/* Copyright 2011-2017 David Robillard Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THIS SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include "serd_internal.h" #include #include #include #include #include "string_utils.h" #include "system.h" #include "world.h" #define SERDI_ERROR(msg) fprintf(stderr, "serdi: " msg); #define SERDI_ERRORF(fmt, ...) fprintf(stderr, "serdi: " fmt, __VA_ARGS__); typedef struct { SerdSyntax syntax; const char* name; const char* extension; } Syntax; static const Syntax syntaxes[] = { {SERD_TURTLE, "turtle", ".ttl"}, {SERD_NTRIPLES, "ntriples", ".nt"}, {SERD_NQUADS, "nquads", ".nq"}, {SERD_TRIG, "trig", ".trig"}, {(SerdSyntax)0, NULL, NULL} }; static SerdSyntax get_syntax(const char* name) { for (const Syntax* s = syntaxes; s->name; ++s) { if (!serd_strncasecmp(s->name, name, strlen(name))) { return s->syntax; } } SERDI_ERRORF("unknown syntax `%s'\n", name); return (SerdSyntax)0; } static SerdSyntax guess_syntax(const char* filename) { const char* ext = strrchr(filename, '.'); if (ext) { for (const Syntax* s = syntaxes; s->name; ++s) { if (!serd_strncasecmp(s->extension, ext, strlen(ext))) { return s->syntax; } } } return (SerdSyntax)0; } static int print_version(void) { printf("serdi " SERD_VERSION " \n"); printf("Copyright 2011-2017 David Robillard .\n" "License: \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* name, bool error) { FILE* const os = error ? stderr : stdout; fprintf(os, "%s", error ? "\n" : ""); fprintf(os, "Usage: %s [OPTION]... INPUT [BASE_URI]\n", name); fprintf(os, "Read and write RDF syntax.\n"); fprintf(os, "Use - for INPUT to read from standard input.\n\n"); fprintf(os, " -a Write ASCII output if possible.\n"); fprintf(os, " -b Fast bulk output for large serialisations.\n"); fprintf(os, " -c PREFIX Chop PREFIX from matching blank node IDs.\n"); fprintf(os, " -e Eat input one character at a time.\n"); fprintf(os, " -f Keep full URIs in input (don't qualify).\n"); fprintf(os, " -h Display this help and exit.\n"); fprintf(os, " -i SYNTAX Input syntax: turtle/ntriples/trig/nquads.\n"); fprintf(os, " -l Lax (non-strict) parsing.\n"); fprintf(os, " -o SYNTAX Output syntax: turtle/ntriples/nquads.\n"); fprintf(os, " -p PREFIX Add PREFIX to blank node IDs.\n"); fprintf(os, " -q Suppress all output except data.\n"); fprintf(os, " -r ROOT_URI Keep relative URIs within ROOT_URI.\n"); fprintf(os, " -s INPUT Parse INPUT as string (terminates options).\n"); fprintf(os, " -v Display version information and exit.\n"); return error ? 1 : 0; } static int missing_arg(const char* name, char opt) { SERDI_ERRORF("option requires an argument -- '%c'\n", opt); return print_usage(name, true); } static SerdStatus quiet_error_sink(void* handle, const SerdError* e) { return SERD_SUCCESS; } int main(int argc, char** argv) { if (argc < 2) { return print_usage(argv[0], true); } SerdSyntax input_syntax = (SerdSyntax)0; SerdSyntax output_syntax = (SerdSyntax)0; bool from_string = false; bool from_stdin = false; bool ascii = false; bool bulk_read = true; bool bulk_write = false; bool full_uris = false; bool lax = false; bool quiet = false; const char* add_prefix = NULL; const char* chop_prefix = NULL; const char* root_uri = NULL; int a = 1; for (; a < argc && argv[a][0] == '-'; ++a) { if (argv[a][1] == '\0') { from_stdin = true; break; } else if (argv[a][1] == 'a') { ascii = true; } else if (argv[a][1] == 'b') { bulk_write = true; } else if (argv[a][1] == 'e') { bulk_read = false; } else if (argv[a][1] == 'f') { full_uris = true; } else if (argv[a][1] == 'h') { return print_usage(argv[0], false); } else if (argv[a][1] == 'l') { lax = true; } else if (argv[a][1] == 'q') { quiet = true; } else if (argv[a][1] == 'v') { return print_version(); } else if (argv[a][1] == 's') { from_string = true; ++a; break; } else if (argv[a][1] == 'i') { if (++a == argc) { return missing_arg(argv[0], 'i'); } else if (!