// Copyright 2011-2023 David Robillard // SPDX-License-Identifier: ISC #include "serd/env.h" #include "serd/error.h" #include "serd/input_stream.h" #include "serd/node.h" #include "serd/reader.h" #include "serd/status.h" #include "serd/stream.h" #include "serd/string_view.h" #include "serd/syntax.h" #include "serd/version.h" #include "serd/world.h" #include "serd/writer.h" #ifdef _WIN32 # ifdef _MSC_VER # define WIN32_LEAN_AND_MEAN # endif # include # include #endif #include #include #include #include #include #define SERDI_ERROR(msg) fprintf(stderr, "serdi: " msg) #define SERDI_ERRORF(fmt, ...) fprintf(stderr, "serdi: " fmt, __VA_ARGS__) #define MAX_DEPTH 128U static int print_version(void) { printf("serdi %d.%d.%d \n", SERD_MAJOR_VERSION, SERD_MINOR_VERSION, SERD_MICRO_VERSION); printf("Copyright 2011-2023 David Robillard .\n" "License ISC: .\n" "This is free software; you are free to change and redistribute it." "\nThere is NO WARRANTY, to the extent permitted by law.\n"); return 0; } static int print_usage(const char* const name, const bool error) { static const char* const description = "Read and write RDF syntax.\n" "Use - for INPUT to read from standard input.\n\n" " -a Write ASCII output.\n" " -b Write output in blocks for performance.\n" " -c PREFIX Chop PREFIX from matching blank node IDs.\n" " -e Eat input one character at a time.\n" " -f Fast and loose URI pass-through.\n" " -h Display this help and exit.\n" " -i SYNTAX Input syntax: turtle/ntriples/trig/nquads.\n" " -k BYTES Parser stack size.\n" " -l Lax (non-strict) parsing.\n" " -o SYNTAX Output syntax: empty/turtle/ntriples/nquads.\n" " -p PREFIX Add PREFIX to blank node IDs.\n" " -q Suppress all output except data.\n" " -r ROOT_URI Keep relative URIs within ROOT_URI.\n" " -s INPUT Parse INPUT as string (terminates options).\n" " -t Write terser output without newlines.\n" " -v Display version information and exit.\n"; FILE* const os = error ? stderr : stdout; fprintf(os, "%s", error ? "\n" : ""); fprintf(os, "Usage: %s [OPTION]... INPUT [BASE_URI]\n", name); fprintf(os, "%s", description); return error ? 1 : 0; } static int missing_arg(const char* const name, const char opt) { SERDI_ERRORF("option requires an argument -- '%c'\n", opt); return print_usage(name, true); } static SerdStatus quiet_error_func(void* const handle, const SerdError* const e) { (void)handle; (void)e; return SERD_SUCCESS; } int main(int argc, char** argv) { const char* const prog = argv[0]; SerdSyntax input_syntax = SERD_SYNTAX_EMPTY; SerdSyntax output_syntax = SERD_SYNTAX_EMPTY; SerdReaderFlags reader_flags = 0; SerdWriterFlags writer_flags = 0; bool from_string = false; bool from_stdin = false; bool bulk_read = true; bool osyntax_set = false; bool quiet = false; size_t stack_size = 1048576U; const char* add_prefix = NULL; const char* chop_prefix = NULL; const char* root_uri = NULL; int a = 1; for (; a < argc && !from_string && argv[a][0] == '-'; ++a) { if (argv[a][1] == '\0') { from_stdin = true; break; } if (!strcmp(argv[a], "--help")) { return print_usage(prog, false); } if (!strcmp(argv[a], "--version")) { return print_version(); } for (int o = 1; argv[a][o]; ++o) { const char opt = argv[a][o]; if (opt == 'a') { writer_flags |= SERD_WRITE_ASCII; } else if (opt == 'b') { writer_flags |= SERD_WRITE_BULK; } else if (opt == 'e') { bulk_read = false; } else if (opt == 'f') { writer_flags |= (SERD_WRITE_UNQUALIFIED | SERD_WRITE_UNRESOLVED); } else if (opt == 'h') { return print_usage(prog, false); } else if (opt == 'l') { reader_flags |= SERD_READ_LAX; writer_flags |= SERD_WRITE_LAX; } else if (opt == 'q') { quiet = true; } else if (opt == 't') { writer_flags |= SERD_WRITE_TERSE; } else if (opt == 'v') { return print_version(); } else if (opt == 's') { from_string = true; break; } else if (opt == 'c') { if (argv[a][o + 1] || ++a == argc) { return missing_arg(prog, 'c'); } chop_prefix = argv[a]; break; } else if (opt == 'i') { if (argv[a][o + 1] || ++a == argc) { return missing_arg(prog, 'i'); } if (!