/* Copyright (c) 2016-2018 Chung, Hyung-Hwan. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE AUTHOR "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "hcl-prv.h" #define BUFFER_ALIGN 128 #define BALIT_BUFFER_ALIGN 128 #define SALIT_BUFFER_ALIGN 128 #define ARLIT_BUFFER_ALIGN 128 static struct voca_t { hcl_oow_t len; hcl_ooch_t str[11]; } vocas[] = { { 8, { '#','i','n','c','l','u','d','e' } }, { 7, { '#','p','r','a','g','m','a' } }, { 11, { '#','\\','b','a','c','k','s','p','a','c','e' } }, { 10, { '#','\\','l','i','n','e','f','e','e','d' } }, { 9, { '#','\\','n','e','w','l','i','n','e' } }, { 5, { '#','\\','n','u','l' } }, { 6, { '#','\\','p','a','g','e' } }, { 8, { '#','\\','r','e','t','u','r','n' } }, { 8, { '#','\\','r','u','b','o','u','t' } }, { 7, { '#','\\','s','p','a','c','e' } }, { 5, { '#','\\','t','a','b' } }, { 6, { '#','\\','v','t','a','b' } }, { 4, { 'n','u','l','l' } }, { 4, { 't','r','u','e' } }, { 5, { 'f','a','l','s','e' } }, { 4, { 's','e','l','f' } }, { 5, { 's','u','p','e','r' } }, { 3, { 's','e','t' } }, { 5, { 's','e','t','-','r' } }, { 3, { '(',' ',')' /* XLIST */ } }, { 4, { '(',':',' ',')' /* MLIST */ } }, { 3, { '(',':','=',')' /* ALIST */ } }, { 3, { '{',' ','}' /* BLOCK */ } }, { 3, { '[',' ',']' /* ARRAY */ } }, { 4, { '#','[',' ',']' } }, { 4, { '#','{',' ','}' } }, { 4, { '#','(',' ',')' } }, { 3, { '|',' ','|' } }, { 5, { '<','E','O','L','>' } }, { 5, { '<','E','O','F','>' } } }; enum voca_id_t { VOCA_INCLUDE, VOCA_PRAGMA, VOCA_CHAR_BACKSPACE, VOCA_CHAR_LINEFEED, VOCA_CHAR_NEWLINE, VOCA_CHAR_NUL, VOCA_CHAR_PAGE, VOCA_CHAR_RETURN, VOCA_CHAR_RUBOUT, VOCA_CHAR_SPACE, VOCA_CHAR_TAB, VOCA_CHAR_VTAB, VOCA_KW_NULL, VOCA_KW_TRUE, VOCA_KW_FALSE, VOCA_KW_SELF, VOCA_KW_SUPER, VOCA_SYM_SET, VOCA_SYM_SET_R, VOCA_XLIST, VOCA_MLIST, VOCA_ALIST, /* assignment list */ VOCA_BLOCK, VOCA_ARRAY, VOCA_BYTEARRAY, VOCA_DIC, VOCA_QLIST, VOCA_VLIST, VOCA_EOL, VOCA_EOF }; typedef enum voca_id_t voca_id_t; enum list_flag_t { QUOTED = (1 << 0), DOTTED = (1 << 1), COMMAED = (1 << 2), COLONED = (1 << 3), COLONEQED = (1 << 4), CLOSED = (1 << 5), JSON = (1 << 6), DATA_LIST = (1 << 7), AUTO_FORGED = (1 << 8), /* automatically added list. only applicable to XLIST */ AT_BEGINNING = (1 << 9) /* TOTOAL 12 items are allowed for LIST_FLAG_GET_CONCODE and LIST_FLAG_SET_CONCODE(). * they reserve lower 12 bits as flag bits.*/ }; #define LIST_FLAG_GET_CONCODE(x) (((x) >> 12) & 0x0FFF) #define LIST_FLAG_SET_CONCODE(x,type) ((x) = ((x) & ~0xFF000) | ((type) << 12)) static struct { int closer; hcl_synerrnum_t synerr; int voca_id; } cons_info[] = { /*[HCL_CONCODE_XLIST] =*/ { HCL_TOK_RPAREN, HCL_SYNERR_RPAREN, VOCA_XLIST }, /* XLIST ( ) */ /*[HCL_CONCODE_MLIST] =*/ { HCL_TOK_RPAREN, HCL_SYNERR_RPAREN, VOCA_MLIST }, /* MLIST (obj:message) */ /*[HCL_CONCODE_ALIST] =*/ { HCL_TOK_RPAREN, HCL_SYNERR_RPAREN, VOCA_ALIST }, /* ALIST (var:=value) */ /*[HCL_CONCODE_BLOCK] =*/ { HCL_TOK_RBRACE, HCL_SYNERR_RBRACE, VOCA_BLOCK }, /* BLOCK { } */ /*[HCL_CONCODE_ARRAY] =*/ { HCL_TOK_RBRACK, HCL_SYNERR_RBRACK, VOCA_ARRAY }, /* ARRAY [ ] */ /*[HCL_CONCODE_BYTEARRAY] =*/ { HCL_TOK_RBRACK, HCL_SYNERR_RBRACK, VOCA_BYTEARRAY }, /* BYTEARRAY #[ ] */ /*[HCL_CONCODE_DIC] =*/ { HCL_TOK_RBRACE, HCL_SYNERR_RBRACE, VOCA_DIC }, /* DIC #{ } */ /*[HCL_CONCODE_QLIST] =*/ { HCL_TOK_RPAREN, HCL_SYNERR_RPAREN, VOCA_QLIST }, /* QLIST #( ) */ /* VLIST's closer and synerr are not used. there is dedicated logic in feed_process_token(). only voca_id is used */ /*[HCL_CONCODE_VLIST] =*/ { HCL_TOK_VBAR, HCL_SYNERR_VBAR, VOCA_VLIST } /* VLIST | | */ }; static int init_compiler (hcl_t* hcl); static HCL_INLINE int is_spacechar (hcl_ooci_t c) { /* TODO: handle other space unicode characters */ switch (c) { case ' ': case '\f': /* formfeed */ case '\n': /* linefeed */ case '\r': /* carriage return */ case '\t': /* horizon tab */ case '\v': /* vertical tab */ return 1; default: return 0; } } static HCL_INLINE int is_linebreak (hcl_ooci_t c) { /* TODO: different line end conventions? */ return c == '\n'; /* make sure this is one of the space chars in is_spacechar() */ } static HCL_INLINE int is_alphachar (hcl_ooci_t c) { /* TODO: support full unicode */ return (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z'); } static HCL_INLINE int is_digitchar (hcl_ooci_t c) { /* TODO: support full unicode */ return (c >= '0' && c <= '9'); } static HCL_INLINE int is_xdigitchar (hcl_ooci_t c) { /* TODO: support full unicode */ return (c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') || (c >= 'a' && c <= 'f'); } static HCL_INLINE int is_alnumchar (hcl_ooci_t c) { /* TODO: support full unicode */ return (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || (c >= '0' && c <= '9'); } static HCL_INLINE int is_delimchar (hcl_ooci_t c) { return c == '(' || c == ')' || c == '[' || c == ']' || c == '{' || c == '}' || c == '|' || c == ',' || c == '.' || c == ':' || c == ';' || /* the first characters of tokens in delim_token_tab up to this point */ c == '#' || c == '\"' || c == '\'' || c == '\\' || is_spacechar(c) || c == HCL_UCI_EOF; } /* TODO: remove this use the one in comp.c */ static int copy_string_to (hcl_t* hcl, const hcl_oocs_t* src, hcl_oocs_t* dst, hcl_oow_t* dst_capa, int append, hcl_ooch_t add_delim) { hcl_oow_t len, pos; if (append) { pos = dst->len; len = dst->len + src->len; if (add_delim != '\0') len++; } else { pos = 0; len = src->len; } if (len > *dst_capa) { hcl_ooch_t* tmp; hcl_oow_t capa; capa = HCL_ALIGN(len, BUFFER_ALIGN); tmp = (hcl_ooch_t*)hcl_reallocmem(hcl, dst->ptr, HCL_SIZEOF(*tmp) * capa); if (HCL_UNLIKELY(!tmp)) { const hcl_ooch_t* orgmsg = hcl_backuperrmsg(hcl); hcl_seterrbfmt (hcl, hcl_geterrnum(hcl), "failed to grow token buffer - %js", orgmsg); return -1; } dst->ptr = tmp; *dst_capa = capa; } if (append && add_delim) dst->ptr[pos++] = add_delim; hcl_copy_oochars (&dst->ptr[pos], src->ptr, src->len); dst->len = len; return 0; } #define GET_CHAR(hcl) \ do { if (get_char(hcl) <= -1) return -1; } while (0) #define GET_CHAR_TO(hcl,c) \ do { \ if (get_char(hcl) <= -1) return -1; \ c = (hcl)->c->lxc.c; \ } while(0) #define ADD_TOKEN_STR(hcl,s,l) \ do { if (add_token_str(hcl, s, l) <= -1) return -1; } while (0) #define ADD_TOKEN_CHAR(hcl,c) \ do { if (add_token_char(hcl, c) <= -1) return -1; } while (0) #define CLEAR_TOKEN_NAME(hcl) ((hcl)->c->tok.name.len = 0) #define SET_TOKEN_TYPE(hcl,tv) ((hcl)->c->tok.type = (tv)) #define SET_TOKEN_LOC(hcl,locv) ((hcl)->c->tok.loc = *(locv)) #define TOKEN_TYPE(hcl) ((hcl)->c->tok.type) #define TOKEN_NAME(hcl) (&(hcl)->c->tok.name) #define TOKEN_NAME_CAPA(hcl) ((hcl)->c->tok.name_capa) #define TOKEN_NAME_LEN(hcl) ((hcl)->c->tok.name.len) #define TOKEN_NAME_PTR(hcl) ((hcl)->c->tok.name.ptr) #define TOKEN_NAME_CHAR(hcl,index) ((hcl)->c->tok.name.ptr[index]) #define TOKEN_LOC(hcl) (&(hcl)->c->tok.loc) #define LEXER_LOC(hcl) (&(hcl)->c->lxc.l) static HCL_INLINE int add_token_str (hcl_t* hcl, const hcl_ooch_t* ptr, hcl_oow_t len) { hcl_oocs_t tmp; tmp.ptr = (hcl_ooch_t*)ptr; tmp.len = len; return copy_string_to(hcl, &tmp, TOKEN_NAME(hcl), &TOKEN_NAME_CAPA(hcl), 1, '\0'); } static HCL_INLINE int does_token_name_match (hcl_t* hcl, voca_id_t id) { return hcl->c->tok.name.len == vocas[id].len && hcl_equal_oochars(hcl->c->tok.name.ptr, vocas[id].str, vocas[id].len); } static HCL_INLINE int add_token_char (hcl_t* hcl, hcl_ooch_t c) { hcl_oocs_t tmp; tmp.ptr = &c; tmp.len = 1; return copy_string_to(hcl, &tmp, TOKEN_NAME(hcl), &TOKEN_NAME_CAPA(hcl), 1, '\0'); } static HCL_INLINE void unget_char (hcl_t* hcl, const hcl_lxc_t* c) { /* Make sure that the unget buffer is large enough */ HCL_ASSERT (hcl, hcl->c->nungots < HCL_COUNTOF(hcl->c->ungot)); hcl->c->ungot[hcl->c->nungots++] = *c; } static int get_directive_token_type (hcl_t* hcl, hcl_tok_type_t* tok_type) { if (does_token_name_match(hcl, VOCA_INCLUDE)) { *tok_type = HCL_TOK_INCLUDE; return 0; } else if (does_token_name_match(hcl, VOCA_PRAGMA)) { *tok_type = HCL_TOK_PRAGMA; return 0; } return -1; } static int _get_char (hcl_t* hcl, hcl_io_cciarg_t* inp) { hcl_ooci_t lc; if (inp->b.pos >= inp->b.len) { if (hcl->c->cci_rdr(hcl, HCL_IO_READ, inp) <= -1) return -1; if (inp->xlen <= 0) { inp->lxc.c = HCL_OOCI_EOF; inp->lxc.l.line = inp->line; inp->lxc.l.colm = inp->colm; inp->lxc.l.file = inp->name; /* indicate that EOF has been read. lxc.c is also set to EOF. */ return 0; } inp->b.pos = 0; inp->b.len = inp->xlen; } if (inp->lxc.c == '\n' || inp->lxc.c == '\r') { /* inp->lxc.c is a previous character. the new character * to be read is still in the buffer (inp->buf). * hcl->cu->curinp->colm has been incremented when the previous * character has been read. */ if (inp->line > 1 && inp->colm == 2 && inp->nl != inp->lxc.c) { /* most likely, it's the second character in '\r\n' or '\n\r' * sequence. let's not update the line and column number. */ /*inp->colm = 1;*/ } else { /* if the previous charater was a newline, * increment the line counter and reset column to 1. * incrementing the line number here instead of * updating inp->lxc causes the line number for * TOK_EOF to be the same line as the lxc newline. */ inp->line++; inp->colm = 1; inp->nl = inp->lxc.c; } } lc = inp->buf[inp->b.pos++]; inp->lxc.c = lc; inp->lxc.l.line = inp->line; inp->lxc.l.colm = inp->colm++; inp->lxc.l.file = inp->name; return 1; /* indicate that a normal character has been read */ } static int get_char (hcl_t* hcl) { int n; if (hcl->c->nungots > 0) { /* something in the unget buffer */ hcl->c->lxc = hcl->c->ungot[--hcl->c->nungots]; return 0; } n = _get_char(hcl, hcl->c->curinp); if (n >= 0) hcl->c->lxc = hcl->c->curinp->lxc; return n; } static hcl_tok_type_t classify_ident_token (hcl_t* hcl, const hcl_oocs_t* v) { hcl_oow_t i; static struct { int voca_id; hcl_tok_type_t type; } tab[] = { { VOCA_KW_NULL, HCL_TOK_NIL }, { VOCA_KW_TRUE, HCL_TOK_TRUE }, { VOCA_KW_FALSE, HCL_TOK_FALSE }, { VOCA_KW_SELF, HCL_TOK_SELF }, { VOCA_KW_SUPER, HCL_TOK_SUPER } }; for (i = 0; i < HCL_COUNTOF(tab); i++) { int vid = tab[i].voca_id; if (hcl_comp_oochars(v->ptr, v->len, vocas[vid].str, vocas[vid].len) == 0) return tab[i].type; } return HCL_TOK_IDENT; } static int is_sr_name_in_use (hcl_t* hcl, const hcl_ooch_t* sr_name) { /* [NOTE] * this is very error prone. if there are changes in refernece * points of this sr_name in the source code, this function also * must be modifed. */ hcl_io_cciarg_t* cur; if (hcl->c->synerr.loc.file == sr_name) return 1; cur = hcl->c->curinp; while (cur) { if (cur->lxc.l.file == sr_name) return 1; cur = cur->includer; } return 0; } static void clear_sr_names (hcl_t* hcl) { hcl_link_t* cur; HCL_ASSERT (hcl, hcl->c != HCL_NULL); while (hcl->c->sr_names) { cur = hcl->c->sr_names; hcl->c->sr_names = cur->link; hcl_freemem (hcl, cur); } } static const hcl_ooch_t* add_sr_name (hcl_t* hcl, const hcl_oocs_t* name) { hcl_link_t* link; hcl_ooch_t* nptr; /* TODO: make search faster */ link = hcl->c->sr_names; while (link) { nptr = (hcl_ooch_t*)(link + 1); if (hcl_comp_oochars_oocstr(name->ptr, name->len, nptr) == 0) return nptr; link = link->link; } link = (hcl_link_t*)hcl_callocmem(hcl, HCL_SIZEOF(*link) + HCL_SIZEOF(hcl_ooch_t) * (name->len + 1)); if (HCL_UNLIKELY(!link)) { const hcl_ooch_t* orgmsg = hcl_backuperrmsg(hcl); hcl_seterrbfmt (hcl, hcl_geterrnum(hcl), "failed to source name [%.