/* * Copyright 2011 Jacek Caban for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include "vbscript.h" #include "parse.h" #include "parser.tab.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(vbscript); static const struct { const WCHAR *word; int token; } keywords[] = { {L"and", tAND}, {L"byref", tBYREF}, {L"byval", tBYVAL}, {L"call", tCALL}, {L"case", tCASE}, {L"class", tCLASS}, {L"const", tCONST}, {L"default", tDEFAULT}, {L"dim", tDIM}, {L"do", tDO}, {L"each", tEACH}, {L"else", tELSE}, {L"elseif", tELSEIF}, {L"empty", tEMPTY}, {L"end", tEND}, {L"eqv", tEQV}, {L"error", tERROR}, {L"exit", tEXIT}, {L"explicit", tEXPLICIT}, {L"false", tFALSE}, {L"for", tFOR}, {L"function", tFUNCTION}, {L"get", tGET}, {L"goto", tGOTO}, {L"if", tIF}, {L"imp", tIMP}, {L"in", tIN}, {L"is", tIS}, {L"let", tLET}, {L"loop", tLOOP}, {L"me", tME}, {L"mod", tMOD}, {L"new", tNEW}, {L"next", tNEXT}, {L"not", tNOT}, {L"nothing", tNOTHING}, {L"null", tNULL}, {L"on", tON}, {L"option", tOPTION}, {L"or", tOR}, {L"private", tPRIVATE}, {L"property", tPROPERTY}, {L"public", tPUBLIC}, {L"rem", tREM}, {L"resume", tRESUME}, {L"select", tSELECT}, {L"set", tSET}, {L"step", tSTEP}, {L"stop", tSTOP}, {L"sub", tSUB}, {L"then", tTHEN}, {L"to", tTO}, {L"true", tTRUE}, {L"until", tUNTIL}, {L"wend", tWEND}, {L"while", tWHILE}, {L"with", tWITH}, {L"xor", tXOR} }; static inline BOOL is_identifier_char(WCHAR c) { return iswalnum(c) || c == '_'; } static int check_keyword(parser_ctx_t *ctx, const WCHAR *word, const WCHAR **lval) { const WCHAR *p1 = ctx->ptr; const WCHAR *p2 = word; WCHAR c; while(p1 < ctx->end && *p2) { c = towlower(*p1); if(c != *p2) return c - *p2; p1++; p2++; } if(*p2 || (p1 < ctx->end && is_identifier_char(*p1))) return 1; ctx->ptr = p1; *lval = word; return 0; } static int check_keywords(parser_ctx_t *ctx, const WCHAR **lval) { int min = 0, max = ARRAY_SIZE(keywords)-1, r, i; while(min <= max) { i = (min+max)/2; r = check_keyword(ctx, keywords[i].word, lval); if(!r) return keywords[i].token; if(r > 0) min = i+1; else max = i-1; } return 0; } static int parse_identifier(parser_ctx_t *ctx, const WCHAR **ret) { const WCHAR *ptr = ctx->ptr++; WCHAR *str; int len; while(ctx->ptr < ctx->end && is_identifier_char(*ctx->ptr)) ctx->ptr++; len = ctx->ptr-ptr; str = parser_alloc(ctx, (len+1)*sizeof(WCHAR)); if(!str) return 0; memcpy(str, ptr, (len+1)*sizeof(WCHAR)); str[len] = 0; *ret = str; return tIdentifier; } static int parse_string_literal(parser_ctx_t *ctx, const WCHAR **ret) { const WCHAR *ptr = ++ctx->ptr; WCHAR *rptr; int len = 0; while(ctx->ptr < ctx->end) { if(*ctx->ptr == '\n' || *ctx->ptr == '\r') { FIXME("newline inside string literal\n"); return 0; } if(*ctx->ptr == '"') { if(ctx->ptr[1] != '"') break; len--; ctx->ptr++; } ctx->ptr++; } if(ctx->ptr == ctx->end) { FIXME("unterminated string literal\n"); return 0; } len += ctx->ptr-ptr; *ret = rptr = parser_alloc(ctx, (len+1)*sizeof(WCHAR)); if(!rptr) return 0; while(ptr < ctx->ptr) { if(*ptr == '"') ptr++; *rptr++ = *ptr++; } *rptr = 0; ctx->ptr++; return tString; } static int parse_numeric_literal(parser_ctx_t *ctx, void **ret) { BOOL use_int = TRUE; LONGLONG d = 0, hlp; int exp = 0; double r; if(*ctx->ptr == '0' && !('0' <= ctx->ptr[1] && ctx->ptr[1] <= '9') && ctx->ptr[1] != '.') return *ctx->ptr++; while(ctx->ptr < ctx->end && iswdigit(*ctx->ptr)) { hlp = d*10 + *(ctx->ptr++) - '0'; if(d>MAXLONGLONG/10 || hlp<0) { exp++; break; } else d = hlp; } while(ctx->ptr < ctx->end && iswdigit(*ctx->ptr)) { exp++; ctx->ptr++; } if(*ctx->ptr == '.') { use_int = FALSE; ctx->ptr++; while(ctx->ptr < ctx->end && iswdigit(*ctx->ptr)) { hlp = d*10 + *(ctx->ptr++) - '0'; if(d>MAXLONGLONG/10 || hlp<0) break; d = hlp; exp--; } while(ctx->ptr < ctx->end && iswdigit(*ctx->ptr)) ctx->ptr++; } if(*ctx->ptr == 'e' || *ctx->ptr == 'E') { int e = 0, sign = 1; ctx->ptr++; if(*ctx->ptr == '-') { ctx->ptr++; sign = -1; }else if(*ctx->ptr == '+') { ctx->ptr++; } if(!iswdigit(*ctx->ptr)) { FIXME("Invalid numeric literal\n"); return 0; } use_int = FALSE; do { e = e*10 + *(ctx->ptr++) - '0'; if(sign == -1 && -e+exp < -(INT_MAX/100)) { /* The literal will be rounded to 0 anyway. */ while(iswdigit(*ctx->ptr)) ctx->ptr++; *(double*)ret = 0; return tDouble; } if(sign*e + exp > INT_MAX/100) { FIXME("Invalid numeric literal\n"); return 0; } } while(iswdigit(*ctx->ptr)); exp += sign*e; } if(use_int && (LONG)d == d) { *(LONG*)ret = d; return tInt; } r = exp>=0 ? d*pow(10, exp) : d/pow(10, -exp); if(isinf(r)) { FIXME("Invalid numeric literal\n"); return 0; } *(double*)ret = r; return tDouble; } static int hex_to_int(WCHAR c) { if('0' <= c && c <= '9') return c-'0'; if('a' <= c && c <= 'f') return c+10-'a'; if('A' <= c && c <= 'F') return c+10-'A'; return -1; } static int parse_hex_literal(parser_ctx_t *ctx, LONG *ret) { const WCHAR *begin = ctx->ptr; LONG l = 0, d; while((d = hex_to_int(*++ctx->ptr)) != -1) l = l*16 + d; if(begin + 9 /* max digits+1 */ < ctx->ptr || (*ctx->ptr != '&' && is_identifier_char(*ctx->ptr))) { FIXME("invalid literal\n"); return 0; } if(*ctx->ptr == '&') ctx->ptr++; *ret = l; return tInt; } static void skip_spaces(parser_ctx_t *ctx) { while(*ctx->ptr == ' ' || *ctx->ptr == '\t') ctx->ptr++; } static int comment_line(parser_ctx_t *ctx) { static const WCHAR newlineW[] = {'\n','\r',0}; ctx->ptr = wcspbrk(ctx->ptr, newlineW); if(ctx->ptr) ctx->ptr++; else ctx->ptr = ctx->end; return tNL; } static int parse_next_token(void *lval, parser_ctx_t *ctx) { WCHAR c; skip_spaces(ctx); if(ctx->ptr == ctx->end) return ctx->last_token == tNL ? tEOF : tNL; c = *ctx->ptr; if('0' <= c && c <= '9') return parse_numeric_literal(ctx, lval); if(iswalpha(c)) { int ret = check_keywords(ctx, lval); if(!ret) return parse_identifier(ctx, lval); if(ret != tREM) return ret; c = '\''; } switch(c) { case '\n': case '\r': ctx->ptr++; return tNL; case '\'': return comment_line(ctx); case ':': case ')': case ',': case '=': case '+': case '*': case '/': case '^': case '\\': case '_': return *ctx->ptr++; case '.': /* * We need to distinguish between '.' used as part of a member expression and * a beginning of a dot expression (a member expression accessing with statement * expression). */ c = ctx->ptr > ctx->code ? ctx->ptr[-1] : '\n'; ctx->ptr++; return is_identifier_char(c) || c == ')' ? '.' : tDOT; case '-': if(ctx->is_html && ctx->ptr[1] == '-' && ctx->ptr[2] == '>') return comment_line(ctx); ctx->ptr++; return '-'; case '(': /* NOTE: * We resolve empty brackets in lexer instead of parser to avoid complex conflicts * in call statement special case |f()| without 'call' keyword */ ctx->ptr++; skip_spaces(ctx); if(*ctx->ptr == ')') { ctx->ptr++; return tEMPTYBRACKETS; } return '('; case '"': return parse_string_literal(ctx, lval); case '&': if(*++ctx->ptr == 'h' || *ctx->ptr == 'H') return parse_hex_literal(ctx, lval); return '&'; case '<': switch(*++ctx->ptr) { case '>': ctx->ptr++; return tNEQ; case '=': ctx->ptr++; return tLTEQ; case '!': if(ctx->is_html && ctx->ptr[1] == '-' && ctx->ptr[2] == '-') return comment_line(ctx); } return '<'; case '>': if(*++ctx->ptr == '=') { ctx->ptr++; return tGTEQ; } return '>'; default: FIXME("Unhandled char %c in %s\n", *ctx->ptr, debugstr_w(ctx->ptr)); } return 0; } int parser_lex(void *lval, parser_ctx_t *ctx) { int ret; if (ctx->last_token == tEXPRESSION) { ctx->last_token = tNL; return tEXPRESSION; } while(1) { ret = parse_next_token(lval, ctx); if(ret == '_') { skip_spaces(ctx); if(*ctx->ptr != '\n' && *ctx->ptr != '\r') { FIXME("'_' not followed by newline\n"); return 0; } if(*ctx->ptr == '\r') ctx->ptr++; if(*ctx->ptr == '\n') ctx->ptr++; continue; } if(ret != tNL || ctx->last_token != tNL) break; ctx->last_nl = ctx->ptr-ctx->code; } return (ctx->last_token = ret); }