of hitsets given by intersection of hitset with the collection universes."""
_ = gettext_set_language(ln)
# search stage 4: intersect with the collection universe:
if verbose and of.startswith("h"):
t1 = os.times()[4]
results = {}
results_nbhits = 0
for coll in colls:
results[coll] = HitSet()
results[coll]._set = Numeric.bitwise_and(hitset_in_any_collection._set, get_collection_reclist(coll)._set)
results[coll].calculate_nbhits()
results_nbhits += results[coll]._nbhits
if results_nbhits == 0:
# no hits found, try to search in Home:
results_in_Home = HitSet()
results_in_Home._set = Numeric.bitwise_and(hitset_in_any_collection._set, get_collection_reclist(cdsname)._set)
results_in_Home.calculate_nbhits()
if results_in_Home._nbhits > 0:
# some hits found in Home, so propose this search:
if of.startswith("h"):
url = websearch_templates.build_search_url(req.argd, cc=cdsname, c=[])
print_warning(req, _("No match found in collection %(x_collection)s. Other public collections gave %(x_url_open)s%(x_nb_hits)d hits%(x_url_close)s.") %\
{'x_collection': string.join(colls, ','),
'x_url_open': '<a class="nearestterms" href="%s">' % (url),
'x_nb_hits': results_in_Home._nbhits,
'x_url_close': '</a>'})
results = {}
else:
# no hits found in Home, recommend different search terms:
if of.startswith("h"):
print_warning(req, _("No public collection matched your query. "
"If you were looking for a non-public document, please choose "
"the desired restricted collection first."))
results = {}
if verbose and of.startswith("h"):
t2 = os.times()[4]
print_warning(req, "Search stage 4: intersecting with collection universe gave %d hits." % results_nbhits)
print_warning(req, "Search stage 4: execution took %.2f seconds." % (t2 - t1))
return results
def intersect_results_with_hitset(req, results, hitset, ap=0, aptext="", of="hb"):
"""Return intersection of search 'results' (a dict of hitsets
with collection as key) with the 'hitset', i.e. apply
'hitset' intersection to each collection within search
'results'.
If the final 'results' set is to be empty, and 'ap'
(approximate pattern) is true, and then print the `warningtext'
and return the original 'results' set unchanged. If 'ap' is
false, then return empty results set.
"""
if ap:
results_ap = copy.deepcopy(results)
else:
results_ap = {} # will return empty dict in case of no hits found
nb_total = 0
for coll in results.keys():
results[coll].intersect(hitset)
results[coll].calculate_nbhits()
nb_total += results[coll]._nbhits
if nb_total == 0:
if of.startswith("h"):
print_warning(req, aptext)
results = results_ap
return results
def create_similarly_named_authors_link_box(author_name, ln=cdslang):
"""Return a box similar to ``Not satisfied...'' one by proposing
author searches for similar names. Namely, take AUTHOR_NAME
and the first initial of the firstame (after comma) and look
into author index whether authors with e.g. middle names exist.
Useful mainly for CERN Library that sometimes contains name
forms like Ellis-N, Ellis-Nick, Ellis-Nicolas all denoting the
same person. The box isn't proposed if no similarly named
authors are found to exist.
"""
# return nothing if not configured:
if CFG_WEBSEARCH_CREATE_SIMILARLY_NAMED_AUTHORS_LINK_BOX == 0:
return ""
# return empty box if there is no initial:
if sre.match(r'[^ ,]+, [^ ]', author_name) is None:
return ""
# firstly find name comma initial:
author_name_to_search = sre.sub(r'^([^ ,]+, +[^ ,]).*$', '\\1', author_name)
# secondly search for similar name forms:
similar_author_names = {}
for name in author_name_to_search, strip_accents(author_name_to_search):
for tag in get_field_tags("author"):
# deduce into which bibxxx table we will search:
digit1, digit2 = int(tag[0]), int(tag[1])
bx = "bib%d%dx" % (digit1, digit2)
bibx = "bibrec_bib%d%dx" % (digit1, digit2)
if len(tag) != 6 or tag[-1:]=='%':
# only the beginning of field 't' is defined, so add wildcard character:
query = "SELECT bx.value FROM %s AS bx WHERE bx.value LIKE '%s%%' AND bx.tag LIKE '%s%%'" \
% (bx, escape_string(name), tag)
else:
query = "SELECT bx.value FROM %s AS bx WHERE bx.value LIKE '%s%%' AND bx.tag='%s'" \
% (bx, escape_string(name), tag)
res = run_sql(query)
for row in res:
similar_author_names[row[0]] = 1
# remove the original name and sort the list:
try:
del similar_author_names[author_name]
except KeyError:
pass
# thirdly print the box:
out = ""
if similar_author_names:
out_authors = similar_author_names.keys()
out_authors.sort()
tmp_authors = []
for out_author in out_authors:
nbhits = get_nbhits_in_bibxxx(out_author, "author")
if nbhits:
tmp_authors.append((out_author, nbhits))
out += websearch_templates.tmpl_similar_author_names(
authors=tmp_authors, ln=ln)
return out
def create_nearest_terms_box(urlargd, p, f, t='w', n=5, ln=cdslang, intro_text_p=True):
"""Return text box containing list of 'n' nearest terms above/below 'p'
for the field 'f' for matching type 't' (words/phrases) in
language 'ln'.
Propose new searches according to `urlargs' with the new words.
If `intro_text_p' is true, then display the introductory message,
otherwise print only the nearest terms in the box content.
"""
# load the right message language
_ = gettext_set_language(ln)
out = ""
nearest_terms = []
if not p: # sanity check
p = "."
# look for nearest terms:
if t == 'w':
nearest_terms = get_nearest_terms_in_bibwords(p, f, n, n)
if not nearest_terms:
return "%s %s." % (_("No words index available for"), get_field_i18nname(f, ln))
else:
nearest_terms = get_nearest_terms_in_bibxxx(p, f, n, n)
if not nearest_terms:
return "%s %s." % (_("No phrase index available for"), get_field_i18nname(f, ln))
terminfo = []
for term in nearest_terms:
if t == 'w':
hits = get_nbhits_in_bibwords(term, f)
else:
hits = get_nbhits_in_bibxxx(term, f)
argd = {}
argd.update(urlargd)
# check which fields contained the requested parameter, and replace it.
for (px, fx) in ('p', 'f'), ('p1', 'f1'), ('p2', 'f2'), ('p3', 'f3'):
if px in argd:
if f == argd[fx] or f == "anyfield" or f == "":
if string.find(argd[px], p) > -1:
argd[px] = string.replace(argd[px], p, term)
break
else:
if string.find(argd[px], f+':'+p) > -1:
argd[px] = string.replace(argd[px], f+':'+p, f+':'+term)
break
elif string.find(argd[px], f+':"'+p+'"') > -1:
argd[px] = string.replace(argd[px], f+':"'+p+'"', f+':"'+term+'"')
break
terminfo.append((term, hits, argd))
intro = ""
if intro_text_p: # add full leading introductory text
if f:
intro = _("Search term %(x_term)s inside index %(x_index)s did not match any record. Nearest terms in any collection are:") % \
{'x_term': "<em>" + cgi.escape(p.startswith("%") and p.endswith("%") and p[1:-1] or p) + "</em>",
'x_index': "<em>" + cgi.escape(get_field_i18nname(f, ln)) + "</em>"}
else:
intro = _("Search term %s did not match any record. Nearest terms in any collection are:") % \
("<em>" + cgi.escape(p.startswith("%") and p.endswith("%") and p[1:-1] or p) + "</em>")
return websearch_templates.tmpl_nearest_term_box(p=p, ln=ln, f=f, terminfo=terminfo,
intro=intro)
def get_nearest_terms_in_bibwords(p, f, n_below, n_above):
"""Return list of +n -n nearest terms to word `p' in index for field `f'."""
nearest_words = [] # will hold the (sorted) list of nearest words to return
# deduce into which bibwordsX table we will search:
bibwordsX = "idxWORD%02dF" % get_index_id("anyfield")
if f:
index_id = get_index_id(f)
if index_id:
bibwordsX = "idxWORD%02dF" % index_id
else:
return nearest_words
# firstly try to get `n' closest words above `p':
query = "SELECT term FROM %s WHERE term<'%s' ORDER BY term DESC LIMIT %d" % (bibwordsX, escape_string(p), n_above)
res = run_sql(query)
for row in res:
nearest_words.append(row[0])
nearest_words.reverse()
# secondly insert given word `p':
nearest_words.append(p)
# finally try to get `n' closest words below `p':
query = "SELECT term FROM %s WHERE term>'%s' ORDER BY term ASC LIMIT %d" % (bibwordsX, escape_string(p), n_below)
res = run_sql(query)
for row in res:
nearest_words.append(row[0])
return nearest_words
def get_nearest_terms_in_bibxxx(p, f, n_below, n_above):
"""Browse (-n_above, +n_below) closest bibliographic phrases
for the given pattern p in the given field f, regardless
of collection.
Return list of [phrase1, phrase2, ... , phrase_n]."""