*js] - %js", name->len, name->ptr, orgmsg); return HCL_NULL; } nptr = (hcl_ooch_t*)(link + 1); hcl_copy_oochars (nptr, name->ptr, name->len); nptr[name->len] = '\0'; link->link = hcl->c->sr_names; hcl->c->sr_names = link; return nptr; } /* -------------------------------------------------------------------------- */ static HCL_INLINE int enter_list (hcl_t* hcl, const hcl_loc_t* loc, int flagv) { hcl_rstl_t* rstl; rstl = (hcl_rstl_t*)hcl_callocmem(hcl, HCL_SIZEOF(*rstl)); if (HCL_UNLIKELY(!rstl)) { const hcl_ooch_t* orgmsg = hcl_backuperrmsg(hcl); hcl_seterrbfmt (hcl, hcl_geterrnum(hcl), "failed to allocate reader stack node - %js", orgmsg); return -1; } rstl->loc = *loc; rstl->flagv = flagv; rstl->prev = hcl->c->r.st; /* push */ hcl->c->r.st = rstl; return 0; } static HCL_INLINE hcl_cnode_t* leave_list (hcl_t* hcl, hcl_loc_t* list_loc, int* flagv, int* oldflagv) { hcl_rstl_t* rstl; hcl_cnode_t* head; hcl_loc_t loc; int fv, concode; /* the stack must not be empty - cannot leave a list without entering it */ HCL_ASSERT (hcl, hcl->c->r.st != HCL_NULL); rstl = hcl->c->r.st; /* get the stack top */ head = rstl->head; fv = rstl->flagv; loc = rstl->loc; concode = LIST_FLAG_GET_CONCODE(fv); hcl->c->r.st = rstl->prev; /* pop off */ hcl_freemem (hcl, rstl); /* dispose of the stack node */ if (fv & (COMMAED | COLONED | COLONEQED)) { if (concode == HCL_CONCODE_MLIST) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_CALLABLE, TOKEN_LOC(hcl), HCL_NULL, "missing message after :"); } else if (concode == HCL_CONCODE_ALIST) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_CALLABLE, TOKEN_LOC(hcl), HCL_NULL, "missing value after :="); } else { hcl_synerrnum_t err; err = (fv & COMMAED)? HCL_SYNERR_COMMANOVALUE: HCL_SYNERR_COLONNOVALUE; hcl_setsynerr (hcl, err, TOKEN_LOC(hcl), HCL_NULL); } if (head) hcl_freecnode (hcl, head); return HCL_NULL; } *list_loc = loc; *oldflagv = fv; if (!hcl->c->r.st) { /* the stack is empty after popping. * it is back to the top level. * the top level can never be quoted. */ *flagv = 0; } else { /* restore the flag for the outer returning level */ *flagv = hcl->c->r.st->flagv; } if (head) { HCL_ASSERT (hcl, HCL_CNODE_IS_CONS(head)); /* HACK */ if (concode == HCL_CONCODE_ALIST) { /* tranform (var := val) to (set var val) */ hcl_cnode_t* sym, * newhead, * lval; hcl_oocs_t fake_tok, * fake_tok_ptr = HCL_NULL; lval = HCL_CNODE_CONS_CAR(head); if (lval && HCL_CNODE_IS_ELIST(lval)) { /* invalid lvalue */ hcl_setsynerr (hcl, HCL_SYNERR_LVALUE, HCL_CNODE_GET_LOC(lval), HCL_CNODE_GET_TOK(lval)); if (head) hcl_freecnode (hcl, head); return HCL_NULL; } else if (lval && HCL_CNODE_IS_CONS(lval) && HCL_CNODE_CONS_CONCODE(lval) == HCL_CONCODE_ARRAY) { hcl_cnode_t* tmp, * rval; fake_tok.ptr = vocas[VOCA_SYM_SET_R].str; fake_tok.len = vocas[VOCA_SYM_SET_R].len; fake_tok_ptr = &fake_tok; /* move the array item up to the main list and join the original lval to the end of it */ rval = HCL_CNODE_CONS_CDR(head); hcl_freesinglecnode (hcl, head); head = lval; /* TODO: check in advance if array items are all symbols... */ for (tmp = lval; tmp && HCL_CNODE_IS_CONS(tmp); tmp = HCL_CNODE_CONS_CDR(tmp)) { if (!HCL_CNODE_CONS_CDR(tmp)) { HCL_CNODE_CONS_CDR(tmp) = rval; break; } } } else { fake_tok.ptr = vocas[VOCA_SYM_SET].str; fake_tok.len = vocas[VOCA_SYM_SET].len; fake_tok_ptr = &fake_tok; } /* TODO: check the number of arguments in advance??? */ sym = hcl_makecnodesymbol(hcl, 0, &loc, fake_tok_ptr); if (HCL_UNLIKELY(!sym)) { const hcl_ooch_t* orgmsg = hcl_backuperrmsg(hcl); hcl_seterrbfmt (hcl, hcl_geterrnum(hcl), "failed to create symbol cnode for := - %js", orgmsg); if (head) hcl_freecnode (hcl, head); return HCL_NULL; } /* create a new head joined with set or set-r */ newhead = hcl_makecnodecons(hcl, 0, &loc, fake_tok_ptr, sym, head); if (HCL_UNLIKELY(!newhead)) { const hcl_ooch_t* orgmsg = hcl_backuperrmsg(hcl); hcl_seterrbfmt (hcl, hcl_geterrnum(hcl), "failed to create cons cnode for := - %js", orgmsg); hcl_freecnode (hcl, sym); if (head) hcl_freecnode (hcl, head); return HCL_NULL; } head = newhead; concode = HCL_CONCODE_XLIST; /* switch back to XLIST */ } /* END HACK */ HCL_CNODE_CONS_CONCODE(head) = concode; if (fv & AUTO_FORGED) HCL_CNODE_GET_FLAGS(head) |= HCL_CNODE_AUTO_FORGED; } else { /* the list is empty */ head = hcl_makecnodeelist(hcl, ((fv & AUTO_FORGED)? HCL_CNODE_AUTO_FORGED: 0), &loc, concode); if (HCL_UNLIKELY(!head)) { const hcl_ooch_t* orgmsg = hcl_backuperrmsg(hcl); hcl_seterrbfmt (hcl, hcl_geterrnum(hcl), "failed to create empty list - %js", orgmsg); } } return head; } static HCL_INLINE int can_dot_list (hcl_t* hcl) { hcl_rstl_t* rstl; HCL_ASSERT (hcl, hcl->c->r.st != HCL_NULL); rstl = hcl->c->r.st; /* mark the state that a dot has appeared in the list */ if (rstl->count <= 0) return 0; if (LIST_FLAG_GET_CONCODE(rstl->flagv) != HCL_CONCODE_QLIST) return 0; rstl->flagv |= DOTTED; return 1; } static HCL_INLINE int can_comma_list (hcl_t* hcl) { hcl_rstl_t* rstl; hcl_concode_t cc; HCL_ASSERT (hcl, hcl->c->r.st != HCL_NULL); rstl = hcl->c->r.st; if (rstl->count <= 0) return 0; if (rstl->count == 1) rstl->flagv |= JSON; else if (!(rstl->flagv & JSON)) return 0; if (rstl->flagv & (COMMAED | COLONED | COLONEQED)) return 0; cc = LIST_FLAG_GET_CONCODE(rstl->flagv); if (cc == HCL_CONCODE_XLIST) { LIST_FLAG_SET_CONCODE(rstl->flagv, HCL_CONCODE_ALIST); } else if (cc == HCL_CONCODE_DIC) { if (rstl->count & 1) return 0; } else if (cc != HCL_CONCODE_ARRAY && cc != HCL_CONCODE_BYTEARRAY) { return 0; } rstl->flagv |= COMMAED; return 1; } static HCL_INLINE int can_colon_list (hcl_t* hcl) { hcl_rstl_t* rstl; hcl_concode_t cc; HCL_ASSERT (hcl, hcl->c->r.st != HCL_NULL); rstl = hcl->c->r.st; if (rstl->count <= 0) return 0; /* not allowed at the list beginning */ /* mark the state that a colon has appeared in the list */ if (rstl->count == 1) rstl->flagv |= JSON; /* mark that the first key is colon-delimited */ else if (!(rstl->flagv & JSON)) return 0; /* the first key is not colon-delimited. so not allowed to colon-delimit other keys */ /* multiple single-colons - e.g. #{ "abc": : 20 } */ if (rstl->flagv & (COMMAED | COLONED | COLONEQED)) return 0; cc = LIST_FLAG_GET_CONCODE(rstl->flagv); if (cc == HCL_CONCODE_XLIST) { if (rstl->count > 1) return 0; /* ugly dual use of a colon sign. switch to MLIST if the first element * is delimited by a colon. e.g. (obj:new 10 20 30) */ LIST_FLAG_SET_CONCODE(rstl->flagv, HCL_CONCODE_MLIST); rstl->flagv &= ~JSON; } else if (cc != HCL_CONCODE_DIC) return 0; /* no allowed if not in a dictionary */ if (!(rstl->count & 1)) return 0; /* not allwed after the value in a dictionary */ /* mark that it's coloned. this is to be cleared when clear_comma_colon_flag() is called */ rstl->flagv |= COLONED; return 1; } static HCL_INLINE int can_coloneq_list (hcl_t* hcl) { hcl_rstl_t* rstl; hcl_concode_t cc; HCL_ASSERT (hcl, hcl->c->r.st != HCL_NULL); rstl = hcl->c->r.st; if (rstl->count <= 0 || rstl->count > 1) return 0; /* allowed after the first item only */ /* repeated delimiters - e.g (a := := ...) (a : := ... ) */ if (rstl->flagv & (COMMAED | COLONED | COLONEQED)) return 0; cc = LIST_FLAG_GET_CONCODE(rstl->flagv); /* assignment only in XLIST */ if (cc != HCL_CONCODE_XLIST) return 0; LIST_FLAG_SET_CONCODE(rstl->flagv, HCL_CONCODE_ALIST); rstl->flagv |= COLONEQED; return 1; } static HCL_INLINE void clear_comma_colon_flag (hcl_t* hcl) { hcl_rstl_t* rstl; HCL_ASSERT (hcl, hcl->c->r.st != HCL_NULL); rstl = hcl->c->r.st; rstl->flagv &= ~(COMMAED | COLONED | COLONEQED); } static int chain_to_list (hcl_t* hcl, hcl_cnode_t* obj, hcl_loc_t* loc) { hcl_rstl_t* rstl; int flagv; HCL_ASSERT (hcl, hcl->c->r.st != HCL_NULL); rstl = hcl->c->r.st; flagv = rstl->flagv; if (flagv & CLOSED) { /* the list has already been closed and cannot add more items * for instance, see this faulty expression #(1 2 . 3 4 ). * you can have only 1 item after the period. this condition * can only be triggered by a wrong qlist where a period is * allowed. so i can safely hard-code the error code to * HCL_SYNERR_RPAREN */ hcl_setsynerr (hcl, HCL_SYNERR_RPAREN, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); return -1; } else if (flagv & DOTTED) { hcl_cnode_t* tail; /* the list must not be empty to have reached the dotted state */ HCL_ASSERT (hcl, rstl->head != HCL_NULL); HCL_ASSERT (hcl, rstl->tail != HCL_NULL); HCL_ASSERT (hcl, rstl->count > 0); /* chain the object via 'cdr' of the tail cell */ tail = rstl->tail; HCL_ASSERT (hcl, tail != HCL_NULL); HCL_ASSERT (hcl, HCL_CNODE_IS_CONS(tail)); if (HCL_CNODE_IS_CONS(obj) && HCL_CNODE_CONS_CONCODE(obj) != HCL_CONCODE_QLIST) { hcl_cnode_t* shell; /* if the last element is another non-data list * for example, #( 1 2 . [ 3 4 5 ]) * use a shell node to wrap the actual object list node head * for the compiler. */ shell = hcl_makecnodeshell(hcl, 0, HCL_CNODE_GET_LOC(obj), obj); if (HCL_UNLIKELY(!shell)) return -1; tail->u.cons.cdr = shell; } else { tail->u.cons.cdr = obj; } /* update the flag to CLOSED so that you can have more than * one item after the dot. */ flagv |= CLOSED; rstl->flagv = flagv; /* TODO: check overflow on count??? */ rstl->count++; } else { hcl_cnode_t* cons, * tail; hcl_oocs_t fake_tok, * fake_tok_ptr = HCL_NULL; int concode; if ((flagv & JSON) && rstl->count > 0 && !