From 930b2bd2fb6e8739e71ad2c503087ae675ffe194 Mon Sep 17 00:00:00 2001 From: David Robillard Date: Sun, 4 Feb 2018 12:09:42 +0100 Subject: Factor out syntax-specific reader implementation --- src/n3.c | 1490 ++++++++++++++++++++++++++++++++++++++++++++++ src/reader.c | 1638 ++------------------------------------------------- src/reader.h | 86 +++ src/serd_internal.h | 89 +++ src/writer.c | 8 - 5 files changed, 1702 insertions(+), 1609 deletions(-) create mode 100644 src/n3.c create mode 100644 src/reader.h (limited to 'src') diff --git a/src/n3.c b/src/n3.c new file mode 100644 index 00000000..06fc8e80 --- /dev/null +++ b/src/n3.c @@ -0,0 +1,1490 @@ +/* + 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 +#include +#include + +#include "reader.h" + +#define TRY_THROW(exp) if (!(exp)) goto except; +#define TRY_RET(exp) if (!(exp)) return 0; + +static inline bool +fancy_syntax(const SerdReader* reader) +{ + return reader->syntax == SERD_TURTLE || reader->syntax == SERD_TRIG; +} + +static bool +read_collection(SerdReader* reader, ReadContext ctx, Ref* dest); + +static bool +read_predicateObjectList(SerdReader* reader, ReadContext ctx, bool* ate_dot); + +static inline uint8_t +read_HEX(SerdReader* reader) +{ + const uint8_t c = peek_byte(reader); + if (is_xdigit(c)) { + return eat_byte_safe(reader, c); + } + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "invalid hexadecimal digit `%c'\n", c); +} + +// Read UCHAR escape, initial \ is already eaten by caller +static inline bool +read_UCHAR(SerdReader* reader, Ref dest, uint32_t* char_code) +{ + const uint8_t b = peek_byte(reader); + unsigned length = 0; + switch (b) { + case 'U': + length = 8; + break; + case 'u': + length = 4; + break; + default: + return false; + } + eat_byte_safe(reader, b); + + uint8_t buf[9] = { 0, 0, 0, 0, 0, 0, 0, 0, 0 }; + for (unsigned i = 0; i < length; ++i) { + if (!(buf[i] = read_HEX(reader))) { + return false; + } + } + + uint32_t code; + sscanf((const char*)buf, "%X", &code); + + unsigned size = 0; + if (code < 0x00000080) { + size = 1; + } else if (code < 0x00000800) { + size = 2; + } else if (code < 0x00010000) { + size = 3; + } else if (code < 0x00110000) { + size = 4; + } else { + r_err(reader, SERD_ERR_BAD_SYNTAX, + "unicode character 0x%X out of range\n", code); + push_bytes(reader, dest, replacement_char, 3); + *char_code = 0xFFFD; + return true; + } + + // Build output in buf + // (Note # of bytes = # of leading 1 bits in first byte) + uint32_t c = code; + switch (size) { + case 4: + buf[3] = 0x80 | (uint8_t)(c & 0x3F); + c >>= 6; + c |= (16 << 12); // set bit 4 + case 3: + buf[2] = 0x80 | (uint8_t)(c & 0x3F); + c >>= 6; + c |= (32 << 6); // set bit 5 + case 2: + buf[1] = 0x80 | (uint8_t)(c & 0x3F); + c >>= 6; + c |= 0xC0; // set bits 6 and 7 + case 1: + buf[0] = (uint8_t)c; + } + + push_bytes(reader, dest, buf, size); + *char_code = code; + return true; +} + +// Read ECHAR escape, initial \ is already eaten by caller +static inline bool +read_ECHAR(SerdReader* reader, Ref dest, SerdNodeFlags* flags) +{ + const uint8_t c = peek_byte(reader); + switch (c) { + case 't': + eat_byte_safe(reader, 't'); + push_byte(reader, dest, '\t'); + return true; + case 'b': + eat_byte_safe(reader, 'b'); + push_byte(reader, dest, '\b'); + return true; + case 'n': + *flags |= SERD_HAS_NEWLINE; + eat_byte_safe(reader, 'n'); + push_byte(reader, dest, '\n'); + return true; + case 'r': + *flags |= SERD_HAS_NEWLINE; + eat_byte_safe(reader, 'r'); + push_byte(reader, dest, '\r'); + return true; + case 'f': + eat_byte_safe(reader, 'f'); + push_byte(reader, dest, '\f'); + return true; + case '\\': case '"': case '\'': + push_byte(reader, dest, eat_byte_safe(reader, c)); + return true; + default: + return false; + } +} + +static inline SerdStatus +bad_char(SerdReader* reader, const char* fmt, uint8_t c) +{ + // Skip bytes until the next start byte + for (uint8_t b = peek_byte(reader); (b & 0x80);) { + eat_byte_safe(reader, b); + b = peek_byte(reader); + } + + r_err(reader, SERD_ERR_BAD_SYNTAX, fmt, c); + return reader->strict ? SERD_ERR_BAD_SYNTAX : SERD_FAILURE; +} + +static SerdStatus +read_utf8_bytes(SerdReader* reader, uint8_t bytes[4], uint32_t* size, uint8_t c) +{ + *size = utf8_num_bytes(c); + if (*size <= 1 || *size > 4) { + return bad_char(reader, "invalid UTF-8 start 0x%X\n", c); + } + + bytes[0] = c; + for (unsigned i = 1; i < *size; ++i) { + if (((bytes[i] = peek_byte(reader)) & 0x80) == 0) { + return bad_char(reader, "invalid UTF-8 continuation 0x%X\n", + bytes[i]); + } + eat_byte_safe(reader, bytes[i]); + } + + return SERD_SUCCESS; +} + +static SerdStatus +read_utf8_character(SerdReader* reader, Ref dest, uint8_t c) +{ + uint32_t size; + uint8_t bytes[4]; + SerdStatus st = read_utf8_bytes(reader, bytes, &size, c); + if (st) { + push_bytes(reader, dest, replacement_char, 3); + } else { + push_bytes(reader, dest, bytes, size); + } + return st; +} + +static SerdStatus +read_utf8_code(SerdReader* reader, Ref dest, uint32_t* code, uint8_t c) +{ + uint32_t size; + uint8_t bytes[4]; + SerdStatus st = read_utf8_bytes(reader, bytes, &size, c); + if (st) { + push_bytes(reader, dest, replacement_char, 3); + return st; + } + + push_bytes(reader, dest, bytes, size); + *code = parse_counted_utf8_char(bytes, size); + return st; +} + +// Read one character (possibly multi-byte) +// The first byte, c, has already been eaten by caller +static inline SerdStatus +read_character(SerdReader* reader, Ref dest, SerdNodeFlags* flags, uint8_t c) +{ + if (!(c & 0x80)) { + switch (c) { + case 0xA: case 0xD: + *flags |= SERD_HAS_NEWLINE; + break; + case '"': case '\'': + *flags |= SERD_HAS_QUOTE; + break; + } + push_byte(reader, dest, c); + return SERD_SUCCESS; + } + return read_utf8_character(reader, dest, c); +} + +// [10] comment ::= '#' ( [^#xA #xD] )* +static void +read_comment(SerdReader* reader) +{ + eat_byte_safe(reader, '#'); + uint8_t c; + while (((c = peek_byte(reader)) != 0xA) && (c != 0xD) && c) { + eat_byte_safe(reader, c); + } +} + +// [24] ws ::= #x9 | #xA | #xD | #x20 | comment +static inline bool +read_ws(SerdReader* reader) +{ + const uint8_t c = peek_byte(reader); + switch (c) { + case 0x9: case 0xA: case 0xD: case 0x20: + eat_byte_safe(reader, c); + return true; + case '#': + read_comment(reader); + return true; + default: + return false; + } +} + +static inline bool +read_ws_star(SerdReader* reader) +{ + while (read_ws(reader)) {} + return true; +} + +static inline bool +peek_delim(SerdReader* reader, const char delim) +{ + read_ws_star(reader); + return peek_byte(reader) == delim; +} + +static inline bool +eat_delim(SerdReader* reader, const char delim) +{ + if (peek_delim(reader, delim)) { + eat_byte_safe(reader, delim); + return read_ws_star(reader); + } + return false; +} + +// STRING_LITERAL_LONG_QUOTE and STRING_LITERAL_LONG_SINGLE_QUOTE +// Initial triple quotes are already eaten by caller +static Ref +read_STRING_LITERAL_LONG(SerdReader* reader, SerdNodeFlags* flags, uint8_t q) +{ + Ref ref = push_node(reader, SERD_LITERAL, "", 0); + while (!reader->status) { + const uint8_t c = peek_byte(reader); + uint32_t code; + switch (c) { + case '\\': + eat_byte_safe(reader, c); + if (!read_ECHAR(reader, ref, flags) && + !read_UCHAR(reader, ref, &code)) { + r_err(reader, SERD_ERR_BAD_SYNTAX, + "invalid escape `\\%c'\n", peek_byte(reader)); + return pop_node(reader, ref); + } + break; + default: + if (c == q) { + eat_byte_safe(reader, q); + const uint8_t q2 = eat_byte_safe(reader, peek_byte(reader)); + const uint8_t q3 = peek_byte(reader); + if (q2 == q && q3 == q) { // End of string + eat_byte_safe(reader, q3); + return ref; + } + *flags |= SERD_HAS_QUOTE; + push_byte(reader, ref, c); + read_character(reader, ref, flags, q2); + } else { + read_character(reader, ref, flags, eat_byte_safe(reader, c)); + } + } + } + return ref; +} + +// STRING_LITERAL_QUOTE and STRING_LITERAL_SINGLE_QUOTE +// Initial quote is already eaten by caller +static Ref +read_STRING_LITERAL(SerdReader* reader, SerdNodeFlags* flags, uint8_t q) +{ + Ref ref = push_node(reader, SERD_LITERAL, "", 0); + while (!reader->status) { + const uint8_t c = peek_byte(reader); + uint32_t code = 0; + switch (c) { + case '\n': case '\r': + r_err(reader, SERD_ERR_BAD_SYNTAX, "line end in short string\n"); + return pop_node(reader, ref); + case '\\': + eat_byte_safe(reader, c); + if (!read_ECHAR(reader, ref, flags) && + !read_UCHAR(reader, ref, &code)) { + r_err(reader, SERD_ERR_BAD_SYNTAX, + "invalid escape `\\%c'\n", peek_byte(reader)); + return pop_node(reader, ref); + } + break; + default: + if (c == q) { + eat_byte_check(reader, q); + return ref; + } else { + read_character(reader, ref, flags, eat_byte_safe(reader, c)); + } + } + } + eat_byte_check(reader, q); + return ref; +} + +static Ref +read_String(SerdReader* reader, SerdNodeFlags* flags) +{ + const uint8_t q1 = peek_byte(reader); + eat_byte_safe(reader, q1); + + const uint8_t q2 = peek_byte(reader); + if (q2 != q1) { // Short string (not triple quoted) + return read_STRING_LITERAL(reader, flags, q1); + } + + eat_byte_safe(reader, q2); + const uint8_t q3 = peek_byte(reader); + if (q3 != q1) { // Empty short string ("" or '') + return push_node(reader, SERD_LITERAL, "", 0); + } + + if (!fancy_syntax(reader)) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "syntax does not support long literals\n"); + } + + eat_byte_safe(reader, q3); + return read_STRING_LITERAL_LONG(reader, flags, q1); +} + +static inline bool +is_PN_CHARS_BASE(const uint32_t c) +{ + return ((c >= 0x00C0 && c <= 0x00D6) || (c >= 0x00D8 && c <= 0x00F6) || + (c >= 0x00F8 && c <= 0x02FF) || (c >= 0x0370 && c <= 0x037D) || + (c >= 0x037F && c <= 0x1FFF) || (c >= 0x200C && c <= 0x200D) || + (c >= 0x2070 && c <= 0x218F) || (c >= 0x2C00 && c <= 0x2FEF) || + (c >= 0x3001 && c <= 0xD7FF) || (c >= 0xF900 && c <= 0xFDCF) || + (c >= 0xFDF0 && c <= 0xFFFD) || (c >= 0x10000 && c <= 0xEFFFF)); +} + +static SerdStatus +read_PN_CHARS_BASE(SerdReader* reader, Ref dest) +{ + uint32_t code; + const uint8_t c = peek_byte(reader); + SerdStatus st = SERD_SUCCESS; + if (is_alpha(c)) { + push_byte(reader, dest, eat_byte_safe(reader, c)); + } else if (!(c & 0x80)) { + return SERD_FAILURE; + } else if ((st = read_utf8_code(reader, dest, &code, + eat_byte_safe(reader, c)))) { + return st; + } else if (!is_PN_CHARS_BASE(code)) { + r_err(reader, SERD_ERR_BAD_SYNTAX, + "invalid character U+%04X in name\n", code); + if (reader->strict) { + return SERD_ERR_BAD_SYNTAX; + } + } + return st; +} + +static inline bool +is_PN_CHARS(const uint32_t c) +{ + return (is_PN_CHARS_BASE(c) || c == 0xB7 || + (c >= 0x0300 && c <= 0x036F) || (c >= 0x203F && c <= 0x2040)); +} + +static SerdStatus +read_PN_CHARS(SerdReader* reader, Ref dest) +{ + uint32_t code; + const uint8_t c = peek_byte(reader); + SerdStatus st = SERD_SUCCESS; + if (is_alpha(c) || is_digit(c) || c == '_' || c == '-') { + push_byte(reader, dest, eat_byte_safe(reader, c)); + } else if (!