ref: 983c8476aaabb3ae2868371be198c9ee972dd0dc
dir: /read.c/
enum { TOK_NONE, TOK_OPEN, TOK_CLOSE, TOK_DOT, TOK_QUOTE, TOK_SYM, TOK_NUM, TOK_BQ, TOK_COMMA, TOK_COMMAAT, TOK_COMMADOT, TOK_SHARPDOT, TOK_LABEL, TOK_BACKREF, TOK_SHARPQUOTE, TOK_SHARPOPEN, TOK_OPENB, TOK_CLOSEB, TOK_SHARPSYM, TOK_GENSYM, TOK_DOUBLEQUOTE }; #define F value2c(ios_t*,readstate->source) // defines which characters are ordinary symbol characters. // exceptions are '.', which is an ordinary symbol character // unless it's the only character in the symbol, and '#', which is // an ordinary symbol character unless it's the first character. static inline int symchar(char c) { static char *special = "()[]'\";`,\\| \f\n\r\t\v"; return !strchr(special, c); } int isnumtok_base(char *tok, value_t *pval, int base) { char *end; int64_t i64; uint64_t ui64; double d; if (*tok == '\0') return 0; if (!((tok[0]=='0' && tok[1]=='x') || (base >= 15)) && strpbrk(tok, ".eEpP")) { d = strtod(tok, &end); if (*end == '\0') { if (pval) *pval = mk_double(d); return 1; } // floats can end in f or f0 if (end > tok && end[0] == 'f' && (end[1] == '\0' || (end[1] == '0' && end[2] == '\0'))) { if (pval) *pval = mk_float((float)d); return 1; } } if (tok[0] == '+') { if (!strcmp(tok,"+NaN") || !strcasecmp(tok,"+nan.0")) { if (pval) *pval = mk_double(D_PNAN); return 1; } if (!strcmp(tok,"+Inf") || !strcasecmp(tok,"+inf.0")) { if (pval) *pval = mk_double(D_PINF); return 1; } } else if (tok[0] == '-') { if (!strcmp(tok,"-NaN") || !strcasecmp(tok,"-nan.0")) { if (pval) *pval = mk_double(D_NNAN); return 1; } if (!strcmp(tok,"-Inf") || !strcasecmp(tok,"-inf.0")) { if (pval) *pval = mk_double(D_NINF); return 1; } errno = 0; i64 = strtoll(tok, &end, base); if (errno) return 0; if (pval) *pval = return_from_int64(i64); return (*end == '\0'); } errno = 0; ui64 = strtoull(tok, &end, base); if (errno) return 0; if (pval) *pval = return_from_uint64(ui64); return (*end == '\0'); } static int isnumtok(char *tok, value_t *pval) { return isnumtok_base(tok, pval, 0); } static int read_numtok(char *tok, value_t *pval, int base) { int result; errno = 0; result = isnumtok_base(tok, pval, base); if (errno == ERANGE) lerrorf(ParseError, "read: overflow in numeric constant %s", tok); return result; } static u_int32_t toktype = TOK_NONE; static value_t tokval; static char buf[256]; static char nextchar(void) { int ch; char c; ios_t *f = F; do { if (f->bpos < f->size) { ch = f->buf[f->bpos++]; } else { ch = ios_getc(f); if (ch == IOS_EOF) return 0; } c = (char)ch; if (c == ';') { // single-line comment do { ch = ios_getc(f); if (ch == IOS_EOF) return 0; } while ((char)ch != '\n'); c = (char)ch; } } while (c==' ' || isspace(c)); return c; } static void take(void) { toktype = TOK_NONE; } static void accumchar(char c, int *pi) { buf[(*pi)++] = c; if (*pi >= (int)(sizeof(buf)-1)) lerror(ParseError, "read: token too long"); } // return: 1 if escaped (forced to be symbol) static int read_token(char c, int digits) { int i=0, ch, escaped=0, issym=0, first=1; while (1) { if (!first) { ch = ios_getc(F); if (ch == IOS_EOF) goto terminate; c = (char)ch; } first = 0; if (c == '|') { issym = 1; escaped = !escaped; } else if (c == '\\') { issym = 1; ch = ios_getc(F); if (ch == IOS_EOF) goto terminate; accumchar((char)ch, &i); } else if (!escaped && !