/* * Copyright (c) 2020 Calvin Rose * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #ifndef JANET_AMALG #include "features.h" #include #include "util.h" #endif /* Check if a character is whitespace */ static int is_whitespace(uint8_t c) { return c == ' ' || c == '\t' || c == '\n' || c == '\r' || c == '\0' || c == '\v' || c == '\f'; } /* Code generated by tools/symcharsgen.c. * The table contains 256 bits, where each bit is 1 * if the corresponding ascii code is a symbol char, and 0 * if not. The upper characters are also considered symbol * chars and are then checked for utf-8 compliance. */ static const uint32_t symchars[8] = { 0x00000000, 0xf7ffec72, 0xc7ffffff, 0x07fffffe, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff }; /* Check if a character is a valid symbol character * symbol chars are A-Z, a-z, 0-9, or one of !$&*+-./:<=>@\^_~| */ static int is_symbol_char(uint8_t c) { return symchars[c >> 5] & ((uint32_t)1 << (c & 0x1F)); } /* Validate some utf8. Useful for identifiers. Only validates * the encoding, does not check for valid code points (they * are less well defined than the encoding). */ static int valid_utf8(const uint8_t *str, int32_t len) { int32_t i = 0; int32_t j; while (i < len) { int32_t nexti; uint8_t c = str[i]; /* Check the number of bytes in code point */ if (c < 0x80) nexti = i + 1; else if ((c >> 5) == 0x06) nexti = i + 2; else if ((c >> 4) == 0x0E) nexti = i + 3; else if ((c >> 3) == 0x1E) nexti = i + 4; /* Don't allow 5 or 6 byte code points */ else return 0; /* No overflow */ if (nexti > len) return 0; /* Ensure trailing bytes are well formed (10XX XXXX) */ for (j = i + 1; j < nexti; j++) { if ((str[j] >> 6) != 2) return 0; } /* Check for overlong encoding */ if ((nexti == i + 2) && str[i] < 0xC2) return 0; if ((str[i] == 0xE0) && str[i + 1] < 0xA0) return 0; if ((str[i] == 0xF0) && str[i + 1] < 0x90) return 0; i = nexti; } return 1; } /* Get hex digit from a letter */ static int to_hex(uint8_t c) { if (c >= '0' && c <= '9') { return c - '0'; } else if (c >= 'A' && c <= 'F') { return 10 + c - 'A'; } else if (c >= 'a' && c <= 'f') { return 10 + c - 'a'; } else { return -1; } } typedef int (*Consumer)(JanetParser *p, JanetParseState *state, uint8_t c); struct JanetParseState { int32_t counter; int32_t argn; int flags; size_t line; size_t column; Consumer consumer; }; /* Define a stack on the main parser struct */ #define DEF_PARSER_STACK(NAME, T, STACK, STACKCOUNT, STACKCAP) \ static void NAME(JanetParser *p, T x) { \ size_t oldcount = p->STACKCOUNT; \ size_t newcount = oldcount + 1; \ if (newcount > p->STACKCAP) { \ T *next; \ size_t newcap = 2 * newcount; \ next = realloc(p->STACK, sizeof(T) * newcap); \ if (NULL == next) { \ JANET_OUT_OF_MEMORY; \ } \ p->STACK = next; \ p->STACKCAP = newcap; \ } \ p->STACK[oldcount] = x; \ p->STACKCOUNT = newcount; \ } DEF_PARSER_STACK(push_buf, uint8_t, buf, bufcount, bufcap) DEF_PARSER_STACK(push_arg, Janet, args, argcount, argcap) DEF_PARSER_STACK(_pushstate, JanetParseState, states, statecount, statecap) #undef DEF_PARSER_STACK #define PFLAG_CONTAINER 0x100 #define PFLAG_BUFFER 0x200 #define PFLAG_PARENS 0x400 #define PFLAG_SQRBRACKETS 0x800 #define PFLAG_CURLYBRACKETS 0x1000 #define PFLAG_STRING 0x2000 #define PFLAG_LONGSTRING 0x4000 #define PFLAG_READERMAC 0x8000 #define PFLAG_ATSYM 0x10000 #define PFLAG_COMMENT 0x20000 #define PFLAG_TOKEN 0x40000 static void pushstate(JanetParser *p, Consumer consumer, int flags) { JanetParseState s; s.counter = 0; s.argn = 0; s.flags = flags; s.consumer = consumer; s.line = p->line; s.column = p->column; _pushstate(p, s); } static void popstate(JanetParser *p, Janet val) { for (;;) { JanetParseState top = p->states[--p->statecount]; JanetParseState *newtop = p->states + p->statecount - 1; if (newtop->flags & PFLAG_CONTAINER) { /* Source mapping info */ if (janet_checktype(val, JANET_TUPLE)) { janet_tuple_sm_line(janet_unwrap_tuple(val)) = (int32_t) top.line; janet_tuple_sm_column(janet_unwrap_tuple(val)) = (int32_t) top.column; } newtop->argn++; /* Keep track of number of values in the root state */ if (p->statecount == 1) p->pending++; push_arg(p, val); return; } else if (newtop->flags & PFLAG_READERMAC) { Janet *t = janet_tuple_begin(2); int c = newtop->flags & 0xFF; const char *which = (c == '\'') ? "quote" : (c == ',') ? "unquote" : (c == ';') ? "splice" : (c == '|') ? "short-fn" : (c == '~') ? "quasiquote" : ""; t[0] = janet_csymbolv(which); t[1] = val; /* Quote source mapping info */ janet_tuple_sm_line(t) = (int32_t) newtop->line; janet_tuple_sm_column(t) = (int32_t) newtop->column; val = janet_wrap_tuple(janet_tuple_end(t)); } else { return; } } } static int checkescape(uint8_t c) { switch (c) { default: return -1; case 'x': return 1; case 'n': return '\n'; case 't': return '\t'; case 'r': return '\r'; case '0': return '\0'; case 'z': return '\0'; case 'f': return '\f'; case 'v': return '\v'; case 'e': return 27; case '"': return '"'; case '\\': return '\\'; } } /* Forward declare */ static int stringchar(JanetParser *p, JanetParseState *state, uint8_t c); static int escapeh(JanetParser *p, JanetParseState *state, uint8_t c) { int digit = to_hex(c); if (digit < 0) { p->error = "invalid hex digit in hex escape"; return 1; } state->argn = (state->argn << 4) + digit; state->counter--; if (!state->counter) { push_buf(p, (state->argn & 0xFF)); state->argn = 0; state->consumer = stringchar; } return 1; } static int escape1(JanetParser *p, JanetParseState *state, uint8_t c) { int e = checkescape(c); if (e < 0) { p->error = "invalid string escape sequence"; return 1; } if (c == 'x') { state->counter = 2; state->argn = 0; state->consumer = escapeh; } else { push_buf(p, (uint8_t) e); state->consumer = stringchar; } return 1; } static int stringend(JanetParser *p, JanetParseState *state) { Janet ret; uint8_t *bufstart = p->buf; int32_t buflen = (int32_t) p->bufcount; if (state->flags & PFLAG_LONGSTRING) { /* Check for leading newline character so we can remove it */ if (bufstart[0] == '\n') { bufstart++; buflen--; } if (buflen > 0 && bufstart[buflen - 1] == '\n') { buflen--; } } if (state->flags & PFLAG_BUFFER) { JanetBuffer *b = janet_buffer(buflen); janet_buffer_push_bytes(b, bufstart, buflen); ret = janet_wrap_buffer(b); } else { ret = janet_wrap_string(janet_string(bufstart, buflen)); } p->bufcount = 0; popstate(p, ret); return 1; } static int stringchar(JanetParser *p, JanetParseState *state, uint8_t c) { /* Enter escape */ if (c == '\\') { state->consumer = escape1; return 1; } /* String end */ if (c == '"') { return stringend(p, state); } /* normal char */ if (c != '\n' && c != '\r') push_buf(p, c); return 1; } /* Check for string equality in the buffer */ static int check_str_const(const char *cstr, const uint8_t *str, int32_t len) { int32_t index; for (index = 0; index < len; index++) { uint8_t c = str[index]; uint8_t k = ((const uint8_t *)cstr)[index]; if (c < k) return -1; if (c > k) return 1; if (k == '\0') break; } return (cstr[index] == '\0') ? 