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# clex.pyx
# defines bilexical dictionaries in C, with some convenience methods
# for reading arrays directly as globs directly from disk.
# Adam Lopez <alopez@cs.umd.edu>
import gzip
import sys
import context_model
cimport cintlist
cimport cfloatlist
cimport calignment
cimport csuf
cimport cdat
from libc.stdio cimport FILE, fopen, fread, fwrite, fclose
from libc.stdlib cimport malloc, realloc, free
from libc.string cimport memset, strcpy, strlen
cdef struct _node:
_node* smaller
_node* bigger
int key
int val
cdef _node* new_node(int key):
cdef _node* n
n = <_node*> malloc(sizeof(_node))
n.smaller = NULL
n.bigger = NULL
n.key = key
n.val = 0
return n
cdef del_node(_node* n):
if n.smaller != NULL:
del_node(n.smaller)
if n.bigger != NULL:
del_node(n.bigger)
free(n)
cdef int* get_val(_node* n, int key):
if key == n.key:
return &n.val
elif key < n.key:
if n.smaller == NULL:
n.smaller = new_node(key)
return &(n.smaller.val)
return get_val(n.smaller, key)
else:
if n.bigger == NULL:
n.bigger = new_node(key)
return &(n.bigger.val)
return get_val(n.bigger, key)
cdef class CLex:
cdef cfloatlist.CFloatList col1
cdef cfloatlist.CFloatList col2
cdef cintlist.CIntList f_index
cdef cintlist.CIntList e_index
cdef id2eword, id2fword, eword2id, fword2id
def __init__(self, filename, from_binary=False,
from_data=False, earray=None, fsarray=None):
self.id2eword = []
self.id2fword = []
self.eword2id = {}
self.fword2id = {}
self.e_index = cintlist.CIntList()
self.f_index = cintlist.CIntList()
self.col1 = cfloatlist.CFloatList()
self.col2 = cfloatlist.CFloatList()
if from_binary:
self.read_binary(filename)
else:
if from_data:
self.compute_from_data(fsarray, earray, filename)
else:
self.read_text(filename)
'''print "self.eword2id"
print "============="
for x in self.eword2id:
print x
print "self.fword2id"
print "============="
for x in self.fword2id:
print x
print "-------------"'''
cdef compute_from_data(self, csuf.SuffixArray fsa, cdat.DataArray eda, calignment.Alignment aa):
cdef int sent_id, num_links, l, i, j, f_i, e_j, I, J, V_E, V_F, num_pairs
cdef int *fsent, *esent, *alignment, *links, *ealigned, *faligned
cdef _node** dict
cdef int *fmargin, *emargin, *count
cdef bytes word
cdef int null_word
null_word = 0
for word in fsa.darray.id2word: # I miss list comprehensions
self.id2fword.append(word)
self.id2fword[null_word] = "NULL"
for id, word in enumerate(self.id2fword):
self.fword2id[word] = id
for word in eda.id2word:
self.id2eword.append(word)
self.id2eword[null_word] = "NULL"
for id, word in enumerate(self.id2eword):
self.eword2id[word] = id
num_pairs = 0
V_E = len(eda.id2word)
V_F = len(fsa.darray.id2word)
fmargin = <int*> malloc(V_F*sizeof(int))
emargin = <int*> malloc(V_E*sizeof(int))
memset(fmargin, 0, V_F*sizeof(int))
memset(emargin, 0, V_E*sizeof(int))
dict = <_node**> malloc(V_F*sizeof(_node*))
memset(dict, 0, V_F*sizeof(_node*))
num_sents = len(fsa.darray.sent_index)
for sent_id from 0 <= sent_id < num_sents-1:
fsent = fsa.darray.data.arr + fsa.darray.sent_index.arr[sent_id]
I = fsa.darray.sent_index.arr[sent_id+1] - fsa.darray.sent_index.arr[sent_id] - 1
faligned = <int*> malloc(I*sizeof(int))
memset(faligned, 0, I*sizeof(int))
esent = eda.data.arr + eda.sent_index.arr[sent_id]
J = eda.sent_index.arr[sent_id+1] - eda.sent_index.arr[sent_id] - 1
ealigned = <int*> malloc(J*sizeof(int))
memset(ealigned, 0, J*sizeof(int))
links = aa._get_sent_links(sent_id, &num_links)
for l from 0 <= l < num_links:
i = links[l*2]
j = links[l*2+1]
if i >= I or j >= J:
sys.stderr.write(" %d-%d out of bounds (I=%d,J=%d) in line %d\n" % (i,j,I,J,sent_id+1))
assert i < I
assert j < J
f_i = fsent[i]