## determine browse field:
if not f and string.find(p, ":") > 0: # does 'p' contain ':'?
f, p = string.split(p, ":", 1)
## We are going to take max(n_below, n_above) as the number of
## values to ferch from bibXXx. This is needed to work around
## MySQL UTF-8 sorting troubles in 4.0.x. Proper solution is to
## use MySQL 4.1.x or our own idxPHRASE in the future.
n_fetch = 2*max(n_below, n_above)
## construct 'tl' which defines the tag list (MARC tags) to search in:
tl = []
if str(f[0]).isdigit() and str(f[1]).isdigit():
tl.append(f) # 'f' seems to be okay as it starts by two digits
else:
# deduce desired MARC tags on the basis of chosen 'f'
tl = get_field_tags(f)
## start browsing to fetch list of hits:
browsed_phrases = {} # will hold {phrase1: 1, phrase2: 1, ..., phraseN: 1} dict of browsed phrases (to make them unique)
# always add self to the results set:
browsed_phrases[p.startswith("%") and p.endswith("%") and p[1:-1] or p] = 1
for t in tl:
# deduce into which bibxxx table we will search:
digit1, digit2 = int(t[0]), int(t[1])
bx = "bib%d%dx" % (digit1, digit2)
bibx = "bibrec_bib%d%dx" % (digit1, digit2)
# firstly try to get `n' closest phrases above `p':
if len(t) != 6 or t[-1:]=='%': # only the beginning of field 't' is defined, so add wildcard character:
query = "SELECT bx.value FROM %s AS bx WHERE bx.value<'%s' AND bx.tag LIKE '%s%%' ORDER BY bx.value DESC LIMIT %d" \
% (bx, escape_string(p), t, n_fetch)
else:
query = "SELECT bx.value FROM %s AS bx WHERE bx.value<'%s' AND bx.tag='%s' ORDER BY bx.value DESC LIMIT %d" \
% (bx, escape_string(p), t, n_fetch)
res = run_sql(query)
for row in res:
browsed_phrases[row[0]] = 1
# secondly try to get `n' closest phrases equal to or below `p':
if len(t) != 6 or t[-1:]=='%': # only the beginning of field 't' is defined, so add wildcard character:
query = "SELECT bx.value FROM %s AS bx WHERE bx.value>='%s' AND bx.tag LIKE '%s%%' ORDER BY bx.value ASC LIMIT %d" \
% (bx, escape_string(p), t, n_fetch)
else:
query = "SELECT bx.value FROM %s AS bx WHERE bx.value>='%s' AND bx.tag='%s' ORDER BY bx.value ASC LIMIT %d" \
% (bx, escape_string(p), t, n_fetch)
res = run_sql(query)
for row in res:
browsed_phrases[row[0]] = 1
# select first n words only: (this is needed as we were searching
# in many different tables and so aren't sure we have more than n
# words right; this of course won't be needed when we shall have
# one ACC table only for given field):
phrases_out = browsed_phrases.keys()
phrases_out.sort(lambda x, y: cmp(string.lower(strip_accents(x)),
string.lower(strip_accents(y))))
# find position of self:
try:
idx_p = phrases_out.index(p)
except:
idx_p = len(phrases_out)/2
# return n_above and n_below:
return phrases_out[max(0, idx_p-n_above):idx_p+n_below]
def get_nbhits_in_bibwords(word, f):
"""Return number of hits for word 'word' inside words index for field 'f'."""
out = 0
# deduce into which bibwordsX table we will search:
bibwordsX = "idxWORD%02dF" % get_index_id("anyfield")
if f:
index_id = get_index_id(f)
if index_id:
bibwordsX = "idxWORD%02dF" % index_id
else:
return 0
if word:
query = "SELECT hitlist FROM %s WHERE term='%s'" % (bibwordsX, escape_string(word))
res = run_sql(query)
for hitlist in res:
out += Numeric.sum(Numeric.loads(zlib.decompress(hitlist[0])).copy().astype(Numeric.Int))
return out
def get_nbhits_in_bibxxx(p, f):
"""Return number of hits for word 'word' inside words index for field 'f'."""
## determine browse field:
if not f and string.find(p, ":") > 0: # does 'p' contain ':'?
f, p = string.split(p, ":", 1)
## construct 'tl' which defines the tag list (MARC tags) to search in:
tl = []
if str(f[0]).isdigit() and str(f[1]).isdigit():
tl.append(f) # 'f' seems to be okay as it starts by two digits
else:
# deduce desired MARC tags on the basis of chosen 'f'
tl = get_field_tags(f)
# start searching:
recIDs = {} # will hold dict of {recID1: 1, recID2: 1, ..., } (unique recIDs, therefore)
for t in tl:
# deduce into which bibxxx table we will search:
digit1, digit2 = int(t[0]), int(t[1])
bx = "bib%d%dx" % (digit1, digit2)
bibx = "bibrec_bib%d%dx" % (digit1, digit2)
if len(t) != 6 or t[-1:]=='%': # only the beginning of field 't' is defined, so add wildcard character:
query = """SELECT bibx.id_bibrec FROM %s AS bibx, %s AS bx
WHERE bx.value='%s' AND bx.tag LIKE '%s%%' AND bibx.id_bibxxx=bx.id""" \
% (bibx, bx, escape_string(p), t)
else:
query = """SELECT bibx.id_bibrec FROM %s AS bibx, %s AS bx
WHERE bx.value='%s' AND bx.tag='%s' AND bibx.id_bibxxx=bx.id""" \
% (bibx, bx, escape_string(p), t)
res = run_sql(query)
for row in res:
recIDs[row[0]] = 1
return len(recIDs)
def get_mysql_recid_from_aleph_sysno(sysno):
"""Returns DB's recID for ALEPH sysno passed in the argument (e.g. "002379334CER").
Returns None in case of failure."""
out = None
query = "SELECT bb.id_bibrec FROM bibrec_bib97x AS bb, bib97x AS b WHERE b.value='%s' AND b.tag='970__a' AND bb.id_bibxxx=b.id" % \
(escape_string(sysno))
res = run_sql(query, None, 1)
if res:
out = res[0][0]
return out
def guess_primary_collection_of_a_record(recID):
"""Return primary collection name a record recid belongs to, by testing 980 identifier.
May lead to bad guesses when a collection is defined dynamically bia dbquery.
In that case, return 'cdsname'."""
out = cdsname
dbcollids = get_fieldvalues(recID, "980__a")
if dbcollids:
dbquery = "collection:" + dbcollids[0]
res = run_sql("SELECT name FROM collection WHERE dbquery=%s", (dbquery,))
if res:
out = res[0][0]
return out
def get_tag_name(tag_value, prolog="", epilog=""):
"""Return tag name from the known tag value, by looking up the 'tag' table.
Return empty string in case of failure.
Example: input='100__%', output=first author'."""
out = ""
res = run_sql("SELECT name FROM tag WHERE value=%s", (tag_value,))
if res:
out = prolog + res[0][0] + epilog
return out
def get_fieldcodes():
"""Returns a list of field codes that may have been passed as 'search options' in URL.
Example: output=['subject','division']."""
out = []
res = run_sql("SELECT DISTINCT(code) FROM field")
for row in res:
out.append(row[0])
return out
def get_field_tags(field):
"""Returns a list of MARC tags for the field code 'field'.
Returns empty list in case of error.
Example: field='author', output=['100__%','700__%']."""
out = []
query = """SELECT t.value FROM tag AS t, field_tag AS ft, field AS f
WHERE f.code='%s' AND ft.id_field=f.id AND t.id=ft.id_tag
ORDER BY ft.score DESC""" % field
res = run_sql(query)
for val in res:
out.append(val[0])
return out
def get_fieldvalues(recID, tag):
"""Return list of field values for field TAG inside record RECID."""
out = []
if tag == "001___":
# we have asked for recID that is not stored in bibXXx tables
out.append(str(recID))
else:
# we are going to look inside bibXXx tables
digits = tag[0:2]
try:
intdigits = int(digits)
if intdigits < 0 or intdigits > 99:
raise ValueError
except ValueError:
# invalid tag value asked for
return []
bx = "bib%sx" % digits
bibx = "bibrec_bib%sx" % digits
query = "SELECT bx.value FROM %s AS bx, %s AS bibx " \
" WHERE bibx.id_bibrec='%s' AND bx.id=bibx.id_bibxxx AND bx.tag LIKE '%s' " \
" ORDER BY bibx.field_number, bx.tag ASC" % (bx, bibx, recID, tag)
res = run_sql(query)
for row in res:
out.append(row[0])
return out
def get_fieldvalues_alephseq_like(recID, tags_in):
"""Return buffer of ALEPH sequential-like textual format with fields found in the list TAGS_IN for record RECID."""