(c & 0x80)) { + return SERD_FAILURE; + } else if ((st = read_utf8_code(reader, dest, &code, + eat_byte_safe(reader, c)))) { + return st; + } else if (!is_PN_CHARS(code)) { + r_err(reader, (st = SERD_ERR_BAD_SYNTAX), + "invalid character U+%04X in name\n", code); + } + return st; +} + +static bool +read_PERCENT(SerdReader* reader, Ref dest) +{ + push_byte(reader, dest, eat_byte_safe(reader, '%')); + const uint8_t h1 = read_HEX(reader); + const uint8_t h2 = read_HEX(reader); + if (h1 && h2) { + push_byte(reader, dest, h1); + push_byte(reader, dest, h2); + return true; + } + return false; +} + +static SerdStatus +read_PLX(SerdReader* reader, Ref dest) +{ + uint8_t c = peek_byte(reader); + switch (c) { + case '%': + if (!read_PERCENT(reader, dest)) { + return SERD_ERR_BAD_SYNTAX; + } + return SERD_SUCCESS; + case '\\': + eat_byte_safe(reader, c); + if (is_alpha(c = peek_byte(reader))) { + // Escapes like \u \n etc. are not supported + return SERD_ERR_BAD_SYNTAX; + } + // Allow escaping of pretty much any other character + push_byte(reader, dest, eat_byte_safe(reader, c)); + return SERD_SUCCESS; + default: + return SERD_FAILURE; + } +} + +static SerdStatus +read_PN_LOCAL(SerdReader* reader, Ref dest, bool* ate_dot) +{ + uint8_t c = peek_byte(reader); + SerdStatus st = SERD_SUCCESS; + switch (c) { + case '0': case '1': case '2': case '3': case '4': case '5': + case '6': case '7': case '8': case '9': case ':': case '_': + push_byte(reader, dest, eat_byte_safe(reader, c)); + break; + default: + if ((st = read_PLX(reader, dest)) > SERD_FAILURE) { + return st; + } else if (st != SERD_SUCCESS && read_PN_CHARS_BASE(reader, dest)) { + return SERD_FAILURE; + } + } + + while ((c = peek_byte(reader))) { // Middle: (PN_CHARS | '.' | ';')* + if (c == '.' || c == ':') { + push_byte(reader, dest, eat_byte_safe(reader, c)); + } else if ((st = read_PLX(reader, dest)) > SERD_FAILURE) { + return st; + } else if (st != SERD_SUCCESS && (st = read_PN_CHARS(reader, dest))) { + break; + } + } + + SerdNode* const n = deref(reader, dest); + if (n->buf[n->n_bytes - 1] == '.') { + // Ate trailing dot, pop it from stack/node and inform caller + --n->n_bytes; + serd_stack_pop(&reader->stack, 1); + *ate_dot = true; + } + + return (st > SERD_FAILURE) ? st : SERD_SUCCESS; +} + +// Read the remainder of a PN_PREFIX after some initial characters +static SerdStatus +read_PN_PREFIX_tail(SerdReader* reader, Ref dest) +{ + uint8_t c; + while ((c = peek_byte(reader))) { // Middle: (PN_CHARS | '.')* + if (c == '.') { + push_byte(reader, dest, eat_byte_safe(reader, c)); + } else if (read_PN_CHARS(reader, dest)) { + break; + } + } + + const SerdNode* const n = deref(reader, dest); + if (n->buf[n->n_bytes - 1] == '.' && read_PN_CHARS(reader, dest)) { + r_err(reader, SERD_ERR_BAD_SYNTAX, "prefix ends with `.'\n"); + return SERD_ERR_BAD_SYNTAX; + } + + return SERD_SUCCESS; +} + +static SerdStatus +read_PN_PREFIX(SerdReader* reader, Ref dest) +{ + if (!read_PN_CHARS_BASE(reader, dest)) { + return read_PN_PREFIX_tail(reader, dest); + } + return SERD_FAILURE; +} + +static Ref +read_LANGTAG(SerdReader* reader) +{ + uint8_t c = peek_byte(reader); + if (!is_alpha(c)) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, "unexpected `%c'\n", c); + } + Ref ref = push_node(reader, SERD_LITERAL, "", 0); + push_byte(reader, ref, eat_byte_safe(reader, c)); + while ((c = peek_byte(reader)) && is_alpha(c)) { + push_byte(reader, ref, eat_byte_safe(reader, c)); + } + while (peek_byte(reader) == '-') { + push_byte(reader, ref, eat_byte_safe(reader, '-')); + while ((c = peek_byte(reader)) && (is_alpha(c) || is_digit(c))) { + push_byte(reader, ref, eat_byte_safe(reader, c)); + } + } + return ref; +} + +static bool +read_IRIREF_scheme(SerdReader* reader, Ref dest) +{ + uint8_t c = peek_byte(reader); + if (!isalpha(c)) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "bad IRI scheme start `%c'\n", c); + } + + while ((c = peek_byte(reader))) { + if (c == '>') { + return r_err(reader, SERD_ERR_BAD_SYNTAX, "missing IRI scheme\n"); + } else if (!is_uri_scheme_char(c)) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "bad IRI scheme char `%X'\n", c); + } + + push_byte(reader, dest, eat_byte_safe(reader, c)); + if (c == ':') { + return true; // End of scheme + } + } + + return false; +} + +static Ref +read_IRIREF(SerdReader* reader) +{ + TRY_RET(eat_byte_check(reader, '<')); + Ref ref = push_node(reader, SERD_URI, "", 0); + if (!fancy_syntax(reader) && !read_IRIREF_scheme(reader, ref)) { + return pop_node(reader, ref); + } + + uint32_t code = 0; + while (!reader->status) { + const uint8_t c = eat_byte_safe(reader, peek_byte(reader)); + switch (c) { + case '"': case '<': case '^': case '`': case '{': case '|': case '}': + r_err(reader, SERD_ERR_BAD_SYNTAX, + "invalid IRI character `%c'\n", c); + return pop_node(reader, ref); + case '>': + return ref; + case '\\': + if (!read_UCHAR(reader, ref, &code)) { + r_err(reader, SERD_ERR_BAD_SYNTAX, "invalid IRI escape\n"); + return pop_node(reader, ref); + } + switch (code) { + case 0: case ' ': case '<': case '>': + r_err(reader, SERD_ERR_BAD_SYNTAX, + "invalid escaped IRI character %X %c\n", code, code); + return pop_node(reader, ref); + } + break; + default: + if (c <= 0x20) { + if (isprint(c)) { + r_err(reader, SERD_ERR_BAD_SYNTAX, + "invalid IRI character `%c' (escape %%%02X)\n", c, c); + } else { + r_err(reader, SERD_ERR_BAD_SYNTAX, + "invalid IRI character (escape %%%02X)\n", c, c); + } + if (reader->strict) { + return pop_node(reader, ref); + } + reader->status = SERD_FAILURE; + push_byte(reader, ref, c); + } else if (!(c & 0x80)) { + push_byte(reader, ref, c); + } else if (read_utf8_character(reader, ref, c)) { + if (reader->strict) { + return pop_node(reader, ref); + } + reader->status = SERD_FAILURE; + } + } + } + return pop_node(reader, ref); +} + +static bool +read_PrefixedName(SerdReader* reader, Ref dest, bool read_prefix, bool* ate_dot) +{ + if (read_prefix && read_PN_PREFIX(reader, dest) > SERD_FAILURE) { + return false; + } else if (peek_byte(reader) != ':') { + return false; + } + + push_byte(reader, dest, eat_byte_safe(reader, ':')); + return read_PN_LOCAL(reader, dest, ate_dot) <= SERD_FAILURE; +} + +static bool +read_0_9(SerdReader* reader, Ref str, bool at_least_one) +{ + unsigned count = 0; + for (uint8_t c; is_digit((c = peek_byte(reader))); ++count) { + push_byte(reader, str, eat_byte_safe(reader, c)); + } + if (at_least_one && count == 0) { + r_err(reader, SERD_ERR_BAD_SYNTAX, "expected digit\n"); + } + return count; +} + +static bool +read_number(SerdReader* reader, Ref* dest, Ref* datatype, bool* ate_dot) +{ + #define XSD_DECIMAL NS_XSD "decimal" + #define XSD_DOUBLE NS_XSD "double" + #define XSD_INTEGER NS_XSD "integer" + Ref ref = push_node(reader, SERD_LITERAL, "", 0); + uint8_t c = peek_byte(reader); + bool has_decimal = false; + if (c == '-' || c == '+') { + push_byte(reader, ref, eat_byte_safe(reader, c)); + } + if ((c = peek_byte(reader)) == '.') { + has_decimal = true; + // decimal case 2 (e.g. '.0' or `-.0' or `+.0') + push_byte(reader, ref, eat_byte_safe(reader, c)); + TRY_THROW(read_0_9(reader, ref, true)); + } else { + // all other cases ::= ( '-' | '+' ) [0-9]+ ( . )? ( [0-9]+ )? ... + TRY_THROW(is_digit(c)); + read_0_9(reader, ref, true); + if ((c = peek_byte(reader)) == '.') { + has_decimal = true; + + // Annoyingly, dot can be end of statement, so tentatively eat + eat_byte_safe(reader, c); + c = peek_byte(reader); + if (!is_digit(c) && c != 'e' && c != 'E') { + *dest = ref; + *ate_dot = true; // Force caller to deal with stupid grammar + return true; // Next byte is not a number character, done + } + + push_byte(reader, ref, '.'); + read_0_9(reader, ref, false); + } + } + c = peek_byte(reader); + if (c == 'e' || c == 'E') { + // double + push_byte(reader, ref, eat_byte_safe(reader, c)); + switch ((c = peek_byte(reader))) { + case '+': case '-': + push_byte(reader, ref, eat_byte_safe(reader, c)); + default: break; + } + TRY_THROW(read_0_9(reader, ref, true)); + *datatype = push_node(reader, SERD_URI, + XSD_DOUBLE, sizeof(XSD_DOUBLE) - 1); + } else if (has_decimal) { + *datatype = push_node(reader, SERD_URI, + XSD_DECIMAL, sizeof(XSD_DECIMAL) - 1); + } else { + *datatype = push_node(reader, SERD_URI, + XSD_INTEGER, sizeof(XSD_INTEGER) - 1); + } + *dest = ref; + return true; +except: + pop_node(reader, *datatype); + pop_node(reader, ref); + return r_err(reader, SERD_ERR_BAD_SYNTAX, "bad number syntax\n"); +} + +static bool +read_iri(SerdReader* reader, Ref* dest, bool* ate_dot) +{ + switch (peek_byte(reader)) { + case '<': + *dest = read_IRIREF(reader); + return true; + default: + *dest = push_node(reader, SERD_CURIE, "", 0); + return read_PrefixedName(reader, *dest, true, ate_dot); + } +} + +static bool +read_literal(SerdReader* reader, Ref* dest, + Ref* datatype, Ref* lang, SerdNodeFlags* flags, bool* ate_dot) +{ + Ref str = read_String(reader, flags); + if (!str) { + return false; + } + + switch (peek_byte(reader)) { + case '@': + eat_byte_safe(reader, '@'); + TRY_THROW(*lang = read_LANGTAG(reader)); + break; + case '^': + eat_byte_safe(reader, '^'); + eat_byte_check(reader, '^'); + TRY_THROW(read_iri(reader, datatype, ate_dot)); + break; + } + *dest = str; + return true; +except: + *datatype = pop_node(reader, *datatype); + *lang = pop_node(reader, *lang); + pop_node(reader, str); + return r_err(reader, SERD_ERR_BAD_SYNTAX, "bad literal syntax\n"); +} + +inline static bool +is_token_end(uint8_t c) +{ + switch (c) { + case 0x9: case 0xA: case 0xD: case 0x20: case '\0': + case '#': case '.': case ';': case '<': + return true; + default: + return false; + } +} + +static bool +read_verb(SerdReader* reader, Ref* dest) +{ + if (peek_byte(reader) == '<') { + return (*dest = read_IRIREF(reader)); + } + + /* Either a qname, or "a". Read the prefix first, and if it is in fact + "a", produce that instead. + */ + *dest = push_node(reader, SERD_CURIE, "", 0); + SerdNode* node = deref(reader, *dest); + const SerdStatus st = read_PN_PREFIX(reader, *dest); + bool ate_dot = false; + if (!st && node->n_bytes == 1 && node->buf[0] == 'a' && + is_token_end(peek_byte(reader))) { + pop_node(reader, *dest); + return (*dest = push_node(reader, SERD_URI, NS_RDF "type", 47)); + } else if (st > SERD_FAILURE || + !read_PrefixedName(reader, *dest, false, &ate_dot) || + ate_dot) { + *dest = pop_node(reader, *dest); + return r_err(reader, SERD_ERR_BAD_SYNTAX, "bad verb\n"); + } + + return true; +} + +static Ref +read_BLANK_NODE_LABEL(SerdReader* reader, bool* ate_dot) +{ + eat_byte_safe(reader, '_'); + eat_byte_check(reader, ':'); + Ref ref = push_node(reader, SERD_BLANK, + reader->bprefix ? (char*)reader->bprefix : "", + reader->bprefix_len); + + uint8_t c = peek_byte(reader); // First: (PN_CHARS | '_' | [0-9]) + if (is_digit(c) || c == '_') { + push_byte(reader, ref, eat_byte_safe(reader, c)); + } else if (read_PN_CHARS(reader, ref)) { + r_err(reader, SERD_ERR_BAD_SYNTAX, "invalid name start character\n"); + return pop_node(reader, ref); + } + + while ((c = peek_byte(reader))) { // Middle: (PN_CHARS | '.')