e_j = esent[j]
fmargin[f_i] = fmargin[f_i]+1
emargin[e_j] = emargin[e_j]+1
if dict[f_i] == NULL:
dict[f_i] = new_node(e_j)
dict[f_i].val = 1
num_pairs = num_pairs + 1
else:
count = get_val(dict[f_i], e_j)
if count[0] == 0:
num_pairs = num_pairs + 1
count[0] = count[0] + 1
# add count
faligned[i] = 1
ealigned[j] = 1
for i from 0 <= i < I:
if faligned[i] == 0:
f_i = fsent[i]
fmargin[f_i] = fmargin[f_i] + 1
emargin[null_word] = emargin[null_word] + 1
if dict[f_i] == NULL:
dict[f_i] = new_node(null_word)
dict[f_i].val = 1
num_pairs = num_pairs + 1
else:
count = get_val(dict[f_i], null_word)
if count[0] == 0:
num_pairs = num_pairs + 1
count[0] = count[0] + 1
for j from 0 <= j < J:
if ealigned[j] == 0:
e_j = esent[j]
fmargin[null_word] = fmargin[null_word] + 1
emargin[e_j] = emargin[e_j] + 1
if dict[null_word] == NULL:
dict[null_word] = new_node(e_j)
dict[null_word].val = 1
num_pairs = num_pairs + 1
else:
count = get_val(dict[null_word], e_j)
if count[0] == 0:
num_pairs = num_pairs + 1
count[0] = count[0] + 1
free(links)
free(faligned)
free(ealigned)
self.f_index = cintlist.CIntList(initial_len=V_F)
self.e_index = cintlist.CIntList(initial_len=num_pairs)
self.col1 = cfloatlist.CFloatList(initial_len=num_pairs)
self.col2 = cfloatlist.CFloatList(initial_len=num_pairs)
num_pairs = 0
for i from 0 <= i < V_F:
#self.f_index[i] = num_pairs
self.f_index.set(i, num_pairs)
if dict[i] != NULL:
self._add_node(dict[i], &num_pairs, float(fmargin[i]), emargin)
del_node(dict[i])
free(fmargin)
free(emargin)
free(dict)
return
cdef _add_node(self, _node* n, int* num_pairs, float fmargin, int* emargin):
cdef int loc
if n.smaller != NULL:
self._add_node(n.smaller, num_pairs, fmargin, emargin)
loc = num_pairs[0]
self.e_index.set(loc, n.key)
self.col1.set(loc, float(n.val)/fmargin)
self.col2.set(loc, float(n.val)/float(emargin[n.key]))
num_pairs[0] = loc + 1
if n.bigger != NULL:
self._add_node(n.bigger, num_pairs, fmargin, emargin)
def write_binary(self, filename):
cdef FILE* f
cdef bytes bfilename = filename
cdef char* cfilename = bfilename
f = fopen(cfilename, "w")
self.f_index.write_handle(f)
self.e_index.write_handle(f)
self.col1.write_handle(f)
self.col2.write_handle(f)
self.write_wordlist(self.id2fword, f)
self.write_wordlist(self.id2eword, f)
fclose(f)
cdef write_wordlist(self, wordlist, FILE* f):
cdef int word_len
cdef int num_words
cdef char* c_word
num_words = len(wordlist)
fwrite(&(num_words), sizeof(int), 1, f)
for word in wordlist:
c_word = word
word_len = strlen(c_word) + 1
fwrite(&(word_len), sizeof(int), 1, f)
fwrite(c_word, sizeof(char), word_len, f)
cdef read_wordlist(self, word2id, id2word, FILE* f):
cdef int num_words
cdef int word_len
cdef char* c_word
cdef bytes py_word
fread(&(num_words), sizeof(int), 1, f)
for i from 0 <= i < num_words:
fread(&(word_len), sizeof(int), 1, f)
c_word = <char*> malloc (word_len * sizeof(char))
fread(c_word, sizeof(char), word_len, f)
py_word = c_word
free(c_word)
word2id[py_word] = len(id2word)
id2word.append(py_word)
def read_binary(self, filename):
cdef FILE* f
cdef bytes bfilename = filename
cdef char* cfilename = bfilename
f = fopen(cfilename, "r")
self.f_index.read_handle(f)
self.e_index.read_handle(f)
self.col1.read_handle(f)
self.col2.read_handle(f)
self.read_wordlist(self.fword2id, self.id2fword, f)
self.read_wordlist(self.eword2id, self.id2eword, f)
fclose(f)
def get_e_id(self, eword):
if eword not in self.eword2id:
e_id = len(self.id2eword)
self.id2eword.append(eword)
self.eword2id[eword] = e_id
return self.eword2id[eword]
def get_f_id(self, fword):
if fword not in self.fword2id:
f_id = len(self.id2fword)
self.id2fword.append(fword)
self.fword2id[fword] = f_id
return self.fword2id[fword]