(flagv & (COMMAED | COLONED))) { /* there is no separator between array/dictionary elements * for instance, [1 2] { 10 20 } */ hcl_setsynerr (hcl, HCL_SYNERR_NOSEP, TOKEN_LOC(hcl), HCL_NULL); return -1; } /* `loc` may be passed in if the added `obj` is a cons cell for another list */ HCL_ASSERT (hcl, (loc && (HCL_CNODE_IS_CONS(obj) || HCL_CNODE_IS_ELIST(obj))) || (!loc && !HCL_CNODE_IS_CONS(obj))); concode = HCL_CNODE_IS_CONS(obj)? HCL_CNODE_CONS_CONCODE(obj): HCL_CNODE_IS_ELIST(obj)? HCL_CNODE_ELIST_CONCODE(obj): -1; if (concode >= 0) { int vid = cons_info[concode].voca_id; fake_tok.ptr = vocas[vid].str; fake_tok.len = vocas[vid].len; fake_tok_ptr = &fake_tok; } cons = hcl_makecnodecons(hcl, 0, (loc? loc: HCL_CNODE_GET_LOC(obj)), fake_tok_ptr, obj, HCL_NULL); if (HCL_UNLIKELY(!cons)) return -1; if (rstl->count <= 0) { /* the list head is not set yet. it is the first * element added to the list. let both head and tail * point to the new cons cell */ HCL_ASSERT (hcl, rstl->tail == HCL_NULL); HCL_ASSERT (hcl, rstl->head == HCL_NULL); rstl->head = cons; rstl->tail = cons; } else { /* the new cons cell is not the first element. append it to the list */ tail = rstl->tail; HCL_ASSERT (hcl, HCL_CNODE_IS_CONS(tail)); tail->u.cons.cdr = cons; rstl->tail = cons; } /* TODO: check overflow on count??? */ rstl->count++; } return 0; } /* ------------------------------------------------------------------------ */ /* TODO: hcl_cnodetoobj (hcl_t* hcl, hcl_cnode_t* x) { * drop location information and compose object ?? * is it doable? can convert a dotted symbol to a proper value? } */ /* ---------------------------------------------------------------------- */ static int on_fed_cnode (hcl_t* hcl, hcl_cnode_t* obj) { /* the default handler for a cnode composed via feeding - just compile the object node. */ return hcl_compile(hcl, obj, 0); } /* ---------------------------------------------------------------------- */ static void init_feed (hcl_t* hcl) { HCL_MEMSET (&hcl->c->feed, 0, HCL_SIZEOF(hcl->c->feed)); hcl->c->feed.lx.state = HCL_FLX_START; hcl->c->feed.lx.loc.line = 1; hcl->c->feed.lx.loc.colm = 1; hcl->c->feed.lx.loc.file = HCL_NULL; hcl->c->feed.on_cnode = on_fed_cnode; } /* ------------------------------------------------------------------------ */ static int feed_begin_include (hcl_t* hcl) { hcl_io_cciarg_t* arg; const hcl_ooch_t* io_name; io_name = add_sr_name(hcl, TOKEN_NAME(hcl)); if (HCL_UNLIKELY(!io_name)) return -1; arg = (hcl_io_cciarg_t*)hcl_callocmem(hcl, HCL_SIZEOF(*arg)); if (HCL_UNLIKELY(!arg)) { const hcl_ooch_t* orgmsg = hcl_backuperrmsg(hcl); hcl_seterrbfmt (hcl, hcl_geterrnum(hcl), "failed to allocate source input structure - %js", orgmsg); goto oops; } arg->name = io_name; arg->line = 1; arg->colm = 1; /*arg->nl = '\0';*/ arg->includer = hcl->c->curinp; if (hcl->c->cci_rdr(hcl, HCL_IO_OPEN, arg) <= -1) { const hcl_ooch_t* org_errmsg = hcl_backuperrmsg(hcl); hcl_setsynerrbfmt (hcl, HCL_SYNERR_INCLUDE, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "unable to include %js - %js", io_name, org_errmsg); goto oops; } if (arg->includer == &hcl->c->cci_arg) /* top-level include */ { /* TODO: remove hcl_readbasesrchar() and clean up this part. * hcl_readbasesrchar(), if called in the middle of feeds, * updates hcl->c->cci_arg's line and colm. so use a separate * field to store the current feed location for now */ hcl->c->feed.lx._oloc = hcl->c->feed.lx.loc; } else { arg->includer->name = hcl->c->feed.lx.loc.file; arg->includer->line = hcl->c->feed.lx.loc.line; arg->includer->colm = hcl->c->feed.lx.loc.colm; } hcl->c->feed.lx.loc.file = arg->name; hcl->c->feed.lx.loc.line = arg->line; hcl->c->feed.lx.loc.colm = arg->colm; /* switch to the includee's stream */ hcl->c->curinp = arg; /* hcl->c->depth.incl++; */ return 0; oops: if (arg) hcl_freemem (hcl, arg); return -1; } static int feed_end_include (hcl_t* hcl) { int x; hcl_io_cciarg_t* cur; if (hcl->c->curinp == &hcl->c->cci_arg) return 0; /* no include */ /* if it is an included file, close it and * retry to read a character from an outer file */ x = hcl->c->cci_rdr(hcl, HCL_IO_CLOSE, hcl->c->curinp); /* if closing has failed, still destroy the sio structure * first as normal and return the failure below. this way, * the caller doesn't call HCL_IO_CLOSE on hcl->c->curinp again. */ cur = hcl->c->curinp; hcl->c->curinp = hcl->c->curinp->includer; if (hcl->c->curinp == &hcl->c->cci_arg) { hcl->c->feed.lx.loc = hcl->c->feed.lx._oloc; } else { hcl->c->feed.lx.loc.file = hcl->c->curinp->name; hcl->c->feed.lx.loc.line = hcl->c->curinp->line; hcl->c->feed.lx.loc.colm = hcl->c->curinp->colm; } HCL_ASSERT (hcl, cur->name != HCL_NULL); hcl_freemem (hcl, cur); /* hcl->parse.depth.incl--; */ if (x != 0) { /* the failure mentioned above is returned here */ return -1; } hcl->c->lxc = hcl->c->curinp->lxc; return 1; /* ended the included file successfully */ } static void feed_clean_up_reader_stack (hcl_t* hcl) { /* clean up the reader stack for a list */ while (hcl->c->r.st) { hcl_rstl_t* rstl; rstl = hcl->c->r.st; hcl->c->r.st = rstl->prev; if (rstl->head) hcl_freecnode (hcl, rstl->head); hcl_freemem (hcl, rstl); } } static HCL_INLINE int is_at_block_beginning (hcl_t* hcl) { hcl_rstl_t* rstl; rstl = hcl->c->r.st; return !rstl || (LIST_FLAG_GET_CONCODE(rstl->flagv) == HCL_CONCODE_BLOCK && (hcl->c->feed.rd.flagv & AT_BEGINNING)); } static int auto_forge_xlist_if_at_block_beginning (hcl_t* hcl, hcl_frd_t* frd) { if (is_at_block_beginning(hcl)) { int forged_flagv; /* both MLIST and ALIST begin as XLIST and get converted to MLIST * or ALIST after more tokens are processed. so handling of MLIST * or ALIST is needed at this phase */ forged_flagv = AUTO_FORGED; LIST_FLAG_SET_CONCODE (forged_flagv, HCL_CONCODE_XLIST); /* this portion is similar to the code below the start_list label */ if (frd->level >= HCL_TYPE_MAX(int)) /* the nesting level too deep */ { hcl_setsynerr (hcl, HCL_SYNERR_NESTING, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); return -1; } /* since the actual list opener doesn't exist, the location of the * first element wil be the location of the list */ if (enter_list(hcl, TOKEN_LOC(hcl), forged_flagv) <= -1) return -1; frd->level++; /* level after the forged list has been added */ /* a new list has been created automatically. unlike normal list creation * by an explicit symbol such as a left parenthesis, a left brace, etc, * the first element opens up this new list. so the AT_BEGINNING bit is * turned off here */ frd->flagv &= ~AT_BEGINNING; } return 0; } static int feed_process_token (hcl_t* hcl) { hcl_frd_t* frd = &hcl->c->feed.rd; hcl_loc_t* list_loc = HCL_NULL; int rbrace_again = 0; /* TODO: frd->obj and frd->list_loc can become local variables in this function.. */ /* this function composes an s-expression non-recursively * by manipulating its own stack. */ /*hcl_logbfmt (hcl, HCL_LOG_STDERR, "TOKEN => [%.*js] type=%d LOC=%d.%d\n", TOKEN_NAME_LEN(hcl), TOKEN_NAME_PTR(hcl), TOKEN_TYPE(hcl), TOKEN_LOC(hcl)->line, TOKEN_LOC(hcl)->colm);*/ if (frd->expect_include_file) { /* the #include directive is an exception to the general expression rule. * use this exceptional code block to divert the major token processing */ if (TOKEN_TYPE(hcl) != HCL_TOK_STRLIT) { hcl_setsynerr (hcl, HCL_SYNERR_STRING, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; } frd->expect_include_file = 0; /* indicate that the file inclusion should be performed soon. * don't perform actual inclusion here so that the return value of * feed_char() advances the input pointers properly. */ frd->do_include_file = 1; goto ok; } if (frd->expect_vlist_item && TOKEN_TYPE(hcl) != HCL_TOK_IDENT && TOKEN_TYPE(hcl) != HCL_TOK_VBAR) { if (TOKEN_TYPE(hcl) == HCL_TOK_EOL) goto ok; /* ignore EOL inside vlist */ /* vlist also has special requirement that it can only contain variable names. */ hcl_setsynerr (hcl, HCL_SYNERR_VARNAME, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; } switch (TOKEN_TYPE(hcl)) { default: hcl_setsynerr (hcl, HCL_SYNERR_ILTOK, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; case HCL_TOK_EOF: hcl_setsynerr (hcl, HCL_SYNERR_EOF, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; case HCL_TOK_INCLUDE: /* TODO: should i limit where #include can be specified? * disallow it inside a list literal or an array literal? */ frd->expect_include_file = 1; goto ok; case HCL_TOK_PRAGMA: /* TODO: implement this */ hcl_setsynerr (hcl, HCL_SYNERR_ILTOK, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; case HCL_TOK_VBAR: if (frd->expect_vlist_item) { /* closer */ int oldflagv; frd->expect_vlist_item = 0; frd->obj = leave_list(hcl, &frd->list_loc, &frd->flagv, &oldflagv); frd->level--; frd->flagv |= AT_BEGINNING; list_loc = &frd->list_loc; break; } else { /* opener */ /* the vlist is different from other lists in that * it uses the same opener and the closer * it allows only variable names. * it prohibits nesting of other lists */ if (hcl->c->r.st && (hcl->c->r.st->flagv & DATA_LIST)) { /* if the outer list is a data list */ hcl_setsynerr (hcl, HCL_SYNERR_VBARBANNED, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; } /* neither a data list nor an executable list. handle this specially using * a dedicated frd->expect_vlist_item variable */ frd->flagv = 0; LIST_FLAG_SET_CONCODE (frd->flagv, HCL_CONCODE_VLIST); frd->expect_vlist_item = 1; goto start_list; } case HCL_TOK_LBRACK: /* [ */ /* [] is a data list. so let's treat it like other literal * expressions(e.g. 1, "abc"). when it's placed at the block beginning, * create the outer XLIST. */ if (auto_forge_xlist_if_at_block_beginning(hcl, frd) <= -1) goto oops; frd->flagv = DATA_LIST; LIST_FLAG_SET_CONCODE (frd->flagv, HCL_CONCODE_ARRAY); goto start_list; case HCL_TOK_BAPAREN: /* #[ */ if (auto_forge_xlist_if_at_block_beginning(hcl, frd) <= -1) goto oops; frd->flagv = DATA_LIST; LIST_FLAG_SET_CONCODE (frd->flagv, HCL_CONCODE_BYTEARRAY); goto start_list; case HCL_TOK_LBRACE: /* { */ /* this is a block opener itself. auto xlist forge at the block beginning */ frd->flagv = 0; LIST_FLAG_SET_CONCODE (frd->flagv, HCL_CONCODE_BLOCK); goto start_list; case HCL_TOK_DLPAREN: /* #{ */ if (auto_forge_xlist_if_at_block_beginning(hcl, frd) <= -1) goto oops; frd->flagv = DATA_LIST; LIST_FLAG_SET_CONCODE (frd->flagv, HCL_CONCODE_DIC); goto start_list; case HCL_TOK_QLPAREN: /* #( */ if (auto_forge_xlist_if_at_block_beginning(hcl, frd) <= -1) goto oops; frd->flagv = DATA_LIST; LIST_FLAG_SET_CONCODE (frd->flagv, HCL_CONCODE_QLIST); goto start_list; #if defined(HCL_TOK_LPARCOLON) case HCL_TOK_LPARCOLON: /* (: */ frd->flagv = 0; LIST_FLAG_SET_CONCODE (frd->flagv, HCL_CONCODE_MLIST); goto start_list; #endif case HCL_TOK_LPAREN: /* ( */ frd->flagv = 0; LIST_FLAG_SET_CONCODE (frd->flagv, HCL_CONCODE_XLIST); start_list: if (frd->level >= HCL_TYPE_MAX(int)) { /* the nesting level has become too deep */ hcl_setsynerr (hcl, HCL_SYNERR_NESTING, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; } /* push some data to simulate recursion into * a list literal or an array literal */ if (enter_list(hcl, TOKEN_LOC(hcl), frd->flagv) <= -1) goto oops; frd->level++; frd->flagv |= AT_BEGINNING; /* the reader is now at the beginning of a list */ /* read the next token */ goto ok; case HCL_TOK_DOT: if (frd->level <= 0 || !can_dot_list(hcl)) { /* cannot have a period: * 1. at the top frd->level - not inside () * 2. at the beginning of a list * 3. inside an array, byte-array, dictionary, xlist */ hcl_setsynerr (hcl, HCL_SYNERR_DOTBANNED, TOKEN_LOC(hcl), HCL_NULL); goto oops; } goto ok; case HCL_TOK_COLON: if (frd->level <= 0 || !can_colon_list(hcl)) { hcl_setsynerr (hcl, HCL_SYNERR_COLONBANNED, TOKEN_LOC(hcl), HCL_NULL); goto oops; } goto ok; case HCL_TOK_COLONEQ: if (frd->level <= 0 || !can_coloneq_list(hcl)) { hcl_setsynerr (hcl, HCL_SYNERR_COLONEQBANNED, TOKEN_LOC(hcl), HCL_NULL); goto oops; } goto ok; case HCL_TOK_COMMA: if (frd->level <= 0 || !can_comma_list(hcl)) { hcl_setsynerr (hcl, HCL_SYNERR_COMMABANNED, TOKEN_LOC(hcl), HCL_NULL); goto oops; } goto ok; case HCL_TOK_EOL: /* EOL returned only under a certain condition */ case HCL_TOK_SEMICOLON: { int oldflagv; int concode; hcl_rstl_t* rstl; semicolon: /* the parent list(rstl) must be inspected instead of the current * feed/read status pointed to by frd. */ rstl = hcl->c->r.st; if (!rstl) goto ok; /* redundant eol/semicolon */ concode = LIST_FLAG_GET_CONCODE(rstl->flagv); if (!(rstl->flagv & AUTO_FORGED)) { if (TOKEN_TYPE(hcl) == HCL_TOK_EOL) goto ok; if (concode == HCL_CONCODE_BLOCK) goto ok; hcl_setsynerr (hcl, HCL_SYNERR_SEMICOLON, TOKEN_LOC(hcl), HCL_NULL); goto oops; } /* if auto-forged */ #if 0 /* TODO: remove this part if the assertion is confirmed true in the #else part... */ if (concode != HCL_CONCODE_XLIST && concode != HCL_CONCODE_MLIST && concode != HCL_CONCODE_ALIST) { hcl_setsynerr (hcl, HCL_SYNERR_UNBALPBB, TOKEN_LOC(hcl), HCL_NULL); goto oops; } #else HCL_ASSERT (hcl, concode == HCL_CONCODE_XLIST || concode == HCL_CONCODE_MLIST || concode == HCL_CONCODE_ALIST); #endif frd->obj = leave_list(hcl, &frd->list_loc, &frd->flagv, &oldflagv); frd->level--; frd->flagv |= AT_BEGINNING; /* the current one is over. move on the beginning for the next expression */ list_loc = &frd->list_loc; break; } case HCL_TOK_RPAREN: /* xlist (), qlist #() */ case HCL_TOK_RBRACK: /* bytearray #[], array [] */ case HCL_TOK_RBRACE: /* dictionary #{}, block {} */ { int oldflagv; int concode; hcl_rstl_t* rstl; if (frd->level <= 0) { hcl_setsynerr (hcl, HCL_SYNERR_UNBALPBB, TOKEN_LOC(hcl), HCL_NULL); goto oops; } if (TOKEN_TYPE(hcl) == HCL_TOK_RBRACE) { rstl = hcl->c->r.st; /* check the parent, not the current */ if (rstl && (rstl->flagv & AUTO_FORGED)) { #if 0 /* the auto-forged list has not been terminated. it must be terminated closed first */ hcl_setsynerrbfmt (hcl, HCL_SYNERR_SEMICOLON, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "semicolon expected"); goto oops; #else /* if the expression inside {} is an auto-forged xlist expression and there is no semiclon provided, * treat it as if the semiclon is placed before }. e.g. { printf "hello\n" } */ rbrace_again = 1; goto semicolon; #endif } } rbrace_ok: concode = LIST_FLAG_GET_CONCODE(frd->flagv); if (concode == HCL_CONCODE_XLIST && (frd->flagv & AUTO_FORGED)) { /* the auto-created xlist can't be terminated with the regular closing symbol * it must end with the semicolon */ hcl_setsynerr (hcl, HCL_SYNERR_UNBALPBB, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; } if (cons_info[concode].closer != TOKEN_TYPE(hcl)) { hcl_setsynerr (hcl, cons_info[concode].synerr, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; } #if 0 if ((flagv & QUOTED) || frd->level <= 0) { /* the right parenthesis can never appear while * 'quoted' is true. 'quoted' is set to false when * entering a normal list. 'quoted' is set to true * when entering a quoted list. a quoted list does * not have an explicit right parenthesis. * so the right parenthesis can only pair up with * the left parenthesis for the normal list. * * For example, '(1 2 3 ') 5 6) * * this condition is triggerred when the first ) is * met after the second quote. * * also it is illegal to have the right parenthesis * with no opening(left) parenthesis, which is * indicated by frd->level<=0. */ hcl_setsynerr (hcl, HCL_SYNERR_LPAREN, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; } #endif frd->obj = leave_list(hcl, &frd->list_loc, &frd->flagv, &oldflagv); frd->level--; frd->flagv |= AT_BEGINNING; list_loc = &frd->list_loc; break; } case HCL_TOK_NIL: frd->obj = hcl_makecnodenil(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_TRUE: frd->obj = hcl_makecnodetrue(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_FALSE: frd->obj = hcl_makecnodefalse(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_SELF: frd->obj = hcl_makecnodeself(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_SUPER: frd->obj = hcl_makecnodesuper(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_ELLIPSIS: frd->obj = hcl_makecnodeellipsis(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_TRPCOLONS: frd->obj = hcl_makecnodetrpcolons(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_DCSTAR: frd->obj = hcl_makecnodedcstar(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_SMPTRLIT: { hcl_oow_t i; hcl_oow_t v = 0; HCL_ASSERT (hcl, TOKEN_NAME_LEN(hcl) >= 3); for (i = 2; i < TOKEN_NAME_LEN(hcl); i++) { HCL_ASSERT (hcl, is_xdigitchar(TOKEN_NAME_CHAR(hcl, i))); v = v * 16 + HCL_CHAR_TO_NUM(TOKEN_NAME_CHAR(hcl, i), 16); } if (!HCL_IN_SMPTR_RANGE(v)) { hcl_setsynerr (hcl, HCL_SYNERR_SMPTRLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; } frd->obj = hcl_makecnodesmptrlit(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl), v); goto auto_xlist; } case HCL_TOK_ERRLIT: { hcl_oow_t i; hcl_ooi_t v = 0; HCL_ASSERT (hcl, TOKEN_NAME_LEN(hcl) >= 3); for (i = 2; i < TOKEN_NAME_LEN(hcl); i++) { HCL_ASSERT (hcl, is_digitchar(TOKEN_NAME_CHAR(hcl, i))); v = v * 10 + HCL_CHAR_TO_NUM(TOKEN_NAME_CHAR(hcl, i), 10); if (v > HCL_ERROR_MAX) { hcl_setsynerr (hcl, HCL_SYNERR_ERRLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto oops; } } frd->obj = hcl_makecnodeerrlit(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl), v); goto auto_xlist; } case HCL_TOK_CHARLIT: frd->obj = hcl_makecnodecharlit(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl), TOKEN_NAME_CHAR(hcl, 0)); goto auto_xlist; case HCL_TOK_BCHRLIT: frd->obj = hcl_makecnodebchrlit(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl), (hcl_oob_t)TOKEN_NAME_CHAR(hcl, 0)); goto auto_xlist; case HCL_TOK_NUMLIT: frd->obj = hcl_makecnodenumlit(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_RADNUMLIT: frd->obj = hcl_makecnoderadnumlit(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_FPDECLIT: frd->obj = hcl_makecnodefpdeclit(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; /* case HCL_TOK_REAL: frd->obj = hcl_makecnoderealnum(hcl, HCL_TOK_RVAL(hcl)); break; */ case HCL_TOK_STRLIT: frd->obj = hcl_makecnodestrlit(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_BSTRLIT: frd->obj = hcl_makecnodebstrlit(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_IDENT: frd->obj = hcl_makecnodesymbol(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); goto auto_xlist; case HCL_TOK_IDENT_DOTTED: frd->obj = hcl_makecnodedsymbol(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl), 0); goto auto_xlist; case HCL_TOK_IDENT_DOTTED_CLA: frd->obj = hcl_makecnodedsymbol(hcl, 0, TOKEN_LOC(hcl), TOKEN_NAME(hcl), 1); goto auto_xlist; auto_xlist: if (auto_forge_xlist_if_at_block_beginning(hcl, frd) <= -1) goto oops; break; } if (!frd->obj) goto oops; #if 0 /* check if the element is read for a quoted list */ while (flagv & QUOTED) { int oldflagv; HCL_ASSERT (hcl, frd->level > 0); /* if so, append the element read into the quote list */ if (chain_to_list(hcl, obj) <= -1) goto oops; /* exit out of the quoted list. the quoted list can have one element only. */ obj = leave_list(hcl, &flagv, &oldflagv); /* one frd->level up toward the top */ frd->level--; } #endif /* check if we are at the top frd->level */ if (frd->level <= 0) { int n; /* upon exit, we must be at the top level */ HCL_ASSERT (hcl, frd->level == 0); HCL_ASSERT (hcl, hcl->c->r.st == HCL_NULL); HCL_ASSERT (hcl, frd->obj != HCL_NULL); n = hcl->c->feed.on_cnode(hcl, frd->obj); hcl_freecnode (hcl, frd->obj); /* not needed any more */ frd->obj = HCL_NULL; if (n <= -1) goto oops; } else { /* if not, append the element read into the current list. * if we are not at the top frd->level, we must be in a list */ if (chain_to_list(hcl, frd->obj, list_loc) <= -1) goto oops; /* because it has been chained to the list, it belongs to the current stack top. * mark that obj is not stand-alone by nullifying it. without this, if a jump * is made to oops, the momory block pointed to by obj may get freed twice. */ frd->obj = HCL_NULL; clear_comma_colon_flag (hcl); } ok: if (rbrace_again) { rbrace_again = 0; list_loc = HCL_NULL; goto rbrace_ok; } return 0; oops: if (frd->obj) { hcl_freecnode (hcl, frd->obj); frd->obj = HCL_NULL; } /* clean up the reader stack for a list */ feed_clean_up_reader_stack (hcl); return -1; } /* ------------------------------------------------------------------------ */ struct delim_token_t { const char* t_value; hcl_oow_t t_len; hcl_tok_type_t t_type; }; typedef struct delim_token_t delim_token_t; static delim_token_t delim_token_tab[] = { /* [NOTE 1] * if you add a new token, ensure the first character is listed in is_delimchar() * * [NOTE 2] * for the implementation limitation in find_delim_token_char(), * the entries in this table must be laid out in a certain way. * * Group the items with the same prefix together. * List the shorter before the longer items in the same group. * The length must not differ by greater than 1 between 2 items in the same group. * * [NOTE 3] * don't list #(, #[, #{ here because of overlapping use of # for various purposes. * however, # is included in is_delimchar(). */ { "(", 1, HCL_TOK_LPAREN }, #if defined(HCL_TOK_LPARCOLON) { "(:", 2, HCL_TOK_LPARCOLON }, #endif { ")", 1, HCL_TOK_RPAREN }, { "[", 1, HCL_TOK_LBRACK }, { "]", 1, HCL_TOK_RBRACK }, { "{", 1, HCL_TOK_LBRACE }, { "}", 1, HCL_TOK_RBRACE }, { "|", 1, HCL_TOK_VBAR }, { ",", 1, HCL_TOK_COMMA }, { ".", 1, HCL_TOK_DOT }, { "..", 2, HCL_TOK_DBLDOTS }, { "...", 3, HCL_TOK_ELLIPSIS }, /* for variable arguments */ { ":", 1, HCL_TOK_COLON }, /* key-value separator in dictionary */ { ":=", 2, HCL_TOK_COLONEQ }, /* assignment */ { "::", 2, HCL_TOK_DBLCOLONS }, { "::*", 3, HCL_TOK_DCSTAR }, /* class instantiation method */ { ":::", 3, HCL_TOK_TRPCOLONS }, /* superclass, class variables, class methods */ { ";", 1, HCL_TOK_SEMICOLON } }; static int find_delim_token_char (hcl_t* hcl, const hcl_ooci_t c, int row_start, int row_end, int col, hcl_flx_dt_t* dt) { int found = 0, i; for (i = row_start; i <= row_end; i++) { if (col < delim_token_tab[i].t_len && c == delim_token_tab[i].t_value[col]) { if (!found) dt->row_start = i; dt->row_end = i; found = 1; } else if (found) break; } if (found) dt->col_next = col + 1; return found; } static HCL_INLINE int feed_wrap_up (hcl_t* hcl, hcl_tok_type_t type) { int n; SET_TOKEN_TYPE (hcl, type); n = feed_process_token(hcl); hcl->c->feed.lx.state = HCL_FLX_START; return n; } static int feed_wrap_up_with_char (hcl_t* hcl, hcl_ooci_t c, hcl_tok_type_t type) { ADD_TOKEN_CHAR (hcl, c); return feed_wrap_up(hcl, type); } static int feed_wrap_up_with_str (hcl_t* hcl, const hcl_ooch_t* str, hcl_oow_t len, hcl_tok_type_t type) { ADD_TOKEN_STR (hcl, str, len); return feed_wrap_up(hcl, type); } static int feed_continue (hcl_t* hcl, hcl_flx_state_t state) { hcl->c->feed.lx.state = state; return 0; } static int feed_continue_with_char (hcl_t* hcl, hcl_ooci_t c, hcl_flx_state_t state) { ADD_TOKEN_CHAR (hcl, c); hcl->c->feed.lx.state = state; return 0; } #define FEED_WRAP_UP(hcl, type) do { if (feed_wrap_up(hcl, type) <= -1) return -1; } while(0) #define FEED_WRAP_UP_WITH_CHAR(hcl, c, type) do { if (feed_wrap_up_with_char(hcl, c, type) <= -1) return -1; } while(0) #define FEED_WRAP_UP_WITH_CHARS(hcl, str, len, type) do { if (feed_wrap_up_with_str(hcl, str, len, type) <= -1) return -1; } while(0) #define FEED_CONTINUE(hcl, state) do { if (feed_continue(hcl, state) <= -1) return -1; } while(0) #define FEED_CONTINUE_WITH_CHAR(hcl, c, state) do { if (feed_continue_with_char(hcl, c, state) <= -1) return -1; } while(0) /* ------------------------------------------------------------------------ */ /* short-cuts to basic lexer data */ #define FLX_STATE(hcl) ((hcl)->c->feed.lx.state) #define FLX_LOC(hcl) (&((hcl)->c->feed.lx.loc)) /* short-cuts to lexer state data */ #define FLX_DT(hcl) (&((hcl)->c->feed.lx.u.dt)) #define FLX_HC(hcl) (&((hcl)->c->feed.lx.u.hc)) #define FLX_HI(hcl) (&((hcl)->c->feed.lx.u.hi)) #define FLX_HN(hcl) (&((hcl)->c->feed.lx.u.hn)) #define FLX_PI(hcl) (&((hcl)->c->feed.lx.u.pi)) #define FLX_PN(hcl) (&((hcl)->c->feed.lx.u.pn)) #define FLX_QT(hcl) (&((hcl)->c->feed.lx.u.qt)) #define FLX_ST(hcl) (&((hcl)->c->feed.lx.u.st)) #define FLX_BU(hcl) (&((hcl)->c->feed.lx.u.bu)) static HCL_INLINE void init_flx_hc (hcl_flx_hc_t* hc) { HCL_MEMSET (hc, 0, HCL_SIZEOF(*hc)); } static HCL_INLINE void init_flx_hi (hcl_flx_hi_t* hi) { HCL_MEMSET (hi, 0, HCL_SIZEOF(*hi)); } static HCL_INLINE void init_flx_hn (hcl_flx_hn_t* hn, hcl_tok_type_t tok_type, hcl_synerrnum_t synerr_code, int radix) { HCL_MEMSET (hn, 0, HCL_SIZEOF(*hn)); hn->tok_type = tok_type; hn->synerr_code = synerr_code; hn->radix = radix; } static HCL_INLINE void init_flx_qt (hcl_flx_qt_t* qt, hcl_tok_type_t tok_type, hcl_synerrnum_t synerr_code, hcl_ooch_t end_char, hcl_ooch_t esc_char, hcl_oow_t min_len, hcl_oow_t max_len, int is_byte) { HCL_MEMSET (qt, 0, HCL_SIZEOF(*qt)); qt->tok_type = tok_type; qt->synerr_code = synerr_code; qt->end_char = end_char; qt->esc_char = esc_char; qt->min_len = min_len; qt->max_len = max_len; qt->is_byte = is_byte; } static HCL_INLINE void init_flx_pi (hcl_flx_pi_t* pi) { HCL_MEMSET (pi, 0, HCL_SIZEOF(*pi)); } static HCL_INLINE void init_flx_pn (hcl_flx_pn_t* pn) { HCL_MEMSET (pn, 0, HCL_SIZEOF(*pn)); } static HCL_INLINE void init_flx_st (hcl_flx_st_t* st, hcl_ooch_t sign_c) { HCL_MEMSET (st, 0, HCL_SIZEOF(*st)); st->sign_c = sign_c; } static HCL_INLINE void init_flx_bu (hcl_flx_bu_t* bu, hcl_ooch_t start_c) { HCL_MEMSET (bu, 0, HCL_SIZEOF(*bu)); bu->start_c = start_c; } static void reset_flx_token (hcl_t* hcl) { /* clear the token name, reset its location */ SET_TOKEN_TYPE (hcl, HCL_TOK_EOF); /* is it correct? */ CLEAR_TOKEN_NAME (hcl); SET_TOKEN_LOC (hcl, &hcl->c->feed.lx.loc); } static int flx_start (hcl_t* hcl, hcl_ooci_t c) { HCL_ASSERT (hcl, FLX_STATE(hcl) == HCL_FLX_START); if (is_spacechar(c)) { if ((hcl->option.trait & HCL_TRAIT_LANG_ENABLE_EOL) && is_linebreak(c)) { reset_flx_token (hcl); FEED_WRAP_UP_WITH_CHAR (hcl, c, HCL_TOK_EOL); } goto consumed; /* skip spaces */ } reset_flx_token (hcl); if (find_delim_token_char(hcl, c, 0, HCL_COUNTOF(delim_token_tab) - 1, 0, FLX_DT(hcl))) { /* the character is one of the first character of a delimiter token such as (, [, :, etc */ if (FLX_DT(hcl)->row_start == FLX_DT(hcl)->row_end && FLX_DT(hcl)->col_next == delim_token_tab[FLX_DT(hcl)->row_start].t_len) { /* single character delimiter token */ FEED_WRAP_UP_WITH_CHAR (hcl, c, delim_token_tab[FLX_DT(hcl)->row_start].t_type); } else { FEED_CONTINUE_WITH_CHAR (hcl, c, HCL_FLX_DELIM_TOKEN); /* consume c and move to HCL_FLX_DELIM_TOKEN state */ } goto consumed; } switch (c) { case HCL_OOCI_EOF: /* only EOF of the top-level stream is supposed to be fed in. * the internal logic discard EOFs of included streams */ FEED_WRAP_UP_WITH_CHARS (hcl, vocas[VOCA_EOF].str, vocas[VOCA_EOF].len, HCL_TOK_EOF); goto consumed; case '\\': FEED_CONTINUE_WITH_CHAR (hcl, c, HCL_FLX_BACKSLASHED); goto consumed; /* this part is never hit because the semicolon sign is part of delim_tok_tab{} TODO: remove this part once the language spec is finalized to not require this case ';': FEED_CONTINUE_WITH_CHAR (hcl, c, HCL_FLX_COMMENT); goto consumed; */ case '#': /* no state date to initialize. just change the state */ FEED_CONTINUE_WITH_CHAR (hcl, c, HCL_FLX_HMARKED_TOKEN); goto consumed; case '\"': init_flx_qt (FLX_QT(hcl), HCL_TOK_STRLIT, HCL_SYNERR_STRLIT, c, '\\', 0, HCL_TYPE_MAX(hcl_oow_t), 0); FEED_CONTINUE (hcl, HCL_FLX_QUOTED_TOKEN); /* discard the quote itself. move on the the QUOTED_TOKEN state */ goto consumed; case '\'': init_flx_qt (FLX_QT(hcl), HCL_TOK_CHARLIT, HCL_SYNERR_CHARLIT, c, '\\', 1, 1, 0); FEED_CONTINUE (hcl, HCL_FLX_QUOTED_TOKEN); /* discard the quote itself. move on the the QUOTED_TOKEN state */ goto consumed; case '+': case '-': init_flx_st (FLX_ST(hcl), c); FEED_CONTINUE_WITH_CHAR (hcl, c, HCL_FLX_SIGNED_TOKEN); goto consumed; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': init_flx_pn (FLX_PN(hcl)); FEED_CONTINUE (hcl, HCL_FLX_PLAIN_NUMBER); goto not_consumed; case 'B': case 'b': case 'U': case 'u': init_flx_bu(FLX_BU(hcl), c); FEED_CONTINUE_WITH_CHAR(hcl, c, HCL_FLX_BU); goto consumed; default: /* TODO: limit the identifier characters and cause syntax error for other characters.. */ init_flx_pi (FLX_PI(hcl)); FEED_CONTINUE (hcl, HCL_FLX_PLAIN_IDENT); goto not_consumed; } consumed: return 1; not_consumed: return 0; } static int flx_backslashed (hcl_t* hcl, hcl_ooci_t c) { if (is_linebreak(c)) { FEED_CONTINUE (hcl, HCL_FLX_START); return 1; /* consumed */ } hcl_setsynerrbfmt (hcl, HCL_SYNERR_BACKSLASH, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "stray backslash"); return -1; } static int flx_comment (hcl_t* hcl, hcl_ooci_t c) { if (is_linebreak(c)) FEED_CONTINUE (hcl, HCL_FLX_START); return 1; /* consumed */ } static int flx_delim_token (hcl_t* hcl, hcl_ooci_t c) { if (find_delim_token_char(hcl, c, FLX_DT(hcl)->row_start, FLX_DT(hcl)->row_end, FLX_DT(hcl)->col_next, FLX_DT(hcl))) { if (FLX_DT(hcl)->row_start == FLX_DT(hcl)->row_end && FLX_DT(hcl)->col_next == delim_token_tab[FLX_DT(hcl)->row_start].t_len) { /* complete token and switch to the HCL_FLX_START state */ FEED_WRAP_UP_WITH_CHAR (hcl, c, delim_token_tab[FLX_DT(hcl)->row_start].t_type); } else { ADD_TOKEN_CHAR(hcl, c); } goto consumed; } else { /* the longest match so far */ FEED_WRAP_UP(hcl, delim_token_tab[FLX_DT(hcl)->row_start].t_type); goto not_consumed; } consumed: return 1; not_consumed: return 0; } static int flx_hmarked_token (hcl_t* hcl, hcl_ooci_t c) { /* * #xXXXX hexadecimal * #oOOOO octal * #bBBBB binary * #eDDD error * #pHHH smptr * #\C character * #\xHHHH unicode character * #\UHHHH unicode character * #\uHHHH unicode character * #\backspace * #\linefeed * #\newline * #\nul * #\page * #\return * #\rubout * #\space * #\tab * #\vtab * #include * #[ ] byte array * #( ) qlist * #{ } dictionary */ switch (c) { case '#': case '!': /* ## comment start * #! also comment start. * ; comment start */ FEED_CONTINUE_WITH_CHAR (hcl, c, HCL_FLX_COMMENT); goto consumed; /* --------------------------- */ case 'x': init_flx_hn (FLX_HN(hcl), HCL_TOK_RADNUMLIT, HCL_SYNERR_NUMLIT, 16); goto radixed_number; case 'o': init_flx_hn (FLX_HN(hcl), HCL_TOK_RADNUMLIT, HCL_SYNERR_NUMLIT, 8); goto radixed_number; case 'b': init_flx_hn (FLX_HN(hcl), HCL_TOK_RADNUMLIT, HCL_SYNERR_NUMLIT, 2); goto radixed_number; case 'e': init_flx_hn (FLX_HN(hcl), HCL_TOK_ERRLIT, HCL_SYNERR_ERRLIT, 10); goto radixed_number; case 'p': init_flx_hn (FLX_HN(hcl), HCL_TOK_SMPTRLIT, HCL_SYNERR_SMPTRLIT, 16); radixed_number: FEED_CONTINUE_WITH_CHAR (hcl, c, HCL_FLX_HMARKED_NUMBER); goto consumed; /* --------------------------- */ case '\\': FEED_CONTINUE_WITH_CHAR (hcl, c, HCL_FLX_HMARKED_CHAR); goto consumed; /* --------------------------- */ case '[': FEED_WRAP_UP_WITH_CHAR (hcl, c, HCL_TOK_BAPAREN); goto consumed; case '(': FEED_WRAP_UP_WITH_CHAR (hcl, c, HCL_TOK_QLPAREN); goto consumed; case '{': FEED_WRAP_UP_WITH_CHAR (hcl, c, HCL_TOK_DLPAREN); goto consumed; /* --------------------------- */ default: /* the character used as case values above can never be the first character of a hash-marked identifier */ init_flx_hi (FLX_HI(hcl)); FEED_CONTINUE (hcl, HCL_FLX_HMARKED_IDENT); goto not_consumed; } consumed: return 1; not_consumed: return 0; } static int flx_hmarked_char (hcl_t* hcl, hcl_ooci_t c) { hcl_flx_hc_t* hc = FLX_HC(hcl); if (is_delimchar(c)) { if (hc->char_count == 0) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_CHARLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "no valid character in character literal %.