* + if (c == '.') { + push_byte(reader, ref, eat_byte_safe(reader, c)); + } else if (read_PN_CHARS(reader, ref)) { + break; + } + } + + SerdNode* n = deref(reader, ref); + if (n->buf[n->n_bytes - 1] == '.' && read_PN_CHARS(reader, ref)) { + // Ate trailing dot, pop it from stack/node and inform caller + --n->n_bytes; + serd_stack_pop(&reader->stack, 1); + *ate_dot = true; + } + + if (reader->syntax == SERD_TURTLE) { + if (is_digit(n->buf[reader->bprefix_len + 1])) { + if ((n->buf[reader->bprefix_len]) == 'b') { + ((char*)n->buf)[reader->bprefix_len] = 'B'; // Prevent clash + reader->seen_genid = true; + } else if (reader->seen_genid && + n->buf[reader->bprefix_len] == 'B') { + r_err(reader, SERD_ERR_ID_CLASH, + "found both `b' and `B' blank IDs, prefix required\n"); + return pop_node(reader, ref); + } + } + } + return ref; +} + +static Ref +read_blankName(SerdReader* reader) +{ + eat_byte_safe(reader, '='); + if (eat_byte_check(reader, '=') != '=') { + return r_err(reader, SERD_ERR_BAD_SYNTAX, "expected `='\n"); + } + + Ref subject = 0; + bool ate_dot = false; + read_ws_star(reader); + read_iri(reader, &subject, &ate_dot); + return subject; +} + +static bool +read_anon(SerdReader* reader, ReadContext ctx, bool subject, Ref* dest) +{ + const SerdStatementFlags old_flags = *ctx.flags; + bool empty; + eat_byte_safe(reader, '['); + if ((empty = peek_delim(reader, ']'))) { + *ctx.flags |= (subject) ? SERD_EMPTY_S : SERD_EMPTY_O; + } else { + *ctx.flags |= (subject) ? SERD_ANON_S_BEGIN : SERD_ANON_O_BEGIN; + if (peek_delim(reader, '=')) { + if (!(*dest = read_blankName(reader)) || + !eat_delim(reader, ';')) { + return false; + } + } + } + + if (!*dest) { + *dest = blank_id(reader); + } + if (ctx.subject) { + TRY_RET(emit_statement(reader, ctx, *dest, 0, 0)); + } + + ctx.subject = *dest; + if (!empty) { + *ctx.flags &= ~(SERD_LIST_CONT); + if (!subject) { + *ctx.flags |= SERD_ANON_CONT; + } + bool ate_dot_in_list = false; + read_predicateObjectList(reader, ctx, &ate_dot_in_list); + if (ate_dot_in_list) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, "`.' inside blank\n"); + } + read_ws_star(reader); + if (reader->end_sink) { + reader->end_sink(reader->handle, deref(reader, *dest)); + } + *ctx.flags = old_flags; + } + return (eat_byte_check(reader, ']') == ']'); +} + +/* If emit is true: recurses, calling statement_sink for every statement + encountered, and leaves stack in original calling state (i.e. pops + everything it pushes). */ +static bool +read_object(SerdReader* reader, ReadContext* ctx, bool emit, bool* ate_dot) +{ + static const char* const XSD_BOOLEAN = NS_XSD "boolean"; + static const size_t XSD_BOOLEAN_LEN = 40; + +#ifndef NDEBUG + const size_t orig_stack_size = reader->stack.size; +#endif + + bool ret = false; + bool simple = (ctx->subject != 0); + SerdNode* node = NULL; + Ref o = 0; + Ref datatype = 0; + Ref lang = 0; + uint32_t flags = 0; + const uint8_t c = peek_byte(reader); + if (!fancy_syntax(reader)) { + switch (c) { + case '"': case ':': case '<': case '_': break; + default: return r_err(reader, SERD_ERR_BAD_SYNTAX, + "expected: ':', '<', or '_'\n"); + } + } + switch (c) { + case '\0': case ')': + return r_err(reader, SERD_ERR_BAD_SYNTAX, "expected object\n"); + case '[': + simple = false; + TRY_THROW(ret = read_anon(reader, *ctx, false, &o)); + break; + case '(': + simple = false; + TRY_THROW(ret = read_collection(reader, *ctx, &o)); + break; + case '_': + TRY_THROW(ret = (o = read_BLANK_NODE_LABEL(reader, ate_dot))); + break; + case '<': case ':': + TRY_THROW(ret = read_iri(reader, &o, ate_dot)); + break; + case '+': case '-': case '.': case '0': case '1': case '2': case '3': + case '4': case '5': case '6': case '7': case '8': case '9': + TRY_THROW(ret = read_number(reader, &o, &datatype, ate_dot)); + break; + case '\"': + case '\'': + TRY_THROW(ret = read_literal(reader, &o, &datatype, &lang, &flags, ate_dot)); + break; + default: + /* Either a boolean literal, or a qname. Read the prefix first, and if + it is in fact a "true" or "false" literal, produce that instead. + */ + node = deref(reader, o = push_node(reader, SERD_CURIE, "", 0)); + while (!read_PN_CHARS_BASE(reader, o)) {} + if ((node->n_bytes == 4 && !memcmp(node->buf, "true", 4)) || + (node->n_bytes == 5 && !memcmp(node->buf, "false", 5))) { + node->type = SERD_LITERAL; + datatype = push_node( + reader, SERD_URI, XSD_BOOLEAN, XSD_BOOLEAN_LEN); + ret = true; + } else if (read_PN_PREFIX_tail(reader, o) > SERD_FAILURE) { + ret = false; + } else { + if (!(ret = read_PrefixedName(reader, o, false, ate_dot))) { + r_err(reader, SERD_ERR_BAD_SYNTAX, "expected prefixed name\n"); + } + } + } + + if (simple && o) { + deref(reader, o)->flags = flags; + } + + if (ret && emit && simple) { + ret = emit_statement(reader, *ctx, o, datatype, lang); + } else if (ret && !emit) { + ctx->object = o; + ctx->datatype = datatype; + ctx->lang = lang; + return true; + } + +except: + pop_node(reader, lang); + pop_node(reader, datatype); + pop_node(reader, o); +#ifndef NDEBUG + assert(reader->stack.size == orig_stack_size); +#endif + return ret; +} + +static bool +read_objectList(SerdReader* reader, ReadContext ctx, bool* ate_dot) +{ + TRY_RET(read_object(reader, &ctx, true, ate_dot)); + if (!fancy_syntax(reader) && peek_delim(reader, ',')) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "syntax does not support abbreviation\n"); + } + + while (!*ate_dot && eat_delim(reader, ',')) { + TRY_RET(read_object(reader, &ctx, true, ate_dot)); + } + return true; +} + +static bool +read_predicateObjectList(SerdReader* reader, ReadContext ctx, bool* ate_dot) +{ + while (read_verb(reader, &ctx.predicate) && + read_ws_star(reader) && + read_objectList(reader, ctx, ate_dot)) { + ctx.predicate = pop_node(reader, ctx.predicate); + if (*ate_dot) { + return true; + } + + bool ate_semi = false; + uint8_t c; + do { + read_ws_star(reader); + switch (c = peek_byte(reader)) { + case 0: + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "unexpected end of file\n"); + case '.': case ']': case '}': + return true; + case ';': + eat_byte_safe(reader, c); + ate_semi = true; + } + } while (c == ';'); + + if (!ate_semi) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, "missing ';' or '.'\n"); + } + } + + return pop_node(reader, ctx.predicate); +} + +static bool +end_collection(SerdReader* reader, ReadContext ctx, Ref n1, Ref n2, bool ret) +{ + pop_node(reader, n2); + pop_node(reader, n1); + *ctx.flags &= ~SERD_LIST_CONT; + return ret && (eat_byte_safe(reader, ')') == ')'); +} + +static bool +read_collection(SerdReader* reader, ReadContext ctx, Ref* dest) +{ + eat_byte_safe(reader, '('); + bool end = peek_delim(reader, ')'); + *dest = end ? reader->rdf_nil : blank_id(reader); + if (ctx.subject) { + // subject predicate _:head + *ctx.flags |= (end ? 0 : SERD_LIST_O_BEGIN); + TRY_RET(emit_statement(reader, ctx, *dest, 0, 0)); + *ctx.flags |= SERD_LIST_CONT; + } else { + *ctx.flags |= (end ? 0 : SERD_LIST_S_BEGIN); + } + + if (end) { + return end_collection(reader, ctx, 0, 0, true); + } + + /* The order of node allocation here is necessarily not in stack order, + so we create two nodes and recycle them throughout. */ + Ref n1 = push_node_padded(reader, genid_size(reader), SERD_BLANK, "", 0); + Ref n2 = 0; + Ref node = n1; + Ref rest = 0; + + ctx.subject = *dest; + while (!(end = peek_delim(reader, ')'))) { + // _:node rdf:first object + ctx.predicate = reader->rdf_first; + bool ate_dot = false; + if (!read_object(reader, &ctx, true, &ate_dot) || ate_dot) { + return end_collection(reader, ctx, n1, n2, false); + } + + if (!(end = peek_delim(reader, ')'))) { + /* Give rest a new ID. Done as late as possible to ensure it is + used and > IDs generated by read_object above. */ + if (!rest) { + rest = n2 = blank_id(reader); // First pass, push + } else { + set_blank_id(reader, rest, genid_size(reader)); + } + } + + // _:node rdf:rest _:rest + *ctx.flags |= SERD_LIST_CONT; + ctx.predicate = reader->rdf_rest; + TRY_RET(emit_statement(reader, ctx, + (end ? reader->rdf_nil : rest), 0, 0)); + + ctx.subject = rest; // _:node = _:rest + rest = node; // _:rest = (old)_:node + node = ctx.subject; // invariant + } + + return end_collection(reader, ctx, n1, n2, true); +} + +static Ref +read_subject(SerdReader* reader, ReadContext ctx, Ref* dest, char* s_type) +{ + bool ate_dot = false; + switch ((*s_type = peek_byte(reader))) { + case '[': + read_anon(reader, ctx, true, dest); + break; + case '(': + read_collection(reader, ctx, dest); + break; + case '_': + *dest = read_BLANK_NODE_LABEL(reader, &ate_dot); + break; + default: + TRY_RET(read_iri(reader, dest, &ate_dot)); + } + return ate_dot ? pop_node(reader, *dest) : *dest; +} + +static Ref +read_labelOrSubject(SerdReader* reader, ReadContext ctx) +{ + Ref subject = 0; + bool ate_dot = false; + switch (peek_byte(reader)) { + case '[': + eat_byte_safe(reader, '['); + read_ws_star(reader); + TRY_RET(eat_byte_check(reader, ']')); + return blank_id(reader); + case '_': + return read_BLANK_NODE_LABEL(reader, &ate_dot); + default: + read_iri(reader, &subject, &ate_dot); + } + return subject; +} + +static bool +read_triples(SerdReader* reader, ReadContext ctx, bool* ate_dot) +{ + bool ret = false; + if (ctx.subject) { + read_ws_star(reader); + switch (peek_byte(reader)) { + case '.': + *ate_dot = eat_byte_safe(reader, '.'); + return r_err(reader, SERD_ERR_BAD_SYNTAX, "syntax error\n"); + case '}': + return false; + } + ret = read_predicateObjectList(reader, ctx, ate_dot); + } + ctx.subject = ctx.predicate = 0; + return ret; +} + +static bool +read_base(SerdReader* reader, bool sparql, bool token) +{ + if (token) { + TRY_RET(eat_string(reader, "base", 4)); + } + + Ref uri; + read_ws_star(reader); + TRY_RET(uri = read_IRIREF(reader)); + if (reader->base_sink) { + reader->base_sink(reader->handle, deref(reader, uri)); + } + pop_node(reader, uri); + + read_ws_star(reader); + if (!sparql) { + return eat_byte_check(reader, '.'); + } else if (peek_byte(reader) == '.') { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "full stop after SPARQL BASE\n"); + } + return true; +} + +static bool +read_prefixID(SerdReader* reader, bool sparql, bool token) +{ + if (token) { + TRY_RET(eat_string(reader, "prefix", 6)); + } + + read_ws_star(reader); + bool ret = true; + Ref name = push_node(reader, SERD_LITERAL, "", 0); + if (read_PN_PREFIX(reader, name) > SERD_FAILURE) { + return