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from libc.stdlib cimport malloc, calloc, realloc, free, strtof, strtol
from libc.string cimport strsep, strcpy, strlen
cdef extern from "strutil.h":
char *strstrsep(char **stringp, char *delim)
char *strip(char *s)
char **split(char *s, char *delim, int *pn)
import sys
import sym
cimport sym
cdef sym.Alphabet alphabet
alphabet = sym.alphabet
global span_limit
span_limit = None
cdef int bufsize
cdef char *buf
bufsize = 100
buf = <char *>malloc(bufsize)
cdef ensurebufsize(int size):
global buf, bufsize
if size > bufsize:
buf = <char *>realloc(buf, size*sizeof(char))
bufsize = size
cdef class Phrase:
def __cinit__(self, words):
cdef int i, j, n, n_vars
cdef char **toks
cdef bytes bwords
cdef char* cwords
n_vars = 0
if type(words) is str:
ensurebufsize(len(words)+1)
bwords = words
cwords = bwords
strcpy(buf, cwords)
toks = split(buf, NULL, &n)
self.syms = <int *>malloc(n*sizeof(int))
for i from 0 <= i < n:
self.syms[i] = alphabet.fromstring(toks[i], 0)
if alphabet.isvar(self.syms[i]):
n_vars = n_vars + 1
else:
n = len(words)
self.syms = <int *>malloc(n*sizeof(int))
for i from 0 <= i < n:
self.syms[i] = words[i]
if alphabet.isvar(self.syms[i]):
n_vars = n_vars + 1
self.n = n
self.n_vars = n_vars
self.varpos = <int *>malloc(n_vars*sizeof(int))
j = 0
for i from 0 <= i < n:
if alphabet.isvar(self.syms[i]):
self.varpos[j] = i
j = j + 1
def __dealloc__(self):
free(self.syms)
free(self.varpos)
def __str__(self):
strs = []
cdef int i, s
for i from 0 <= i < self.n:
s = self.syms[i]
strs.append(alphabet.tostring(s))
return " ".join(strs)
def instantiable(self, i, j, n):
return span_limit is None or (j-i) <= span_limit
def handle(self):
"""return a hashable representation that normalizes the ordering
of the nonterminal indices"""
norm = []
cdef int i, j, s
i = 1
j = 0
for j from 0 <= j < self.n:
s = self.syms[j]
if alphabet.isvar(s):
s = alphabet.setindex(s,i)
i = i + 1
norm.append(s)
return tuple(norm)
def strhandle(self):
strs = []
norm = []
cdef int i, j, s
i = 1
j = 0
for j from 0 <= j < self.n:
s = self.syms[j]
if alphabet.isvar(s):
s = alphabet.setindex(s,i)
i = i + 1
norm.append(alphabet.tostring(s))
return " ".join(norm)
def arity(self):
return self.n_vars
def getvarpos(self, i):
if 0 <= i < self.n_vars:
return self.varpos[i]
else:
raise IndexError
def getvar(self, i):
if 0 <= i < self.n_vars:
return self.syms[self.varpos[i]]
else:
raise IndexError
cdef int chunkpos(self, int k):
if k == 0:
return 0
else:
return self.varpos[k-1]+1
cdef int chunklen(self, int k):
if self.n_vars == 0:
return self.n
elif k == 0:
return self.varpos[0]
elif k == self.n_vars:
return self.n-self.varpos[k-1]-1
else:
return self.varpos[k]-self.varpos[k-1]-1
def clen(self, k):
return self.chunklen(k)
def getchunk(self, ci):
cdef int start, stop
start = self.chunkpos(ci)
stop = start+self.chunklen(ci)
chunk = []
for i from start <= i < stop:
chunk.append(self.syms[i])
return chunk
def __cmp__(self, other):
cdef Phrase otherp
cdef int i
otherp = other
for i from 0 <= i < min(self.n, otherp.n):
if self.syms[i] < otherp.syms[i]:
return -1
elif self.syms[i] > otherp.syms[i]:
return 1
if self.n < otherp.n:
return -1
elif self.n > otherp.n:
return 1
else:
return 0
def __hash__(self):
cdef int i
cdef unsigned h
h = 0
for i from 0 <= i < self.n:
if self.syms[i] > 0:
h = (h << 1) + self.syms[i]
else:
h = (h << 1) + -self.syms[i]
return h
def __len__(self):
return self.n
def __getitem__(self, i):
return self.syms[i]
def __iter__(self):
cdef int i
l = []
for i from 0 <= i < self.n:
l.append(self.syms[i])
return iter(l)
def subst(self, start, children):
cdef int i
for i from 0 <= i < self.n:
if alphabet.isvar(self.syms[i]):
start = start + children[alphabet.getindex(self.syms[i])-1]
else:
start = start + (self.syms[i],)
return start
cdef class Rule:
def __cinit__(self, lhs, f, e, owner=None, scores=None, word_alignments=None):
cdef int i, n
cdef char *rest
self.word_alignments = word_alignments
if scores is None:
self.cscores = NULL
self.n_scores = 0
else:
n = len(scores)
self.cscores = <float *>malloc(n*sizeof(float))
self.n_scores = n
for i from 0 <= i < n:
self.cscores[i] = scores[i]
def __init__(self, lhs, f, e, owner=None, scores=None, word_alignments=None):
if not sym.isvar(lhs):
sys.stderr.write("error: lhs=%d\n" % lhs)
self.lhs = lhs
self.f = f
self.e = e
self.word_alignments = word_alignments
def __dealloc__(self):
if self.cscores != NULL:
free(self.cscores)
def __str__(self):
return self.to_line()
def __hash__(self):
return hash((self.lhs, self.f, self.e))
def __cmp__(self, Rule other):
return cmp((self.lhs, self.f, self.e, self.word_alignments), (other.lhs, other.f, other.e, self.word_alignments))
def __iadd__(self, Rule other):
if self.n_scores != other.n_scores:
raise ValueError
for i from 0 <= i < self.n_scores:
self.cscores[i] = self.cscores[i] + other.cscores[i]
return self
def fmerge(self, Phrase f):
if self.f == f:
self.f = f
def arity(self):
return self.f.arity()
def to_line(self):
scorestrs = []
for i from 0 <= i < self.n_scores:
scorestrs.append(str(self.cscores[i]))
fields = [alphabet.tostring(self.lhs), str(self.f), str(self.e), " ".join(scorestrs)]
if self.word_alignments is not None:
alignstr = []
for i from 0 <= i < len(self.word_alignments):
alignstr.append("%d-%d" % (self.word_alignments[i]/65536, self.word_alignments[i]%65536))
#for s,t in self.word_alignments:
#alignstr.append("%d-%d" % (s,t))
fields.append(" ".join(alignstr))
return " ||| ".join(fields)
property scores:
def __get__(self):
s = [None]*self.n_scores
for i from 0 <= i < self.n_scores:
s[i] = self.cscores[i]
return s
def __set__(self, s):
if self.cscores != NULL:
free(self.cscores)
self.cscores = <float *>malloc(len(s)*sizeof(float))
self.n_scores = len(s)
for i from 0 <= i < self.n_scores:
self.cscores[i] = s[i]
def rule_copy(r):
r1 = Rule(r.lhs, r.f, r.e, r.owner, r.scores)
r1.word_alignments = r.word_alignments
return r1
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