out = ""
if type(tags_in) is not list:
tags_in = [tags_in,]
if len(tags_in) == 1 and len(tags_in[0]) == 6:
## case A: one concrete subfield asked, so print its value if found
## (use with care: can false you if field has multiple occurrences)
out += string.join(get_fieldvalues(recID, tags_in[0]),"\n")
else:
## case B: print our "text MARC" format; works safely all the time
# find out which tags to output:
dict_of_tags_out = {}
if not tags_in:
for i in range(0, 10):
for j in range(0, 10):
dict_of_tags_out["%d%d%%" % (i, j)] = 1
else:
for tag in tags_in:
if len(tag) == 0:
for i in range(0, 10):
for j in range(0, 10):
dict_of_tags_out["%d%d%%" % (i, j)] = 1
elif len(tag) == 1:
for j in range(0, 10):
dict_of_tags_out["%s%d%%" % (tag, j)] = 1
elif len(tag) < 5:
dict_of_tags_out["%s%%" % tag] = 1
elif tag >= 6:
dict_of_tags_out[tag[0:5]] = 1
tags_out = dict_of_tags_out.keys()
tags_out.sort()
# search all bibXXx tables as needed:
for tag in tags_out:
digits = tag[0:2]
try:
intdigits = int(digits)
if intdigits < 0 or intdigits > 99:
raise ValueError
except ValueError:
# invalid tag value asked for
continue
if tag.startswith("001") or tag.startswith("00%"):
if out:
out += "\n"
out += "%09d %s %d" % (recID, "001__", recID)
bx = "bib%sx" % digits
bibx = "bibrec_bib%sx" % digits
query = "SELECT b.tag,b.value,bb.field_number FROM %s AS b, %s AS bb "\
"WHERE bb.id_bibrec='%s' AND b.id=bb.id_bibxxx AND b.tag LIKE '%s%%' "\
"ORDER BY bb.field_number, b.tag ASC" % (bx, bibx, recID, tag)
res = run_sql(query)
# go through fields:
field_number_old = -999
field_old = ""
for row in res:
field, value, field_number = row[0], row[1], row[2]
ind1, ind2 = field[3], field[4]
if ind1 == "_":
ind1 = ""
if ind2 == "_":
ind2 = ""
# print field tag
if field_number != field_number_old or field[:-1] != field_old[:-1]:
if out:
out += "\n"
out += "%09d %s " % (recID, field[:5])
field_number_old = field_number
field_old = field
# print subfield value
out += "$$%s%s" % (field[-1:], value)
return out
def record_exists(recID):
"""Return 1 if record RECID exists.
Return 0 if it doesn't exist.
Return -1 if it exists but is marked as deleted."""
out = 0
query = "SELECT id FROM bibrec WHERE id='%s'" % recID
res = run_sql(query, None, 1)
if res:
# record exists; now check whether it isn't marked as deleted:
dbcollids = get_fieldvalues(recID, "980__%")
if ("DELETED" in dbcollids) or (CFG_CERN_SITE and "DUMMY" in dbcollids):
out = -1 # exists, but marked as deleted
else:
out = 1 # exists fine
return out
def record_public_p(recID):
"""Return 1 if the record is public, i.e. if it can be found in the Home collection.
Return 0 otherwise.
"""
return get_collection_reclist(cdsname).contains(recID)
def get_creation_date(recID, fmt="%Y-%m-%d"):
"Returns the creation date of the record 'recID'."
out = ""
res = run_sql("SELECT DATE_FORMAT(creation_date,%s) FROM bibrec WHERE id=%s", (fmt, recID), 1)
if res:
out = res[0][0]
return out
def get_modification_date(recID, fmt="%Y-%m-%d"):
"Returns the date of last modification for the record 'recID'."
out = ""
res = run_sql("SELECT DATE_FORMAT(modification_date,%s) FROM bibrec WHERE id=%s", (fmt, recID), 1)
if res:
out = res[0][0]
return out
def print_warning(req, msg, type='', prologue='<br>', epilogue='<br>'):
"Prints warning message and flushes output."
if req and msg:
req.write(websearch_templates.tmpl_print_warning(
msg = msg,
type = type,
prologue = prologue,
epilogue = epilogue,
))
return
def print_search_info(p, f, sf, so, sp, rm, of, ot, collection=cdsname, nb_found=-1, jrec=1, rg=10,
as=0, ln=cdslang, p1="", p2="", p3="", f1="", f2="", f3="", m1="", m2="", m3="", op1="", op2="",
sc=1, pl_in_url="",
d1y=0, d1m=0, d1d=0, d2y=0, d2m=0, d2d=0,
cpu_time=-1, middle_only=0):
"""Prints stripe with the information on 'collection' and 'nb_found' results and CPU time.
Also, prints navigation links (beg/next/prev/end) inside the results set.
If middle_only is set to 1, it will only print the middle box information (beg/netx/prev/end/etc) links.
This is suitable for displaying navigation links at the bottom of the search results page."""
out = ""
# sanity check:
if jrec < 1:
jrec = 1
if jrec > nb_found:
jrec = max(nb_found-rg+1, 1)
return websearch_templates.tmpl_print_search_info(
ln = ln,
weburl = weburl,
collection = collection,
as = as,
collection_name = get_coll_i18nname(collection, ln),
collection_id = get_colID(collection),
middle_only = middle_only,
rg = rg,
nb_found = nb_found,
sf = sf,
so = so,
rm = rm,
of = of,
ot = ot,
p = p,
f = f,
p1 = p1,
p2 = p2,
p3 = p3,
f1 = f1,
f2 = f2,
f3 = f3,
m1 = m1,
m2 = m2,
m3 = m3,
op1 = op1,
op2 = op2,
pl_in_url = pl_in_url,
d1y = d1y,
d1m = d1m,
d1d = d1d,
d2y = d2y,
d2m = d2m,
d2d = d2d,
jrec = jrec,
sc = sc,
sp = sp,
all_fieldcodes = get_fieldcodes(),
cpu_time = cpu_time,
)
def print_results_overview(req, colls, results_final_nb_total, results_final_nb, cpu_time, ln=cdslang):
"Prints results overview box with links to particular collections below."
out = ""
new_colls = []
for coll in colls:
new_colls.append({
'id': get_colID(coll),
'code': coll,
'name': get_coll_i18nname(coll, ln),
})
return websearch_templates.tmpl_print_results_overview(
ln = ln,
weburl = weburl,
results_final_nb_total = results_final_nb_total,
results_final_nb = results_final_nb,
cpu_time = cpu_time,
colls = new_colls,
)
def sort_records(req, recIDs, sort_field='', sort_order='d', sort_pattern='', verbose=0, of='hb', ln=cdslang):
"""Sort records in 'recIDs' list according sort field 'sort_field' in order 'sort_order'.
If more than one instance of 'sort_field' is found for a given record, try to choose that that is given by
'sort pattern', for example "sort by report number that starts by CERN-PS".
Note that 'sort_field' can be field code like 'author' or MARC tag like '100__a' directly."""
_ = gettext_set_language(ln)
## check arguments:
if not sort_field:
return recIDs
if len(recIDs) > CFG_WEBSEARCH_NB_RECORDS_TO_SORT:
if of.startswith('h'):
print_warning(req, _("Sorry, sorting is allowed on sets of up to %d records only. Using default sort order.") % CFG_WEBSEARCH_NB_RECORDS_TO_SORT, "Warning")
return recIDs
sort_fields = string.split(sort_field, ",")
recIDs_dict = {}
recIDs_out = []
## first deduce sorting MARC tag out of the 'sort_field' argument:
tags = []
for sort_field in sort_fields:
if sort_field and str(sort_field[0:2]).isdigit():
# sort_field starts by two digits, so this is probably a MARC tag already
tags.append(sort_field)
else:
# let us check the 'field' table
query = """SELECT DISTINCT(t.value) FROM tag AS t, field_tag AS ft, field AS f
WHERE f.code='%s' AND ft.id_field=f.id AND t.id=ft.id_tag
ORDER BY ft.score DESC""" % sort_field
res = run_sql(query)
if res:
for row in res:
tags.append(row[0])
else:
if of.startswith('h'):
print_warning(req, _("Sorry, %s does not seem to be a valid sort option. Choosing title sort instead.") % sort_field, "Error")
tags.append("245__a")
if verbose >= 3:
print_warning(req, "Sorting by tags %s." % tags)
if sort_pattern:
print_warning(req, "Sorting preferentially by %s." % sort_pattern)
## check if we have sorting tag defined:
if tags:
# fetch the necessary field values:
for recID in recIDs:
val = "" # will hold value for recID according to which sort
vals = [] # will hold all values found in sorting tag for recID
for tag in tags:
vals.extend(get_fieldvalues(recID, tag))
if sort_pattern:
# try to pick that tag value that corresponds to sort pattern
bingo = 0
for v in vals:
if v.startswith(sort_pattern): # bingo!
bingo = 1
val = v
break
if not bingo: # sort_pattern not present, so add other vals after spaces
val = sort_pattern + " " + string.join(vals)
else:
# no sort pattern defined, so join them all together
val = string.join(vals)
val = val.lower()
if recIDs_dict.has_key(val):
recIDs_dict[val].append(recID)
else:
recIDs_dict[val] = [recID]
# sort them:
recIDs_dict_keys = recIDs_dict.keys()
recIDs_dict_keys.sort()
# now that keys are sorted, create output array:
for k in recIDs_dict_keys:
for s in recIDs_dict[k]:
recIDs_out.append(s)
# ascending or descending?
if sort_order == 'a':
recIDs_out.reverse()
# okay, we are done
return recIDs_out
else:
# good, no sort needed
return recIDs
def print_records(req, recIDs, jrec=1, rg=10, format='hb', ot='', ln=cdslang, relevances=[], relevances_prologue="(", relevances_epilogue="%%)", decompress=zlib.decompress, search_pattern=''):
"""Prints list of records 'recIDs' formatted accoding to 'format' in groups of 'rg' starting from 'jrec'.
Assumes that the input list 'recIDs' is sorted in reverse order, so it counts records from tail to head.
A value of 'rg=-9999' means to print all records: to be used with care.
Print also list of RELEVANCES for each record (if defined), in between RELEVANCE_PROLOGUE and RELEVANCE_EPILOGUE.