pop_node(reader, name); + } + + if (eat_byte_check(reader, ':') != ':') { + return pop_node(reader, name); + } + + read_ws_star(reader); + const Ref uri = read_IRIREF(reader); + if (!uri) { + pop_node(reader, name); + return false; + } + + if (reader->prefix_sink) { + ret = !reader->prefix_sink(reader->handle, + deref(reader, name), + deref(reader, uri)); + } + pop_node(reader, uri); + pop_node(reader, name); + if (!sparql) { + read_ws_star(reader); + return eat_byte_check(reader, '.'); + } + return ret; +} + +static bool +read_directive(SerdReader* reader) +{ + const bool sparql = peek_byte(reader) != '@'; + if (!sparql) { + eat_byte_safe(reader, '@'); + switch (peek_byte(reader)) { + case 'B': case 'P': + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "uppercase directive\n"); + } + } + + switch (peek_byte(reader)) { + case 'B': case 'b': return read_base(reader, sparql, true); + case 'P': case 'p': return read_prefixID(reader, sparql, true); + default: + return r_err(reader, SERD_ERR_BAD_SYNTAX, "invalid directive\n"); + } + + return true; +} + +static bool +read_wrappedGraph(SerdReader* reader, ReadContext* ctx) +{ + bool ate_dot = false; + char s_type = 0; + TRY_RET(eat_byte_check(reader, '{')); + read_ws_star(reader); + while (peek_byte(reader) != '}') { + ctx->subject = 0; + Ref subj = read_subject(reader, *ctx, &ctx->subject, &s_type); + if (!subj && ctx->subject) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, "bad subject\n"); + } else if (!subj) { + return false; + } else if (!read_triples(reader, *ctx, &ate_dot) && s_type != '[') { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "missing predicate object list\n"); + } + pop_node(reader, subj); + read_ws_star(reader); + if (peek_byte(reader) == '.') { + eat_byte_safe(reader, '.'); + } + read_ws_star(reader); + } + return eat_byte_check(reader, '}'); +} + +static int +tokcmp(SerdReader* reader, Ref ref, const char* tok, size_t n) +{ + SerdNode* node = deref(reader, ref); + if (!node || node->n_bytes != n) { + return -1; + } + return serd_strncasecmp((const char*)node->buf, tok, n); +} + +bool +read_n3_statement(SerdReader* reader) +{ + SerdStatementFlags flags = 0; + ReadContext ctx = { 0, 0, 0, 0, 0, 0, &flags }; + Ref subj = 0; + bool ate_dot = false; + char s_type = 0; + bool ret = true; + read_ws_star(reader); + switch (peek_byte(reader)) { + case '\0': + reader->source.eof = true; + return reader->status <= SERD_FAILURE; + case '@': + if (!fancy_syntax(reader)) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "syntax does not support directives\n"); + } + TRY_RET(read_directive(reader)); + read_ws_star(reader); + break; + case '{': + if (reader->syntax == SERD_TRIG) { + TRY_RET(read_wrappedGraph(reader, &ctx)); + read_ws_star(reader); + } else { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "syntax does not support graphs\n"); + } + break; + default: + subj = read_subject(reader, ctx, &ctx.subject, &s_type); + if (!tokcmp(reader, ctx.subject, "base", 4)) { + ret = read_base(reader, true, false); + } else if (!tokcmp(reader, ctx.subject, "prefix", 6)) { + ret = read_prefixID(reader, true, false); + } else if (!tokcmp(reader, ctx.subject, "graph", 5)) { + read_ws_star(reader); + TRY_RET((ctx.graph = read_labelOrSubject(reader, ctx))); + read_ws_star(reader); + TRY_RET(read_wrappedGraph(reader, &ctx)); + read_ws_star(reader); + } else if (read_ws_star(reader) && peek_byte(reader) == '{') { + if (s_type == '(' || (s_type == '[' && !*ctx.flags)) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "invalid graph name\n"); + } + ctx.graph = subj; + ctx.subject = subj = 0; + TRY_RET(read_wrappedGraph(reader, &ctx)); + read_ws_star(reader); + } else if (!subj) { + ret = r_err(reader, SERD_ERR_BAD_SYNTAX, "bad subject\n"); + } else if (!read_triples(reader, ctx, &ate_dot)) { + ret = (s_type == '['); + } else if (!ate_dot) { + read_ws_star(reader); + ret = (eat_byte_check(reader, '.') == '.'); + } + pop_node(reader, subj); + break; + } + return ret; +} + +static void +skip_until(SerdReader* reader, uint8_t byte) +{ + for (uint8_t c = 0; (c = peek_byte(reader)) && c != byte;) { + eat_byte_safe(reader, c); + } +} + +bool +read_turtleTrigDoc(SerdReader* reader) +{ + while (!reader->source.eof) { + if (!read_n3_statement(reader)) { + if (reader->strict) { + return 0; + } + skip_until(reader, '\n'); + reader->status = SERD_SUCCESS; + } + } + return reader->status <= SERD_FAILURE; +} + +bool +read_nquadsDoc(SerdReader* reader) +{ + while (!reader->source.eof) { + SerdStatementFlags flags = 0; + ReadContext ctx = { 0, 0, 0, 0, 0, 0, &flags }; + bool ate_dot = false; + char s_type = false; + read_ws_star(reader); + if (peek_byte(reader) == '\0') { + reader->source.eof = true; + break; + } else if (peek_byte(reader) == '@') { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "syntax does not support directives\n"); + } + + // subject predicate object + if (!(ctx.subject = read_subject(reader, ctx, &ctx.subject, &s_type)) || + !read_ws_star(reader) || + !(ctx.predicate = read_IRIREF(reader)) || + !read_ws_star(reader) || + !read_object(reader, &ctx, false, &ate_dot)) { + return false; + } + + if (!ate_dot) { // graphLabel? + TRY_RET(read_ws_star(reader)); + switch (peek_byte(reader)) { + case '.': + break; + case '_': + ctx.graph = read_BLANK_NODE_LABEL(reader, &ate_dot); + break; + default: + if (!(ctx.graph = read_IRIREF(reader))) { + return false; + } + } + + // Terminating '.' + TRY_RET(read_ws_star(reader)); + eat_byte_check(reader, '.'); + } + + TRY_RET(emit_statement(reader, ctx, ctx.object, ctx.datatype, ctx.lang)); + pop_node(reader, ctx.graph); + pop_node(reader, ctx.lang); + pop_node(reader, ctx.datatype); + pop_node(reader, ctx.object); + } + return reader->status <= SERD_FAILURE; +} diff --git a/src/reader.c b/src/reader.c index a1c517e3..d515aaab 100644 --- a/src/reader.c +++ b/src/reader.c @@ -16,7 +16,6 @@ #include "serd_internal.h" -#include #include #include #include @@ -25,67 +24,7 @@ #include #include -#define TRY_THROW(exp) if (!(exp)) goto except; -#define TRY_RET(exp) if (!(exp)) return 0; - -#ifdef SERD_STACK_CHECK -# define SERD_STACK_ASSERT_TOP(reader, ref) \ - assert(ref == reader->allocs[reader->n_allocs - 1]); -#else -# define SERD_STACK_ASSERT_TOP(reader, ref) -#endif - -/* Reference to a node in the stack (we can not use pointers since the - stack may be reallocated, invalidating any pointers to elements). -*/ -typedef size_t Ref; - -typedef struct { - Ref graph; - Ref subject; - Ref predicate; - Ref object; - Ref datatype; - Ref lang; - SerdStatementFlags* flags; -} ReadContext; - -struct SerdReaderImpl { - void* handle; - void (*free_handle)(void* ptr); - SerdBaseSink base_sink; - SerdPrefixSink prefix_sink; - SerdStatementSink statement_sink; - SerdEndSink end_sink; - SerdErrorSink error_sink; - void* error_handle; - Ref rdf_first; - Ref rdf_rest; - Ref rdf_nil; - SerdNode default_graph; - SerdByteSource source; - SerdStack stack; - SerdSyntax syntax; - unsigned next_id; - SerdStatus status; - uint8_t* buf; - uint8_t* bprefix; - size_t bprefix_len; - bool strict; ///< True iff strict parsing - bool seen_genid; -#ifdef SERD_STACK_CHECK - Ref* allocs; ///< Stack of push offsets - size_t n_allocs; ///< Number of stack pushes -#endif -}; - -static inline bool -fancy_syntax(const SerdReader* reader) -{ - return reader->syntax == SERD_TURTLE || reader->syntax == SERD_TRIG; -} - -static int +int r_err(SerdReader* reader, SerdStatus st, const char* fmt, ...) { va_list args; @@ -97,58 +36,43 @@ r_err(SerdReader* reader, SerdStatus st, const char* fmt, ...) return 0; } -/** fread-like wrapper for getc (which is faster). */ -static size_t -serd_file_read_byte(void* buf, size_t size, size_t nmemb, void* stream) -{ - const int c = getc((FILE*)stream); - if (c == EOF) { - *((uint8_t*)buf) = 0; - return 0; - } - *((uint8_t*)buf) = (uint8_t)c; - return 1; -} - -static inline uint8_t -peek_byte(SerdReader* reader) +void +set_blank_id(SerdReader* reader, Ref ref, size_t buf_size) { - return serd_byte_source_peek(&reader->source); + SerdNode* node = deref(reader, ref); + const char* prefix = reader->bprefix ? (const char*)reader->bprefix : ""; + node->n_bytes = node->n_chars = snprintf( + (char*)node->buf, buf_size, "%sb%u", prefix, reader->next_id++); } -static inline uint8_t -eat_byte_safe(SerdReader* reader, const uint8_t byte) +size_t +genid_size(SerdReader* reader) { - assert(peek_byte(reader) == byte); - const SerdStatus st = serd_byte_source_advance(&reader->source); - if (st) { - reader->status = st; - } - return byte; + return reader->bprefix_len + 1 + 10 + 1; // + "b" + UINT32_MAX + \0 } -static inline uint8_t -eat_byte_check(SerdReader* reader, const uint8_t byte) +Ref +blank_id(SerdReader* reader) { - const uint8_t c = peek_byte(reader); - if (c != byte) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "expected `%c', not `%c'\n", byte, c); - } - return eat_byte_safe(reader, byte); + Ref ref = push_node_padded(reader, genid_size(reader), SERD_BLANK, "", 0); + set_blank_id(reader, ref, genid_size(reader)); + return ref; } -static inline bool -eat_string(SerdReader* reader, const char* str, unsigned n) +/** fread-like wrapper for getc (which is faster). */ +static size_t +serd_file_read_byte(void* buf, size_t size, size_t nmemb, void* stream) { - bool bad = false; - for (unsigned i = 0; i < n; ++i) { - bad |= (bool)eat_byte_check(reader, ((const uint8_t*)str)[i]); + const int c = getc((FILE*)stream); + if (c == EOF) { + *((uint8_t*)buf) = 0; + return 0; } - return bad; + *((uint8_t*)buf) = (uint8_t)c; + return 1; } -static Ref +Ref push_node_padded(SerdReader* reader, size_t maxlen, SerdType type, const char* str, size_t n_bytes) { @@ -172,13 +96,13 @@ push_node_padded(SerdReader* reader, size_t maxlen, return (uint8_t*)node - reader->stack.buf; } -static Ref +Ref push_node(SerdReader* reader, SerdType type, const char* str, size_t n_bytes) { return push_node_padded(reader, n_bytes, type, str, n_bytes); } -static inline SerdNode* +SerdNode* deref(SerdReader* reader, const Ref ref) { if (ref) { @@ -189,29 +113,7 @@ deref(SerdReader* reader, const Ref ref) return NULL; } -static inline void -push_byte(SerdReader* reader, Ref ref, const uint8_t c) -{ - SERD_STACK_ASSERT_TOP(reader, ref); - uint8_t* const s = serd_stack_push(&reader->stack, 1); - SerdNode* const node = (SerdNode*)(reader->stack.buf + ref); - ++node->n_bytes; - if (!