(symchar(c) && (!digits || isdigit(c)))) { break; } else { accumchar(c, &i); } } ios_ungetc(c, F); terminate: buf[i++] = '\0'; return issym; } static value_t do_read_sexpr(value_t label); static u_int32_t peek(void) { char c, *end; fixnum_t x; int ch, base; if (toktype != TOK_NONE) return toktype; c = nextchar(); if (ios_eof(F)) return TOK_NONE; if (c == '(') { toktype = TOK_OPEN; } else if (c == ')') { toktype = TOK_CLOSE; } else if (c == '[') { toktype = TOK_OPENB; } else if (c == ']') { toktype = TOK_CLOSEB; } else if (c == '\'') { toktype = TOK_QUOTE; } else if (c == '`') { toktype = TOK_BQ; } else if (c == '"') { toktype = TOK_DOUBLEQUOTE; } else if (c == '#') { ch = ios_getc(F); c = (char)ch; if (ch == IOS_EOF) lerror(ParseError, "read: invalid read macro"); if (c == '.') { toktype = TOK_SHARPDOT; } else if (c == '\'') { toktype = TOK_SHARPQUOTE; } else if (c == '\\') { uint32_t cval; if (ios_getutf8(F, &cval) == IOS_EOF) lerror(ParseError, "read: end of input in character constant"); if (cval == (uint32_t)'u' || cval == (uint32_t)'U' || cval == (uint32_t)'x') { read_token('u', 0); if (buf[1] != '\0') { // not a solitary 'u','U','x' if (!read_numtok(&buf[1], &tokval, 16)) lerror(ParseError, "read: invalid hex character constant"); cval = numval(tokval); } } else if (cval >= 'a' && cval <= 'z') { read_token((char)cval, 0); tokval = symbol(buf); if (buf[1] == '\0') /* one character */; else if (tokval == nulsym) cval = 0x00; else if (tokval == alarmsym) cval = 0x07; else if (tokval == backspacesym) cval = 0x08; else if (tokval == tabsym) cval = 0x09; else if (tokval == linefeedsym) cval = 0x0A; else if (tokval == newlinesym) cval = 0x0A; else if (tokval == vtabsym) cval = 0x0B; else if (tokval == pagesym) cval = 0x0C; else if (tokval == returnsym) cval = 0x0D; else if (tokval == escsym) cval = 0x1B; else if (tokval == spacesym) cval = 0x20; else if (tokval == deletesym) cval = 0x7F; else lerrorf(ParseError, "read: unknown character #\\%s", buf); } toktype = TOK_NUM; tokval = mk_wchar(cval); } else if (c == '(') { toktype = TOK_SHARPOPEN; } else if (c == '<') { lerror(ParseError, "read: unreadable object"); } else if (isdigit(c)) { read_token(c, 1); c = (char)ios_getc(F); if (c == '#') toktype = TOK_BACKREF; else if (c == '=') toktype = TOK_LABEL; else lerror(ParseError, "read: invalid label"); errno = 0; x = strtol(buf, &end, 10); if (*end != '\0' || errno) lerror(ParseError, "read: invalid label"); tokval = fixnum(x); } else if (c == '!') { // #! single line comment for shbang script support do { ch = ios_getc(F); } while (ch != IOS_EOF && (char)ch != '\n'); return peek(); } else if (c == '|') { // multiline comment int commentlevel=1; while (1) { ch = ios_getc(F); hashpipe_gotc: if (ch == IOS_EOF) lerror(ParseError, "read: eof within comment"); if ((char)ch == '|') { ch = ios_getc(F); if ((char)ch == '#') { commentlevel--; if (commentlevel == 0) break; else continue; } goto hashpipe_gotc; } else if ((char)ch == '#') { ch = ios_getc(F); if ((char)ch == '|') commentlevel++; else goto hashpipe_gotc; } } // this was whitespace, so keep peeking return peek(); } else if (c == ';') { // datum comment (void)do_read_sexpr(UNBOUND); // skip return peek(); } else if (c == ':') { // gensym ch = ios_getc(F); if ((char)ch == 'g') ch = ios_getc(F); read_token((char)ch, 0); errno = 0; x = strtol(buf, &end, 10); if (*end != '\0' || buf[0] == '\0' || errno) lerror(ParseError, "read: invalid gensym label"); toktype = TOK_GENSYM; tokval = fixnum(x); } else if (symchar(c)) { read_token(ch, 0); if (((c == 'b' && (base= 2)) || (c == 'o' && (base= 8)) || (c == 'd' && (base=10)) || (c == 'x' && (base=16))) && (isdigit_base(buf[1],base) || buf[1]=='-')) { if (!read_numtok(&buf[1], &tokval, base)) lerrorf(ParseError, "read: invalid base %d constant", base); return (toktype=TOK_NUM); } toktype = TOK_SHARPSYM; tokval = symbol(buf); } else { lerror(ParseError, "read: unknown read macro"); } } else if (c == ',') { toktype = TOK_COMMA; ch = ios_getc(F); if (ch == IOS_EOF) return toktype; if ((char)ch == '@') toktype = TOK_COMMAAT; else if ((char)ch == '.') toktype = TOK_COMMADOT; else ios_ungetc((char)ch, F); } else { if (!read_token(c, 0)) { if (buf[0]=='.' && buf[1]=='\0') { return (toktype=TOK_DOT); } else { if (read_numtok(buf, &tokval, 0)) return (toktype=TOK_NUM); } } toktype = TOK_SYM; tokval = symbol(buf); } return toktype; } // NOTE: this is NOT an efficient operation. it is only used by the // reader, and requires at least 1 and up to 3 garbage collections! static value_t vector_grow(value_t v) { size_t i, s = vector_size(v); size_t d = vector_grow_amt(s); PUSH(v); assert(s+d > s); value_t newv = alloc_vector(s+d, 1); v = Stack[SP-1]; for(i=0; i < s; i++) vector_elt(newv, i) = vector_elt(v, i); // use gc to rewrite references from the old vector to the new Stack[SP-1] = newv; if (s > 0) { ((size_t*)ptr(v))[0] |= 0x1; vector_elt(v, 0) = newv; gc(0); } return POP(); } static value_t read_vector(value_t label, u_int32_t closer) { value_t v=the_empty_vector, elt; u_int32_t i=0; PUSH(v); if (label != UNBOUND) ptrhash_put(&readstate->backrefs, (void*)label, (void*)v); while (peek() != closer) { if (ios_eof(F)) lerror(ParseError, "read: unexpected end of input"); if (i >= vector_size(v)) { v = Stack[SP-1] = vector_grow(v); if (label != UNBOUND) ptrhash_put(&readstate->backrefs, (void*)label, (void*)v); } elt = do_read_sexpr(UNBOUND); v = Stack[SP-1]; assert(i < vector_size(v)); vector_elt(v,i) = elt; i++; } take(); if (i > 0) vector_setsize(v, i); return POP(); } static value_t read_string(void) { char *buf, *temp; char eseq[10]; size_t i=0, j, sz = 64, ndig; int c; value_t s; u_int32_t wc=0; buf = malloc(sz); while (1) { if (i >= sz-4) { // -4: leaves room for longest utf8 sequence sz *= 2; temp = realloc(buf, sz); if (temp == NULL) { free(buf); lerror(ParseError, "read: out of memory reading string"); } buf = temp; } c = ios_getc(F); if (c == IOS_EOF) { free(buf); lerror(ParseError, "read: unexpected end of input in string"); } if (c == '"') break; else if (c == '\\') { c = ios_getc(F); if (c == IOS_EOF) { free(buf); lerror(ParseError, "read: end of input in escape sequence"); } j=0; if (octal_digit(c)) { do { eseq[j++] = c; c = ios_getc(F); } while (octal_digit(c) && j<3 && (c!=IOS_EOF)); if (c!=IOS_EOF) ios_ungetc(c, F); eseq[j] = '\0'; wc = strtol(eseq, NULL, 8); // \DDD and \xXX read bytes, not characters buf[i++] = ((char)wc); } else if ((c=='x' && (ndig=2)) || (c=='u' && (ndig=4)) || (c=='U' && (ndig=8))) { c = ios_getc(F); while (hex_digit(c) && j<ndig && (c!=IOS_EOF)) { eseq[j++] = c; c = ios_getc(F); } if (c!=IOS_EOF) ios_ungetc(c, F); eseq[j] = '\0'; if (j) wc = strtol(eseq, NULL, 16); if (!j || wc > 0x10ffff) { free(buf); lerror(ParseError, "read: invalid escape sequence"); } if (ndig == 2) buf[i++] = ((char)wc); else i += u8_wc_toutf8(&buf[i], wc); } else { buf[i++] = read_escape_control_char((char)c); } } else { buf[i++] = c; } } s = cvalue_string(i); memcpy(cvalue_data(s), buf, i); free(buf); return s; } // build a list of conses. this is complicated by the fact that all conses // can move whenever a new cons is allocated. we have to refer to every cons // through a handle to a relocatable pointer (i.e. a pointer on the stack). static void read_list(value_t *pval, value_t label) { value_t c, *pc; u_int32_t t; PUSH(NIL); pc = &Stack[SP-1]; // to keep track of current cons cell t = peek(); while (t != TOK_CLOSE) { if (ios_eof(F)) lerror(ParseError, "read: unexpected end of input"); c = mk_cons(); car_(c) = cdr_(c) = NIL; if (iscons(*pc)) { cdr_(*pc) = c; } else { *pval = c; if (label != UNBOUND) ptrhash_put(&readstate->backrefs, (void*)label, (void*)c); } *pc = c; c = do_read_sexpr(UNBOUND); // must be on separate lines due to car_(*pc) = c; // undefined evaluation order t = peek(); if (t == TOK_DOT) { take(); c = do_read_sexpr(UNBOUND); cdr_(*pc) = c; t = peek(); if (ios_eof(F)) lerror(ParseError, "read: unexpected end of input"); if (t != TOK_CLOSE) lerror(ParseError, "read: expected ')'"); } } take(); (void)POP(); } // label is the backreference we'd like to fix up with this read static value_t do_read_sexpr(value_t label) { value_t v, sym, oldtokval, *head; value_t *pv; u_int32_t t; char c; t = peek(); take(); switch (t) { case TOK_CLOSE: lerror(ParseError, "read: unexpected ')'"); case TOK_CLOSEB: lerror(ParseError, "read: unexpected ']'"); case TOK_DOT: lerror(ParseError, "read: unexpected '.'"); case TOK_SYM: case TOK_NUM: return tokval; case TOK_COMMA: head = &COMMA; goto listwith; case TOK_COMMAAT: head = &COMMAAT; goto listwith; case TOK_COMMADOT: head = &COMMADOT; goto listwith; case TOK_BQ: head = &BACKQUOTE; goto listwith; case TOK_QUOTE: head = "E; listwith: v = cons_reserve(2); car_(v) = *head; cdr_(v) = tagptr(((cons_t*)ptr(v))+1, TAG_CONS); car_(cdr_(v)) = cdr_(cdr_(v)) = NIL; PUSH(v); if (label != UNBOUND) ptrhash_put(&readstate->backrefs, (void*)label, (void*)v); v = do_read_sexpr(UNBOUND); car_(cdr_(Stack[SP-1])) = v; return POP(); case TOK_SHARPQUOTE: // femtoLisp doesn't need symbol-function, so #' does nothing return do_read_sexpr(label); case TOK_OPEN: PUSH(NIL); read_list(&Stack[SP-1], label); return POP(); case TOK_SHARPSYM: sym = tokval; if (sym == tsym || sym == Tsym) return FL_T; else if (sym == fsym || sym == Fsym) return FL_F; // constructor notation c = nextchar(); if (c != '(') { take(); lerrorf(ParseError, "read: expected argument list for %s", symbol_name(tokval)); } PUSH(NIL); read_list(&Stack[SP-1], UNBOUND); if (sym == vu8sym) { sym = arraysym; Stack[SP-1] = fl_cons(uint8sym, Stack[SP-1]); } else if (sym == fnsym) { sym = FUNCTION; } v = symbol_value(sym); if (v == UNBOUND) fl_raise(fl_list2(UnboundError, sym)); return fl_apply(v, POP()); case TOK_OPENB: return read_vector(label, TOK_CLOSEB); case TOK_SHARPOPEN: return read_vector(label, TOK_CLOSE); case TOK_SHARPDOT: // eval-when-read // evaluated expressions can refer to existing backreferences, but they // cannot see pending labels. in other words: // (... #2=#.#0# ... ) OK // (... #2=#.(#2#) ... ) DO NOT WANT sym = do_read_sexpr(UNBOUND); if (issymbol(sym)) { v = symbol_value(sym); if (v == UNBOUND) fl_raise(fl_list2(UnboundError, sym)); return v; } return fl_toplevel_eval(sym); case TOK_LABEL: // create backreference label if (ptrhash_has(&readstate->backrefs, (void*)tokval)) lerrorf(ParseError, "read: label %ld redefined", numval(tokval)); oldtokval = tokval; v = do_read_sexpr(tokval); ptrhash_put(&readstate->backrefs, (void*)oldtokval, (void*)v); return v; case TOK_BACKREF: // look up backreference v = (value_t)ptrhash_get(&readstate->backrefs, (void*)tokval); if (v == (value_t)HT_NOTFOUND) lerrorf(ParseError, "read: undefined label %ld", numval(tokval)); return v; case TOK_GENSYM: pv = (value_t*)ptrhash_bp(&readstate->gensyms, (void*)tokval); if (*pv == (value_t)HT_NOTFOUND) *pv = fl_gensym(NULL, 0); return *pv; case TOK_DOUBLEQUOTE: return read_string(); } return FL_UNSPECIFIED; } value_t fl_read_sexpr(value_t f) { value_t v; fl_readstate_t state; state.prev = readstate; htable_new(&state.backrefs, 8); htable_new(&state.gensyms, 8); state.source = f; readstate = &state; assert(toktype == TOK_NONE); fl_gc_handle(&tokval); v = do_read_sexpr(UNBOUND); fl_free_gc_handles(1); readstate = state.prev; free_readstate(&state); return v; }