"""
# load the right message language
_ = gettext_set_language(ln)
# get user id (for formatting based on priviledge)
uid = getUid(req)
# sanity checking:
if req == None:
return
if len(recIDs):
nb_found = len(recIDs)
if rg == -9999: # print all records
rg = nb_found
else:
rg = abs(rg)
if jrec < 1: # sanity checks
jrec = 1
if jrec > nb_found:
jrec = max(nb_found-rg+1, 1)
# will print records from irec_max to irec_min excluded:
irec_max = nb_found - jrec
irec_min = nb_found - jrec - rg
if irec_min < 0:
irec_min = -1
if irec_max >= nb_found:
irec_max = nb_found - 1
#req.write("%s:%d-%d" % (recIDs, irec_min, irec_max))
if format.startswith('x'):
# we are doing XML output: first choose XML envelope:
if format.startswith('xm'):
format_prologue = websearch_templates.tmpl_xml_marc_prologue()
format_epilogue = websearch_templates.tmpl_xml_marc_epilogue()
elif format.startswith('xn'):
format_prologue = websearch_templates.tmpl_xml_nlm_prologue()
format_epilogue = websearch_templates.tmpl_xml_nlm_epilogue()
elif format.startswith('xr'):
format_prologue = websearch_templates.tmpl_xml_rss_prologue()
format_epilogue = websearch_templates.tmpl_xml_rss_epilogue()
else:
format_prologue = websearch_templates.tmpl_xml_default_prologue()
format_epilogue = websearch_templates.tmpl_xml_default_epilogue()
# now that XML envelope is chosen, do it:
recIDs_to_print = [recIDs[x] for x in range(irec_max, irec_min, -1)]
req.write(format_records(recIDs_to_print,
format,
prologue=format_prologue,
epilogue=format_epilogue,
ln=ln,
search_pattern=search_pattern,
uid=uid))
elif format.startswith('t') or str(format[0:3]).isdigit():
# we are doing plain text output:
for irec in range(irec_max, irec_min, -1):
x = print_record(recIDs[irec], format, ot, ln, search_pattern=search_pattern, uid=uid)
req.write(x)
if x:
req.write('\n')
elif format == 'excel':
recIDs_to_print = [recIDs[x] for x in range(irec_max, irec_min, -1)]
create_excel(recIDs=recIDs_to_print, req=req, ln=ln)
else:
# we are doing HTML output:
if format == 'hp' or format.startswith("hb_") or format.startswith("hd_"):
# portfolio and on-the-fly formats:
for irec in range(irec_max, irec_min, -1):
req.write(print_record(recIDs[irec], format, ot, ln, search_pattern=search_pattern, uid=uid))
elif format.startswith("hb"):
# HTML brief format:
rows = []
for irec in range(irec_max, irec_min, -1):
temp = {
'number' : jrec+irec_max-irec,
'recid' : recIDs[irec],
}
if relevances and relevances[irec]:
temp['relevance'] = relevances[irec]
else:
temp['relevance'] = ''
temp['record'] = print_record(recIDs[irec], format, ot, ln, search_pattern=search_pattern, uid=uid)
rows.append(temp)
req.write(websearch_templates.tmpl_records_format_htmlbrief(
ln = ln,
weburl = weburl,
rows = rows,
relevances_prologue = relevances_prologue,
relevances_epilogue = relevances_epilogue,
))
else:
# HTML detailed format:
# print other formatting choices:
rows = []
for irec in range(irec_max, irec_min, -1):
temp = {
'record' : print_record(recIDs[irec], format, ot, ln, search_pattern=search_pattern, uid=uid),
'recid' : recIDs[irec],
'creationdate': '',
'modifydate' : '',
}
if record_exists(recIDs[irec])==1:
temp['creationdate'] = get_creation_date(recIDs[irec])
temp['modifydate'] = get_modification_date(recIDs[irec])
if CFG_EXPERIMENTAL_FEATURES:
r = calculate_cited_by_list(recIDs[irec])
if r:
temp ['citinglist'] = r
temp ['citationhistory'] = create_citation_history_graph_and_box(recIDs[irec], ln)
r = calculate_co_cited_with_list(recIDs[irec])
if r:
temp ['cociting'] = r
r = calculate_reading_similarity_list(recIDs[irec], "downloads")
if r:
temp ['downloadsimilarity'] = r
temp ['downloadhistory'] = create_download_history_graph_and_box(recIDs[irec], ln)
# Get comments and reviews for this record if exist
# FIXME: templatize me
if CFG_WEBCOMMENT_ALLOW_COMMENTS or CFG_WEBCOMMENT_ALLOW_REVIEWS:
from invenio.webcomment import get_first_comments_or_remarks
(comments, reviews) = get_first_comments_or_remarks(recID=recIDs[irec], ln=ln,
nb_comments=CFG_WEBCOMMENT_NB_COMMENTS_IN_DETAILED_VIEW,
nb_reviews=CFG_WEBCOMMENT_NB_REVIEWS_IN_DETAILED_VIEW)
temp['comments'] = comments
temp['reviews'] = reviews
r = calculate_reading_similarity_list(recIDs[irec], "pageviews")
if r: temp ['viewsimilarity'] = r
rows.append(temp)
req.write(websearch_templates.tmpl_records_format_other(
ln = ln,
weburl = weburl,
url_argd = req.argd,
rows = rows,
format = format,
))
else:
print_warning(req, _("Use different search terms."))
def print_record(recID, format='hb', ot='', ln=cdslang, decompress=zlib.decompress,
search_pattern=None, uid=None):
"Prints record 'recID' formatted accoding to 'format'."
_ = gettext_set_language(ln)
out = ""
# sanity check:
record_exist_p = record_exists(recID)
if record_exist_p == 0: # doesn't exist
return out
# New Python BibFormat procedure for formatting
# Old procedure follows further below
# We must still check some special formats, but these
# should disappear when BibFormat improves.
if not (CFG_BIBFORMAT_USE_OLD_BIBFORMAT \
or format.lower().startswith('t') \
or format.lower().startswith('hm') \
or str(format[0:3]).isdigit() \
or ot != ''):
#Unspecified format is hd
if format == '':
format = 'hd'
if record_exist_p == -1 and get_output_format_content_type(format) == 'text/html':
#HTML output displays a default value for deleted records.
#Other format have to deal with it.
out += _("The record has been deleted.")
else:
query = "SELECT value FROM bibfmt WHERE id_bibrec='%s' AND format='%s'" % (recID, format)
res = run_sql(query)
if res and not record_exist_p == -1:
# record 'recID' is formatted in 'format', so print it
out += "%s" % decompress(res[0][0])
else:
# record 'recID' is not formatted in 'format', so try to call BibFormat on the fly: or use default format:
out += call_bibformat(recID, format, ln, search_pattern=search_pattern, uid=uid)
# at the end of HTML brief mode, print the "Detailed record" functionality:
if format.lower().startswith('hb'):
out += websearch_templates.tmpl_print_record_brief_links(
ln = ln,
recID = recID,
weburl = weburl,
)
return out
# Old PHP BibFormat procedure for formatting
# print record opening tags, if needed:
if format == "marcxml" or format == "oai_dc":
out += " <record>\n"
out += " <header>\n"
for oai_id in get_fieldvalues(recID, CFG_OAI_ID_FIELD):
out += " <identifier>%s</identifier>\n" % oai_id
out += " <datestamp>%s</datestamp>\n" % get_modification_date(recID)
out += " </header>\n"
out += " <metadata>\n"
if format.startswith("xm") or format == "marcxml":
# look for detailed format existence:
query = "SELECT value FROM bibfmt WHERE id_bibrec='%s' AND format='%s'" % (recID, format)
res = run_sql(query, None, 1)
if res and record_exist_p == 1:
# record 'recID' is formatted in 'format', so print it
out += "%s" % decompress(res[0][0])
else:
# record 'recID' is not formatted in 'format' -- they are not in "bibfmt" table; so fetch all the data from "bibXXx" tables:
if format == "marcxml":
out += """ <record xmlns="http://www.loc.gov/MARC21/slim">\n"""
out += " <controlfield tag=\"001\">%d</controlfield>\n" % int(recID)
elif format.startswith("xm"):
out += """ <record>\n"""
out += " <controlfield tag=\"001\">%d</controlfield>\n" % int(recID)
if record_exist_p == -1:
# deleted record, so display only OAI ID and 980:
oai_ids = get_fieldvalues(recID, CFG_OAI_ID_FIELD)
if oai_ids:
out += "<datafield tag=\"%s\" ind1=\"%s\" ind2=\"%s\"><subfield code=\"%s\">%s</subfield></datafield>\n" % \
(CFG_OAI_ID_FIELD[0:3], CFG_OAI_ID_FIELD[3:4], CFG_OAI_ID_FIELD[4:5], CFG_OAI_ID_FIELD[5:6], oai_ids[0])
out += "<datafield tag=\"980\" ind1=\"\" ind2=\"\"><subfield code=\"c\">DELETED</subfield></datafield>\n"
else:
for digit1 in range(0, 10):
for digit2 in range(0, 10):
bx = "bib%d%dx" % (digit1, digit2)
bibx = "bibrec_bib%d%dx" % (digit1, digit2)