(c & 0x80)) { // Starts with 0 bit, start of new character - ++node->n_chars; - } - *(s - 1) = c; - *s = '\0'; -} - -static inline void -push_bytes(SerdReader* reader, Ref ref, const uint8_t* bytes, unsigned len) -{ - for (unsigned i = 0; i < len; ++i) { - push_byte(reader, ref, bytes[i]); - } -} - -static Ref +Ref pop_node(SerdReader* reader, Ref ref) { if (ref && ref != reader->rdf_first && ref != reader->rdf_rest @@ -227,7 +129,7 @@ pop_node(SerdReader* reader, Ref ref) return 0; } -static inline bool +bool emit_statement(SerdReader* reader, ReadContext ctx, Ref o, Ref d, Ref l) { SerdNode* graph = deref(reader, ctx.graph); @@ -243,1480 +145,12 @@ emit_statement(SerdReader* reader, ReadContext ctx, Ref o, Ref d, Ref l) return ret; } -static bool -read_collection(SerdReader* reader, ReadContext ctx, Ref* dest); - -static bool -read_predicateObjectList(SerdReader* reader, ReadContext ctx, bool* ate_dot); - -static inline uint8_t -read_HEX(SerdReader* reader) -{ - const uint8_t c = peek_byte(reader); - return is_xdigit(c) - ? eat_byte_safe(reader, c) - : r_err(reader, SERD_ERR_BAD_SYNTAX, - "invalid hexadecimal digit `%c'\n", c); -} - -// Read UCHAR escape, initial \ is already eaten by caller -static inline bool -read_UCHAR(SerdReader* reader, Ref dest, uint32_t* char_code) -{ - const uint8_t b = peek_byte(reader); - unsigned length = 0; - switch (b) { - case 'U': - length = 8; - break; - case 'u': - length = 4; - break; - default: - return false; - } - eat_byte_safe(reader, b); - - uint8_t buf[9] = { 0, 0, 0, 0, 0, 0, 0, 0, 0 }; - for (unsigned i = 0; i < length; ++i) { - if (!(buf[i] = read_HEX(reader))) { - return false; - } - } - - uint32_t code; - sscanf((const char*)buf, "%X", &code); - - unsigned size = 0; - if (code < 0x00000080) { - size = 1; - } else if (code < 0x00000800) { - size = 2; - } else if (code < 0x00010000) { - size = 3; - } else if (code < 0x00110000) { - size = 4; - } else { - r_err(reader, SERD_ERR_BAD_SYNTAX, - "unicode character 0x%X out of range\n", code); - push_bytes(reader, dest, replacement_char, 3); - *char_code = 0xFFFD; - return true; - } - - // Build output in buf - // (Note # of bytes = # of leading 1 bits in first byte) - uint32_t c = code; - switch (size) { - case 4: - buf[3] = 0x80 | (uint8_t)(c & 0x3F); - c >>= 6; - c |= (16 << 12); // set bit 4 - case 3: - buf[2] = 0x80 | (uint8_t)(c & 0x3F); - c >>= 6; - c |= (32 << 6); // set bit 5 - case 2: - buf[1] = 0x80 | (uint8_t)(c & 0x3F); - c >>= 6; - c |= 0xC0; // set bits 6 and 7 - case 1: - buf[0] = (uint8_t)c; - } - - push_bytes(reader, dest, buf, size); - *char_code = code; - return true; -} - -// Read ECHAR escape, initial \ is already eaten by caller -static inline bool -read_ECHAR(SerdReader* reader, Ref dest, SerdNodeFlags* flags) -{ - const uint8_t c = peek_byte(reader); - switch (c) { - case 't': - eat_byte_safe(reader, 't'); - push_byte(reader, dest, '\t'); - return true; - case 'b': - eat_byte_safe(reader, 'b'); - push_byte(reader, dest, '\b'); - return true; - case 'n': - *flags |= SERD_HAS_NEWLINE; - eat_byte_safe(reader, 'n'); - push_byte(reader, dest, '\n'); - return true; - case 'r': - *flags |= SERD_HAS_NEWLINE; - eat_byte_safe(reader, 'r'); - push_byte(reader, dest, '\r'); - return true; - case 'f': - eat_byte_safe(reader, 'f'); - push_byte(reader, dest, '\f'); - return true; - case '\\': case '"': case '\'': - push_byte(reader, dest, eat_byte_safe(reader, c)); - return true; - default: - return false; - } -} - -static inline SerdStatus -bad_char(SerdReader* reader, const char* fmt, uint8_t c) -{ - // Skip bytes until the next start byte - for (uint8_t b = peek_byte(reader); (b & 0x80);) { - eat_byte_safe(reader, b); - b = peek_byte(reader); - } - - r_err(reader, SERD_ERR_BAD_SYNTAX, fmt, c); - return reader->strict ? SERD_ERR_BAD_SYNTAX : SERD_FAILURE; -} - -static SerdStatus -read_utf8_bytes(SerdReader* reader, uint8_t bytes[4], uint32_t* size, uint8_t c) -{ - *size = utf8_num_bytes(c); - if (*size <= 1 || *size > 4) { - return bad_char(reader, "invalid UTF-8 start 0x%X\n", c); - } - - bytes[0] = c; - for (unsigned i = 1; i < *size; ++i) { - if (((bytes[i] = peek_byte(reader)) & 0x80) == 0) { - return bad_char(reader, "invalid UTF-8 continuation 0x%X\n", - bytes[i]); - } - eat_byte_safe(reader, bytes[i]); - } - - return SERD_SUCCESS; -} - -static SerdStatus -read_utf8_character(SerdReader* reader, Ref dest, uint8_t c) -{ - uint32_t size; - uint8_t bytes[4]; - SerdStatus st = read_utf8_bytes(reader, bytes, &size, c); - if (st) { - push_bytes(reader, dest, replacement_char, 3); - } else { - push_bytes(reader, dest, bytes, size); - } - return st; -} - -static SerdStatus -read_utf8_code(SerdReader* reader, Ref dest, uint32_t* code, uint8_t c) -{ - uint32_t size; - uint8_t bytes[4]; - SerdStatus st = read_utf8_bytes(reader, bytes, &size, c); - if (st) { - push_bytes(reader, dest, replacement_char, 3); - return st; - } - - push_bytes(reader, dest, bytes, size); - *code = parse_counted_utf8_char(bytes, size); - return st; -} - -// Read one character (possibly multi-byte) -// The first byte, c, has already been eaten by caller -static inline SerdStatus -read_character(SerdReader* reader, Ref dest, SerdNodeFlags* flags, uint8_t c) -{ - if (!(c & 0x80)) { - switch (c) { - case 0xA: case 0xD: - *flags |= SERD_HAS_NEWLINE; - break; - case '"': case '\'': - *flags |= SERD_HAS_QUOTE; - break; - } - push_byte(reader, dest, c); - return SERD_SUCCESS; - } - return read_utf8_character(reader, dest, c); -} - -// [10] comment ::= '#' ( [^#xA #xD] )* -static void -read_comment(SerdReader* reader) -{ - eat_byte_safe(reader, '#'); - uint8_t c; - while (((c = peek_byte(reader)) != 0xA) && (c != 0xD) && c) { - eat_byte_safe(reader, c); - } -} - -// [24] ws ::= #x9 | #xA | #xD | #x20 | comment -static inline bool -read_ws(SerdReader* reader) -{ - const uint8_t c = peek_byte(reader); - switch (c) { - case 0x9: case 0xA: case 0xD: case 0x20: - eat_byte_safe(reader, c); - return true; - case '#': - read_comment(reader); - return true; - default: - return false; - } -} - -static inline bool -read_ws_star(SerdReader* reader) -{ - while (read_ws(reader)) {} - return true; -} - -static inline bool -peek_delim(SerdReader* reader, const char delim) -{ - read_ws_star(reader); - return peek_byte(reader) == delim; -} - -static inline bool -eat_delim(SerdReader* reader, const char delim) -{ - if (peek_delim(reader, delim)) { - eat_byte_safe(reader, delim); - return read_ws_star(reader); - } - return false; -} - -// STRING_LITERAL_LONG_QUOTE and STRING_LITERAL_LONG_SINGLE_QUOTE -// Initial triple quotes are already eaten by caller -static Ref -read_STRING_LITERAL_LONG(SerdReader* reader, SerdNodeFlags* flags, uint8_t q) -{ - Ref ref = push_node(reader, SERD_LITERAL, "", 0); - while (!reader->status) { - const uint8_t c = peek_byte(reader); - uint32_t code; - switch (c) { - case '\\': - eat_byte_safe(reader, c); - if (!read_ECHAR(reader, ref, flags) && - !read_UCHAR(reader, ref, &code)) { - r_err(reader, SERD_ERR_BAD_SYNTAX, - "invalid escape `\\%c'\n", peek_byte(reader)); - return pop_node(reader, ref); - } - break; - default: - if (c == q) { - eat_byte_safe(reader, q); - const uint8_t q2 = eat_byte_safe(reader, peek_byte(reader)); - const uint8_t q3 = peek_byte(reader); - if (q2 == q && q3 == q) { // End of string - eat_byte_safe(reader, q3); - return ref; - } - *flags |= SERD_HAS_QUOTE; - push_byte(reader, ref, c); - read_character(reader, ref, flags, q2); - } else { - read_character(reader, ref, flags, eat_byte_safe(reader, c)); - } - } - } - return ref; -} - -// STRING_LITERAL_QUOTE and STRING_LITERAL_SINGLE_QUOTE -// Initial quote is already eaten by caller -static Ref -read_STRING_LITERAL(SerdReader* reader, SerdNodeFlags* flags, uint8_t q) -{ - Ref ref = push_node(reader, SERD_LITERAL, "", 0); - while (!reader->status) { - const uint8_t c = peek_byte(reader); - uint32_t code = 0; - switch (c) { - case '\n': case '\r': - r_err(reader, SERD_ERR_BAD_SYNTAX, "line end in short string\n"); - return pop_node(reader, ref); - case '\\': - eat_byte_safe(reader, c); - if (!read_ECHAR(reader, ref, flags) && - !read_UCHAR(reader, ref, &code)) { - r_err(reader, SERD_ERR_BAD_SYNTAX, - "invalid escape `\\%c'\n", peek_byte(reader)); - return pop_node(reader, ref); - } - break; - default: - if (c == q) { - eat_byte_check(reader, q); - return ref; - } else { - read_character(reader, ref, flags, eat_byte_safe(reader, c)); - } - } - } - eat_byte_check(reader, q); - return ref; -} - -static Ref -read_String(SerdReader* reader, SerdNodeFlags* flags) -{ - const uint8_t q1 = peek_byte(reader); - eat_byte_safe(reader, q1); - - const uint8_t q2 = peek_byte(reader); - if (q2 != q1) { // Short string (not triple quoted) - return read_STRING_LITERAL(reader, flags, q1); - } - - eat_byte_safe(reader, q2); - const uint8_t q3 = peek_byte(reader); - if (q3 != q1) { // Empty short string ("" or '') - return push_node(reader, SERD_LITERAL, "", 0); - } - - if (!fancy_syntax(reader)) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "syntax does not support long literals\n"); - } - - eat_byte_safe(reader, q3); - return read_STRING_LITERAL_LONG(reader, flags, q1); -} - -static inline bool -is_PN_CHARS_BASE(const uint32_t c) -{ - return ((c >= 0x00C0 && c <= 0x00D6) || (c >= 0x00D8 && c <= 0x00F6) || - (c >= 0x00F8 && c <= 0x02FF) || (c >= 0x0370 && c <= 0x037D) || - (c >= 0x037F && c <= 0x1FFF) || (c >= 0x200C && c <= 0x200D) || - (c >= 0x2070 && c <= 0x218F) || (c >= 0x2C00 && c <= 0x2FEF) || - (c >= 0x3001 && c <= 0xD7FF) || (c >= 0xF900 && c <= 0xFDCF) || - (c >= 0xFDF0 && c <= 0xFFFD) || (c >= 0x10000 && c <= 0xEFFFF)); -} - -static SerdStatus -read_PN_CHARS_BASE(SerdReader* reader, Ref dest) -{ - uint32_t code; - const uint8_t c = peek_byte(reader); - SerdStatus st = SERD_SUCCESS; - if (is_alpha(c)) { - push_byte(reader, dest, eat_byte_safe(reader, c)); - } else if (!(c & 0x80)) { - return SERD_FAILURE; - } else if ((st = read_utf8_code(reader, dest, &code, - eat_byte_safe(reader, c)))) { - return st; - } else if (!is_PN_CHARS_BASE(code)) { - r_err(reader, SERD_ERR_BAD_SYNTAX, - "invalid character U+%04X in name\n", code); - if (reader->strict) { - return SERD_ERR_BAD_SYNTAX; - } - } - return st; -} - -static inline bool -is_PN_CHARS(const uint32_t c) -{ - return (is_PN_CHARS_BASE(c) || c == 0xB7 || - (c >= 0x0300 && c <= 0x036F) || (c >= 0x203F && c <= 0x2040)); -} - -static SerdStatus -read_PN_CHARS(SerdReader* reader, Ref dest) -{ - uint32_t code; - const uint8_t c = peek_byte(reader); - SerdStatus st = SERD_SUCCESS; - if (is_alpha(c) || is_digit(c) || c == '_' || c == '-') { - push_byte(reader, dest, eat_byte_safe(reader, c)); - } else if (!