*js", TOKEN_NAME_LEN(hcl), TOKEN_NAME_PTR(hcl)); return -1; } if (TOKEN_NAME_LEN(hcl) >= 4) { int max_digit_count = 0; if (TOKEN_NAME_CHAR(hcl, 2) == 'x') { hcl_oow_t i; max_digit_count = 2; hexcharlit: if (TOKEN_NAME_LEN(hcl) - 3 > max_digit_count) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_CHARLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "invalid hexadecimal character character literal %.*js", TOKEN_NAME_LEN(hcl), TOKEN_NAME_PTR(hcl)); return -1; } c = 0; for (i = 3; i < TOKEN_NAME_LEN(hcl); i++) { if (!is_xdigitchar(TOKEN_NAME_CHAR(hcl, i))) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_CHARLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "invalid hexadecimal character character literal %.*js", TOKEN_NAME_LEN(hcl), TOKEN_NAME_PTR(hcl)); return -1; } c = c * 16 + HCL_CHAR_TO_NUM(TOKEN_NAME_CHAR(hcl, i), 16); /* don't care if it is for 'p' */ } } #if (HCL_SIZEOF_OOCH_T >= 2) else if (TOKEN_NAME_CHAR(hcl, 2) == 'u') { max_digit_count = 4; goto hexcharlit; } #endif #if (HCL_SIZEOF_OOCH_T >= 4) else if (TOKEN_NAME_CHAR(hcl, 2) == 'U') { max_digit_count = 8; goto hexcharlit; } #endif else if (does_token_name_match(hcl, VOCA_CHAR_BACKSPACE)) c = '\b'; else if (does_token_name_match(hcl, VOCA_CHAR_LINEFEED)) c = '\n'; else if (does_token_name_match(hcl, VOCA_CHAR_NEWLINE)) c = '\n'; /* TODO: convert it to host newline convention. how to handle if it's composed of 2 letters like \r\n? */ else if (does_token_name_match(hcl, VOCA_CHAR_NUL)) c = '\0'; /* null character. not the object null */ else if (does_token_name_match(hcl, VOCA_CHAR_PAGE)) c = '\f'; else if (does_token_name_match(hcl, VOCA_CHAR_RETURN)) c = '\r'; else if (does_token_name_match(hcl, VOCA_CHAR_RUBOUT)) c = '\x7F'; /* DEL */ else if (does_token_name_match(hcl, VOCA_CHAR_SPACE)) c = ' '; else if (does_token_name_match(hcl, VOCA_CHAR_TAB)) c = '\t'; else if (does_token_name_match(hcl, VOCA_CHAR_VTAB)) c = '\v'; else { hcl_setsynerrbfmt (hcl, HCL_SYNERR_CHARLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "invalid character literal %.*js", TOKEN_NAME_LEN(hcl), TOKEN_NAME_PTR(hcl)); return -1; } } else { HCL_ASSERT (hcl, TOKEN_NAME_LEN(hcl) == 3); c = TOKEN_NAME_CHAR(hcl, 2); } /* reset the token name to the converted character */ CLEAR_TOKEN_NAME (hcl); ADD_TOKEN_CHAR (hcl, c); FEED_WRAP_UP (hcl, HCL_TOK_CHARLIT); goto not_consumed; } else { ADD_TOKEN_CHAR (hcl, c); hc->char_count++; goto consumed; } consumed: return 1; not_consumed: return 0; } static int flx_hmarked_ident (hcl_t* hcl, hcl_ooci_t c) { hcl_flx_hi_t* hi = FLX_HI(hcl); if (is_delimchar(c)) { hcl_tok_type_t tok_type; if (hi->char_count == 0) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_HASHLIT, FLX_LOC(hcl), HCL_NULL, "no valid character after hash sign"); return -1; } if (get_directive_token_type(hcl, &tok_type) <= -1) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_HASHLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "invalid hash-marked literal %.*js", TOKEN_NAME_LEN(hcl), TOKEN_NAME_PTR(hcl)); return -1; } else { FEED_WRAP_UP (hcl, tok_type); goto not_consumed; } } else { ADD_TOKEN_CHAR (hcl, c); hi->char_count++; goto consumed; } consumed: return 1; not_consumed: return 0; } static int flx_hmarked_b (hcl_t* hcl, hcl_ooci_t c) { #if 0 hcl_flx_hb_t* hb = FLX_HB(hcl); if (c == '[') { } else { init_flx_hn (FLX_HN(hcl), HCL_TOK_RADNUMLIT, HCL_SYNERR_NUMLIT, 2); FEED_CONTINUE (hcl, HCL_FLX_HMARKED_NUMBER); goto not_consumed; } #endif consumed: return 1; not_consumed: return 0; } static int flx_hmarked_number (hcl_t* hcl, hcl_ooci_t c) { hcl_flx_hn_t* rn = FLX_HN(hcl); if (HCL_CHAR_TO_NUM(c, rn->radix) >= rn->radix) { if (is_delimchar(c)) { if (rn->digit_count == 0) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_NUMLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "no valid digit after radix specifier in %.*js", TOKEN_NAME_LEN(hcl), TOKEN_NAME_PTR(hcl)); return -1; } else if (rn->invalid_digit_count > 0) { /* invalid as a radixed number, but this could be a hash-marked directive */ hcl_tok_type_t tok_type; if (get_directive_token_type(hcl, &tok_type) <= -1) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_NUMLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "neither valid radixed number nor valid directive %.*js", TOKEN_NAME_LEN(hcl), TOKEN_NAME_PTR(hcl)); return -1; } else { FEED_WRAP_UP (hcl, tok_type); goto not_consumed; } } FEED_WRAP_UP (hcl, rn->tok_type); goto not_consumed; } else { ADD_TOKEN_CHAR(hcl, c); rn->digit_count++; rn->invalid_digit_count++; goto consumed; } } else { HCL_ASSERT (hcl, !is_delimchar(c)); ADD_TOKEN_CHAR(hcl, c); rn->digit_count++; goto consumed; } consumed: return 1; not_consumed: return 0; } static int flx_plain_ident (hcl_t* hcl, hcl_ooci_t c) /* identifier */ { hcl_flx_pi_t* pi = FLX_PI(hcl); if (is_delimchar(c)) /* [NOTE] . is one of the delimiter character */ { hcl_oow_t start; hcl_oocs_t seg; hcl_tok_type_t tok_type; if (pi->seg_len == 0) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_MSEGIDENT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "blank segment"); return -1; } start = TOKEN_NAME_LEN(hcl) - pi->seg_len; seg.ptr = &TOKEN_NAME_CHAR(hcl, start); seg.len = pi->seg_len; tok_type = classify_ident_token(hcl, &seg); if (tok_type != HCL_TOK_IDENT) { if (pi->seg_count == 0 && (tok_type == HCL_TOK_SELF || tok_type == HCL_TOK_SUPER)) { /* allowed if it begins with self. or super. */ pi->is_cla = 1; /* mark that it's prefixed with self or super */ } else { pi->non_ident_seg_count++; pi->last_non_ident_type = tok_type; } } pi->seg_len = 0; /* the length of the segment to be worked on */ pi->seg_count++; /* total number of segments completed */ if (c == '.') { /* move on to the next segment */ ADD_TOKEN_CHAR(hcl, c); pi->char_count++; goto consumed; } /* finish */ if (pi->non_ident_seg_count > 0) { if (pi->seg_count == 1) { FEED_WRAP_UP (hcl, pi->last_non_ident_type); goto not_consumed; } else { hcl_setsynerr (hcl, HCL_SYNERR_MSEGIDENT, TOKEN_LOC(hcl), TOKEN_NAME(hcl)); return -1; } } /* if single-segmented, perform classification(call classify_ident_token()) again * bcause self and super as the first segment have not been marked as a non-identifier above */ tok_type = (pi->seg_count == 1? classify_ident_token(hcl, TOKEN_NAME(hcl)): (pi->is_cla? HCL_TOK_IDENT_DOTTED_CLA: HCL_TOK_IDENT_DOTTED)); FEED_WRAP_UP (hcl, tok_type); goto not_consumed; } else { ADD_TOKEN_CHAR(hcl, c); pi->char_count++; pi->seg_len++; goto consumed; } consumed: return 1; not_consumed: return 0; } static int flx_plain_number (hcl_t* hcl, hcl_ooci_t c) /* number */ { hcl_flx_pn_t* pn = FLX_PN(hcl); if (is_digitchar(c)) { ADD_TOKEN_CHAR (hcl, c); pn->digit_count[pn->fpdec]++; goto consumed; } else { if (!pn->fpdec && c == '.') { pn->fpdec = 1; ADD_TOKEN_CHAR (hcl, c); goto consumed; } if (pn->digit_count[0] == 0) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_NUMLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "invalid numeric literal with no digit before decimal point"); return -1; } else if (pn->fpdec && pn->digit_count[1] == 0) { hcl_setsynerrbfmt (hcl, HCL_SYNERR_NUMLIT, TOKEN_LOC(hcl), TOKEN_NAME(hcl), "invalid numeric literal with no digit after decimal point"); return -1; } FEED_WRAP_UP (hcl, (pn->fpdec? HCL_TOK_FPDECLIT: HCL_TOK_NUMLIT)); goto not_consumed; } consumed: return 1; not_consumed: return 0; } static int flx_quoted_token (hcl_t* hcl, hcl_ooci_t c) /* string, character */ { hcl_flx_qt_t* qt = FLX_QT(hcl); hcl_loc_t synerr_loc = *TOKEN_LOC(hcl); if (c == HCL_OOCI_EOF) goto invalid_token; if (qt->is_byte && c > 0xFF) { synerr_loc = *FLX_LOC(hcl); goto invalid_token; } if (qt->escaped == 3) { if (c >= '0' && c <= '7') { /* more octal digits */ qt->c_acc = qt->c_acc * 8 + c - '0'; qt->digit_count++; if (qt->digit_count >= qt->escaped) { /* should i limit the max to 0xFF/0377? * if (qt->c_acc > 0377) qt->c_acc = 0377;*/ ADD_TOKEN_CHAR (hcl, qt->c_acc); qt->escaped = 0; } goto consumed; } else { ADD_TOKEN_CHAR (hcl, qt->c_acc); qt->escaped = 0; } } else if (qt->escaped == 2 || qt->escaped == 4 || qt->escaped == 8) { if (c >= '0' && c <= '9') { qt->c_acc = qt->c_acc * 16 + c - '0'; qt->digit_count++; if (qt->digit_count >= qt->escaped) { ADD_TOKEN_CHAR (hcl, qt->c_acc); qt->escaped = 0; } goto consumed; } else if (c >= 'A' && c <= 'F') { qt->c_acc = qt->c_acc * 16 + c - 'A' + 10; qt->digit_count++; if (qt->digit_count >= qt->escaped) { ADD_TOKEN_CHAR (hcl, qt->c_acc); qt->escaped = 0; } goto consumed; } else if (c >= 'a' && c <= 'f') { qt->c_acc = qt->c_acc * 16 + c - 'a' + 10; qt->digit_count++; if (qt->digit_count >= qt->escaped) { ADD_TOKEN_CHAR (hcl, qt->c_acc); qt->escaped = 0; } goto consumed; } else { hcl_ooch_t rc; rc = (qt->escaped == 2)? 'x': (qt->escaped == 4)? 