#!/usr/bin/env python2 import cdec import sys, argparse import json import gzip #FIXME new format # strings? # map? def hg2json(hg, weights): """ output a JSON representation of a cdec hypegraph """ res = '' res += "{\n" res += '"rules":[\n' rules = [] for i in hg.edges: s = json.dumps(str(i.trule)) try: rules.index(s) except: rules.append(s) res += ",\n".join(rules) res += "\n],\n" res += '"nodes":'+"\n" res += "[\n" a = [] a.append( '{ "id":0, "symbol":"root", "span":[-1,-1] }' ) for i in hg.nodes: a.append('{ "id":%d, "symbol":"%s", "span":[%d,%d] }'%(i.id+1, i.cat, i.span[0], i.span[1])) res += ",\n".join(a)+"\n" res += "],\n" res += '"edges":'+"\n" res += "[\n" a = [] for i in hg.edges: s = "{" s += '"head":%d'%(i.head_node.id+1) s += ', "rule":%s'%(rules.index(json.dumps(str(i.trule)))) # f #xs = ' "f":{' #b = [] #for j in i.feature_values: # b.append( '"%s":%s'%(j[0], j[1]) ) #xs += ", ".join(b) #xs += "}," # tails if len(list(i.tail_nodes)) > 0: s += ', "tails":[ %s ],'%(",".join([str(n.id+1) for n in i.tail_nodes])) else: s += ', "tails":[ 0 ],' #s += xs s += ' "score":%s }'%(i.prob) a.append(s) res += ",\n".join(a)+"\n" res += "]\n" res += "}\n" return res def main(): parser = argparse.ArgumentParser(description='get a proper json representation of cdec hypergraphs') parser.add_argument('-c', '--config', required=True, help='decoder configuration') parser.add_argument('-w', '--weights', required=True, help='feature weights') parser.add_argument('-g', '--grammar', required=False, help='grammar') args = parser.parse_args() with open(args.config) as config: config = config.read() decoder = cdec.Decoder(config) decoder.read_weights(args.weights) ins = sys.stdin.readline().strip() if args.grammar: with gzip.open(args.grammar) as grammar: grammar = grammar.read() hg = decoder.translate(ins, grammar=grammar) else: hg = decoder.translate(ins) sys.stderr.write( "input:\n '%s'\n"%(ins) ) sys.stderr.write( "viterbi translation:\n '%s'\n"%(hg.viterbi()) ) num_nodes = 0 for i in hg.nodes: num_nodes+=1 sys.stderr.write( "# nodes = %s\n"%(num_nodes) ) num_edges = 0 for i in hg.edges: num_edges+=1 sys.stderr.write( "# edges = %s\n"%(num_edges) ) sys.stderr.write( "viterbi score = %s\n"%(round(hg.viterbi_features().dot(decoder.weights), 2)) ) print hg2json(hg, decoder.weights) if __name__=="__main__": main()