(c & 0x80)) { - return SERD_FAILURE; - } else if ((st = read_utf8_code(reader, dest, &code, - eat_byte_safe(reader, c)))) { - return st; - } else if (!is_PN_CHARS(code)) { - r_err(reader, (st = SERD_ERR_BAD_SYNTAX), - "invalid character U+%04X in name\n", code); - } - return st; -} - -static bool -read_PERCENT(SerdReader* reader, Ref dest) -{ - push_byte(reader, dest, eat_byte_safe(reader, '%')); - const uint8_t h1 = read_HEX(reader); - const uint8_t h2 = read_HEX(reader); - if (h1 && h2) { - push_byte(reader, dest, h1); - push_byte(reader, dest, h2); - return true; - } - return false; -} - -static SerdStatus -read_PLX(SerdReader* reader, Ref dest) -{ - uint8_t c = peek_byte(reader); - switch (c) { - case '%': - if (!read_PERCENT(reader, dest)) { - return SERD_ERR_BAD_SYNTAX; - } - return SERD_SUCCESS; - case '\\': - eat_byte_safe(reader, c); - if (is_alpha(c = peek_byte(reader))) { - // Escapes like \u \n etc. are not supported - return SERD_ERR_BAD_SYNTAX; - } - // Allow escaping of pretty much any other character - push_byte(reader, dest, eat_byte_safe(reader, c)); - return SERD_SUCCESS; - default: - return SERD_FAILURE; - } -} - -static SerdStatus -read_PN_LOCAL(SerdReader* reader, Ref dest, bool* ate_dot) -{ - uint8_t c = peek_byte(reader); - SerdStatus st = SERD_SUCCESS; - switch (c) { - case '0': case '1': case '2': case '3': case '4': case '5': - case '6': case '7': case '8': case '9': case ':': case '_': - push_byte(reader, dest, eat_byte_safe(reader, c)); - break; - default: - if ((st = read_PLX(reader, dest)) > SERD_FAILURE) { - return st; - } else if (st != SERD_SUCCESS && read_PN_CHARS_BASE(reader, dest)) { - return SERD_FAILURE; - } - } - - while ((c = peek_byte(reader))) { // Middle: (PN_CHARS | '.' | ';')* - if (c == '.' || c == ':') { - push_byte(reader, dest, eat_byte_safe(reader, c)); - } else if ((st = read_PLX(reader, dest)) > SERD_FAILURE) { - return st; - } else if (st != SERD_SUCCESS && (st = read_PN_CHARS(reader, dest))) { - break; - } - } - - SerdNode* const n = deref(reader, dest); - if (n->buf[n->n_bytes - 1] == '.') { - // Ate trailing dot, pop it from stack/node and inform caller - --n->n_bytes; - serd_stack_pop(&reader->stack, 1); - *ate_dot = true; - } - - return (st > SERD_FAILURE) ? st : SERD_SUCCESS; -} - -// Read the remainder of a PN_PREFIX after some initial characters -static SerdStatus -read_PN_PREFIX_tail(SerdReader* reader, Ref dest) -{ - uint8_t c; - while ((c = peek_byte(reader))) { // Middle: (PN_CHARS | '.')* - if (c == '.') { - push_byte(reader, dest, eat_byte_safe(reader, c)); - } else if (read_PN_CHARS(reader, dest)) { - break; - } - } - - const SerdNode* const n = deref(reader, dest); - if (n->buf[n->n_bytes - 1] == '.' && read_PN_CHARS(reader, dest)) { - r_err(reader, SERD_ERR_BAD_SYNTAX, "prefix ends with `.'\n"); - return SERD_ERR_BAD_SYNTAX; - } - - return SERD_SUCCESS; -} - -static SerdStatus -read_PN_PREFIX(SerdReader* reader, Ref dest) -{ - if (!read_PN_CHARS_BASE(reader, dest)) { - return read_PN_PREFIX_tail(reader, dest); - } - return SERD_FAILURE; -} - -static Ref -read_LANGTAG(SerdReader* reader) -{ - uint8_t c = peek_byte(reader); - if (!is_alpha(c)) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, "unexpected `%c'\n", c); - } - Ref ref = push_node(reader, SERD_LITERAL, "", 0); - push_byte(reader, ref, eat_byte_safe(reader, c)); - while ((c = peek_byte(reader)) && is_alpha(c)) { - push_byte(reader, ref, eat_byte_safe(reader, c)); - } - while (peek_byte(reader) == '-') { - push_byte(reader, ref, eat_byte_safe(reader, '-')); - while ((c = peek_byte(reader)) && (is_alpha(c) || is_digit(c))) { - push_byte(reader, ref, eat_byte_safe(reader, c)); - } - } - return ref; -} - -static bool -read_IRIREF_scheme(SerdReader* reader, Ref dest) -{ - uint8_t c = peek_byte(reader); - if (!isalpha(c)) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "bad IRI scheme start `%c'\n", c); - } - - while ((c = peek_byte(reader))) { - if (c == '>') { - return r_err(reader, SERD_ERR_BAD_SYNTAX, "missing IRI scheme\n"); - } else if (!is_uri_scheme_char(c)) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "bad IRI scheme char `%X'\n", c); - } - - push_byte(reader, dest, eat_byte_safe(reader, c)); - if (c == ':') { - return true; // End of scheme - } - } - - return false; -} - -static Ref -read_IRIREF(SerdReader* reader) -{ - TRY_RET(eat_byte_check(reader, '<')); - Ref ref = push_node(reader, SERD_URI, "", 0); - if (!fancy_syntax(reader) && !read_IRIREF_scheme(reader, ref)) { - return pop_node(reader, ref); - } - - uint32_t code = 0; - while (!reader->status) { - const uint8_t c = eat_byte_safe(reader, peek_byte(reader)); - switch (c) { - case '"': case '<': case '^': case '`': case '{': case '|': case '}': - r_err(reader, SERD_ERR_BAD_SYNTAX, - "invalid IRI character `%c'\n", c); - return pop_node(reader, ref); - case '>': - return ref; - case '\\': - if (!read_UCHAR(reader, ref, &code)) { - r_err(reader, SERD_ERR_BAD_SYNTAX, "invalid IRI escape\n"); - return pop_node(reader, ref); - } - switch (code) { - case 0: case ' ': case '<': case '>': - r_err(reader, SERD_ERR_BAD_SYNTAX, - "invalid escaped IRI character %X %c\n", code, code); - return pop_node(reader, ref); - } - break; - default: - if (c <= 0x20) { - if (isprint(c)) { - r_err(reader, SERD_ERR_BAD_SYNTAX, - "invalid IRI character `%c' (escape %%%02X)\n", c, c); - } else { - r_err(reader, SERD_ERR_BAD_SYNTAX, - "invalid IRI character (escape %%%02X)\n", c, c); - } - if (reader->strict) { - return pop_node(reader, ref); - } - reader->status = SERD_FAILURE; - push_byte(reader, ref, c); - } else if (!(c & 0x80)) { - push_byte(reader, ref, c); - } else if (read_utf8_character(reader, ref, c)) { - if (reader->strict) { - return pop_node(reader, ref); - } - reader->status = SERD_FAILURE; - } - } - } - return pop_node(reader, ref); -} - -static bool -read_PrefixedName(SerdReader* reader, Ref dest, bool read_prefix, bool* ate_dot) -{ - if (read_prefix && read_PN_PREFIX(reader, dest) > SERD_FAILURE) { - return false; - } else if (peek_byte(reader) != ':') { - return false; - } - - push_byte(reader, dest, eat_byte_safe(reader, ':')); - return read_PN_LOCAL(reader, dest, ate_dot) <= SERD_FAILURE; -} - -static bool -read_0_9(SerdReader* reader, Ref str, bool at_least_one) -{ - unsigned count = 0; - for (uint8_t c; is_digit((c = peek_byte(reader))); ++count) { - push_byte(reader, str, eat_byte_safe(reader, c)); - } - if (at_least_one && count == 0) { - r_err(reader, SERD_ERR_BAD_SYNTAX, "expected digit\n"); - } - return count; -} - -static bool -read_number(SerdReader* reader, Ref* dest, Ref* datatype, bool* ate_dot) -{ - #define XSD_DECIMAL NS_XSD "decimal" - #define XSD_DOUBLE NS_XSD "double" - #define XSD_INTEGER NS_XSD "integer" - Ref ref = push_node(reader, SERD_LITERAL, "", 0); - uint8_t c = peek_byte(reader); - bool has_decimal = false; - if (c == '-' || c == '+') { - push_byte(reader, ref, eat_byte_safe(reader, c)); - } - if ((c = peek_byte(reader)) == '.') { - has_decimal = true; - // decimal case 2 (e.g. '.0' or `-.0' or `+.0') - push_byte(reader, ref, eat_byte_safe(reader, c)); - TRY_THROW(read_0_9(reader, ref, true)); - } else { - // all other cases ::= ( '-' | '+' ) [0-9]+ ( . )? ( [0-9]+ )? ... - TRY_THROW(is_digit(c)); - read_0_9(reader, ref, true); - if ((c = peek_byte(reader)) == '.') { - has_decimal = true; - - // Annoyingly, dot can be end of statement, so tentatively eat - eat_byte_safe(reader, c); - c = peek_byte(reader); - if (!is_digit(c) && c != 'e' && c != 'E') { - *dest = ref; - *ate_dot = true; // Force caller to deal with stupid grammar - return true; // Next byte is not a number character, done - } - - push_byte(reader, ref, '.'); - read_0_9(reader, ref, false); - } - } - c = peek_byte(reader); - if (c == 'e' || c == 'E') { - // double - push_byte(reader, ref, eat_byte_safe(reader, c)); - switch ((c = peek_byte(reader))) { - case '+': case '-': - push_byte(reader, ref, eat_byte_safe(reader, c)); - default: break; - } - TRY_THROW(read_0_9(reader, ref, true)); - *datatype = push_node(reader, SERD_URI, - XSD_DOUBLE, sizeof(XSD_DOUBLE) - 1); - } else if (has_decimal) { - *datatype = push_node(reader, SERD_URI, - XSD_DECIMAL, sizeof(XSD_DECIMAL) - 1); - } else { - *datatype = push_node(reader, SERD_URI, - XSD_INTEGER, sizeof(XSD_INTEGER) - 1); - } - *dest = ref; - return true; -except: - pop_node(reader, *datatype); - pop_node(reader, ref); - return r_err(reader, SERD_ERR_BAD_SYNTAX, "bad number syntax\n"); -} - -static bool -read_iri(SerdReader* reader, Ref* dest, bool* ate_dot) -{ - switch (peek_byte(reader)) { - case '<': - *dest = read_IRIREF(reader); - return true; - default: - *dest = push_node(reader, SERD_CURIE, "", 0); - return read_PrefixedName(reader, *dest, true, ate_dot); - } -} - -static bool -read_literal(SerdReader* reader, Ref* dest, - Ref* datatype, Ref* lang, SerdNodeFlags* flags, bool* ate_dot) -{ - Ref str = read_String(reader, flags); - if (!str) { - return false; - } - - switch (peek_byte(reader)) { - case '@': - eat_byte_safe(reader, '@'); - TRY_THROW(*lang = read_LANGTAG(reader)); - break; - case '^': - eat_byte_safe(reader, '^'); - eat_byte_check(reader, '^'); - TRY_THROW(read_iri(reader, datatype, ate_dot)); - break; - } - *dest = str; - return true; -except: - *datatype = pop_node(reader, *datatype); - *lang = pop_node(reader, *lang); - pop_node(reader, str); - return r_err(reader, SERD_ERR_BAD_SYNTAX, "bad literal syntax\n"); -} - -inline static bool -is_token_end(uint8_t c) -{ - switch (c) { - case 0x9: case 0xA: case 0xD: case 0x20: case '\0': - case '#': case '.': case ';': case '<': - return true; - default: - return false; - } -} - -static bool -read_verb(SerdReader* reader, Ref* dest) -{ - if (peek_byte(reader) == '<') { - return (*dest = read_IRIREF(reader)); - } - - /* Either a qname, or "a". Read the prefix first, and if it is in fact - "a", produce that instead. - */ - *dest = push_node(reader, SERD_CURIE, "", 0); - SerdNode* node = deref(reader, *dest); - const SerdStatus st = read_PN_PREFIX(reader, *dest); - bool ate_dot = false; - if (!st && node->n_bytes == 1 && node->buf[0] == 'a' && - is_token_end(peek_byte(reader))) { - pop_node(reader, *dest); - return (*dest = push_node(reader, SERD_URI, NS_RDF "type", 47)); - } else if (st > SERD_FAILURE || - !read_PrefixedName(reader, *dest, false, &ate_dot) || - ate_dot) { - *dest = pop_node(reader, *dest); - return r_err(reader, SERD_ERR_BAD_SYNTAX, "bad verb\n"); - } - - return true; -} - -static Ref -read_BLANK_NODE_LABEL(SerdReader* reader, bool* ate_dot) -{ - eat_byte_safe(reader, '_'); - eat_byte_check(reader, ':'); - Ref ref = push_node(reader, SERD_BLANK, - reader->bprefix ? (char*)reader->bprefix : "", - reader->bprefix_len); - - uint8_t c = peek_byte(reader); // First: (PN_CHARS | '_' | [0-9]) - if (is_digit(c) || c == '_') { - push_byte(reader, ref, eat_byte_safe(reader, c)); - } else if (read_PN_CHARS(reader, ref)) { - r_err(reader, SERD_ERR_BAD_SYNTAX, "invalid name start character\n"); - return pop_node(reader, ref); - } - - while ((c = peek_byte(reader))) { // Middle: (PN_CHARS | '.')