0 : -1; } static int tokenchar(JanetParser *p, JanetParseState *state, uint8_t c) { Janet ret; double numval; int32_t blen; if (is_symbol_char(c)) { push_buf(p, (uint8_t) c); if (c > 127) state->argn = 1; /* Use to indicate non ascii */ return 1; } /* Token finished */ blen = (int32_t) p->bufcount; int start_dig = p->buf[0] >= '0' && p->buf[0] <= '9'; int start_num = start_dig || p->buf[0] == '-' || p->buf[0] == '+' || p->buf[0] == '.'; if (p->buf[0] == ':') { /* Don't do full utf-8 check unless we have seen non ascii characters. */ int valid = (!state->argn) || valid_utf8(p->buf + 1, blen - 1); if (!valid) { p->error = "invalid utf-8 in keyword"; return 0; } ret = janet_keywordv(p->buf + 1, blen - 1); } else if (start_num && !janet_scan_number(p->buf, blen, &numval)) { ret = janet_wrap_number(numval); } else if (!check_str_const("nil", p->buf, blen)) { ret = janet_wrap_nil(); } else if (!check_str_const("false", p->buf, blen)) { ret = janet_wrap_false(); } else if (!check_str_const("true", p->buf, blen)) { ret = janet_wrap_true(); } else { if (start_dig) { p->error = "symbol literal cannot start with a digit"; return 0; } else { /* Don't do full utf-8 check unless we have seen non ascii characters. */ int valid = (!state->argn) || valid_utf8(p->buf, blen); if (!valid) { p->error = "invalid utf-8 in symbol"; return 0; } ret = janet_symbolv(p->buf, blen); } } p->bufcount = 0; popstate(p, ret); return 0; } static int comment(JanetParser *p, JanetParseState *state, uint8_t c) { (void) state; if (c == '\n') { p->statecount--; p->bufcount = 0; } else { push_buf(p, c); } return 1; } static Janet close_tuple(JanetParser *p, JanetParseState *state, int32_t flag) { Janet *ret = janet_tuple_begin(state->argn); janet_tuple_flag(ret) |= flag; for (int32_t i = state->argn - 1; i >= 0; i--) ret[i] = p->args[--p->argcount]; return janet_wrap_tuple(janet_tuple_end(ret)); } static Janet close_array(JanetParser *p, JanetParseState *state) { JanetArray *array = janet_array(state->argn); for (int32_t i = state->argn - 1; i >= 0; i--) array->data[i] = p->args[--p->argcount]; array->count = state->argn; return janet_wrap_array(array); } static Janet close_struct(JanetParser *p, JanetParseState *state) { JanetKV *st = janet_struct_begin(state->argn >> 1); for (int32_t i = state->argn; i > 0; i -= 2) { Janet value = p->args[--p->argcount]; Janet key = p->args[--p->argcount]; janet_struct_put(st, key, value); } return janet_wrap_struct(janet_struct_end(st)); } static Janet close_table(JanetParser *p, JanetParseState *state) { JanetTable *table = janet_table(state->argn >> 1); for (int32_t i = state->argn; i > 0; i -= 2) { Janet value = p->args[--p->argcount]; Janet key = p->args[--p->argcount]; janet_table_put(table, key, value); } return janet_wrap_table(table); } #define PFLAG_INSTRING 0x100000 #define PFLAG_END_CANDIDATE 0x200000 static int longstring(JanetParser *p, JanetParseState *state, uint8_t c) { if (state->flags & PFLAG_INSTRING) { /* We are inside the long string */ if (c == '`') { state->flags |= PFLAG_END_CANDIDATE; state->flags &= ~PFLAG_INSTRING; state->counter = 1; /* Use counter to keep track of number of '=' seen */ return 1; } push_buf(p, c); return 1; } else if (state->flags & PFLAG_END_CANDIDATE) { int i; /* We are checking a potential end of the string */ if (state->counter == state->argn) { stringend(p, state); return 0; } if (c == '`' && state->counter < state->argn) { state->counter++; return 1; } /* Failed end candidate */ for (i = 0; i < state->counter; i++) { push_buf(p, '`'); } push_buf(p, c); state->counter = 0; state->flags &= ~PFLAG_END_CANDIDATE; state->flags |= PFLAG_INSTRING; return 1; } else { /* We are at beginning of string */ state->argn++; if (c != '`') { state->flags |= PFLAG_INSTRING; push_buf(p, c); } return 1; } } static int root(JanetParser *p, JanetParseState *state, uint8_t c); static int atsign(JanetParser *p, JanetParseState *state, uint8_t c) { (void) state; p->statecount--; switch (c) { case '{': pushstate(p, root, PFLAG_CONTAINER | PFLAG_CURLYBRACKETS | PFLAG_ATSYM); return 1; case '"': pushstate(p, stringchar, PFLAG_BUFFER | PFLAG_STRING); return 1; case '`': pushstate(p, longstring, PFLAG_BUFFER | PFLAG_LONGSTRING); return 1; case '[': pushstate(p, root, PFLAG_CONTAINER | PFLAG_SQRBRACKETS | PFLAG_ATSYM); return 1; case '(': pushstate(p, root, PFLAG_CONTAINER | PFLAG_PARENS | PFLAG_ATSYM); return 1; default: break; } pushstate(p, tokenchar, PFLAG_TOKEN); push_buf(p, '@'); /* Push the leading at-sign that was dropped */ return 0; } /* The root state of the parser */ static int root(JanetParser *p, JanetParseState *state, uint8_t c) { switch (c) { default: if (is_whitespace(c)) return 1; if (!is_symbol_char(c)) { p->error = "unexpected character"; return 1; } pushstate(p, tokenchar, PFLAG_TOKEN); return 0; case '\'': case ',': case ';': case '~': case '|': pushstate(p, root, PFLAG_READERMAC | c); return 1; case '"': pushstate(p, stringchar, PFLAG_STRING); return 1; case '#': pushstate(p, comment, PFLAG_COMMENT); return 1; case '@': pushstate(p, atsign, PFLAG_ATSYM); return 1; case '`': pushstate(p, longstring, PFLAG_LONGSTRING); return 1; case ')': case ']': case '}': { Janet ds; if (p->statecount == 1) { p->error = "unexpected delimiter"; return 1; } if ((c == ')' && (state->flags & PFLAG_PARENS)) || (c == ']' && (state->flags & PFLAG_SQRBRACKETS))) { if (state->flags & PFLAG_ATSYM) { ds = close_array(p, state); } else { ds = close_tuple(p, state, c == ']' ? JANET_TUPLE_FLAG_BRACKETCTOR : 0); } } else if (c == '}' && (state->flags & PFLAG_CURLYBRACKETS)) { if (state->argn & 1) { p->error = "struct and table literals expect even number of arguments"; return 1; } if (state->flags & PFLAG_ATSYM) { ds = close_table(p, state); } else { ds = close_struct(p, state); } } else { p->error = "mismatched delimiter"; return 1; } popstate(p, ds); } return 1; case '(': pushstate(p, root, PFLAG_CONTAINER | PFLAG_PARENS); return 1; case '[': pushstate(p, root, PFLAG_CONTAINER | PFLAG_SQRBRACKETS); return 1; case '{': pushstate(p, root, PFLAG_CONTAINER | PFLAG_CURLYBRACKETS); return 1; } } static void janet_parser_checkdead(JanetParser *parser) { if (parser->flag) janet_panic("parser is dead, cannot consume"); if (parser->error) janet_panic("parser has unchecked error, cannot consume"); } /* Public API */ void janet_parser_consume(JanetParser *parser, uint8_t c) { int consumed = 0; janet_parser_checkdead(parser); if (c == '\r') { parser->line++; parser->column = 0; } else if (c == '\n') { parser->column = 0; if (parser->lookback != '\r') parser->line++; } else { parser->column++; } while (!consumed && !parser->error) { JanetParseState *state = parser->states + parser->statecount - 1; consumed = state->consumer(parser, state, c); } parser->lookback = c; } void janet_parser_eof(JanetParser *parser) { janet_parser_checkdead(parser); size_t oldcolumn = parser->column; size_t oldline = parser->line; janet_parser_consume(parser, '\n'); if (parser->statecount > 1) { parser->error = "unexpected end of source"; } parser->line = oldline; parser->column = oldcolumn; parser->flag = 1; } enum JanetParserStatus janet_parser_status(JanetParser *parser) { if (parser->error) return JANET_PARSE_ERROR; if (parser->flag) return JANET_PARSE_DEAD; if (parser->statecount > 1) return JANET_PARSE_PENDING; return JANET_PARSE_ROOT; } void janet_parser_flush(JanetParser *parser) { parser->argcount = 0; parser->statecount = 1; parser->bufcount = 0; parser->pending = 0; } const char *janet_parser_error(JanetParser *parser) { enum JanetParserStatus status = janet_parser_status(parser); if (status == JANET_PARSE_ERROR) { const char *e = parser->error; parser->error = NULL; janet_parser_flush(parser); return e; } return NULL; } Janet janet_parser_produce(JanetParser *parser) { Janet