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author | Patrick Simianer <simianer@cl.uni-heidelberg.de> | 2012-08-01 17:32:37 +0200 |
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committer | Patrick Simianer <simianer@cl.uni-heidelberg.de> | 2012-08-01 17:32:37 +0200 |
commit | eb3ea4fd5dff1c94b237af792c9f7bf421d79d96 (patch) | |
tree | 2acd7674f36e6dc6e815c5856519fdea1a2d6bf8 /sa-extract/rule.pyx | |
parent | e816274e337a066df1b1e86ef00136a021a17caf (diff) | |
parent | 193d137056c3c4f73d66f8db84691d63307de894 (diff) |
Merge remote-tracking branch 'upstream/master'
Diffstat (limited to 'sa-extract/rule.pyx')
-rw-r--r-- | sa-extract/rule.pyx | 286 |
1 files changed, 0 insertions, 286 deletions
diff --git a/sa-extract/rule.pyx b/sa-extract/rule.pyx deleted file mode 100644 index 7cd3efda..00000000 --- a/sa-extract/rule.pyx +++ /dev/null @@ -1,286 +0,0 @@ -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 - |