* - if (c == '.') { - push_byte(reader, ref, eat_byte_safe(reader, c)); - } else if (read_PN_CHARS(reader, ref)) { - break; - } - } - - SerdNode* n = deref(reader, ref); - if (n->buf[n->n_bytes - 1] == '.' && read_PN_CHARS(reader, ref)) { - // Ate trailing dot, pop it from stack/node and inform caller - --n->n_bytes; - serd_stack_pop(&reader->stack, 1); - *ate_dot = true; - } - - if (reader->syntax == SERD_TURTLE) { - if (is_digit(n->buf[reader->bprefix_len + 1])) { - if ((n->buf[reader->bprefix_len]) == 'b') { - ((char*)n->buf)[reader->bprefix_len] = 'B'; // Prevent clash - reader->seen_genid = true; - } else if (reader->seen_genid && - n->buf[reader->bprefix_len] == 'B') { - r_err(reader, SERD_ERR_ID_CLASH, - "found both `b' and `B' blank IDs, prefix required\n"); - return pop_node(reader, ref); - } - } - } - return ref; -} - -static void -set_blank_id(SerdReader* reader, Ref ref, size_t buf_size) -{ - SerdNode* node = deref(reader, ref); - const char* prefix = reader->bprefix ? (const char*)reader->bprefix : ""; - node->n_bytes = node->n_chars = snprintf( - (char*)node->buf, buf_size, "%sb%u", prefix, reader->next_id++); -} - -static size_t -genid_size(SerdReader* reader) -{ - return reader->bprefix_len + 1 + 10 + 1; // + "b" + UINT32_MAX + \0 -} - -static Ref -blank_id(SerdReader* reader) -{ - Ref ref = push_node_padded(reader, genid_size(reader), SERD_BLANK, "", 0); - set_blank_id(reader, ref, genid_size(reader)); - return ref; -} - -static Ref -read_blankName(SerdReader* reader) -{ - eat_byte_safe(reader, '='); - if (eat_byte_check(reader, '=') != '=') { - return r_err(reader, SERD_ERR_BAD_SYNTAX, "expected `='\n"); - } - - Ref subject = 0; - bool ate_dot = false; - read_ws_star(reader); - read_iri(reader, &subject, &ate_dot); - return subject; -} - -static bool -read_anon(SerdReader* reader, ReadContext ctx, bool subject, Ref* dest) -{ - const SerdStatementFlags old_flags = *ctx.flags; - bool empty; - eat_byte_safe(reader, '['); - if ((empty = peek_delim(reader, ']'))) { - *ctx.flags |= (subject) ? SERD_EMPTY_S : SERD_EMPTY_O; - } else { - *ctx.flags |= (subject) ? SERD_ANON_S_BEGIN : SERD_ANON_O_BEGIN; - if (peek_delim(reader, '=')) { - if (!(*dest = read_blankName(reader)) || - !eat_delim(reader, ';')) { - return false; - } - } - } - - if (!*dest) { - *dest = blank_id(reader); - } - if (ctx.subject) { - TRY_RET(emit_statement(reader, ctx, *dest, 0, 0)); - } - - ctx.subject = *dest; - if (!empty) { - *ctx.flags &= ~(SERD_LIST_CONT); - if (!subject) { - *ctx.flags |= SERD_ANON_CONT; - } - bool ate_dot_in_list = false; - read_predicateObjectList(reader, ctx, &ate_dot_in_list); - if (ate_dot_in_list) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, "`.' inside blank\n"); - } - read_ws_star(reader); - if (reader->end_sink) { - reader->end_sink(reader->handle, deref(reader, *dest)); - } - *ctx.flags = old_flags; - } - return (eat_byte_check(reader, ']') == ']'); -} - -/* If emit is true: recurses, calling statement_sink for every statement - encountered, and leaves stack in original calling state (i.e. pops - everything it pushes). */ -static bool -read_object(SerdReader* reader, ReadContext* ctx, bool emit, bool* ate_dot) -{ - static const char* const XSD_BOOLEAN = NS_XSD "boolean"; - static const size_t XSD_BOOLEAN_LEN = 40; - -#ifndef NDEBUG - const size_t orig_stack_size = reader->stack.size; -#endif - - bool ret = false; - bool simple = (ctx->subject != 0); - SerdNode* node = NULL; - Ref o = 0; - Ref datatype = 0; - Ref lang = 0; - uint32_t flags = 0; - const uint8_t c = peek_byte(reader); - if (!fancy_syntax(reader)) { - switch (c) { - case '"': case ':': case '<': case '_': break; - default: return r_err(reader, SERD_ERR_BAD_SYNTAX, - "expected: ':', '<', or '_'\n"); - } - } - switch (c) { - case '\0': case ')': - return r_err(reader, SERD_ERR_BAD_SYNTAX, "expected object\n"); - case '[': - simple = false; - TRY_THROW(ret = read_anon(reader, *ctx, false, &o)); - break; - case '(': - simple = false; - TRY_THROW(ret = read_collection(reader, *ctx, &o)); - break; - case '_': - TRY_THROW(ret = (o = read_BLANK_NODE_LABEL(reader, ate_dot))); - break; - case '<': case ':': - TRY_THROW(ret = read_iri(reader, &o, ate_dot)); - break; - case '+': case '-': case '.': case '0': case '1': case '2': case '3': - case '4': case '5': case '6': case '7': case '8': case '9': - TRY_THROW(ret = read_number(reader, &o, &datatype, ate_dot)); - break; - case '\"': - case '\'': - TRY_THROW(ret = read_literal(reader, &o, &datatype, &lang, &flags, ate_dot)); - break; - default: - /* Either a boolean literal, or a qname. Read the prefix first, and if - it is in fact a "true" or "false" literal, produce that instead. - */ - node = deref(reader, o = push_node(reader, SERD_CURIE, "", 0)); - while (!read_PN_CHARS_BASE(reader, o)) {} - if ((node->n_bytes == 4 && !memcmp(node->buf, "true", 4)) || - (node->n_bytes == 5 && !memcmp(node->buf, "false", 5))) { - node->type = SERD_LITERAL; - datatype = push_node( - reader, SERD_URI, XSD_BOOLEAN, XSD_BOOLEAN_LEN); - ret = true; - } else if (read_PN_PREFIX_tail(reader, o) > SERD_FAILURE) { - ret = false; - } else { - if (!(ret = read_PrefixedName(reader, o, false, ate_dot))) { - r_err(reader, SERD_ERR_BAD_SYNTAX, "expected prefixed name\n"); - } - } - } - - if (simple && o) { - deref(reader, o)->flags = flags; - } - - if (ret && emit && simple) { - ret = emit_statement(reader, *ctx, o, datatype, lang); - } else if (ret && !emit) { - ctx->object = o; - ctx->datatype = datatype; - ctx->lang = lang; - return true; - } - -except: - pop_node(reader, lang); - pop_node(reader, datatype); - pop_node(reader, o); -#ifndef NDEBUG - assert(reader->stack.size == orig_stack_size); -#endif - return ret; -} - -static bool -read_objectList(SerdReader* reader, ReadContext ctx, bool* ate_dot) -{ - TRY_RET(read_object(reader, &ctx, true, ate_dot)); - if (!fancy_syntax(reader) && peek_delim(reader, ',')) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "syntax does not support abbreviation\n"); - } - - while (!*ate_dot && eat_delim(reader, ',')) { - TRY_RET(read_object(reader, &ctx, true, ate_dot)); - } - return true; -} - -static bool -read_predicateObjectList(SerdReader* reader, ReadContext ctx, bool* ate_dot) -{ - while (read_verb(reader, &ctx.predicate) && - read_ws_star(reader) && - read_objectList(reader, ctx, ate_dot)) { - ctx.predicate = pop_node(reader, ctx.predicate); - if (*ate_dot) { - return true; - } - - bool ate_semi = false; - uint8_t c; - do { - read_ws_star(reader); - switch (c = peek_byte(reader)) { - case 0: - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "unexpected end of file\n"); - case '.': case ']': case '}': - return true; - case ';': - eat_byte_safe(reader, c); - ate_semi = true; - } - } while (c == ';'); - - if (!ate_semi) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, "missing ';' or '.'\n"); - } - } - - return pop_node(reader, ctx.predicate); -} - -static bool -end_collection(SerdReader* reader, ReadContext ctx, Ref n1, Ref n2, bool ret) -{ - pop_node(reader, n2); - pop_node(reader, n1); - *ctx.flags &= ~SERD_LIST_CONT; - return ret && (eat_byte_safe(reader, ')') == ')'); -} - -static bool -read_collection(SerdReader* reader, ReadContext ctx, Ref* dest) -{ - eat_byte_safe(reader, '('); - bool end = peek_delim(reader, ')'); - *dest = end ? reader->rdf_nil : blank_id(reader); - if (ctx.subject) { - // subject predicate _:head - *ctx.flags |= (end ? 0 : SERD_LIST_O_BEGIN); - TRY_RET(emit_statement(reader, ctx, *dest, 0, 0)); - *ctx.flags |= SERD_LIST_CONT; - } else { - *ctx.flags |= (end ? 0 : SERD_LIST_S_BEGIN); - } - - if (end) { - return end_collection(reader, ctx, 0, 0, true); - } - - /* The order of node allocation here is necessarily not in stack order, - so we create two nodes and recycle them throughout. */ - Ref n1 = push_node_padded(reader, genid_size(reader), SERD_BLANK, "", 0); - Ref n2 = 0; - Ref node = n1; - Ref rest = 0; - - ctx.subject = *dest; - while (!(end = peek_delim(reader, ')'))) { - // _:node rdf:first object - ctx.predicate = reader->rdf_first; - bool ate_dot = false; - if (!read_object(reader, &ctx, true, &ate_dot) || ate_dot) { - return end_collection(reader, ctx, n1, n2, false); - } - - if (!(end = peek_delim(reader, ')'))) { - /* Give rest a new ID. Done as late as possible to ensure it is - used and > IDs generated by read_object above. */ - if (!rest) { - rest = n2 = blank_id(reader); // First pass, push - } else { - set_blank_id(reader, rest, genid_size(reader)); - } - } - - // _:node rdf:rest _:rest - *ctx.flags |= SERD_LIST_CONT; - ctx.predicate = reader->rdf_rest; - TRY_RET(emit_statement(reader, ctx, - (end ? reader->rdf_nil : rest), 0, 0)); - - ctx.subject = rest; // _:node = _:rest - rest = node; // _:rest = (old)_:node - node = ctx.subject; // invariant - } - - return end_collection(reader, ctx, n1, n2, true); -} - -static Ref -read_subject(SerdReader* reader, ReadContext ctx, Ref* dest, char* s_type) -{ - bool ate_dot = false; - switch ((*s_type = peek_byte(reader))) { - case '[': - read_anon(reader, ctx, true, dest); - break; - case '(': - read_collection(reader, ctx, dest); - break; - case '_': - *dest = read_BLANK_NODE_LABEL(reader, &ate_dot); - break; - default: - TRY_RET(read_iri(reader, dest, &ate_dot)); - } - return ate_dot ? pop_node(reader, *dest) : *dest; -} - -static Ref -read_labelOrSubject(SerdReader* reader, ReadContext ctx) -{ - Ref subject = 0; - bool ate_dot = false; - switch (peek_byte(reader)) { - case '[': - eat_byte_safe(reader, '['); - read_ws_star(reader); - TRY_RET(eat_byte_check(reader, ']')); - return blank_id(reader); - case '_': - return read_BLANK_NODE_LABEL(reader, &ate_dot); - default: - read_iri(reader, &subject, &ate_dot); - } - return subject; -} - -static bool -read_triples(SerdReader* reader, ReadContext ctx, bool* ate_dot) -{ - bool ret = false; - if (ctx.subject) { - read_ws_star(reader); - switch (peek_byte(reader)) { - case '.': - *ate_dot = eat_byte_safe(reader, '.'); - return r_err(reader, SERD_ERR_BAD_SYNTAX, "syntax error\n"); - case '}': - return false; - } - ret = read_predicateObjectList(reader, ctx, ate_dot); - } - ctx.subject = ctx.predicate = 0; - return ret; -} - -static bool -read_base(SerdReader* reader, bool sparql, bool token) -{ - if (token) { - TRY_RET(eat_string(reader, "base", 4)); - } - - Ref uri; - read_ws_star(reader); - TRY_RET(uri = read_IRIREF(reader)); - if (reader->base_sink) { - reader->base_sink(reader->handle, deref(reader, uri)); - } - pop_node(reader, uri); - - read_ws_star(reader); - if (!sparql) { - return eat_byte_check(reader, '.'); - } else if (peek_byte(reader) == '.') { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "full stop after SPARQL BASE\n"); - } - return true; -} - -static bool -read_prefixID(SerdReader* reader, bool sparql, bool token) -{ - if (token) { - TRY_RET(eat_string(reader, "prefix", 6)); - } - - read_ws_star(reader); - bool ret = true; - Ref name = push_node(reader, SERD_LITERAL, "", 0); - if (read_PN_PREFIX(reader, name) > SERD_FAILURE) { - return pop_node(reader, name); - } - - if (eat_byte_check(reader, ':') != ':') { - return