ret; size_t i; if (parser->pending == 0) return janet_wrap_nil(); ret = parser->args[0]; for (i = 1; i < parser->argcount; i++) { parser->args[i - 1] = parser->args[i]; } parser->pending--; parser->argcount--; return ret; } void janet_parser_init(JanetParser *parser) { parser->args = NULL; parser->states = NULL; parser->buf = NULL; parser->argcount = 0; parser->argcap = 0; parser->bufcount = 0; parser->bufcap = 0; parser->statecount = 0; parser->statecap = 0; parser->error = NULL; parser->lookback = -1; parser->line = 1; parser->column = 0; parser->pending = 0; parser->flag = 0; pushstate(parser, root, PFLAG_CONTAINER); } void janet_parser_deinit(JanetParser *parser) { free(parser->args); free(parser->buf); free(parser->states); } void janet_parser_clone(const JanetParser *src, JanetParser *dest) { /* Misc fields */ dest->flag = src->flag; dest->pending = src->pending; dest->lookback = src->lookback; dest->line = src->line; dest->column = src->column; dest->error = src->error; /* Keep counts */ dest->argcount = src->argcount; dest->bufcount = src->bufcount; dest->statecount = src->statecount; /* Capacities are equal to counts */ dest->bufcap = dest->bufcount; dest->statecap = dest->statecount; dest->argcap = dest->argcount; /* Deep cloned fields */ dest->args = NULL; dest->states = NULL; dest->buf = NULL; if (dest->bufcap) { dest->buf = malloc(dest->bufcap); if (!dest->buf) goto nomem; memcpy(dest->buf, src->buf, dest->bufcap); } if (dest->argcap) { dest->args = malloc(sizeof(Janet) * dest->argcap); if (!dest->args) goto nomem; memcpy(dest->args, src->args, dest->argcap * sizeof(Janet)); } if (dest->statecap) { dest->states = malloc(sizeof(JanetParseState) * dest->statecap); if (!dest->states) goto nomem; memcpy(dest->states, src->states, dest->statecap * sizeof(JanetParseState)); } return; nomem: JANET_OUT_OF_MEMORY; } int janet_parser_has_more(JanetParser *parser) { return !!parser->pending; } /* C functions */ static int parsermark(void *p, size_t size) { size_t i; JanetParser *parser = (JanetParser *)p; (void) size; for (i = 0; i < parser->argcount; i++) { janet_mark(parser->args[i]); } return 0; } static int parsergc(void *p, size_t size) { JanetParser *parser = (JanetParser *)p; (void) size; janet_parser_deinit(parser); return 0; } static int parserget(void *p, Janet key, Janet *out); static JanetAbstractType janet_parse_parsertype = { "core/parser", parsergc, parsermark, parserget, JANET_ATEND_GET }; /* C Function parser */ static Janet cfun_parse_parser(int32_t argc, Janet *argv) { (void) argv; janet_fixarity(argc, 0); JanetParser *p = janet_abstract(&janet_parse_parsertype, sizeof(JanetParser)); janet_parser_init(p); return janet_wrap_abstract(p); } static Janet cfun_parse_consume(int32_t argc, Janet *argv) { janet_arity(argc, 2, 3); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); JanetByteView view = janet_getbytes(argv, 1); if (argc == 3) { int32_t offset = janet_getinteger(argv, 2); if (offset < 0 || offset > view.len) janet_panicf("invalid offset %d out of range [0,%d]", offset, view.len); view.len -= offset; view.bytes += offset; } int32_t i; for (i = 0; i < view.len; i++) { janet_parser_consume(p, view.bytes[i]); switch (janet_parser_status(p)) { case JANET_PARSE_ROOT: case JANET_PARSE_PENDING: break; default: return janet_wrap_integer(i + 1); } } return janet_wrap_integer(i); } static Janet cfun_parse_eof(int32_t argc, Janet *argv) { janet_fixarity(argc, 1); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); janet_parser_eof(p); return argv[0]; } static Janet cfun_parse_insert(int32_t argc, Janet *argv) { janet_fixarity(argc, 2); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); JanetParseState *s = p->states + p->statecount - 1; if (s->consumer == tokenchar) { janet_parser_consume(p, ' '); p->column--; s = p->states + p->statecount - 1; } if (s->flags & PFLAG_COMMENT) s--; if (s->flags & PFLAG_CONTAINER) { s->argn++; if (p->statecount == 1) p->pending++; push_arg(p, argv[1]); } else if (s->flags & (PFLAG_STRING | PFLAG_LONGSTRING)) { const uint8_t *str = janet_to_string(argv[1]); int32_t slen = janet_string_length(str); size_t newcount = p->bufcount + slen; if (p->bufcap < newcount) { size_t newcap = 2 * newcount; p->buf = realloc(p->buf, newcap); if (p->buf == NULL) { JANET_OUT_OF_MEMORY; } p->bufcap = newcap; } safe_memcpy(p->buf + p->bufcount, str, slen); p->bufcount = newcount; } else { janet_panic("cannot insert value into parser"); } return argv[0]; } static Janet cfun_parse_has_more(int32_t argc, Janet *argv) { janet_fixarity(argc, 1); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); return janet_wrap_boolean(janet_parser_has_more(p)); } static Janet cfun_parse_byte(int32_t argc, Janet *argv) { janet_fixarity(argc, 2); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); int32_t i = janet_getinteger(argv, 1); janet_parser_consume(p, 0xFF & i); return argv[0]; } static Janet cfun_parse_status(int32_t argc, Janet *argv) { janet_fixarity(argc, 1); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); const char *stat = NULL; switch (janet_parser_status(p)) { case JANET_PARSE_PENDING: stat = "pending"; break; case JANET_PARSE_ERROR: stat = "error"; break; case JANET_PARSE_ROOT: stat = "root"; break; case JANET_PARSE_DEAD: stat = "dead"; break; } return janet_ckeywordv(stat); } static Janet cfun_parse_error(int32_t argc, Janet *argv) { janet_fixarity(argc, 1); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); const char *err = janet_parser_error(p); if (err) return janet_cstringv(err); return janet_wrap_nil(); } static Janet cfun_parse_produce(int32_t argc, Janet *argv) { janet_fixarity(argc, 1); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); return janet_parser_produce(p); } static Janet cfun_parse_flush(int32_t argc, Janet *argv) { janet_fixarity(argc, 1); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); janet_parser_flush(p); return argv[0]; } static Janet cfun_parse_where(int32_t argc, Janet *argv) { janet_fixarity(argc, 1); JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); Janet *tup = janet_tuple_begin(2); tup[0] = janet_wrap_integer(p->line); tup[1] = janet_wrap_integer(p->column); return janet_wrap_tuple(janet_tuple_end(tup)); } static Janet janet_wrap_parse_state(JanetParseState *s, Janet *args, uint8_t *buff, uint32_t bufcount) { JanetTable *state = janet_table(0); const uint8_t *buffer; int add_buffer = 0; const char *type = NULL; if (s->flags & PFLAG_CONTAINER) { JanetArray *container_args = janet_array(s->argn); container_args->count = s->argn; safe_memcpy(container_args->data, args, sizeof(args[0])*s->argn); janet_table_put(state, janet_ckeywordv("args"), janet_wrap_array(container_args)); } if (s->flags & PFLAG_PARENS || s->flags & PFLAG_SQRBRACKETS) { if (s->flags & PFLAG_ATSYM) { type = "array"; } else { type = "tuple"; } } else if (s->flags & PFLAG_CURLYBRACKETS) { if (s->flags & PFLAG_ATSYM) { type = "table"; } else { type = "struct"; } } else if (s->flags & PFLAG_STRING || s->flags & PFLAG_LONGSTRING) { if (s->flags & PFLAG_BUFFER) { type = "buffer"; } else { type = "string"; } add_buffer = 1; } else if (s->flags & PFLAG_COMMENT) { type = "comment"; add_buffer = 1; } else if (s->flags & PFLAG_TOKEN) { type = "token"; add_buffer = 1; } else if (s->flags & PFLAG_ATSYM) { type = "at"; } else if (s->flags & PFLAG_READERMAC) { int c = s->flags & 0xFF; type = (c == '\'') ? "quote" : (c == ',') ? "unquote" : (c == ';') ? "splice" : (c == '~') ? "quasiquote" : ""; } else { type = "root"; } if (type) { janet_table_put(state, janet_ckeywordv("type"), janet_ckeywordv(type)); } if (add_buffer) { buffer = janet_string(buff, bufcount); janet_table_put(state, janet_ckeywordv("buffer"), janet_wrap_string(buffer)); } janet_table_put(state, janet_ckeywordv("line"), janet_wrap_integer(s->line)); janet_table_put(state, janet_ckeywordv("column"), janet_wrap_integer(s->column)); return janet_wrap_table(state); } struct ParserStateGetter { const char *name; Janet(*fn)(const JanetParser *p); }; static Janet parser_state_delimiters(const JanetParser *_p) { JanetParser *clone = janet_abstract(&janet_parse_parsertype, sizeof(JanetParser)); janet_parser_clone(_p, clone); size_t i; const uint8_t *str; size_t oldcount; oldcount = clone->bufcount; for (i = 0; i < clone->statecount; i++) { JanetParseState *s = clone->states + i; if (s->flags & PFLAG_PARENS) { push_buf(clone, '('); } else if (s->flags & PFLAG_SQRBRACKETS) { push_buf(clone, '['); } else if (s->flags & PFLAG_CURLYBRACKETS) { push_buf(clone, '{'); } else if (s->flags & PFLAG_STRING) { push_buf(clone, '"'); } else if (s->flags & PFLAG_LONGSTRING) { int32_t i; for (i = 0; i < s->argn; i++) { push_buf(clone, '`'); } } } str = janet_string(clone->buf + oldcount, (int32_t)(clone->bufcount - oldcount)); clone->bufcount = oldcount; return janet_wrap_string(str); } static Janet parser_state_frames(const JanetParser *p) { int32_t count = (int32_t) p->statecount; JanetArray *states = janet_array(count); states->count = count; uint8_t *buf = p->buf; Janet *args = p->args; for (int32_t i = count - 1; i >= 0; --i) { JanetParseState *s = p->states + i; states->data[i] = janet_wrap_parse_state(s, args, buf, (uint32_t) p->bufcount); args -= s->argn; } return janet_wrap_array(states); } static const struct ParserStateGetter parser_state_getters[] = { {"frames", parser_state_frames}, {"delimiters", parser_state_delimiters}, {NULL, NULL} }; static Janet cfun_parse_state(int32_t argc, Janet *argv) { janet_arity(argc, 1, 2); const uint8_t *key = NULL; JanetParser *p = janet_getabstract(argv, 0, &janet_parse_parsertype); if (argc == 2) { key = janet_getkeyword(argv, 1); } if (key) { /* Get one result */ for (const struct ParserStateGetter *sg = parser_state_getters; sg->name != NULL; sg++) { if (janet_cstrcmp(key, sg->name)) continue; return sg->fn(p); } janet_panicf("unexpected keyword %v", janet_wrap_keyword(key)); return janet_wrap_nil(); } else { /* Put results in table */ JanetTable *tab = janet_table(0); for (const struct ParserStateGetter *sg = parser_state_getters; sg->name != NULL; sg++) { janet_table_put(tab, janet_ckeywordv(sg->name), sg->fn(p)); } return janet_wrap_table(tab); } } static Janet cfun_parse_clone(int32_t argc, Janet *argv) { janet_fixarity(argc, 1); JanetParser *src = janet_getabstract(argv, 0, &janet_parse_parsertype); JanetParser *dest = janet_abstract(&janet_parse_parsertype, sizeof(JanetParser)); janet_parser_clone(src, dest); return janet_wrap_abstract(dest); } static const JanetMethod parser_methods[] = { {"byte", cfun_parse_byte}, {"clone", cfun_parse_clone}, {"consume", cfun_parse_consume}, {"eof", cfun_parse_eof}, {"error", cfun_parse_error}, {"flush", cfun_parse_flush}, {"has-more", cfun_parse_has_more}, {"insert", cfun_parse_insert}, {"produce", cfun_parse_produce}, {"state", cfun_parse_state}, {"status", cfun_parse_status}, {"where", cfun_parse_where}, {NULL, NULL} }; static int parserget(void *p, Janet key, Janet *out) { (void) p; if (!janet_checktype(key, JANET_KEYWORD)) return 0; return janet_getmethod(janet_unwrap_keyword(key), parser_methods, out); } static