'u': 'U'; if (qt->digit_count == 0) ADD_TOKEN_CHAR (hcl, rc); else ADD_TOKEN_CHAR (hcl, qt->c_acc); qt->escaped = 0; } } if (qt->escaped == 0 && c == qt->end_char) { /* terminating quote */ /* qt->tok_type + qt->is_byte assumes that the token types for * byte-string and byte-character literals are 1 greater than * string and charcter literals. * see the definition of * hcl_tok_type_t in hcl-prv.h */ FEED_WRAP_UP (hcl, qt->tok_type + qt->is_byte); /* HCL_TOK_STRLIT or HCL_TOK_CHARLIT */ if (TOKEN_NAME_LEN(hcl) < qt->min_len) goto invalid_token; goto consumed; } if (qt->escaped == 0 && c == qt->esc_char) { qt->escaped = 1; goto consumed; } if (qt->escaped == 1) { if (c == 'a') c = '\a'; else if (c == 'b') c = '\b'; else if (c == 'f') c = '\f'; else if (c == 'n') c = '\n'; else if (c == 'r') c = '\r'; else if (c == 't') c = '\t'; else if (c == 'v') c = '\v'; else if (c >= '0' && c <= '7' && !qt->regex) { /* i don't support the octal notation for a regular expression. * it conflicts with the backreference notation between \1 and \7 inclusive. */ qt->escaped = 3; qt->digit_count = 1; qt->c_acc = c - '0'; goto consumed; } else if (c == 'x') { qt->escaped = 2; qt->digit_count = 0; qt->c_acc = 0; goto consumed; } #if (HCL_SIZEOF_OOCH_T >= 2) else if (c == 'u' && !qt->is_byte) { #if 0 if (qt->is_byte) { synerr_loc = *FLX_LOC(hcl); goto invalid_token; } #endif qt->escaped = 4; qt->digit_count = 0; qt->c_acc = 0; goto consumed; } #endif #if (HCL_SIZEOF_OOCH_T >= 4) else if (c == 'U' && !qt->is_byte) { #if 0 if (qt->is_byte) { synerr_loc = *FLX_LOC(hcl); goto invalid_token; } #endif qt->escaped = 8; qt->digit_count = 0; qt->c_acc = 0; goto consumed; } #endif else if (qt->regex) { /* if the following character doesn't compose a proper * escape sequence, keep the escape character. * an unhandled escape sequence can be handled * outside this function since the escape character * is preserved.*/ ADD_TOKEN_CHAR (hcl, qt->esc_char); } qt->escaped = 0; } ADD_TOKEN_CHAR (hcl, c); consumed: if (TOKEN_NAME_LEN(hcl) > qt->max_len) goto invalid_token; return 1; invalid_token: hcl_setsynerr (hcl, qt->synerr_code, &synerr_loc, HCL_NULL); return -1; } static int flx_signed_token (hcl_t* hcl, hcl_ooci_t c) { hcl_flx_st_t* st = FLX_ST(hcl); if (st->char_count == 0 && c == '#') { ADD_TOKEN_CHAR (hcl, c); st->hmarked = 1; st->char_count++; goto consumed; } if (st->hmarked) { HCL_ASSERT (hcl, st->char_count == 1); if (c == 'b' || c == 'o' || c == 'x') { init_flx_hn (FLX_HN(hcl), HCL_TOK_RADNUMLIT, HCL_SYNERR_NUMLIT, (c == 'b'? 2: (c == 'o'? 8: 16))); FEED_CONTINUE_WITH_CHAR (hcl, c, HCL_FLX_HMARKED_NUMBER); goto consumed; } else { /* at this point, the token name buffer holds +# or -# */ HCL_ASSERT (hcl, TOKEN_NAME_LEN(hcl) == 2); TOKEN_NAME_LEN(hcl)--; /* remove the ending # from the name buffer */ FEED_WRAP_UP (hcl, HCL_TOK_IDENT); /* reset the token information as if it enters HMARKED_TOKEN from START */ reset_flx_token (hcl); /* the current character is on the same line as the hash mark, the column must be greater than 1 */ HCL_ASSERT (hcl, FLX_LOC(hcl)->colm > 1); FLX_LOC(hcl)->colm--; /* move back one character location by decrementing the column number */ ADD_TOKEN_CHAR (hcl, '#'); FEED_CONTINUE (hcl, HCL_FLX_HMARKED_TOKEN); goto not_consumed; } } HCL_ASSERT (hcl, st->char_count == 0); if (is_digitchar(c)) { init_flx_pn (FLX_PN(hcl)); /* the sign is not part of the pn->digit_count[0] so keep it at 0 here */ FEED_CONTINUE (hcl, HCL_FLX_PLAIN_NUMBER); goto not_consumed; } else { init_flx_pi (FLX_PI(hcl)); /* the sign is already in the token name buffer. * adjust the state data for the sign. */ HCL_ASSERT (hcl, TOKEN_NAME_LEN(hcl) == 1); FLX_PI(hcl)->char_count++; FLX_PI(hcl)->seg_len++; /* let refeeding of 'c' happen at the next iteration */ FEED_CONTINUE (hcl, HCL_FLX_PLAIN_IDENT); goto not_consumed; } consumed: return 1; not_consumed: return 0; } static int flx_bu (hcl_t* hcl, hcl_ooci_t c) { hcl_flx_bu_t* bu = FLX_BU(hcl); if (c == '\"') { int is_byte = (bu->start_c == 'b' || bu->start_c == 'B'); reset_flx_token (hcl); init_flx_qt (FLX_QT(hcl), HCL_TOK_STRLIT, HCL_SYNERR_STRLIT, c, '\\', 0, HCL_TYPE_MAX(hcl_oow_t), is_byte); FEED_CONTINUE (hcl, HCL_FLX_QUOTED_TOKEN); /* discard prefix, quote and move on */ goto consumed; } else if (c == '\'') { int is_byte = (bu->start_c == 'b' || bu->start_c == 'B'); reset_flx_token (hcl); init_flx_qt (FLX_QT(hcl), HCL_TOK_CHARLIT, HCL_SYNERR_CHARLIT, c, '\\', 1, 1, is_byte); FEED_CONTINUE (hcl, HCL_FLX_QUOTED_TOKEN); /* dicard prefix, quote, and move on */ goto consumed; } else { /* not followed by a quote. switch to the plain identifier */ init_flx_pi (FLX_PI(hcl)); /* the prefix is already in the token buffer. just adjust state data */ FLX_PI(hcl)->char_count++; FLX_PI(hcl)->seg_len++; /* refeed c */ FEED_CONTINUE (hcl, HCL_FLX_PLAIN_IDENT); goto not_consumed; } consumed: return 1; not_consumed: return 0; } /* ------------------------------------------------------------------------ */ static int feed_char (hcl_t* hcl, hcl_ooci_t c) { /*hcl_logbfmt (hcl, HCL_LOG_STDERR, "FEED->[%jc] %d STATE->%d\n", c, c, FLX_STATE(hcl));*/ switch (FLX_STATE(hcl)) { case HCL_FLX_START: return flx_start(hcl, c); case HCL_FLX_BACKSLASHED: return flx_backslashed(hcl, c); case HCL_FLX_COMMENT: return flx_comment(hcl, c); case HCL_FLX_DELIM_TOKEN: return flx_delim_token(hcl, c); case HCL_FLX_HMARKED_TOKEN: return flx_hmarked_token(hcl, c); case HCL_FLX_HMARKED_CHAR: return flx_hmarked_char(hcl, c); case HCL_FLX_HMARKED_IDENT: return flx_hmarked_ident(hcl, c); case HCL_FLX_HMARKED_NUMBER: return flx_hmarked_number(hcl, c); case HCL_FLX_PLAIN_IDENT: return flx_plain_ident(hcl, c); case HCL_FLX_PLAIN_NUMBER: return flx_plain_number(hcl, c); case HCL_FLX_QUOTED_TOKEN: return flx_quoted_token(hcl, c); case HCL_FLX_SIGNED_TOKEN: return flx_signed_token(hcl, c); case HCL_FLX_BU: return flx_bu(hcl, c); default: /* unknown state */ break; } HCL_ASSERT (hcl, !"internal error - this must never happen"); hcl_seterrbfmt (hcl, HCL_EINTERN, "internal error - unknown flx state - %d", FLX_STATE(hcl)); return -1; } static void feed_update_lx_loc (hcl_t* hcl, hcl_ooci_t ch) { if (is_linebreak(ch)) { hcl->c->feed.lx.loc.line++; hcl->c->feed.lx.loc.colm = 1; } else { hcl->c->feed.lx.loc.colm++; } } static int feed_from_includee (hcl_t* hcl) { int x; HCL_ASSERT (hcl, hcl->c->curinp != HCL_NULL && hcl->c->curinp != &hcl->c->cci_arg); do { if (hcl->c->curinp->b.pos >= hcl->c->curinp->b.len) { if (hcl->c->cci_rdr(hcl, HCL_IO_READ, hcl->c->curinp) <= -1) { return -1; } if (hcl->c->curinp->xlen <= 0) { /* got EOF from an included stream */ feed_end_include (hcl); continue; } hcl->c->curinp->b.pos = 0; hcl->c->curinp->b.len = hcl->c->curinp->xlen; } x = feed_char(hcl, hcl->c->curinp->buf[hcl->c->curinp->b.pos]); if (x <= -1) return -1; if (x >= 1) { /* consumed */ feed_update_lx_loc (hcl, hcl->c->curinp->buf[hcl->c->curinp->b.pos]); hcl->c->curinp->b.pos += x; } if (hcl->c->feed.rd.do_include_file) { /* feed_process_token(), called for the "filename" token for the #include * directive, sets hcl->c->feed.rd.do_include_file to 1 instead of attepmting * to include the file. the file inclusion is attempted here after the return * value of feed_char() is used to advance the hcl->c->curinp->b.pos pointer. */ hcl->c->feed.rd.do_include_file = 0; /* clear this regardless of inclusion result */ if (feed_begin_include(hcl) <= -1) return -1; } } while (hcl->c->curinp != &hcl->c->cci_arg); return 0; } int hcl_beginfeed (hcl_t* hcl, hcl_on_cnode_t on_cnode) { HCL_ASSERT (hcl, hcl->c != HCL_NULL); /* call hcl_attachccio() or hcl_attachcciostd() first */ init_feed (hcl); if (on_cnode) hcl->c->feed.on_cnode = on_cnode; /* if you pass HCL_NULL for on_cnode, hcl->c->feed.on_cnode resets * back to the default handler in init_feed() */ return 0; } int hcl_endfeed (hcl_t* hcl) { return hcl_feed(hcl, HCL_NULL, 0); } int hcl_feed (hcl_t* hcl, const hcl_ooch_t* data, hcl_oow_t len) { /* TODO: need to return the number of processed characters? * need to stop after the first complete expression? */ hcl_oow_t i; int x; HCL_ASSERT (hcl, hcl->c != HCL_NULL); #if defined(HCL_OOCH_IS_UCH) if (hcl->c->feed.rsd.len > 0 && !hcl->c->feed.rsd.no_check) { hcl_seterrbfmt (hcl, HCL_EPERM, "feed disallowed for incomplete sequence pending more feeding"); return -1; } #endif if (data) { for (i = 0; i < len; ) { x = feed_char(hcl, data[i]); if (x <= -1) goto oops; /* TODO: return the number of processed characters via an argument? */ if (x > 0) { /* consumed */ feed_update_lx_loc (hcl, data[i]); i += x; /* x is supposed to be 1. otherwise, some characters may get skipped. */ } if (hcl->c->feed.rd.do_include_file) { if (feed_begin_include(hcl) <= -1) goto oops; hcl->c->feed.rd.do_include_file = 0; } if (hcl->c->curinp && hcl->c->curinp != &hcl->c->cci_arg && feed_from_includee(hcl) <= -1) { /* TODO: return the number of processed characters via an argument? */ goto oops; } /* feed data[i] again if not consumed */ } } else { for (i = 0; i < 1;) /* weird loop in case feed_char() returns 0 */ { x = feed_char(hcl, HCL_OOCI_EOF); if (x <= -1) { if (hcl->c->feed.rd.level <= 0 && hcl_geterrnum(hcl) == HCL_ESYNERR && hcl_getsynerrnum(hcl) == HCL_SYNERR_EOF) { /* convert this EOF error to success as the caller knows EOF in the feed mode. * the caller can safely stop feeding after gettting success from hcl_feed(hcl, HCL_NULL, 0); * in the feed mode, this function doesn't set HCL_EFINIS. */ x = 1; } else { goto oops; } } i += x; } } return 0; oops: /* if enter_list() is in feed_process_token(), the stack grows. * leave_list() pops an element off the stack. the stack can be * not empty if an error occurs outside feed_process_token() after * leave_list() in it. for example, * * ( #aaa * ^ ^ * leave_list() error in flx_hmarked_ident() before a full cnode is processed */ feed_clean_up_reader_stack (hcl); return -1; } int hcl_feedbchars (hcl_t* hcl, const hcl_bch_t* data, hcl_oow_t len) { #if defined(HCL_OOCH_IS_UCH) hcl_uch_t outbuf[128]; hcl_oow_t inlen, outlen, inpos, brwlen; int n; HCL_ASSERT (hcl, hcl->c != HCL_NULL); inpos = 0; if (hcl->c->feed.rsd.len > 0) { hcl_oow_t rsdlen; /* handle the residue bytes