bool pgf_tokens_equal(PgfTokens t1, PgfTokens t2) { size_t len1 = gu_seq_length(t1); size_t len2 = gu_seq_length(t2); if (len1 != len2) { return false; } for (size_t i = 0; i < len1; i++) { GuString s1 = gu_seq_get(t1, PgfToken, i); GuString s2 = gu_seq_get(t2, PgfToken, i); if (!gu_string_eq(s1, s2)) { return false; } } return true; }
int main(int argc, char* argv[]) { // Set the character locale, so we can produce proper output. setlocale(LC_CTYPE, ""); // Create the pool that is used to allocate everything GuPool* pool = gu_new_pool(); int status = EXIT_SUCCESS; if (argc < 5 || argc > 6) { fprintf(stderr, "usage: %s pgf cat from-lang to-lang [probs-file]\n", argv[0]); status = EXIT_FAILURE; goto fail; } char* filename = argv[1]; GuString cat = gu_str_string(argv[2], pool); GuString from_lang = gu_str_string(argv[3], pool); GuString to_lang = gu_str_string(argv[4], pool); // Create an exception frame that catches all errors. GuExn* err = gu_new_exn(NULL, gu_kind(type), pool); // Read the PGF grammar. PgfPGF* pgf = pgf_read(filename, pool, err); // If an error occured, it shows in the exception frame if (!gu_ok(err)) { fprintf(stderr, "Reading PGF failed\n"); status = EXIT_FAILURE; goto fail; } if (argc == 6) { char* meta_probs_filename = argv[5]; pgf_load_meta_child_probs(pgf, meta_probs_filename, pool, err); if (!gu_ok(err)) { fprintf(stderr, "Loading meta child probs failed\n"); status = EXIT_FAILURE; goto fail; } } // Look up the source and destination concrete categories PgfConcr* from_concr = pgf_get_language(pgf, from_lang); PgfConcr* to_concr = pgf_get_language(pgf, to_lang); if (!from_concr || !to_concr) { fprintf(stderr, "Unknown language\n"); status = EXIT_FAILURE; goto fail_concr; } // Register a callback for the literal category Symbol pgf_parser_add_literal(from_concr, gu_str_string("Symb", pool), &pgf_nerc_literal_callback); // Create an output stream for stdout GuOut* out = gu_file_out(stdout, pool); // Locale-encoding writers are currently unsupported // GuWriter* wtr = gu_locale_writer(out, pool); // Use a writer with hard-coded utf-8 encoding for now. GuWriter* wtr = gu_new_utf8_writer(out, pool); // We will keep the latest results in the 'ppool' and // we will iterate over them by using 'result'. GuPool* ppool = NULL; GuEnum* result = NULL; // The interactive translation loop. // XXX: This currently reads stdin directly, so it doesn't support // encodings properly. TODO: use a locale reader for input while (true) { fprintf(stdout, "> "); fflush(stdout); char buf[4096]; char* line = fgets(buf, sizeof(buf), stdin); if (line == NULL) { if (ferror(stdin)) { fprintf(stderr, "Input error\n"); status = EXIT_FAILURE; } break; } else if (strcmp(line, "") == 0) { // End nicely on empty input break; } else if (strcmp(line, "\n") == 0) { // Empty line -> show the next tree for the last sentence if (result != NULL) { clock_t start = clock(); PgfExprProb* ep = gu_next(result, PgfExprProb*, ppool); clock_t end = clock(); double cpu_time_used = ((double) (end - start)) / CLOCKS_PER_SEC; printf("%.2f sec\n", cpu_time_used); // The enumerator will return a null variant at the // end of the results. if (ep == NULL) { goto fail_parse; } print_result(ep, to_concr, wtr, err, ppool); } continue; } // We release the last results if (ppool != NULL) { gu_pool_free(ppool); ppool = NULL; result = NULL; } // We create a temporary pool for translating a single // sentence, so our memory usage doesn't increase over time. ppool = gu_new_pool(); GuReader *rdr = gu_string_reader(gu_str_string(line, ppool), ppool); PgfLexer *lexer = pgf_new_lexer(rdr, ppool); clock_t start = clock(); GuEnum* result = pgf_parse(from_concr, cat, lexer, ppool); if (result == NULL) { PgfToken tok = pgf_lexer_current_token(lexer); if (gu_string_eq(tok, gu_empty_string)) gu_puts("Couldn't begin parsing", wtr, err); else { gu_puts("Unexpected token: \"", wtr, err); gu_string_write(tok, wtr, err); gu_puts("\"\n", wtr, err); } goto fail_parse; } PgfExprProb* ep = gu_next(result, PgfExprProb*, ppool); clock_t end = clock(); double cpu_time_used = ((double) (end - start)) / CLOCKS_PER_SEC; printf("%.2f sec\n", cpu_time_used); // The enumerator will return null at the end of the results. if (ep == NULL) { goto fail_parse; } print_result(ep, to_concr, wtr, err, ppool); continue; fail_parse: // Free all resources allocated during parsing and linearization gu_pool_free(ppool); ppool = NULL; result = NULL; }