query = "SELECT b.tag,b.value,bb.field_number FROM %s AS b, %s AS bb "\
"WHERE bb.id_bibrec='%s' AND b.id=bb.id_bibxxx AND b.tag LIKE '%s%%' "\
"ORDER BY bb.field_number, b.tag ASC" % (bx, bibx, recID, str(digit1)+str(digit2))
res = run_sql(query)
field_number_old = -999
field_old = ""
for row in res:
field, value, field_number = row[0], row[1], row[2]
ind1, ind2 = field[3], field[4]
if ind1 == "_":
ind1 = ""
if ind2 == "_":
ind2 = ""
# print field tag
if field_number != field_number_old or field[:-1] != field_old[:-1]:
if format.startswith("xm") or format == "marcxml":
if field_number_old != -999:
out += """ </datafield>\n"""
out += """ <datafield tag="%s" ind1="%s" ind2="%s">\n""" % \
(encode_for_xml(field[0:3]), encode_for_xml(ind1), encode_for_xml(ind2))
field_number_old = field_number
field_old = field
# print subfield value
if format.startswith("xm") or format == "marcxml":
value = encode_for_xml(value)
out += """ <subfield code="%s">%s</subfield>\n""" % (encode_for_xml(field[-1:]), value)
# all fields/subfields printed in this run, so close the tag:
if (format.startswith("xm") or format == "marcxml") and field_number_old != -999:
out += """ </datafield>\n"""
# we are at the end of printing the record:
if format.startswith("xm") or format == "marcxml":
out += " </record>\n"
elif format == "xd" or format == "oai_dc":
# XML Dublin Core format, possibly OAI -- select only some bibXXx fields:
out += """ <dc xmlns="http://purl.org/dc/elements/1.1/"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://purl.org/dc/elements/1.1/
http://www.openarchives.org/OAI/1.1/dc.xsd">\n"""
if record_exist_p == -1:
out += ""
else:
for f in get_fieldvalues(recID, "041__a"):
out += " <language>%s</language>\n" % f
for f in get_fieldvalues(recID, "100__a"):
out += " <creator>%s</creator>\n" % encode_for_xml(f)
for f in get_fieldvalues(recID, "700__a"):
out += " <creator>%s</creator>\n" % encode_for_xml(f)
for f in get_fieldvalues(recID, "245__a"):
out += " <title>%s</title>\n" % encode_for_xml(f)
for f in get_fieldvalues(recID, "65017a"):
out += " <subject>%s</subject>\n" % encode_for_xml(f)
for f in get_fieldvalues(recID, "8564_u"):
out += " <identifier>%s</identifier>\n" % encode_for_xml(f)
for f in get_fieldvalues(recID, "520__a"):
out += " <description>%s</description>\n" % encode_for_xml(f)
out += " <date>%s</date>\n" % get_creation_date(recID)
out += " </dc>\n"
elif str(format[0:3]).isdigit():
# user has asked to print some fields only
if format == "001":
out += "<!--%s-begin-->%s<!--%s-end-->\n" % (format, recID, format)
else:
vals = get_fieldvalues(recID, format)
for val in vals:
out += "<!--%s-begin-->%s<!--%s-end-->\n" % (format, val, format)
elif format.startswith('t'):
## user directly asked for some tags to be displayed only
if record_exist_p == -1:
out += get_fieldvalues_alephseq_like(recID, ["001", CFG_OAI_ID_FIELD, "980"])
else:
out += get_fieldvalues_alephseq_like(recID, ot)
elif format == "hm":
if record_exist_p == -1:
out += "<pre>" + cgi.escape(get_fieldvalues_alephseq_like(recID, ["001", CFG_OAI_ID_FIELD, "980"])) + "</pre>"
else:
out += "<pre>" + cgi.escape(get_fieldvalues_alephseq_like(recID, ot)) + "</pre>"
elif format.startswith("h") and ot:
## user directly asked for some tags to be displayed only
if record_exist_p == -1:
out += "<pre>" + get_fieldvalues_alephseq_like(recID, ["001", CFG_OAI_ID_FIELD, "980"]) + "</pre>"
else:
out += "<pre>" + get_fieldvalues_alephseq_like(recID, ot) + "</pre>"
elif format == "hd":
# HTML detailed format
if record_exist_p == -1:
out += _("The record has been deleted.")
else:
# look for detailed format existence:
query = "SELECT value FROM bibfmt WHERE id_bibrec='%s' AND format='%s'" % (recID, format)
res = run_sql(query, None, 1)
if res:
# record 'recID' is formatted in 'format', so print it
out += "%s" % decompress(res[0][0])
else:
# record 'recID' is not formatted in 'format', so try to call BibFormat on the fly or use default format:
out_record_in_format = call_bibformat(recID, format, ln, search_pattern=search_pattern, uid=uid)
if out_record_in_format:
out += out_record_in_format
else:
out += websearch_templates.tmpl_print_record_detailed(
ln = ln,
recID = recID,
weburl = weburl,
)
elif format.startswith("hb_") or format.startswith("hd_"):
# underscore means that HTML brief/detailed formats should be called on-the-fly; suitable for testing formats
if record_exist_p == -1:
out += _("The record has been deleted.")
else:
out += call_bibformat(recID, format, ln, search_pattern=search_pattern, uid=uid)
elif format.startswith("hx"):
# BibTeX format, called on the fly:
if record_exist_p == -1:
out += _("The record has been deleted.")
else:
out += call_bibformat(recID, format, ln, search_pattern=search_pattern, uid=uid)
elif format.startswith("hs"):
# for citation/download similarity navigation links:
if record_exist_p == -1:
out += _("The record has been deleted.")
else:
out += '<a href="%s">' % websearch_templates.build_search_url(recid=recID, ln=ln)
# firstly, title:
titles = get_fieldvalues(recID, "245__a")
if titles:
for title in titles:
out += "<strong>%s</strong>" % title
else:
# usual title not found, try conference title:
titles = get_fieldvalues(recID, "111__a")
if titles:
for title in titles:
out += "<strong>%s</strong>" % title
else:
# just print record ID:
out += "<strong>%s %d</strong>" % (get_field_i18nname("record ID", ln), recID)
out += "</a>"
# secondly, authors:
authors = get_fieldvalues(recID, "100__a") + get_fieldvalues(recID, "700__a")
if authors:
out += " - %s" % authors[0]
if len(authors) > 1:
out += " <em>et al</em>"
# thirdly publication info:
publinfos = get_fieldvalues(recID, "773__s")
if not publinfos:
publinfos = get_fieldvalues(recID, "909C4s")
if not publinfos:
publinfos = get_fieldvalues(recID, "037__a")
if not publinfos:
publinfos = get_fieldvalues(recID, "088__a")
if publinfos:
out += " - %s" % publinfos[0]
else:
# fourthly publication year (if not publication info):
years = get_fieldvalues(recID, "773__y")
if not years:
years = get_fieldvalues(recID, "909C4y")
if not years:
years = get_fieldvalues(recID, "260__c")
if years:
out += " (%s)" % years[0]
else:
# HTML brief format by default
if record_exist_p == -1:
out += _("The record has been deleted.")
else:
query = "SELECT value FROM bibfmt WHERE id_bibrec='%s' AND format='%s'" % (recID, format)
res = run_sql(query)
if res:
# record 'recID' is formatted in 'format', so print it
out += "%s" % decompress(res[0][0])
else:
# record 'recID' is not formatted in 'format', so try to call BibFormat on the fly: or use default format:
if CFG_WEBSEARCH_CALL_BIBFORMAT:
out_record_in_format = call_bibformat(recID, format, ln, search_pattern=search_pattern, uid=uid)
if out_record_in_format:
out += out_record_in_format
else:
out += websearch_templates.tmpl_print_record_brief(
ln = ln,
recID = recID,
weburl = weburl,
)
else:
out += websearch_templates.tmpl_print_record_brief(
ln = ln,
recID = recID,
weburl = weburl,
)
# at the end of HTML brief mode, print the "Detailed record" functionality:
if format == 'hp' or format.startswith("hb_") or format.startswith("hd_"):
pass # do nothing for portfolio and on-the-fly formats
else:
out += websearch_templates.tmpl_print_record_brief_links(
ln = ln,
recID = recID,
weburl = weburl,
)
# print record closing tags, if needed:
if format == "marcxml" or format == "oai_dc":
out += " </metadata>\n"
out += " </record>\n"
return out
def encode_for_xml(s):
"Encode special chars in string so that it would be XML-compliant."
s = string.replace(s, '&', '&amp;')
s = string.replace(s, '<', '&lt;')
return s
def call_bibformat(recID, format="HD", ln=cdslang, search_pattern=None, uid=None):
"""
Calls BibFormat and returns formatted record.
BibFormat will decide by itself if old or new BibFormat must be used.
