def write_trees_or_tokens(output_file, das, gen_trees, base_doc, language, selector): """Decide to write t-trees or tokens based on the output file name.""" if output_file.endswith('.txt'): gen_toks = [t.to_tok_list() for t in gen_trees] postprocess_tokens(gen_toks, das) write_tokens(gen_toks, output_file) else: write_ttrees(create_ttree_doc(gen_trees, base_doc, language, selector), output_file)
def seq2seq_gen(args): """Sequence-to-sequence generation""" ap = ArgumentParser() ap.add_argument('-e', '--eval-file', type=str, help='A ttree/text file for evaluation') ap.add_argument( '-a', '--abstr-file', type=str, help= 'Lexicalization file (a.k.a. abstraction instructions, for postprocessing)' ) ap.add_argument('-r', '--ref-selector', type=str, default='', help='Selector for reference trees in the evaluation file') ap.add_argument( '-t', '--target-selector', type=str, default='', help='Target selector for generated trees in the output file') ap.add_argument('-d', '--debug-logfile', type=str, help='Debug output file name') ap.add_argument('-w', '--output-file', type=str, help='Output tree/text file') ap.add_argument('-b', '--beam-size', type=int, help='Override beam size for beam search decoding') ap.add_argument('-c', '--context-file', type=str, help='Input ttree/text file with context utterances') ap.add_argument('seq2seq_model_file', type=str, help='Trained Seq2Seq generator model') ap.add_argument('da_test_file', type=str, help='Input DAs for generation') args = ap.parse_args(args) if args.debug_logfile: set_debug_stream(file_stream(args.debug_logfile, mode='w')) # load the generator tgen = Seq2SeqBase.load_from_file(args.seq2seq_model_file) if args.beam_size is not None: tgen.beam_size = args.beam_size # read input files das = read_das(args.da_test_file) if args.context_file: if not tgen.use_context and not tgen.context_bleu_weight: log_warn( 'Generator is not trained to use context, ignoring context input file.' ) else: if args.context_file.endswith('.txt'): contexts = read_tokens(args.context_file) else: contexts = tokens_from_doc(read_ttrees(args.context_file), tgen.language, tgen.selector) das = [(context, da) for context, da in zip(contexts, das)] # generate log_info('Generating...') gen_trees = [] for num, da in enumerate(das, start=1): log_debug("\n\nTREE No. %03d" % num) gen_trees.append(tgen.generate_tree(da)) log_info(tgen.get_slot_err_stats()) # evaluate the generated trees against golden trees (delexicalized) eval_doc = None if args.eval_file and not args.eval_file.endswith('.txt'): eval_doc = read_ttrees(args.eval_file) evaler = Evaluator() evaler.process_eval_doc(eval_doc, gen_trees, tgen.language, args.ref_selector, args.target_selector or tgen.selector) # lexicalize, if required if args.abstr_file and tgen.lexicalizer: log_info('Lexicalizing...') tgen.lexicalize(gen_trees, args.abstr_file) # evaluate the generated & lexicalized tokens (F1 and BLEU scores) if args.eval_file and args.eval_file.endswith('.txt'): eval_tokens(das, read_tokens(args.eval_file, ref_mode=True), [t.to_tok_list() for t in gen_trees]) # write output .yaml.gz or .txt if args.output_file is not None: log_info('Writing output...') if args.output_file.endswith('.txt'): write_tokens( postprocess_tokens([t.to_tok_list() for t in gen_trees], das), args.output_file) else: write_ttrees( create_ttree_doc(gen_trees, eval_doc, tgen.language, args.target_selector or tgen.selector), args.output_file)
def seq2seq_gen(args): """Sequence-to-sequence generation""" ap = ArgumentParser(prog=' '.join(sys.argv[0:2])) ap.add_argument('-e', '--eval-file', type=str, help='A ttree/text file for evaluation') ap.add_argument('-a', '--abstr-file', type=str, help='Lexicalization file (a.k.a. abstraction instructions, for postprocessing)') ap.add_argument('-r', '--ref-selector', type=str, default='', help='Selector for reference trees in the evaluation file') ap.add_argument('-t', '--target-selector', type=str, default='', help='Target selector for generated trees in the output file') ap.add_argument('-d', '--debug-logfile', type=str, help='Debug output file name') ap.add_argument('-w', '--output-file', type=str, help='Output tree/text file') ap.add_argument('-b', '--beam-size', type=int, help='Override beam size for beam search decoding') ap.add_argument('-c', '--context-file', type=str, help='Input ttree/text file with context utterances') ap.add_argument('seq2seq_model_file', type=str, help='Trained Seq2Seq generator model') ap.add_argument('da_test_file', type=str, help='Input DAs for generation') args = ap.parse_args(args) if args.debug_logfile: set_debug_stream(file_stream(args.debug_logfile, mode='w')) # load the generator tgen = Seq2SeqBase.load_from_file(args.seq2seq_model_file) if args.beam_size is not None: tgen.beam_size = args.beam_size # read input files (DAs, contexts) das = read_das(args.da_test_file) if args.context_file: if not tgen.use_context and not tgen.context_bleu_weight: log_warn('Generator is not trained to use context, ignoring context input