(input_syntax = get_syntax(argv[a]))) { return print_usage(argv[0], true); } } else if (argv[a][1] == 'o') { if (++a == argc) { return missing_arg(argv[0], 'o'); } else if (!(output_syntax = get_syntax(argv[a]))) { return print_usage(argv[0], true); } } else if (argv[a][1] == 'p') { if (++a == argc) { return missing_arg(argv[0], 'p'); } add_prefix = (const char*)argv[a]; } else if (argv[a][1] == 'c') { if (++a == argc) { return missing_arg(argv[0], 'c'); } chop_prefix = (const char*)argv[a]; } else if (argv[a][1] == 'r') { if (++a == argc) { return missing_arg(argv[0], 'r'); } root_uri = (const char*)argv[a]; } else { SERDI_ERRORF("invalid option -- '%s'\n", argv[a] + 1); return print_usage(argv[0], true); } } if (a == argc) { SERDI_ERROR("missing input\n"); return 1; } const char* input = (const char*)argv[a++]; if (!input_syntax && !(input_syntax = guess_syntax(input))) { input_syntax = SERD_TRIG; } if (!output_syntax) { output_syntax = ( (input_syntax == SERD_TURTLE || input_syntax == SERD_NTRIPLES) ? SERD_NTRIPLES : SERD_NQUADS); } SerdURI base_uri = SERD_URI_NULL; SerdNode* base = NULL; if (a < argc) { // Base URI given on command line base = serd_node_new_uri_from_string( (const char*)argv[a], NULL, &base_uri); } else if (!from_string && !from_stdin) { // Use input file URI base = serd_node_new_file_uri(input, NULL, &base_uri, true); } FILE* out_fd = stdout; SerdWorld* world = serd_world_new(); SerdEnv* env = serd_env_new(base); int output_style = 0; if (output_syntax == SERD_NTRIPLES || ascii) { output_style |= SERD_STYLE_ASCII; } else if (output_syntax == SERD_TURTLE) { output_style |= SERD_STYLE_ABBREVIATED; if (!full_uris) { output_style |= SERD_STYLE_CURIED; } } if ((input_syntax == SERD_TURTLE || input_syntax == SERD_TRIG) || (output_style & SERD_STYLE_CURIED)) { // Base URI may change and/or we're abbreviating URIs, so must resolve output_style |= SERD_STYLE_RESOLVED; } if (bulk_write) { output_style |= SERD_STYLE_BULK; } SerdWriter* writer = serd_writer_new( world, output_syntax, (SerdStyle)output_style, env, &base_uri, serd_file_sink, out_fd); SerdReader* reader = serd_reader_new( world, input_syntax, serd_writer_get_sink_interface(writer)); serd_reader_set_strict(reader, !lax); if (quiet) { serd_world_set_error_sink(world, quiet_error_sink, NULL); } SerdNode* root = serd_node_new_string(SERD_URI, root_uri); serd_writer_set_root_uri(writer, root); serd_writer_chop_blank_prefix(writer, chop_prefix); serd_reader_add_blank_prefix(reader, add_prefix); serd_node_free(root); SerdStatus status = SERD_SUCCESS; if (from_string) { status = serd_reader_start_string(reader, input); } else if (from_stdin) { status = serd_reader_start_stream(reader, serd_file_read_byte, (SerdStreamErrorFunc)ferror, stdin, "(stdin)", 1); } else { status = serd_reader_start_file(reader, input, bulk_read); } if (!status) { status = serd_reader_read_document(reader); } if (status) { SERDI_ERRORF("read error: %s\n", serd_strerror(status)); } serd_reader_end_stream(reader); serd_reader_free(reader); serd_writer_finish(writer); serd_writer_free(writer); serd_env_free(env); serd_node_free(base); serd_world_free(world); if (fclose(stdout)) { perror("serdi: write error"); status = SERD_ERR_UNKNOWN; } return (status > SERD_FAILURE) ? 1 : 0; }