"""
keywords = []
if search_pattern != None:
units = create_basic_search_units(None, str(search_pattern), None)
keywords = [unit[1] for unit in units if unit[0] != '-']
return format_record(recID,
of=format,
ln=ln,
search_pattern=keywords,
uid=uid)
def log_query(hostname, query_args, uid=-1):
"""Log query into the query and user_query tables."""
if uid > 0:
# log the query only if uid is reasonable
res = run_sql("SELECT id FROM query WHERE urlargs=%s", (query_args,), 1)
try:
id_query = res[0][0]
except:
id_query = run_sql("INSERT INTO query (type, urlargs) VALUES ('r', %s)", (query_args,))
if id_query:
run_sql("INSERT INTO user_query (id_user, id_query, hostname, date) VALUES (%s, %s, %s, %s)",
(uid, id_query, hostname,
time.strftime("%Y-%m-%d %H:%M:%S", time.localtime())))
return
def log_query_info(action, p, f, colls, nb_records_found_total=-1):
"""Write some info to the log file for later analysis."""
try:
log = open(logdir + "/search.log", "a")
log.write(time.strftime("%Y%m%d%H%M%S#", time.localtime()))
log.write(action+"#")
log.write(p+"#")
log.write(f+"#")
for coll in colls[:-1]:
log.write("%s," % coll)
log.write("%s#" % colls[-1])
log.write("%d" % nb_records_found_total)
log.write("\n")
log.close()
except:
pass
return
def wash_url_argument(var, new_type):
"""Wash list argument into 'new_type', that can be 'list',
'str', or 'int'. Useful for washing mod_python passed
arguments, that are all lists of strings (URL args may be
multiple), but we sometimes want only to take the first value,
and sometimes to represent it as string or numerical value."""
out = []
if new_type == 'list': # return lst
if type(var) is list:
out = var
else:
out = [var]
elif new_type == 'str': # return str
if type(var) is list:
try:
out = "%s" % var[0]
except:
out = ""
elif type(var) is str:
out = var
else:
out = "%s" % var
elif new_type == 'int': # return int
if type(var) is list:
try:
out = string.atoi(var[0])
except:
out = 0
elif type(var) is int:
out = var
elif type(var) is str:
try:
out = string.atoi(var)
except:
out = 0
else:
out = 0
return out
### CALLABLES
def perform_request_search(req=None, cc=cdsname, c=None, p="", f="", rg=10, sf="", so="d", sp="", rm="", of="id", ot="", as=0,
p1="", f1="", m1="", op1="", p2="", f2="", m2="", op2="", p3="", f3="", m3="", sc=0, jrec=0,
recid=-1, recidb=-1, sysno="", id=-1, idb=-1, sysnb="", action="",
d1y=0, d1m=0, d1d=0, d2y=0, d2m=0, d2d=0, verbose=0, ap=0, ln=cdslang, ec = None):
"""Perform search or browse request, without checking for
authentication. Return list of recIDs found, if of=id.
Otherwise create web page.
The arguments are as follows:
req - mod_python Request class instance.
cc - current collection (e.g. "ATLAS"). The collection the
user started to search/browse from.
c - collectin list (e.g. ["Theses", "Books"]). The
collections user may have selected/deselected when
starting to search from 'cc'.
p - pattern to search for (e.g. "ellis and muon or kaon").
f - field to search within (e.g. "author").
rg - records in groups of (e.g. "10"). Defines how many hits
per collection in the search results page are
displayed.
sf - sort field (e.g. "title").
so - sort order ("a"=ascending, "d"=descending).
sp - sort pattern (e.g. "CERN-") -- in case there are more
values in a sort field, this argument tells which one
to prefer
rm - ranking method (e.g. "jif"). Defines whether results
should be ranked by some known ranking method.
of - output format (e.g. "hb"). Usually starting "h" means
HTML output (and "hb" for HTML brief, "hd" for HTML
detailed), "x" means XML output, "t" means plain text
output, "id" means no output at all but to return list
of recIDs found. (Suitable for high-level API.)
ot - output only these MARC tags (e.g. "100,700,909C0b").
Useful if only some fields are to be shown in the
output, e.g. for library to control some fields.
as - advanced search ("0" means no, "1" means yes). Whether
search was called from within the advanced search
interface.
p1 - first pattern to search for in the advanced search
interface. Much like 'p'.
f1 - first field to search within in the advanced search
interface. Much like 'f'.
m1 - first matching type in the advanced search interface.
("a" all of the words, "o" any of the words, "e" exact
phrase, "p" partial phrase, "r" regular expression).
op1 - first operator, to join the first and the second unit
in the advanced search interface. ("a" add, "o" or,
"n" not).
p2 - second pattern to search for in the advanced search
interface. Much like 'p'.
f2 - second field to search within in the advanced search
interface. Much like 'f'.
m2 - second matching type in the advanced search interface.
("a" all of the words, "o" any of the words, "e" exact
phrase, "p" partial phrase, "r" regular expression).
op2 - second operator, to join the second and the third unit
in the advanced search interface. ("a" add, "o" or,
"n" not).
p3 - third pattern to search for in the advanced search
interface. Much like 'p'.
f3 - third field to search within in the advanced search
interface. Much like 'f'.
m3 - third matching type in the advanced search interface.
("a" all of the words, "o" any of the words, "e" exact
phrase, "p" partial phrase, "r" regular expression).
sc - split by collection ("0" no, "1" yes). Governs whether
we want to present the results in a single huge list,
or splitted by collection.
jrec - jump to record (e.g. "234"). Used for navigation
inside the search results.
recid - display record ID (e.g. "20000"). Do not
search/browse but go straight away to the Detailed
record page for the given recID.
recidb - display record ID bis (e.g. "20010"). If greater than
'recid', then display records from recid to recidb.
Useful for example for dumping records from the
database for reformatting.
sysno - display old system SYS number (e.g. ""). If you
migrate to CDS Invenio from another system, and store your
old SYS call numbers, you can use them instead of recid
if you wish so.
id - the same as recid, in case recid is not set. For
backwards compatibility.
idb - the same as recid, in case recidb is not set. For
backwards compatibility.
sysnb - the same as sysno, in case sysno is not set. For
backwards compatibility.
action - action to do. "SEARCH" for searching, "Browse" for
browsing. Default is to search.
d1y - first date year (e.g. "1998"). Useful for search
limits on creation date.
d1m - first date month (e.g. "08"). Useful for search
limits on creation date.
d1d - first date day (e.g. "23"). Useful for search
limits on creation date.
d2y - second date year (e.g. "1998"). Useful for search
limits on creation date.
d2m - second date month (e.g. "09"). Useful for search
limits on creation date.
d2d - second date day (e.g. "02"). Useful for search limits
on creation date.
verbose - verbose level (0=min, 9=max). Useful to print some
internal information on the searching process in case
something goes wrong.
ap - alternative patterns (0=no, 1=yes). In case no exact
match is found, the search engine can try alternative
patterns e.g. to replace non-alphanumeric characters by
a boolean query. ap defines if this is wanted.
ln - language of the search interface (e.g. "en"). Useful
for internationalization.
ec - List of external search engines enabled.
"""
selected_external_collections_infos = None
# wash all arguments requiring special care
(cc, colls_to_display, colls_to_search) = wash_colls(cc, c, sc) # which colls to search and to display?
p = wash_pattern(p)
f = wash_field(f)
p1 = wash_pattern(p1)
f1 = wash_field(f1)
p2 = wash_pattern(p2)
f2 = wash_field(f2)
p3 = wash_pattern(p3)
f3 = wash_field(f3)
day1, day2 = wash_dates(d1y, d1m, d1d, d2y, d2m, d2d)
_ = gettext_set_language(ln)
# backwards compatibility: id, idb, sysnb -> recid, recidb, sysno (if applicable)
if sysnb != "" and sysno == "":
sysno = sysnb
if id > 0 and recid == -1:
recid = id
if idb > 0 and recidb == -1:
recidb = idb
# TODO deduce passed search limiting criterias (if applicable)
pl, pl_in_url = "", "" # no limits by default
if action != "browse" and req and req.args: # we do not want to add options while browsing or while calling via command-line
fieldargs = cgi.parse_qs(req.args)
for fieldcode in get_fieldcodes():
if fieldargs.has_key(fieldcode):
for val in fieldargs[fieldcode]:
pl += "+%s:\"%s\" " % (fieldcode, val)
pl_in_url += "&amp;%s=%s" % (urllib.quote(fieldcode), urllib.quote(val))
# deduce recid from sysno argument (if applicable):
if sysno: # ALEPH SYS number was passed, so deduce DB recID for the record:
recid = get_mysql_recid_from_aleph_sysno(sysno)
# deduce collection we are in (if applicable):
if recid > 0:
cc = guess_primary_collection_of_a_record(recid)
# deduce user id (if applicable):
try:
uid = getUid(req)
except:
uid = 0
## 0 - start output
if recid > 0:
## 1 - detailed record display
title, description, keywords = \
websearch_templates.tmpl_record_page_header_content(req, recid, ln)
page_start(req, of, cc, as, ln, uid, title, description, keywords)
if of == "hb":
of = "hd"
if record_exists(recid):
if recidb <= recid: # sanity check
recidb = recid + 1
if of == "id":
return [recidx for recidx in range(recid, recidb) if record_exists(recidx)]
else:
print_records(req, range(recid, recidb), -1, -9999, of, ot, ln, search_pattern=p)
if req and of.startswith("h"): # register detailed record page view event
client_ip_address = str(req.get_remote_host(apache.REMOTE_NOLOOKUP))
register_page_view_event(recid, uid, client_ip_address)
else: # record does not exist
if of == "id":
return []
elif of.startswith("h"):
print_warning(req, "Requested record does not seem to exist.")
elif action == "browse":
## 2 - browse needed
page_start(req, of, cc, as, ln, uid, _("Browse"))
if of.startswith("h"):
req.write(create_search_box(cc, colls_to_display, p, f, rg, sf, so, sp, rm, of, ot, as, ln, p1, f1, m1, op1,
p2, f2, m2, op2, p3, f3, m3, sc, pl, d1y, d1m, d1d, d2y, d2m, d2d, jrec, ec, action))
try:
if as == 1 or (p1 or p2 or p3):
browse_pattern(req, colls_to_search, p1, f1, rg)
browse_pattern(req, colls_to_search, p2, f2, rg)
browse_pattern(req, colls_to_search, p3, f3, rg)
else:
browse_pattern(req, colls_to_search, p, f, rg)
except:
if of.startswith("h"):
req.write(create_error_box(req, verbose=verbose, ln=ln))
return page_end(req, of, ln)
elif rm and p.startswith("recid:"):
## 3-ter - similarity search needed
page_start(req, of, cc, as, ln, uid, _("Search Results"))
if of.startswith("h"):
req.write(create_search_box(cc, colls_to_display, p, f, rg, sf, so, sp, rm, of, ot, as, ln, p1, f1, m1, op1,
p2, f2, m2, op2, p3, f3, m3, sc, pl, d1y, d1m, d1d, d2y, d2m, d2d, jrec, ec, action))
if record_exists(p[6:]) != 1:
# record does not exist
if of.startswith("h"):
print_warning(req, "Requested record does not seem to exist.")