(input_syntax = serd_syntax_by_name(argv[a]))) { return print_usage(prog, true); } break; } else if (opt == 'k') { if (argv[a][o + 1] || ++a == argc) { return missing_arg(prog, 'k'); } char* endptr = NULL; const long size = strtol(argv[a], &endptr, 10); if (size <= 0 || size == LONG_MAX || *endptr != '\0') { SERDI_ERRORF("invalid stack size '%s'\n", argv[a]); return 1; } stack_size = (size_t)size; break; } else if (opt == 'o') { osyntax_set = true; if (argv[a][o + 1] || ++a == argc) { return missing_arg(prog, 'o'); } if (!strcmp(argv[a], "empty")) { output_syntax = SERD_SYNTAX_EMPTY; } else if (!(output_syntax = serd_syntax_by_name(argv[a]))) { return print_usage(argv[0], true); } break; } else if (opt == 'p') { if (argv[a][o + 1] || ++a == argc) { return missing_arg(prog, 'p'); } add_prefix = argv[a]; break; } else if (opt == 'r') { if (argv[a][o + 1] || ++a == argc) { return missing_arg(prog, 'r'); } root_uri = argv[a]; break; } else { SERDI_ERRORF("invalid option -- '%s'\n", argv[a] + 1); return print_usage(prog, true); } } } if (a == argc) { SERDI_ERROR("missing input\n"); return print_usage(prog, true); } #ifdef _WIN32 _setmode(_fileno(stdin), _O_BINARY); _setmode(_fileno(stdout), _O_BINARY); #endif const char* input = argv[a++]; if (!input_syntax && !(input_syntax = serd_guess_syntax(input))) { input_syntax = SERD_TRIG; } const bool input_has_graphs = serd_syntax_has_graphs(input_syntax); if (!output_syntax && !osyntax_set) { output_syntax = input_has_graphs ? SERD_NQUADS : SERD_NTRIPLES; } SerdNode* base = NULL; if (a < argc) { // Base URI given on command line base = serd_new_uri(serd_string(argv[a])); } else if (!from_string && !from_stdin) { // Use input file URI base = serd_new_file_uri(serd_string(input), serd_empty_string()); } FILE* const out_fd = stdout; SerdWorld* const world = serd_world_new(); SerdEnv* const env = serd_env_new(base ? serd_node_string_view(base) : serd_empty_string()); SerdWriter* const writer = serd_writer_new( world, output_syntax, writer_flags, env, (SerdWriteFunc)fwrite, out_fd); const SerdLimits limits = {stack_size, MAX_DEPTH}; serd_world_set_limits(world, limits); SerdReader* const reader = serd_reader_new( world, input_syntax, reader_flags, serd_writer_sink(writer)); if (quiet) { serd_world_set_error_func(world, quiet_error_func, NULL); } if (root_uri) { serd_writer_set_root_uri(writer, serd_string(root_uri)); } serd_writer_chop_blank_prefix(writer, chop_prefix); serd_reader_add_blank_prefix(reader, add_prefix); SerdStatus st = SERD_SUCCESS; SerdNode* input_name = NULL; const char* position = NULL; SerdInputStream in = {NULL, NULL, NULL, NULL}; size_t block_size = 1U; if (from_string) { position = input; in = serd_open_input_string(&position); input_name = serd_new_string(serd_string("string")); } else if (from_stdin) { in = serd_open_input_stream( (SerdReadFunc)fread, (SerdErrorFunc)ferror, (SerdCloseFunc)fclose, stdin); input_name = serd_new_string(serd_string("stdin")); } else { block_size = bulk_read ? 4096U : 1U; in = serd_open_input_file(input); input_name = serd_new_string(serd_string(input)); } if (!(st = serd_reader_start(reader, &in, input_name, block_size))) { st = serd_reader_read_document(reader); } serd_reader_finish(reader); serd_reader_free(reader); serd_writer_finish(writer); serd_writer_free(writer); serd_node_free(input_name); serd_env_free(env); serd_node_free(base); serd_world_free(world); if (fclose(stdout)) { perror("serdi: write error"); st = SERD_BAD_STREAM; } return (st > SERD_FAILURE) ? 1 : 0; }