def read_text(self, filename):
cdef i, j, w, e_id, f_id, n_f, n_e, N
cdef cintlist.CIntList fcount
fcount = cintlist.CIntList()
if filename[-2:] == "gz":
f = gzip.GzipFile(filename)
else:
f = open(filename)
# first loop merely establishes size of array objects
sys.stderr.write("Initial read...\n")
for line in f:
(fword, eword, score1, score2) = line.split()
f_id = self.get_f_id(fword)
e_id = self.get_e_id(eword)
while f_id >= len(fcount):
fcount.append(0)
fcount.arr[f_id] = fcount.arr[f_id] + 1
# Allocate space for dictionary in arrays
N = 0
n_f = len(fcount)
self.f_index = cintlist.CIntList(initial_len=n_f+1)
for i from 0 <= i < n_f:
self.f_index.arr[i] = N
N = N + fcount.arr[i]
fcount.arr[i] = 0
self.f_index.arr[n_f] = N
self.e_index = cintlist.CIntList(initial_len=N)
self.col1 = cfloatlist.CFloatList(initial_len=N)
self.col2 = cfloatlist.CFloatList(initial_len=N)
# Re-read file, placing words into buckets
sys.stderr.write("Bucket sort...\n")
f.seek(0)
for line in f:
(fword, eword, score1, score2) = line.split()
f_id = self.get_f_id(fword)
e_id = self.get_e_id(eword)
index = self.f_index.arr[f_id] + fcount.arr[f_id]
fcount.arr[f_id] = fcount.arr[f_id] + 1
self.e_index.arr[index] = int(e_id)
self.col1[index] = float(score1)
self.col2[index] = float(score2)
f.close()
sys.stderr.write("Final sort...\n")
# Sort buckets by eword
for b from 0 <= b < n_f:
i = self.f_index.arr[b]
j = self.f_index.arr[b+1]
self.qsort(i,j, "")
cdef swap(self, int i, int j):
cdef int itmp
cdef float ftmp
if i == j:
return
itmp = self.e_index.arr[i]
self.e_index.arr[i] = self.e_index.arr[j]
self.e_index.arr[j] = itmp
ftmp = self.col1.arr[i]
self.col1.arr[i] = self.col1.arr[j]
self.col1.arr[j] = ftmp
ftmp = self.col2.arr[i]
self.col2.arr[i] = self.col2.arr[j]
self.col2.arr[j] = ftmp
cdef qsort(self, int i, int j, pad):
cdef int pval, p
if i > j:
raise Exception("Sort error in CLex")
if i == j: #empty interval
return
if i == j-1: # singleton interval
return
p = (i+j)/2
pval = self.e_index.arr[p]
self.swap(i, p)
p = i
for k from i+1 <= k < j:
if pval >= self.e_index.arr[k]:
self.swap(p+1, k)
self.swap(p, p+1)
p = p + 1
self.qsort(i,p, pad+" ")
self.qsort(p+1,j, pad+" ")
def write_enhanced(self, filename):
f = open(filename, "w")
for i in self.f_index:
f.write("%d " % i)
f.write("\n")
for i, s1, s2 in zip(self.e_index, self.col1, self.col2):
f.write("%d %f %f " % (i, s1, s2))
f.write("\n")
for i, w in enumerate(self.id2fword):
f.write("%d %s " % (i, w))
f.write("\n")
for i, w in enumerate(self.id2eword):
f.write("%d %s " % (i, w))
f.write("\n")
f.close()
def get_score(self, fword, eword, col):
cdef e_id, f_id, low, high, midpoint, val
#print "get_score fword=",fword,", eword=",eword,", col=",col
if eword not in self.eword2id:
return None
if fword not in self.fword2id:
return None
f_id = self.fword2id[fword]
e_id = self.eword2id[eword]
low = self.f_index.arr[f_id]
high = self.f_index.arr[f_id+1]
while high - low > 0:
midpoint = (low+high)/2
val = self.e_index.arr[midpoint]
if val == e_id:
if col == 0:
return self.col1.arr[midpoint]
if col == 1:
return self.col2.arr[midpoint]
if val > e_id:
high = midpoint
if val < e_id:
low = midpoint + 1
return None
def write_text(self, filename):
"""Note: does not guarantee writing the dictionary in the original order"""
cdef i, N, e_id, f_id
f = open(filename, "w")
N = len(self.e_index)
f_id = 0
for i from 0 <= i < N:
while self.f_index.arr[f_id+1] == i:
f_id = f_id + 1
e_id = self.e_index.arr[i]
score1 = self.col1.arr[i]
score2 = self.col2.arr[i]
f.write("%s %s %.6f %.6f\n" % (self.id2fword[f_id], self.id2eword[e_id], score1, score2))
f.close()
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