ref: 8f62ea10a0af68e56d5c00720523ebcba13c2e6a
dir: /jsparse.c/
#include "jsi.h" #include "jslex.h" #include "jsparse.h" #define LIST(h) jsP_newnode(J, AST_LIST, h, 0, 0, 0) #define EXP0(x) jsP_newnode(J, EXP_ ## x, 0, 0, 0, 0) #define EXP1(x,a) jsP_newnode(J, EXP_ ## x, a, 0, 0, 0) #define EXP2(x,a,b) jsP_newnode(J, EXP_ ## x, a, b, 0, 0) #define EXP3(x,a,b,c) jsP_newnode(J, EXP_ ## x, a, b, c, 0) #define STM0(x) jsP_newnode(J, STM_ ## x, 0, 0, 0, 0) #define STM1(x,a) jsP_newnode(J, STM_ ## x, a, 0, 0, 0) #define STM2(x,a,b) jsP_newnode(J, STM_ ## x, a, b, 0, 0) #define STM3(x,a,b,c) jsP_newnode(J, STM_ ## x, a, b, c, 0) #define STM4(x,a,b,c,d) jsP_newnode(J, STM_ ## x, a, b, c, d) static js_Ast *expression(js_State *J, int notin); static js_Ast *assignment(js_State *J, int notin); static js_Ast *memberexp(js_State *J); static js_Ast *statement(js_State *J); static js_Ast *funbody(js_State *J); JS_NORETURN static void jsP_error(js_State *J, const char *fmt, ...) JS_PRINTFLIKE(2,3); static void jsP_error(js_State *J, const char *fmt, ...) { va_list ap; char buf[512]; char msgbuf[256]; va_start(ap, fmt); vsnprintf(msgbuf, 256, fmt, ap); va_end(ap); snprintf(buf, 256, "%s:%d: ", J->filename, J->lexline); strcat(buf, msgbuf); js_newsyntaxerror(J, buf); js_throw(J); } static void jsP_warning(js_State *J, const char *fmt, ...) { va_list ap; fprintf(stderr, "%s:%d: warning: ", J->filename, J->lexline); va_start(ap, fmt); vfprintf(stderr, fmt, ap); va_end(ap); fprintf(stderr, "\n"); } static js_Ast *jsP_newnode(js_State *J, enum js_AstType type, js_Ast *a, js_Ast *b, js_Ast *c, js_Ast *d) { js_Ast *node = js_malloc(J, sizeof *node); node->type = type; node->line = J->astline; node->a = a; node->b = b; node->c = c; node->d = d; node->number = 0; node->string = NULL; node->jumps = NULL; node->casejump = 0; node->parent = NULL; if (a) a->parent = node; if (b) b->parent = node; if (c) c->parent = node; if (d) d->parent = node; node->gcnext = J->gcast; J->gcast = node; return node; } static js_Ast *jsP_list(js_Ast *head) { /* set parent pointers in list nodes */ js_Ast *prev = head, *node = head->b; while (node) { node->parent = prev; prev = node; node = node->b; } return head; } static js_Ast *jsP_newstrnode(js_State *J, enum js_AstType type, const char *s) { js_Ast *node = jsP_newnode(J, type, 0, 0, 0, 0); node->string = s; return node; } static js_Ast *jsP_newnumnode(js_State *J, enum js_AstType type, double n) { js_Ast *node = jsP_newnode(J, type, 0, 0, 0, 0); node->number = n; return node; } static void jsP_freejumps(js_State *J, js_JumpList *node) { while (node) { js_JumpList *next = node->next; js_free(J, node); node = next; } } void jsP_freeparse(js_State *J) { js_Ast *node = J->gcast; while (node) { js_Ast *next = node->gcnext; jsP_freejumps(J, node->jumps); js_free(J, node); node = next; } J->gcast = NULL; } /* Lookahead */ static void jsP_next(js_State *J) { J->astline = J->lexline; J->lookahead = jsY_lex(J); } #define jsP_accept(J,x) (J->lookahead == x ? (jsP_next(J), 1) : 0) #define jsP_expect(J,x) if (!jsP_accept(J, x)) jsP_error(J, "unexpected token: %s (expected %s)", jsY_tokenstring(J->lookahead), jsY_tokenstring(x)) static void semicolon(js_State *J) { if (J->lookahead == ';') { jsP_next(J); return; } if (J->newline || J->lookahead == '}' || J->lookahead == 0) return; jsP_error(J, "unexpected token: %s (expected ';')", jsY_tokenstring(J->lookahead)); } /* Literals */ static const char *futurewords[] = { "class", "const", "enum", "export", "extends", "import", "super", }; static const char *strictfuturewords[] = { "implements", "interface", "let", "package", "private", "protected", "public", "static", "yield", }; static void checkfutureword(js_State *J, const char *s) { if (jsY_findword(s, futurewords, nelem(futurewords)) >= 0) jsP_error(J, "'%s' is a future reserved word", s); if (J->strict && jsY_findword(s, strictfuturewords, nelem(strictfuturewords)) >= 0) jsP_error(J, "'%s' is a strict mode future reserved word", s); } static js_Ast *identifier(js_State *J) { js_Ast *a; if (J->lookahead == TK_IDENTIFIER) { checkfutureword(J, J->text); a = jsP_newstrnode(J, AST_IDENTIFIER, J->text); jsP_next(J); return a; } jsP_error(J, "unexpected token: %s (expected identifier)", jsY_tokenstring(J->lookahead)); } static js_Ast *identifieropt(js_State *J) { if (J->lookahead == TK_IDENTIFIER) return identifier(J); return NULL; } static js_Ast *identifiername(js_State *J) { if (J->lookahead == TK_IDENTIFIER || J->lookahead >= TK_BREAK) { js_Ast *a = jsP_newstrnode(J, AST_IDENTIFIER, J->text); jsP_next(J); return a; } jsP_error(J, "unexpected token: %s (expected identifier or keyword)", jsY_tokenstring(J->lookahead)); } static js_Ast *arrayelement(js_State *J) { if (J->lookahead == ',') return EXP0(UNDEF); return assignment(J, 0); } static js_Ast *arrayliteral(js_State *J) { js_Ast *head, *tail; if (J->lookahead == ']') return NULL; head = tail = LIST(arrayelement(J)); while (jsP_accept(J, ',')) { if (J->lookahead != ']') tail = tail->b = LIST(arrayelement(J)); } return jsP_list(head); } static js_Ast *propname(js_State *J) { js_Ast *name; if (J->lookahead == TK_NUMBER) { name = jsP_newnumnode(J, EXP_NUMBER, J->number); jsP_next(J); } else if (J->lookahead == TK_STRING) { name = jsP_newstrnode(J, EXP_STRING, J->text); jsP_next(J); } else { name = identifiername(J); } return name; } static js_Ast *propassign(js_State *J) { js_Ast *name, *value, *arg, *body; name = propname(J); if (J->lookahead != ':' && name->type == AST_IDENTIFIER) { if (!strcmp(name->string, "get")) { name = propname(J); jsP_expect(J, '('); jsP_expect(J, ')'); body = funbody(J); return EXP3(PROP_GET, name, NULL, body); } if (!strcmp(name->string, "set")) { name = propname(J); jsP_expect(J, '('); arg = identifier(J); jsP_expect(J, ')'); body = funbody(J); return EXP3(PROP_SET, name, LIST(arg), body); } } jsP_expect(J, ':'); value = assignment(J, 0); return EXP2(PROP_VAL, name, value); } static js_Ast *objectliteral(js_State *J) { js_Ast *head, *tail; if (J->lookahead == '}') return NULL; head = tail = LIST(propassign(J)); while (jsP_accept(J, ',')) { if (J->lookahead == '}') break; tail = tail->b = LIST(propassign(J)); } return jsP_list(head); } /* Functions */ static js_Ast *parameters(js_State *J) { js_Ast *head, *tail; if (J->lookahead == ')') return NULL; head = tail = LIST(identifier(J)); while (jsP_accept(J, ',')) { tail = tail->b = LIST(identifier(J)); } return jsP_list(head); } static js_Ast *fundec(js_State *J) { js_Ast *a, *b, *c; a = identifier(J); jsP_expect(J, '('); b = parameters(J); jsP_expect(J, ')'); c = funbody(J); return jsP_newnode(J, AST_FUNDEC, a, b, c, 0); } static js_Ast *funstm(js_State *J) { js_Ast *a, *b, *c; a = identifier(J); jsP_expect(J, '('); b = parameters(J); jsP_expect(J, ')'); c = funbody(J); /* rewrite function statement as "var X = function X() {}" */ return STM1(VAR, LIST(EXP2(VAR, a, EXP3(FUN, a, b, c)))); } static js_Ast *funexp(js_State *J) { js_Ast *a, *b, *c; a = identifieropt(J); jsP_expect(J, '('); b = parameters(J); jsP_expect(J, ')'); c = funbody(J); return EXP3(FUN, a, b, c); } /* Expressions */ static js_Ast *primary(js_State *J) { js_Ast *a; if (J->lookahead == TK_IDENTIFIER) { checkfutureword(J, J->text); a = jsP_newstrnode(J, EXP_IDENTIFIER, J->text); jsP_next(J); return a; } if (J->lookahead == TK_STRING) { a = jsP_newstrnode(J, EXP_STRING, J->text); jsP_next(J); return a; } if (J->lookahead == TK_REGEXP) { a = jsP_newstrnode(J, EXP_REGEXP, J->text); a->number = J->number; jsP_next(J); return a; } if (J->lookahead == TK_NUMBER) { a = jsP_newnumnode(J, EXP_NUMBER, J->number); jsP_next(J); return a; } if (jsP_accept(J, TK_THIS)) return EXP0(THIS); if (jsP_accept(J, TK_NULL)) return EXP0(NULL); if (jsP_accept(J, TK_TRUE)) return EXP0(TRUE); if (jsP_accept(J, TK_FALSE)) return EXP0(FALSE); if (jsP_accept(J, '{')) { a = EXP1(OBJECT, objectliteral(J)); jsP_expect(J, '}'); return a; } if (jsP_accept(J, '[')) { a = EXP1(ARRAY, arrayliteral(J)); jsP_expect(J, ']'); return a; } if (jsP_accept(J, '(')) { a = expression(J, 0); jsP_expect(J, ')'); return a; } jsP_error(J, "unexpected token in expression: %s", jsY_tokenstring(J->lookahead)); } static js_Ast *arguments(js_State *J) { js_Ast *head, *tail; if (J->lookahead == ')') return NULL; head = tail = LIST(assignment(J, 0)); while (jsP_accept(J, ',')) { tail = tail->b = LIST(assignment(J, 0)); } return jsP_list(head); } static js_Ast *newexp(js_State *J) { js_Ast *a, *b; if (jsP_accept(J, TK_NEW)) { a = memberexp(J); if (jsP_accept(J, '(')) { b = arguments(J); jsP_expect(J, ')'); return EXP2(NEW, a, b); } return EXP1(NEW, a); } if (jsP_accept(J, TK_FUNCTION)) return funexp(J); return primary(J); } static js_Ast *memberexp(js_State *J) { js_Ast *a = newexp(J); loop: if (jsP_accept(J, '.')) { a = EXP2(MEMBER, a, identifiername(J)); goto loop; } if (jsP_accept(J, '[')) { a = EXP2(INDEX, a, expression(J, 0)); jsP_expect(J, ']'); goto loop; } return a; } static js_Ast *callexp(js_State *J) { js_Ast *a = newexp(J); loop: if (jsP_accept(J, '.')) { a = EXP2(MEMBER, a, identifiername(J)); goto loop; } if (jsP_accept(J, '[')) { a = EXP2(INDEX, a, expression(J, 0)); jsP_expect(J, ']'); goto loop; } if (jsP_accept(J, '(')) { a = EXP2(CALL, a, arguments(J)); jsP_expect(J, ')'); goto loop; } return a; } static js_Ast *postfix(js_State *J) { js_Ast *a = callexp(J); if (!J->newline && jsP_accept(J, TK_INC)) return EXP1(POSTINC, a); if (!J->newline && jsP_accept(J, TK_DEC)) return EXP1(POSTDEC, a); return a; } static js_Ast *unary(js_State *J) { if (jsP_accept(J, TK_DELETE)) return EXP1(DELETE, unary(J)); if (jsP_accept(J, TK_VOID)) return EXP1(VOID, unary(J)); if (jsP_accept(J, TK_TYPEOF)) return EXP1(TYPEOF, unary(J)); if (jsP_accept(J, TK_INC)) return EXP1(PREINC, unary(J)); if (jsP_accept(J, TK_DEC)) return EXP1(PREDEC, unary(J)); if (jsP_accept(J, '+')) return EXP1(POS, unary(J)); if (jsP_accept(J, '-')) return EXP1(NEG, unary(J)); if (jsP_accept(J, '~')) return EXP1(BITNOT, unary(J)); if (jsP_accept(J, '!')) return EXP1(LOGNOT, unary(J)); return postfix(J); } static js_Ast *multiplicative(js_State *J) { js_Ast *a = unary(J); loop: if (jsP_accept(J, '*')) { a = EXP2(MUL, a, unary(J)); goto loop; } if (jsP_accept(J, '/')) { a = EXP2(DIV, a, unary(J)); goto loop; } if (jsP_accept(J, '%')) { a = EXP2(MOD, a, unary(J)); goto loop; } return a; } static js_Ast *additive(js_State *J) { js_Ast *a = multiplicative(J); loop: if (jsP_accept(J, '+')) { a = EXP2(ADD, a, multiplicative(J)); goto loop; } if (jsP_accept(J, '-')) { a = EXP2(SUB, a, multiplicative(J)); goto loop; } return a; } static js_Ast *shift(js_State *J) { js_Ast *a = additive(J); loop: if (jsP_accept(J, TK_SHL)) { a = EXP2(SHL, a, additive(J)); goto loop; } if (jsP_accept(J, TK_SHR)) { a = EXP2(SHR, a, additive(J)); goto loop; } if (jsP_accept(J, TK_USHR)) { a = EXP2(USHR, a, additive(J)); goto loop; } return a; } static js_Ast *relational(js_State *J, int notin) { js_Ast *a = shift(J); loop: if (jsP_accept(J, '<')) { a = EXP2(LT, a, shift(J)); goto loop; } if (jsP_accept(J, '>')) { a = EXP2(GT, a, shift(J)); goto loop; } if (jsP_accept(J, TK_LE)) { a = EXP2(LE, a, shift(J)); goto loop; } if (jsP_accept(J, TK_GE)) { a = EXP2(GE, a, shift(J)); goto loop; } if (jsP_accept(J, TK_INSTANCEOF)) { a = EXP2(INSTANCEOF, a, shift(J)); goto loop; } if (!notin && jsP_accept(J, TK_IN)) { a = EXP2(IN, a, shift(J)); goto loop; } return a; } static js_Ast *equality(js_State *J, int notin) { js_Ast *a = relational(J, notin); loop: if (jsP_accept(J, TK_EQ)) { a = EXP2(EQ, a, relational(J, notin)); goto loop; } if (jsP_accept(J, TK_NE)) { a = EXP2(NE, a, relational(J, notin)); goto loop; } if (jsP_accept(J, TK_STRICTEQ)) { a = EXP2(STRICTEQ, a, relational(J, notin)); goto loop; } if (jsP_accept(J, TK_STRICTNE)) { a = EXP2(STRICTNE, a, relational(J, notin)); goto loop; } return a; } static js_Ast *bitand(js_State *J, int notin) { js_Ast *a = equality(J, notin); while (jsP_accept(J, '&')) a = EXP2(BITAND, a, equality(J, notin)); return a; } static js_Ast *bitxor(js_State *J, int notin) { js_Ast *a = bitand(J, notin); while (jsP_accept(J, '^')) a = EXP2(BITXOR, a, bitand(J, notin)); return a; } static js_Ast *bitor(js_State *J, int notin) { js_Ast *a = bitxor(J, notin); while (jsP_accept(J, '|')) a = EXP2(BITOR, a, bitxor(J, notin)); return a; } static js_Ast *logand(js_State *J, int notin) { js_Ast *a = bitor(J, notin); if (jsP_accept(J, TK_AND)) a = EXP2(LOGAND, a, logand(J, notin)); return a; } static js_Ast *logor(js_State *J, int notin) { js_Ast *a = logand(J, notin); if (jsP_accept(J, TK_OR)) a = EXP2(LOGOR, a, logor(J, notin)); return a; } static js_Ast *conditional(js_State *J, int notin) { js_Ast *a, *b, *c; a = logor(J, notin); if (jsP_accept(J, '?')) { b = assignment(J, 0); jsP_expect(J, ':'); c = assignment(J, notin); return EXP3(COND, a, b, c); } return a; } static js_Ast *assignment(js_State *J, int notin) { js_Ast *a = conditional(J, notin); if (jsP_accept(J, '=')) return EXP2(ASS, a, assignment(J, notin)); if (jsP_accept(J, TK_MUL_ASS)) return EXP2(ASS_MUL, a, assignment(J, notin)); if (jsP_accept(J, TK_DIV_ASS)) return EXP2(ASS_DIV, a, assignment(J, notin)); if (jsP_accept(J, TK_MOD_ASS)) return EXP2(ASS_MOD, a, assignment(J, notin)); if (jsP_accept(J, TK_ADD_ASS)) return EXP2(ASS_ADD, a, assignment(J, notin)); if (jsP_accept(J, TK_SUB_ASS)) return EXP2(ASS_SUB, a, assignment(J, notin)); if (jsP_accept(J, TK_SHL_ASS)) return EXP2(ASS_SHL, a, assignment(J, notin)); if (jsP_accept(J, TK_SHR_ASS)) return EXP2(ASS_SHR, a, assignment(J, notin)); if (jsP_accept(J, TK_USHR_ASS)) return EXP2(ASS_USHR, a, assignment(J, notin)); if (jsP_accept(J, TK_AND_ASS)) return EXP2(ASS_BITAND, a, assignment(J, notin)); if (jsP_accept(J, TK_XOR_ASS)) return EXP2(ASS_BITXOR, a, assignment(J, notin)); if (jsP_accept(J, TK_OR_ASS)) return EXP2(ASS_BITOR, a, assignment(J, notin)); return a; } static js_Ast *expression(js_State *J, int notin) { js_Ast *a = assignment(J, notin); while (jsP_accept(J, ',')) a = EXP2(COMMA, a, assignment(J, notin)); return a; } /* Statements */ static js_Ast *vardec(js_State *J, int notin) { js_Ast *a = identifier(J); if (jsP_accept(J, '=')) return EXP2(VAR, a, assignment(J, notin)); return EXP1(VAR, a); } static js_Ast *vardeclist(js_State *J, int notin) { js_Ast *head, *tail; head = tail = LIST(vardec(J, notin)); while (jsP_accept(J, ',')) tail = tail->b = LIST(vardec(J, notin)); return jsP_list(head); } static js_Ast *statementlist(js_State *J) { js_Ast *head, *tail; if (J->lookahead == '}' || J->lookahead == TK_CASE || J->lookahead == TK_DEFAULT) return NULL; head = tail = LIST(statement(J)); while (J->lookahead != '}' && J->lookahead != TK_CASE && J->lookahead != TK_DEFAULT) tail = tail->b = LIST(statement(J)); return jsP_list(head); } static js_Ast *caseclause(js_State *J) { js_Ast *a, *b; if (jsP_accept(J, TK_CASE)) { a = expression(J, 0); jsP_expect(J, ':'); b = statementlist(J); return STM2(CASE, a, b); } if (jsP_accept(J, TK_DEFAULT)) { jsP_expect(J, ':'); a = statementlist(J); return STM1(DEFAULT, a); } jsP_error(J, "unexpected token in switch: %s (expected 'case' or 'default')", jsY_tokenstring(J->lookahead)); } static js_Ast *caselist(js_State *J) { js_Ast *head, *tail; if (J->lookahead == '}') return NULL; head = tail = LIST(caseclause(J)); while (J->lookahead != '}') tail = tail->b = LIST(caseclause(J)); return jsP_list(head); } static js_Ast *block(js_State *J) { js_Ast *a; jsP_expect(J, '{'); a = statementlist(J); jsP_expect(J, '}'); return STM1(BLOCK, a); } static js_Ast *forexpression(js_State *J, int end) { js_Ast *a = NULL; if (J->lookahead != end) a = expression(J, 0); jsP_expect(J, end); return a; } static js_Ast *forstatement(js_State *J) { js_Ast *a, *b, *c, *d; jsP_expect(J, '('); if (jsP_accept(J, TK_VAR)) { a = vardeclist(J, 1); if (jsP_accept(J, ';')) { b = forexpression(J, ';'); c = forexpression(J, ')'); d = statement(J); return STM4(FOR_VAR, a, b, c, d); } if (jsP_accept(J, TK_IN)) { b = expression(J, 0); jsP_expect(J, ')'); c = statement(J); return STM3(FOR_IN_VAR, a, b, c); } jsP_error(J, "unexpected token in for-var-statement: %s", jsY_tokenstring(J->lookahead)); } if (J->lookahead != ';') a = expression(J, 1); else a = NULL; if (jsP_accept(J, ';')) { b = forexpression(J, ';'); c = forexpression(J, ')'); d = statement(J); return STM4(FOR, a, b, c, d); } if (jsP_accept(J, TK_IN)) { b = expression(J, 0); jsP_expect(J, ')'); c = statement(J); return