from the previous feeding */ rsdlen = hcl->c->feed.rsd.len; /* original residue length*/ brwlen = HCL_COUNTOF(hcl->c->feed.rsd.buf) - rsdlen; if (len < brwlen) brwlen = len; HCL_MEMCPY(&hcl->c->feed.rsd.buf[rsdlen], data, brwlen); hcl->c->feed.rsd.len += brwlen; inlen = hcl->c->feed.rsd.len; outlen = 1; /* ensure that it can only convert 1 character */ n = hcl_conv_bchars_to_uchars_with_cmgr(hcl->c->feed.rsd.buf, &inlen, outbuf, &outlen, hcl_getcmgr(hcl), 0); if (outlen > 0) { int x; hcl->c->feed.rsd.no_check = 1; x = hcl_feed(hcl, outbuf, outlen); hcl->c->feed.rsd.no_check = 0; if (x <= -1) return -1; } if (n <= -1) { if (n == -3 || (n == -2 && outlen > 0)) { /* n == -3. invalid sequence. more feeding is required */ /* n == -2. there were extra bytes for the second character in the input */ HCL_ASSERT (hcl, (n == -3 && inlen == 0 && outlen == 0) || (n == -2 && inlen > 0)); /* nothing to do. carry on */ } else { hcl_seterrnum (hcl, (n == -2)? HCL_EBUFFULL: HCL_EECERR); return -1; } } /* * | rsdlen | brwlen | * | inlen | */ if (inlen < rsdlen) { HCL_ASSERT (hcl, inlen == 0); HCL_ASSERT (hcl, brwlen == len); /* brwlen needs no change */ /* hcl->c->feed.rsd.len nees no change */ } else { HCL_ASSERT (hcl, inlen > rsdlen); brwlen = inlen - rsdlen; /* actual bytes borrowed and converted */ hcl->c->feed.rsd.len = 0; } inpos += brwlen; len -= brwlen; } while (len > 0) { inlen = len; outlen = HCL_COUNTOF(outbuf); /* hcl_convbtouchars() does not differentiate between illegal charcter and incomplete sequence. * use a lower-level function that hcl_convbtouchars() uses */ n = hcl_conv_bchars_to_uchars_with_cmgr(&data[inpos], &inlen, outbuf, &outlen, hcl_getcmgr(hcl), 0); if (outlen > 0 && hcl_feed(hcl, outbuf, outlen) <= -1) return -1; if (n <= -1) { if (n == -2 && outlen > 0) goto ok; if (n == -2 || n == -3) { hcl_oow_t rsdlen; HCL_ASSERT (hcl, len > inlen); rsdlen = len - inlen; HCL_ASSERT (hcl, rsdlen <= HCL_COUNTOF(hcl->c->feed.rsd.buf)); HCL_MEMCPY (hcl->c->feed.rsd.buf, &data[inpos + inlen], rsdlen); hcl->c->feed.rsd.len = len - inlen; break; } hcl_seterrnum (hcl, HCL_EECERR); return -1; } ok: inpos += inlen; len -= inlen; } return 0; #else return hcl_feed(hcl, data, len); #endif } int hcl_feeduchars (hcl_t* hcl, const hcl_uch_t* data, hcl_oow_t len) { #if defined(HCL_OOCH_IS_UCH) return hcl_feed(hcl, data, len); #else hcl_bch_t outbuf[HCL_BCSIZE_MAX * 128]; hcl_oow_t inlen, outlen, inpos; int n; inpos = 0; while (len > 0) { inlen = len; outlen = HCL_COUNTOF(outbuf); n = hcl_convutobchars(hcl, &data[inpos], &inlen, outbuf, &outlen); if (outlen > 0 && hcl_feed(hcl, outbuf, outlen) <= -1) return -1; inpos += inlen; len -= inlen; if (n <= -1) return -1; } return 0; #endif } /* hcl_setopt (ON_EXPRESSION CALLBACK??? ); hcl_feed (hcl, "(hello) (10)", 12); > on_token > on_expression > on_eof default callback for on_expression? compile execute??/ if in the interactive mode? (say it's used as a network protocol. execute each expression when received....) default callback for on_eof? execute or terminate? */ /* ------------------------------------------------------------------------ */ /* TODO: rename compiler to something else that can include reader, udo_wrtr, and compiler * move compiler intialization/finalization here to more common place */ static void gc_compiler_cb (hcl_t* hcl) { if (hcl->c) { hcl->c->r.s = hcl_moveoop(hcl, hcl->c->r.s); hcl->c->r.e = hcl_moveoop(hcl, hcl->c->r.e); } } static void fini_compiler_cb (hcl_t* hcl) { /* called before the hcl object is closed */ if (hcl->c) { if (hcl->c->cfs.ptr) { hcl_freemem (hcl, hcl->c->cfs.ptr); hcl->c->cfs.ptr = HCL_NULL; hcl->c->cfs.top = -1; hcl->c->cfs.capa = 0; } if (hcl->c->tv.s.ptr) { hcl_freemem (hcl, hcl->c->tv.s.ptr); hcl->c->tv.s.ptr = HCL_NULL; hcl->c->tv.s.len = 0; hcl->c->tv.capa = 0; hcl->c->tv.wcount = 0; } HCL_ASSERT (hcl, hcl->c->tv.capa == 0); HCL_ASSERT (hcl, hcl->c->tv.wcount == 0); if (hcl->c->cblk.info) { hcl_freemem (hcl, hcl->c->cblk.info); hcl->c->cblk.info = HCL_NULL; hcl->c->cblk.info_capa = 0; hcl->c->cblk.depth = -1; } if (hcl->c->clsblk.info) { hcl_freemem (hcl, hcl->c->clsblk.info); hcl->c->clsblk.info = HCL_NULL; hcl->c->clsblk.info_capa = 0; hcl->c->clsblk.depth = -1; } if (hcl->c->fnblk.info) { hcl_freemem (hcl, hcl->c->fnblk.info); hcl->c->fnblk.info = HCL_NULL; hcl->c->fnblk.info_capa = 0; hcl->c->fnblk.depth = -1; } clear_sr_names (hcl); if (hcl->c->tok.name.ptr) hcl_freemem (hcl, hcl->c->tok.name.ptr); hcl_detachccio (hcl); hcl_freemem (hcl, hcl->c); hcl->c = HCL_NULL; } } static void fini_compiler (hcl_t* hcl) { /* unlike fini_compiler_cb(), this is to be used in some error handling * between init_compiler success and subquent operation failure */ if (hcl->c) { hcl_deregcb (hcl, hcl->c->cbp); fini_compiler_cb (hcl); } } static int init_compiler (hcl_t* hcl) { hcl_cb_t cb, * cbp = HCL_NULL; HCL_ASSERT (hcl, hcl->c == HCL_NULL); HCL_MEMSET (&cb, 0, HCL_SIZEOF(cb)); cb.gc = gc_compiler_cb; cb.fini = fini_compiler_cb; cbp = hcl_regcb(hcl, &cb); if (HCL_UNLIKELY(!cbp)) return -1; hcl->c = (hcl_compiler_t*)hcl_callocmem(hcl, HCL_SIZEOF(*hcl->c)); if (HCL_UNLIKELY(!hcl->c)) { const hcl_ooch_t* orgmsg = hcl_backuperrmsg(hcl); hcl_seterrbfmt (hcl, hcl_geterrnum(hcl), "failed to allocate compiler - %js", orgmsg); hcl_deregcb (hcl, cbp); return -1; } hcl->c->ilchr_ucs.ptr = &hcl->c->ilchr; hcl->c->ilchr_ucs.len = 1; hcl->c->r.s = hcl->_nil; hcl->c->r.e = hcl->_nil; hcl->c->cfs.top = -1; hcl->c->cblk.depth = -1; hcl->c->clsblk.depth = -1; hcl->c->fnblk.depth = -1; init_feed (hcl); hcl->c->cbp = cbp; /* initialize the internal cons to represent a cell pointing to `null` in the `car` part */ hcl->c->fake_cnode.nil.cn_type = HCL_CNODE_NIL; hcl->c->fake_cnode.nil.cn_tok.ptr = vocas[VOCA_KW_NULL].str; hcl->c->fake_cnode.nil.cn_tok.len = vocas[VOCA_KW_NULL].len; hcl->c->fake_cnode.cons_to_nil.cn_type = HCL_CNODE_CONS; hcl->c->fake_cnode.cons_to_nil.u.cons.car = &hcl->c->fake_cnode.nil; hcl->c->fake_cnode.cons_to_nil.u.cons.cdr = HCL_NULL; return 0; } int hcl_attachccio (hcl_t* hcl, hcl_io_impl_t cci_rdr) { int n; int inited_compiler = 0; hcl_io_cciarg_t new_cciarg; if (!hcl->c) { if (init_compiler(hcl) <= -1) return -1; inited_compiler = 1; } if (cci_rdr) { /* The name field and the includer field are HCL_NULL * for the main stream */ HCL_MEMSET (&new_cciarg, 0, HCL_SIZEOF(new_cciarg)); new_cciarg.line = 1; new_cciarg.colm = 1; /* open the top-level source input stream */ n = cci_rdr(hcl, HCL_IO_OPEN, &new_cciarg); if (n <= -1) goto oops; if (hcl->c->cci_rdr) { /* close the old source input stream */ hcl->c->cci_rdr (hcl, HCL_IO_CLOSE, &hcl->c->cci_arg); } hcl->c->cci_rdr = cci_rdr; hcl->c->cci_arg = new_cciarg; /* clear unneeded source stream names */ /*clear_sr_names (hcl); <---- TODO: tricky to clean up here */ /* initialize some other key fields */ hcl->c->nungots = 0; /* the source stream is open. set it as the current input stream */ hcl->c->curinp = &hcl->c->cci_arg; } return 0; oops: if (inited_compiler) fini_compiler (hcl); return -1; } void hcl_detachccio (hcl_t* hcl) { /* an error occurred and control has reached here * probably, some included files might not have been * closed. close them */ if (hcl->c) { if (hcl->c->cci_rdr) { while (hcl->c->curinp != &hcl->c->cci_arg) { hcl_io_cciarg_t* prev; /* nothing much to do about a close error */ hcl->c->cci_rdr (hcl, HCL_IO_CLOSE, hcl->c->curinp); prev = hcl->c->curinp->includer; HCL_ASSERT (hcl, hcl->c->curinp->name != HCL_NULL); hcl_freemem (hcl, hcl->c->curinp); hcl->c->curinp = prev; } hcl->c->cci_rdr (hcl, HCL_IO_CLOSE, hcl->c->curinp); hcl->c->cci_rdr = HCL_NULL; /* ready for another attachment */ } } } int hcl_attachudio (hcl_t* hcl, hcl_io_impl_t udi_rdr, hcl_io_impl_t udo_wrtr) { int n; hcl_io_udiarg_t new_udiarg; hcl_io_udoarg_t new_udoarg; if (udi_rdr) { HCL_MEMSET (&new_udiarg, 0, HCL_SIZEOF(new_udiarg)); n = udi_rdr(hcl, HCL_IO_OPEN, &new_udiarg); if (n <= -1) { goto oops; } } if (udo_wrtr) { /* open the new output stream */ HCL_MEMSET (&new_udoarg, 0, HCL_SIZEOF(new_udoarg)); n = udo_wrtr(hcl, HCL_IO_OPEN, &new_udoarg); if (n <= -1) { if (udi_rdr) udi_rdr (hcl, HCL_IO_CLOSE, &new_udiarg); goto oops; } } if (udi_rdr) { if (hcl->io.udi_rdr) { /* close the old input stream */ hcl->io.udi_rdr (hcl, HCL_IO_CLOSE, &hcl->io.udi_arg); } hcl->io.udi_rdr = udi_rdr; hcl->io.udi_arg = new_udiarg; } if (udo_wrtr) { if (hcl->io.udo_wrtr) { /* close the old output stream */ hcl->io.udo_wrtr (hcl, HCL_IO_CLOSE, &hcl->io.udo_arg); } hcl->io.udo_wrtr = udo_wrtr; hcl->io.udo_arg = new_udoarg; } return 0; oops: return -1; } void hcl_detachudio (hcl_t* hcl) { if (hcl->io.udi_rdr) { hcl->io.udi_rdr (hcl, HCL_IO_CLOSE, &hcl->io.udi_arg); hcl->io.udi_rdr = HCL_NULL; /* ready for another attachment */ } if (hcl->io.udo_wrtr) { hcl->io.udo_wrtr (hcl, HCL_IO_CLOSE, &hcl->io.udo_arg); hcl->io.udo_wrtr = HCL_NULL; /* ready for another attachment */ } } void hcl_flushudio (hcl_t* hcl) { if (hcl->io.udo_wrtr) hcl->io.udo_wrtr (hcl, HCL_IO_FLUSH, &hcl->io.udo_arg); } /* TODO: discard the fwollowing three functions - hcl_setbasesrloc, hcl_readbasesrchar, hcl_readbasesrraw */ void hcl_setbasesrloc (hcl_t* hcl, hcl_oow_t line, hcl_oow_t colm) { hcl->c->cci_arg.line = line; hcl->c->cci_arg.colm = colm; } hcl_lxc_t* hcl_readbasesrchar (hcl_t* hcl) { /* read a character using the base input stream. the caller must care extra * care when using this function. this function reads the main stream regardless * of the inclusion status and ignores the ungot characters. */ int n = _get_char(hcl, &hcl->c->cci_arg); if (n <= -1) return HCL_NULL; return &hcl->c->cci_arg.lxc; } hcl_ooch_t* hcl_readbasesrraw (hcl_t* hcl, hcl_oow_t* xlen) { /* this function provides the raw input interface to the attached source * input handler. it doesn't increment line/column number, nor does it * care about ungot characters. it must be used with extra care */ HCL_ASSERT (hcl, hcl->c != HCL_NULL); /* call hio_attachio() or hio_attachiostd() with proper arguments first */ if (hcl->c->cci_rdr(hcl, HCL_IO_READ, &hcl->c->cci_arg) <= -1) return HCL_NULL; *xlen = hcl->c->cci_arg.xlen; return hcl->c->cci_arg.buf; }