if of == "id":
return []
else:
# record well exists, so find similar ones to it
t1 = os.times()[4]
results_similar_recIDs, results_similar_relevances, results_similar_relevances_prologue, results_similar_relevances_epilogue, results_similar_comments = \
rank_records(rm, 0, get_collection_reclist(cdsname), string.split(p), verbose)
if results_similar_recIDs:
t2 = os.times()[4]
cpu_time = t2 - t1
if of.startswith("h"):
req.write(print_search_info(p, f, sf, so, sp, rm, of, ot, cdsname, len(results_similar_recIDs),
jrec, rg, as, ln, p1, p2, p3, f1, f2, f3, m1, m2, m3, op1, op2,
sc, pl_in_url,
d1y, d1m, d1d, d2y, d2m, d2d, cpu_time))
print_warning(req, results_similar_comments)
print_records(req, results_similar_recIDs, jrec, rg, of, ot, ln,
results_similar_relevances, results_similar_relevances_prologue, results_similar_relevances_epilogue, search_pattern=p)
elif of=="id":
return results_similar_recIDs
else:
# rank_records failed and returned some error message to display:
if of.startswith("h"):
print_warning(req, results_similar_relevances_prologue)
print_warning(req, results_similar_relevances_epilogue)
print_warning(req, results_similar_comments)
if of == "id":
return []
elif CFG_EXPERIMENTAL_FEATURES and p.startswith("cocitedwith:"):
## 3-terter - cited by search needed
page_start(req, of, cc, as, ln, uid, _("Search Results"))
if of.startswith("h"):
req.write(create_search_box(cc, colls_to_display, p, f, rg, sf, so, sp, rm, of, ot, as, ln, p1, f1, m1, op1,
p2, f2, m2, op2, p3, f3, m3, sc, pl, d1y, d1m, d1d, d2y, d2m, d2d, jrec, ec, action))
recID = p[12:]
if record_exists(recID) != 1:
# record does not exist
if of.startswith("h"):
print_warning(req, "Requested record does not seem to exist.")
if of == "id":
return []
else:
# record well exists, so find co-cited ones:
t1 = os.times()[4]
results_cocited_recIDs = map(lambda x: x[0], calculate_co_cited_with_list(int(recID)))
if results_cocited_recIDs:
t2 = os.times()[4]
cpu_time = t2 - t1
if of.startswith("h"):
req.write(print_search_info(p, f, sf, so, sp, rm, of, ot, cdsname, len(results_cocited_recIDs),
jrec, rg, as, ln, p1, p2, p3, f1, f2, f3, m1, m2, m3, op1, op2,
sc, pl_in_url,
d1y, d1m, d1d, d2y, d2m, d2d, cpu_time))
print_records(req, results_cocited_recIDs, jrec, rg, of, ot, ln, search_pattern=p)
elif of=="id":
return results_cocited_recIDs
else:
# cited rank_records failed and returned some error message to display:
if of.startswith("h"):
print_warning(req, "nothing found")
if of == "id":
return []
else:
## 3 - common search needed
page_start(req, of, cc, as, ln, uid, _("Search Results"))
if of.startswith("h"):
req.write(create_search_box(cc, colls_to_display, p, f, rg, sf, so, sp, rm, of, ot, as, ln, p1, f1, m1, op1,
p2, f2, m2, op2, p3, f3, m3, sc, pl, d1y, d1m, d1d, d2y, d2m, d2d, jrec, ec, action))
t1 = os.times()[4]
results_in_any_collection = HitSet()
if as == 1 or (p1 or p2 or p3):
## 3A - advanced search
try:
results_in_any_collection = search_pattern(req, p1, f1, m1, ap=ap, of=of, verbose=verbose, ln=ln)
if results_in_any_collection._nbhits == 0:
if of.startswith("h"):
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
if p2:
results_tmp = search_pattern(req, p2, f2, m2, ap=ap, of=of, verbose=verbose, ln=ln)
if op1 == "a": # add
results_in_any_collection.intersect(results_tmp)
elif op1 == "o": # or
results_in_any_collection.union(results_tmp)
elif op1 == "n": # not
results_in_any_collection.difference(results_tmp)
else:
if of.startswith("h"):
print_warning(req, "Invalid set operation %s." % op1, "Error")
results_in_any_collection.calculate_nbhits()
if results_in_any_collection._nbhits == 0:
if of.startswith("h"):
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
if p3:
results_tmp = search_pattern(req, p3, f3, m3, ap=ap, of=of, verbose=verbose, ln=ln)
if op2 == "a": # add
results_in_any_collection.intersect(results_tmp)
elif op2 == "o": # or
results_in_any_collection.union(results_tmp)
elif op2 == "n": # not
results_in_any_collection.difference(results_tmp)
else:
if of.startswith("h"):
print_warning(req, "Invalid set operation %s." % op2, "Error")
results_in_any_collection.calculate_nbhits()
except:
if of.startswith("h"):
req.write(create_error_box(req, verbose=verbose, ln=ln))
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
else:
## 3B - simple search
try:
results_in_any_collection = search_pattern(req, p, f, ap=ap, of=of, verbose=verbose, ln=ln)
except:
if of.startswith("h"):
req.write(create_error_box(req, verbose=verbose, ln=ln))
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
if results_in_any_collection._nbhits == 0:
if of.startswith("h"):
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
# search_cache_key = p+"@"+f+"@"+string.join(colls_to_search,",")
# if search_cache.has_key(search_cache_key): # is the result in search cache?
# results_final = search_cache[search_cache_key]
# else:
# results_final = search_pattern(req, p, f, colls_to_search)
# search_cache[search_cache_key] = results_final
# if len(search_cache) > CFG_WEBSEARCH_SEARCH_CACHE_SIZE: # is the cache full? (sanity cleaning)
# search_cache.clear()
# search stage 4: intersection with collection universe:
try:
results_final = intersect_results_with_collrecs(req, results_in_any_collection, colls_to_search, ap, of, verbose, ln)
except:
if of.startswith("h"):
req.write(create_error_box(req, verbose=verbose, ln=ln))
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
if results_final == {}:
if of.startswith("h"):
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
# search stage 5: apply search option limits and restrictions:
if day1 != "":
try:
results_final = intersect_results_with_hitset(req,
results_final,
search_unit_in_bibrec(day1, day2),
ap,
aptext= _("No match within your time limits, "
"discarding this condition..."),
of=of)
except:
if of.startswith("h"):
req.write(create_error_box(req, verbose=verbose, ln=ln))
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
if results_final == {}:
if of.startswith("h"):
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
if pl:
try:
results_final = intersect_results_with_hitset(req,
results_final,
search_pattern(req, pl, ap=0, ln=ln),
ap,
aptext=_("No match within your search limits, "
"discarding this condition..."),
of=of)
except:
if of.startswith("h"):
req.write(create_error_box(req, verbose=verbose, ln=ln))
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
if results_final == {}:
if of.startswith("h"):
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
t2 = os.times()[4]
cpu_time = t2 - t1
## search stage 6: display results:
results_final_nb_total = 0
results_final_nb = {} # will hold number of records found in each collection
# (in simple dict to display overview more easily; may refactor later)
for coll in results_final.keys():
results_final_nb[coll] = results_final[coll]._nbhits
results_final_nb_total += results_final_nb[coll]
if results_final_nb_total == 0:
if of.startswith('h'):
print_warning(req, "No match found, please enter different search terms.")
else:
# yes, some hits found: good!
# collection list may have changed due to not-exact-match-found policy so check it out:
for coll in results_final.keys():
if coll not in colls_to_search:
colls_to_search.append(coll)
# print results overview:
if of == "id":
# we have been asked to return list of recIDs
results_final_for_all_colls = HitSet()
for coll in results_final.keys():
results_final_for_all_colls.union(results_final[coll])
recIDs = results_final_for_all_colls.items().tolist()
if sf: # do we have to sort?
recIDs = sort_records(req, recIDs, sf, so, sp, verbose, of)
elif rm: # do we have to rank?
results_final_for_all_colls_rank_records_output = rank_records(rm, 0, results_final_for_all_colls,
string.split(p) + string.split(p1) +
string.split(p2) + string.split(p3), verbose)
if results_final_for_all_colls_rank_records_output[0]:
recIDs = results_final_for_all_colls_rank_records_output[0]
return recIDs
elif of.startswith("h"):
req.write(print_results_overview(req, colls_to_search, results_final_nb_total, results_final_nb, cpu_time, ln))
selected_external_collections_infos = print_external_results_overview(req, cc, [p, p1, p2, p3], f, ec, verbose, ln)
# print records:
if len(colls_to_search)>1:
cpu_time = -1 # we do not want to have search time printed on each collection
for coll in colls_to_search:
if results_final.has_key(coll) and results_final[coll]._nbhits:
if of.startswith("h"):
req.write(print_search_info(p, f, sf, so, sp, rm, of, ot, coll, results_final_nb[coll],
jrec, rg, as, ln, p1, p2, p3, f1, f2, f3, m1, m2, m3, op1, op2,
sc, pl_in_url,
d1y, d1m, d1d, d2y, d2m, d2d, cpu_time))
results_final_recIDs = results_final[coll].items()
results_final_relevances = []
results_final_relevances_prologue = ""
results_final_relevances_epilogue = ""
if sf: # do we have to sort?