pop_node(reader, name); - } - - read_ws_star(reader); - const Ref uri = read_IRIREF(reader); - if (!uri) { - pop_node(reader, name); - return false; - } - - if (reader->prefix_sink) { - ret = !reader->prefix_sink(reader->handle, - deref(reader, name), - deref(reader, uri)); - } - pop_node(reader, uri); - pop_node(reader, name); - if (!sparql) { - read_ws_star(reader); - return eat_byte_check(reader, '.'); - } - return ret; -} - -static bool -read_directive(SerdReader* reader) -{ - const bool sparql = peek_byte(reader) != '@'; - if (!sparql) { - eat_byte_safe(reader, '@'); - switch (peek_byte(reader)) { - case 'B': case 'P': - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "uppercase directive\n"); - } - } - - switch (peek_byte(reader)) { - case 'B': case 'b': return read_base(reader, sparql, true); - case 'P': case 'p': return read_prefixID(reader, sparql, true); - default: - return r_err(reader, SERD_ERR_BAD_SYNTAX, "invalid directive\n"); - } - - return true; -} - -static bool -read_wrappedGraph(SerdReader* reader, ReadContext* ctx) -{ - bool ate_dot = false; - char s_type = 0; - TRY_RET(eat_byte_check(reader, '{')); - read_ws_star(reader); - while (peek_byte(reader) != '}') { - ctx->subject = 0; - Ref subj = read_subject(reader, *ctx, &ctx->subject, &s_type); - if (!subj && ctx->subject) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, "bad subject\n"); - } else if (!subj) { - return false; - } else if (!read_triples(reader, *ctx, &ate_dot) && s_type != '[') { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "missing predicate object list\n"); - } - pop_node(reader, subj); - read_ws_star(reader); - if (peek_byte(reader) == '.') { - eat_byte_safe(reader, '.'); - } - read_ws_star(reader); - } - return eat_byte_check(reader, '}'); -} - -static int -tokcmp(SerdReader* reader, Ref ref, const char* tok, size_t n) -{ - SerdNode* node = deref(reader, ref); - if (!node || node->n_bytes != n) { - return -1; - } - return serd_strncasecmp((const char*)node->buf, tok, n); -} - static bool read_statement(SerdReader* reader) { - SerdStatementFlags flags = 0; - ReadContext ctx = { 0, 0, 0, 0, 0, 0, &flags }; - Ref subj = 0; - bool ate_dot = false; - char s_type = 0; - bool ret = true; - read_ws_star(reader); - switch (peek_byte(reader)) { - case '\0': - reader->source.eof = true; - return reader->status <= SERD_FAILURE; - case '@': - if (!fancy_syntax(reader)) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "syntax does not support directives\n"); - } - TRY_RET(read_directive(reader)); - read_ws_star(reader); - break; - case '{': - if (reader->syntax == SERD_TRIG) { - TRY_RET(read_wrappedGraph(reader, &ctx)); - read_ws_star(reader); - } else { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "syntax does not support graphs\n"); - } - break; - default: - subj = read_subject(reader, ctx, &ctx.subject, &s_type); - if (!tokcmp(reader, ctx.subject, "base", 4)) { - ret = read_base(reader, true, false); - } else if (!tokcmp(reader, ctx.subject, "prefix", 6)) { - ret = read_prefixID(reader, true, false); - } else if (!tokcmp(reader, ctx.subject, "graph", 5)) { - read_ws_star(reader); - TRY_RET((ctx.graph = read_labelOrSubject(reader, ctx))); - read_ws_star(reader); - TRY_RET(read_wrappedGraph(reader, &ctx)); - read_ws_star(reader); - } else if (read_ws_star(reader) && peek_byte(reader) == '{') { - if (s_type == '(' || (s_type == '[' && !*ctx.flags)) { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "invalid graph name\n"); - } - ctx.graph = subj; - ctx.subject = subj = 0; - TRY_RET(read_wrappedGraph(reader, &ctx)); - read_ws_star(reader); - } else if (!subj) { - ret = r_err(reader, SERD_ERR_BAD_SYNTAX, "bad subject\n"); - } else if (!read_triples(reader, ctx, &ate_dot)) { - ret = (s_type == '['); - } else if (!ate_dot) { - read_ws_star(reader); - ret = (eat_byte_check(reader, '.') == '.'); - } - pop_node(reader, subj); - break; - } - return ret; -} - -static void -skip_until(SerdReader* reader, uint8_t byte) -{ - for (uint8_t c = 0; (c = peek_byte(reader)) && c != byte;) { - eat_byte_safe(reader, c); - } -} - -static bool -read_turtleTrigDoc(SerdReader* reader) -{ - while (!reader->source.eof) { - if (!read_statement(reader)) { - if (reader->strict) { - return 0; - } - skip_until(reader, '\n'); - reader->status = SERD_SUCCESS; - } - } - return reader->status <= SERD_FAILURE; -} - -static bool -read_nquadsDoc(SerdReader* reader) -{ - while (!reader->source.eof) { - SerdStatementFlags flags = 0; - ReadContext ctx = { 0, 0, 0, 0, 0, 0, &flags }; - bool ate_dot = false; - char s_type = false; - read_ws_star(reader); - if (peek_byte(reader) == '\0') { - reader->source.eof = true; - break; - } else if (peek_byte(reader) == '@') { - return r_err(reader, SERD_ERR_BAD_SYNTAX, - "syntax does not support directives\n"); - } - - // subject predicate object - if (!(ctx.subject = read_subject(reader, ctx, &ctx.subject, &s_type)) || - !read_ws_star(reader) || - !(ctx.predicate = read_IRIREF(reader)) || - !read_ws_star(reader) || - !read_object(reader, &ctx, false, &ate_dot)) { - return false; - } - - if (!ate_dot) { // graphLabel? - TRY_RET(read_ws_star(reader)); - switch (peek_byte(reader)) { - case '.': - break; - case '_': - ctx.graph = read_BLANK_NODE_LABEL(reader, &ate_dot); - break; - default: - if (!(ctx.graph = read_IRIREF(reader))) { - return false; - } - } - - // Terminating '.' - TRY_RET(read_ws_star(reader)); - eat_byte_check(reader, '.'); - } - - TRY_RET(emit_statement(reader, ctx, ctx.object, ctx.datatype, ctx.lang)); - pop_node(reader, ctx.graph); - pop_node(reader, ctx.lang); - pop_node(reader, ctx.datatype); - pop_node(reader, ctx.object); + switch (reader->syntax) { + default: return read_n3_statement(reader); } - return reader->status <= SERD_FAILURE; } static bool @@ -1851,10 +285,12 @@ serd_reader_read_file(SerdReader* reader, static SerdStatus skip_bom(SerdReader* me) { - if (peek_byte(me) == 0xEF) { - eat_byte_safe(me, 0xEF); - if (eat_byte_check(me, 0xBB) != 0xBB || - eat_byte_check(me, 0xBF) != 0xBF) { + if (serd_byte_source_peek(&me->source) == 0xEF) { + serd_byte_source_advance(&me->source); + if (serd_byte_source_peek(&me->source) != 0xBB || + serd_byte_source_advance(&me->source) || + serd_byte_source_peek(&me->source) != 0xBF || + serd_byte_source_advance(&me->source)) { r_err(me, SERD_ERR_BAD_SYNTAX, "corrupt byte order mark\n"); return SERD_ERR_BAD_SYNTAX; } diff --git a/src/reader.h b/src/reader.h new file mode 100644 index 00000000..723a1c5a --- /dev/null +++ b/src/reader.h @@ -0,0 +1,86 @@ +/* + 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" + +static inline uint8_t +peek_byte(SerdReader* reader) +{ + return serd_byte_source_peek(&reader->source); +} + +static inline uint8_t +eat_byte(SerdReader* reader) +{ + const uint8_t c = peek_byte(reader); + const SerdStatus st = serd_byte_source_advance(&reader->source); + if (st) { + reader->status = st; + } + return c; +} + +static inline uint8_t +eat_byte_safe(SerdReader* reader, const uint8_t byte) +{ + const uint8_t c = eat_byte(reader); + assert(c == byte); + return c; +} + +static inline uint8_t +eat_byte_check(SerdReader* reader, const uint8_t byte) +{ + const uint8_t c = peek_byte(reader); + if (c != byte) { + return r_err(reader, SERD_ERR_BAD_SYNTAX, + "expected `%c', not `%c'\n", byte, c); + } + return eat_byte_safe(reader, byte); +} + +static inline bool +eat_string(SerdReader* reader, const char* str, unsigned n) +{ + bool bad = false; + for (unsigned i = 0; i < n; ++i) { + bad |= (bool)eat_byte_check(reader, ((const uint8_t*)str)[i]); + } + return bad; +} + +static inline SerdStatus +push_byte(SerdReader* reader, Ref ref, const uint8_t c) +{ + SERD_STACK_ASSERT_TOP(reader, ref); + uint8_t* const s = serd_stack_push(&reader->stack, 1); + SerdNode* const node = (SerdNode*)(reader->stack.buf + ref); + ++node->n_bytes; + if (!(c & 0x80)) { // Starts with 0 bit, start of new character + ++node->n_chars; + } + *(s - 1) = c; + *s = '\0'; + return SERD_SUCCESS; +} + +static inline void +push_bytes(SerdReader* reader, Ref ref, const uint8_t* bytes, unsigned len) +{ + for (unsigned i = 0; i < len; ++i) { + push_byte(reader, ref, bytes[i]); + } +} diff --git a/src/serd_internal.h b/src/serd_internal.h index a150d9bb..cfcdc82c 100644 --- a/src/serd_internal.h +++ b/src/serd_internal.h @@ -480,4 +480,93 @@ serd_error(SerdErrorSink error_sink, void* handle, const SerdError* e) } } +int +r_err(SerdReader* reader, SerdStatus st, const char* fmt, ...); + +/* Reader */ + +#ifdef SERD_STACK_CHECK +# define SERD_STACK_ASSERT_TOP(reader, ref) \ + assert(ref == reader->allocs[reader->n_allocs - 1]); +#else +# define SERD_STACK_ASSERT_TOP(reader, ref) +#endif + +/* Reference to a node in the stack (we can not use pointers since the + stack may be reallocated, invalidating any pointers to elements). +*/ +typedef size_t Ref; + +typedef struct { + Ref graph; + Ref subject; + Ref predicate; + Ref object; + Ref datatype; + Ref lang; + SerdStatementFlags* flags; +} ReadContext; + +struct SerdReaderImpl { + void* handle; + void (*free_handle)(void* ptr); + SerdBaseSink base_sink; + SerdPrefixSink prefix_sink; + SerdStatementSink statement_sink; + SerdEndSink end_sink; + SerdErrorSink error_sink; + void* error_handle; + Ref rdf_first; + Ref rdf_rest; + Ref rdf_nil; + SerdNode default_graph; + SerdByteSource source; + SerdStack stack; + SerdSyntax syntax; + unsigned next_id; + SerdStatus status; + uint8_t* buf; + uint8_t* bprefix; + size_t bprefix_len; + bool strict; ///< True iff strict parsing + bool seen_genid; +#ifdef SERD_STACK_CHECK + Ref* allocs; ///< Stack of push offsets + size_t n_allocs; ///< Number of stack pushes +#endif +}; + +Ref push_node_padded(SerdReader* reader, + size_t maxlen, + SerdType type, + const char* str, + size_t n_bytes); + +Ref push_node(SerdReader* reader, + SerdType type, + const char* str, + size_t n_bytes); + +size_t genid_size(SerdReader* reader); +Ref blank_id(SerdReader* reader); +void set_blank_id(SerdReader* reader, Ref ref, size_t buf_size); + +SerdNode* deref(SerdReader* reader, Ref ref); + +Ref pop_node(SerdReader* reader, Ref ref); + +bool emit_statement(SerdReader* reader, ReadContext ctx, Ref o, Ref d, Ref l); + +bool read_n3_statement(SerdReader* reader); +bool read_nquadsDoc(SerdReader* reader); +bool read_turtleTrigDoc(SerdReader* reader); + +typedef enum { + FIELD_NONE, + FIELD_SUBJECT, + FIELD_PREDICATE, + FIELD_OBJECT, + FIELD_GRAPH +} Field; + #endif // SERD_INTERNAL_H diff --git a/src/writer.c b/src/writer.c index 3051232d..58cf17ee 100644 --- a/src/writer.c +++ b/src/writer.c @@ -104,14 +104,6 @@ typedef enum { WRITE_LONG_STRING } TextContext; -typedef enum { - FIELD_NONE, - FIELD_SUBJECT, - FIELD_PREDICATE, - FIELD_OBJECT, - FIELD_GRAPH -} Field; - static bool write_node(SerdWriter* writer, const SerdNode* node, -- cgit v1.2.1