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#!/usr/bin/env python
#
# Takes spans input along with treebank and spits out CG style categories for each span.
# spans = output from CDEC's extools/extractor with --base_phrase_spans option
# treebank = PTB format, one tree per line
#
# Output is in CDEC labelled-span format
#
import sys, itertools, tree
tinfile = open(sys.argv[1])
einfile = open(sys.argv[2])
def number_leaves(node, next=0):
left, right = None, None
for child in node.children:
l, r = number_leaves(child, next)
next = max(next, r+1)
if left == None or l < left:
left = l
if right == None or r > right:
right = r
#print node, left, right, next
if left == None or right == None:
assert not node.children
left = right = next
node.left = left
node.right = right
return left, right
def ancestor(node, indices):
#print node, node.left, node.right, indices
# returns the deepest node covering all the indices
if min(indices) >= node.left and max(indices) <= node.right:
# try the children
for child in node.children:
x = ancestor(child, indices)
if x: return x
return node
else:
return None
def frontier(node, indices):
#print 'frontier for node', node, 'indices', indices
if node.left > max(indices) or node.right < min(indices):
#print '\toutside'
return [node]
elif node.children:
#print '\tcovering at least part'
ns = []
for child in node.children:
n = frontier(child, indices)
ns.extend(n)
return ns
else:
return [node]
def project_heads(node):
#print 'project_heads', node
is_head = node.data.tag.endswith('-HEAD')
if node.children:
found = 0
for child in node.children:
x = project_heads(child)
if x:
node.data.tag = x
found += 1
assert found == 1
elif is_head:
node.data.tag = node.data.tag[:-len('-HEAD')]
if is_head:
return node.data.tag
else:
return None
for tline, eline in itertools.izip(tinfile, einfile):
if tline.strip() != '(())':
if tline.startswith('( '):
tline = tline[2:-1].strip()
tr = tree.parse_PST(tline)
number_leaves(tr)
#project_heads(tr) # assumes Bikel-style head annotation for the input trees
else:
tr = None
zh, en, spans = eline.strip().split(" ||| ")
print '|||',
for span in spans.split():
i, j, x, y = map(int, span.split("-"))
if tr:
a = ancestor(tr, range(x,y))
fs = frontier(a, range(x,y))
#print x, y
#print 'ancestor', a
#print 'frontier', fs
cat = a.data.tag
for f in fs:
if f.right < x:
cat += '\\' + f.data.tag
else:
break
for f in reversed(fs):
if f.left >= y:
cat += '/' + f.data.tag
else:
break
else:
cat = 'FAIL'
print '%d-%d:%s' % (x, y, cat),
print
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