const JanetReg parse_cfuns[] = { { "parser/new", cfun_parse_parser, JDOC("(parser/new)\n\n" "Creates and returns a new parser object. Parsers are state machines " "that can receive bytes, and generate a stream of janet values.") }, { "parser/clone", cfun_parse_clone, JDOC("(parser/clone p)\n\n" "Creates a deep clone of a parser that is identical to the input parser. " "This cloned parser can be used to continue parsing from a good checkpoint " "if parsing later fails. Returns a new parser.") }, { "parser/has-more", cfun_parse_has_more, JDOC("(parser/has-more parser)\n\n" "Check if the parser has more values in the value queue.") }, { "parser/produce", cfun_parse_produce, JDOC("(parser/produce parser)\n\n" "Dequeue the next value in the parse queue. Will return nil if " "no parsed values are in the queue, otherwise will dequeue the " "next value.") }, { "parser/consume", cfun_parse_consume, JDOC("(parser/consume parser bytes &opt index)\n\n" "Input bytes into the parser and parse them. Will not throw errors " "if there is a parse error. Starts at the byte index given by index. Returns " "the number of bytes read.") }, { "parser/byte", cfun_parse_byte, JDOC("(parser/byte parser b)\n\n" "Input a single byte into the parser byte stream. Returns the parser.") }, { "parser/error", cfun_parse_error, JDOC("(parser/error parser)\n\n" "If the parser is in the error state, returns the message associated with " "that error. Otherwise, returns nil. Also flushes the parser state and parser " "queue, so be sure to handle everything in the queue before calling " "parser/error.") }, { "parser/status", cfun_parse_status, JDOC("(parser/status parser)\n\n" "Gets the current status of the parser state machine. The status will " "be one of:\n\n" "\t:pending - a value is being parsed.\n" "\t:error - a parsing error was encountered.\n" "\t:root - the parser can either read more values or safely terminate.") }, { "parser/flush", cfun_parse_flush, JDOC("(parser/flush parser)\n\n" "Clears the parser state and parse queue. Can be used to reset the parser " "if an error was encountered. Does not reset the line and column counter, so " "to begin parsing in a new context, create a new parser.") }, { "parser/state", cfun_parse_state, JDOC("(parser/state parser &opt key)\n\n" "Returns a representation of the internal state of the parser. If a key is passed, " "only that information about the state is returned. Allowed keys are:\n\n" "\t:delimiters - Each byte in the string represents a nested data structure. For example, " "if the parser state is '([\"', then the parser is in the middle of parsing a " "string inside of square brackets inside parentheses. Can be used to augment a REPL prompt." "\t:frames - Each table in the array represents a 'frame' in the parser state. Frames " "contain information about the start of the expression being parsed as well as the " "type of that expression and some type-specific information.") }, { "parser/where", cfun_parse_where, JDOC("(parser/where parser)\n\n" "Returns the current line number and column of the parser's internal state.") }, { "parser/eof", cfun_parse_eof, JDOC("(parser/eof parser)\n\n" "Indicate that the end of file was reached to the parser. This puts the parser in the :dead state.") }, { "parser/insert", cfun_parse_insert, JDOC("(parser/insert parser value)\n\n" "Insert a value into the parser. This means that the parser state can be manipulated " "in between chunks of bytes. This would allow a user to add extra elements to arrays " "and tuples, for example. Returns the parser.") }, {NULL, NULL, NULL} }; /* Load the library */ void janet_lib_parse(JanetTable *env) { janet_core_cfuns(env, NULL, parse_cfuns); }