results_final_recIDs = sort_records(req, results_final_recIDs, sf, so, sp, verbose, of)
elif rm: # do we have to rank?
results_final_recIDs_ranked, results_final_relevances, results_final_relevances_prologue, results_final_relevances_epilogue, results_final_comments = \
rank_records(rm, 0, results_final[coll],
string.split(p) + string.split(p1) +
string.split(p2) + string.split(p3), verbose)
if of.startswith("h"):
print_warning(req, results_final_comments)
if results_final_recIDs_ranked:
results_final_recIDs = results_final_recIDs_ranked
else:
# rank_records failed and returned some error message to display:
print_warning(req, results_final_relevances_prologue)
print_warning(req, results_final_relevances_epilogue)
print_records(req, results_final_recIDs, jrec, rg, of, ot, ln,
results_final_relevances, results_final_relevances_prologue, results_final_relevances_epilogue, search_pattern=p)
if of.startswith("h"):
req.write(print_search_info(p, f, sf, so, sp, rm, of, ot, coll, results_final_nb[coll],
jrec, rg, as, ln, p1, p2, p3, f1, f2, f3, m1, m2, m3, op1, op2,
sc, pl_in_url,
d1y, d1m, d1d, d2y, d2m, d2d, cpu_time, 1))
if f == "author" and of.startswith("h"):
req.write(create_similarly_named_authors_link_box(p, ln))
# log query:
try:
log_query(req.get_remote_host(), req.args, uid)
except:
# do not log query if req is None (used by CLI interface)
pass
log_query_info("ss", p, f, colls_to_search, results_final_nb_total)
# External searches
if of.startswith("h"):
perform_external_collection_search(req, cc, [p, p1, p2, p3], f, ec, verbose, ln, selected_external_collections_infos)
return page_end(req, of, ln)
def perform_request_cache(req, action="show"):
"""Manipulates the search engine cache."""
global search_cache
global collection_reclist_cache
global collection_reclist_cache_timestamp
global field_i18nname_cache
global field_i18nname_cache_timestamp
global collection_i18nname_cache
global collection_i18nname_cache_timestamp
req.content_type = "text/html"
req.send_http_header()
out = ""
out += "<h1>Search Cache</h1>"
# clear cache if requested:
if action == "clear":
search_cache = {}
collection_reclist_cache = create_collection_reclist_cache()
# show collection reclist cache:
out += "<h3>Collection reclist cache</h3>"
out += "- collection table last updated: %s" % get_table_update_time('collection')
out += "<br>- reclist cache timestamp: %s" % collection_reclist_cache_timestamp
out += "<br>- reclist cache contents:"
out += "<blockquote>"
for coll in collection_reclist_cache.keys():
if collection_reclist_cache[coll]:
out += "%s (%d)<br>" % (coll, get_collection_reclist(coll)._nbhits)
out += "</blockquote>"
# show search cache:
out += "<h3>Search Cache</h3>"
out += "<blockquote>"
if len(search_cache):
out += """<table border="=">"""
out += "<tr><td><strong>%s</strong></td><td><strong>%s</strong></td><td><strong>%s</strong></td><td><strong>%s</strong></td></tr>" % \
("Pattern", "Field", "Collection", "Number of Hits")
for search_cache_key in search_cache.keys():
p, f, c = string.split(search_cache_key, "@", 2)
# find out about length of cached data:
l = 0
for coll in search_cache[search_cache_key]:
l += search_cache[search_cache_key][coll]._nbhits
out += "<tr><td>%s</td><td>%s</td><td>%s</td><td>%d</td></tr>" % (p, f, c, l)
out += "</table>"
else:
out += "<p>Search cache is empty."
out += "</blockquote>"
out += """<p><a href="%s/search/cache?action=clear">clear cache</a>""" % weburl
# show field i18nname cache:
out += "<h3>Field I18N names cache</h3>"
out += "- fieldname table last updated: %s" % get_table_update_time('fieldname')
out += "<br>- i18nname cache timestamp: %s" % field_i18nname_cache_timestamp
out += "<br>- i18nname cache contents:"
out += "<blockquote>"
for field in field_i18nname_cache.keys():
for ln in field_i18nname_cache[field].keys():
out += "%s, %s = %s<br>" % (field, ln, field_i18nname_cache[field][ln])
out += "</blockquote>"
# show collection i18nname cache:
out += "<h3>Collection I18N names cache</h3>"
out += "- collectionname table last updated: %s" % get_table_update_time('collectionname')
out += "<br>- i18nname cache timestamp: %s" % collection_i18nname_cache_timestamp
out += "<br>- i18nname cache contents:"
out += "<blockquote>"
for coll in collection_i18nname_cache.keys():
for ln in collection_i18nname_cache[coll].keys():
out += "%s, %s = %s<br>" % (coll, ln, collection_i18nname_cache[coll][ln])
out += "</blockquote>"
req.write("<html>")
req.write(out)
req.write("</html>")
return "\n"
def perform_request_log(req, date=""):
"""Display search log information for given date."""
req.content_type = "text/html"
req.send_http_header()
req.write("<html>")
req.write("<h1>Search Log</h1>")
if date: # case A: display stats for a day
yyyymmdd = string.atoi(date)
req.write("<p><big><strong>Date: %d</strong></big><p>" % yyyymmdd)
req.write("""<table border="1">""")
req.write("<tr><td><strong>%s</strong></td><td><strong>%s</strong></td><td><strong>%s</strong></td><td><strong>%s</strong></td><td><strong>%s</strong></td><td><strong>%s</strong></td></tr>" % ("No.", "Time", "Pattern", "Field", "Collection", "Number of Hits"))
# read file:
p = os.popen("grep ^%d %s/search.log" % (yyyymmdd, logdir), 'r')
lines = p.readlines()
p.close()
# process lines:
i = 0
for line in lines:
try:
datetime, as, p, f, c, nbhits = string.split(line,"#")
i += 1
req.write("<tr><td align=\"right\">#%d</td><td>%s:%s:%s</td><td>%s</td><td>%s</td><td>%s</td><td>%s</td></tr>" \
% (i, datetime[8:10], datetime[10:12], datetime[12:], p, f, c, nbhits))
except:
pass # ignore eventual wrong log lines
req.write("</table>")
else: # case B: display summary stats per day
yyyymm01 = int(time.strftime("%Y%m01", time.localtime()))
yyyymmdd = int(time.strftime("%Y%m%d", time.localtime()))
req.write("""<table border="1">""")
req.write("<tr><td><strong>%s</strong></td><td><strong>%s</strong></tr>" % ("Day", "Number of Queries"))
for day in range(yyyymm01, yyyymmdd + 1):
p = os.popen("grep -c ^%d %s/search.log" % (day, logdir), 'r')
for line in p.readlines():
req.write("""<tr><td>%s</td><td align="right"><a href="%s/search/log?date=%d">%s</a></td></tr>""" % \
(day, weburl, day, line))
p.close()
req.write("</table>")
req.write("</html>")
return "\n"
def profile(p="", f="", c=cdsname):
"""Profile search time."""
import profile
import pstats
profile.run("perform_request_search(p='%s',f='%s', c='%s')" % (p, f, c), "perform_request_search_profile")
p = pstats.Stats("perform_request_search_profile")
p.strip_dirs().sort_stats("cumulative").print_stats()
return 0
## test cases:
#print wash_colls(cdsname,"Library Catalogue", 0)
#print wash_colls("Periodicals & Progress Reports",["Periodicals","Progress Reports"], 0)
#print wash_field("wau")
#print print_record(20,"tm","001,245")
#print create_opft_search_units(None, "PHE-87-13","reportnumber")
#print ":"+wash_pattern("* and % doo * %")+":\n"
#print ":"+wash_pattern("*")+":\n"
#print ":"+wash_pattern("ellis* ell* e*%")+":\n"
#print run_sql("SELECT name,dbquery from collection")
#print get_index_id("author")
#print get_coll_ancestors("Theses")
#print get_coll_sons("Articles & Preprints")
#print get_coll_real_descendants("Articles & Preprints")
#print get_collection_reclist("Theses")
#print log(sys.stdin)
#print search_unit_in_bibrec('2002-12-01','2002-12-12')
#print type(wash_url_argument("-1",'int'))
#print get_nearest_terms_in_bibxxx("ellis", "author", 5, 5)
#print call_bibformat(68, "HB_FLY")
#print create_collection_i18nname_cache()
#print get_fieldvalues(10, "980__a")
#print get_fieldvalues_alephseq_like(10,"001___")
#print get_fieldvalues_alephseq_like(10,"980__a")
#print get_fieldvalues_alephseq_like(10,"foo")
#print get_fieldvalues_alephseq_like(10,"-1")
#print get_fieldvalues_alephseq_like(10,"99")
#print get_fieldvalues_alephseq_like(10,["001", "980"])
## profiling:
#profile("of the this")
#print perform_request_search(p="ellis")

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