file.') else: if args.context_file.endswith('.txt'): contexts = read_tokens(args.context_file) else: contexts = tokens_from_doc(read_ttrees(args.context_file), tgen.language, tgen.selector) das = [(context, da) for context, da in zip(contexts, das)] elif tgen.use_context or tgen.context_bleu_weight: log_warn('Generator is trained to use context. ' + 'Using empty contexts, expect lower performance.') das = [([], da) for da in das] # generate log_info('Generating...') gen_trees = [] for num, da in enumerate(das, start=1): log_debug("\n\nTREE No. %03d" % num) gen_trees.append(tgen.generate_tree(da)) if num % 100 == 0: log_info("Generated tree %d" % num) log_info(tgen.get_slot_err_stats()) # evaluate the generated trees against golden trees (delexicalized) eval_doc = None if args.eval_file and not args.eval_file.endswith('.txt'): eval_doc = read_ttrees(args.eval_file) evaler = Evaluator() evaler.process_eval_doc(eval_doc, gen_trees, tgen.language, args.ref_selector, args.target_selector or tgen.selector) # lexicalize, if required if args.abstr_file and tgen.lexicalizer: log_info('Lexicalizing...') tgen.lexicalize(gen_trees, args.abstr_file) # we won't need contexts anymore, but we do need DAs if tgen.use_context or tgen.context_bleu_weight: das = [da for _, da in das] # evaluate the generated & lexicalized tokens (F1 and BLEU scores) if args.eval_file and args.eval_file.endswith('.txt'): eval_tokens(das, read_tokens(args.eval_file, ref_mode=True), [t.to_tok_list() for t in gen_trees]) # write output .yaml.gz or .txt if args.output_file is not None: log_info('Writing output...') if args.output_file.endswith('.txt'): gen_toks = [t.to_tok_list() for t in gen_trees] postprocess_tokens(gen_toks, das) write_tokens(gen_toks, args.output_file) else: write_ttrees(create_ttree_doc(gen_trees, eval_doc, tgen.language, args.target_selector or tgen.selector), args.output_file)
def seq2seq_gen(args): """Sequence-to-sequence generation""" ap = ArgumentParser() ap.add_argument('-e', '--eval-file', type=str, help='A ttree/text file for evaluation') ap.add_argument('-a', '--abstr-file', type=str, help='Lexicalization file (a.k.a. abstraction instsructions, for tokens only)') ap.add_argument('-r', '--ref-selector', type=str, default='', help='Selector for reference trees in the evaluation file') ap.add_argument('-t', '--target-selector', type=str, default='', help='Target selector for generated trees in the output file') ap.add_argument('-d', '--debug-logfile', type=str, help='Debug output file name') ap.add_argument('-w', '--output-file', type=str, help='Output tree/text file') ap.add_argument('-b', '--beam-size', type=int, help='Override beam size for beam search decoding') ap.add_argument('-c', '--context-file', type=str, help='Input ttree/text file with context utterances') ap.add_argument('seq2seq_model_file', type=str, help='Trained Seq2Seq generator model') ap.add_argument('da_test_file', type=str, help='Input DAs for generation') args = ap.parse_args(args) if args.debug_logfile: set_debug_stream(file_stream(args.debug_logfile, mode='w')) # load the generator tgen = Seq2SeqBase.load_from_file(args.seq2seq_model_file) if args.beam_size is not None: tgen.beam_size = args.beam_size # read input files das = read_das(args.da_test_file) if args.context_file: if not tgen.use_context and not tgen.context_bleu_weight: log_warn('Generator is not trained to use context, ignoring context input file.') else: if args.context_file.endswith('.txt'): contexts = read_tokens(args.context_file) else: contexts = tokens_from_doc(read_ttrees(args.context_file), tgen.language, tgen.selector) das = [(context, da) for context, da in zip(contexts, das)] # prepare evaluation if args.eval_file is None or args.eval_file.endswith('.txt'): # just tokens gen_doc = [] else: # Trees: depending on PyTreex from pytreex.core.document import Document eval_doc = read_ttrees(args.eval_file) if args.ref_selector == args.target_selector: gen_doc = Document() else: gen_doc = eval_doc if args.eval_file: tgen.init_slot_err_stats() # generate log_info('Generating...') tgen.selector = args.target_selector # override target selector for generation for num, da in enumerate(das, start=1): log_debug("\n\nTREE No. %03d" % num) tgen.generate_tree(da, gen_doc) # evaluate if args.eval_file is not None: log_info(tgen.get_slot_err_stats()) # evaluate the generated tokens (F1 and BLEU scores) if args.eval_file.endswith('.txt'): lexicalize_tokens(gen_doc, lexicalization_from_doc(args.abstr_file)) eval_tokens(das, read_tokens(args.eval_file, ref_mode=True), gen_doc) # evaluate the generated trees against golden trees else: eval_trees(das, ttrees_from_doc(eval_doc, tgen.language, args.ref_selector), ttrees_from_doc(gen_doc, tgen.language, args.target_selector), eval_doc, tgen.language, tgen.selector) # write output .yaml.gz or .txt if args.output_file is not None: log_info('Writing output...') if args.output_file.endswith('.txt'): write_tokens(gen_doc, args.output_file) else: write_ttrees(gen_doc, args.output_file)