STM3(FOR_IN, a, b, c); } jsP_error(J, "unexpected token in for-statement: %s", jsY_tokenstring(J->lookahead)); } static js_Ast *statement(js_State *J) { js_Ast *a, *b, *c, *d; if (J->lookahead == '{') { return block(J); } if (jsP_accept(J, TK_VAR)) { a = vardeclist(J, 0); semicolon(J); return STM1(VAR, a); } /* empty statement */ if (jsP_accept(J, ';')) { return STM0(EMPTY); } if (jsP_accept(J, TK_IF)) { jsP_expect(J, '('); a = expression(J, 0); jsP_expect(J, ')'); b = statement(J); if (jsP_accept(J, TK_ELSE)) c = statement(J); else c = NULL; return STM3(IF, a, b, c); } if (jsP_accept(J, TK_DO)) { a = statement(J); jsP_expect(J, TK_WHILE); jsP_expect(J, '('); b = expression(J, 0); jsP_expect(J, ')'); semicolon(J); return STM2(DO, a, b); } if (jsP_accept(J, TK_WHILE)) { jsP_expect(J, '('); a = expression(J, 0); jsP_expect(J, ')'); b = statement(J); return STM2(WHILE, a, b); } if (jsP_accept(J, TK_FOR)) { return forstatement(J); } if (jsP_accept(J, TK_CONTINUE)) { a = identifieropt(J); semicolon(J); return STM1(CONTINUE, a); } if (jsP_accept(J, TK_BREAK)) { a = identifieropt(J); semicolon(J); return STM1(BREAK, a); } if (jsP_accept(J, TK_RETURN)) { if (J->lookahead != ';' && J->lookahead != '}' && J->lookahead != 0) a = expression(J, 0); else a = NULL; semicolon(J); return STM1(RETURN, a); } if (jsP_accept(J, TK_WITH)) { if (J->strict) jsP_error(J, "'with' statements are not allowed in strict mode"); jsP_expect(J, '('); a = expression(J, 0); jsP_expect(J, ')'); b = statement(J); return STM2(WITH, a, b); } if (jsP_accept(J, TK_SWITCH)) { jsP_expect(J, '('); a = expression(J, 0); jsP_expect(J, ')'); jsP_expect(J, '{'); b = caselist(J); jsP_expect(J, '}'); return STM2(SWITCH, a, b); } if (jsP_accept(J, TK_THROW)) { a = expression(J, 0); semicolon(J); return STM1(THROW, a); } if (jsP_accept(J, TK_TRY)) { a = block(J); b = c = d = NULL; if (jsP_accept(J, TK_CATCH)) { jsP_expect(J, '('); b = identifier(J); jsP_expect(J, ')'); c = block(J); } if (jsP_accept(J, TK_FINALLY)) { d = block(J); } if (!b && !d) jsP_error(J, "unexpected token in try: %s (expected 'catch' or 'finally')", jsY_tokenstring(J->lookahead)); return STM4(TRY, a, b, c, d); } if (jsP_accept(J, TK_DEBUGGER)) { semicolon(J); return STM0(DEBUGGER); } if (jsP_accept(J, TK_FUNCTION)) { jsP_warning(J, "function statements are not standard"); return funstm(J); } /* labelled statement or expression statement */ if (J->lookahead == TK_IDENTIFIER) { a = expression(J, 0); if (a->type == EXP_IDENTIFIER && jsP_accept(J, ':')) { a->type = AST_IDENTIFIER; b = statement(J); return STM2(LABEL, a, b); } semicolon(J); return a; } /* expression statement */ a = expression(J, 0); semicolon(J); return a; } /* Program */ static js_Ast *scriptelement(js_State *J) { if (jsP_accept(J, TK_FUNCTION)) return fundec(J); return statement(J); } static js_Ast *script(js_State *J, int terminator) { js_Ast *head, *tail; if (J->lookahead == terminator) return NULL; head = tail = LIST(scriptelement(J)); while (J->lookahead != terminator) tail = tail->b = LIST(scriptelement(J)); return jsP_list(head); } static js_Ast *funbody(js_State *J) { js_Ast *a; jsP_expect(J, '{'); a = script(J, '}'); jsP_expect(J, '}'); return a; } /* Constant folding */ static int toint32(double d) { double two32 = 4294967296.0; double two31 = 2147483648.0; if (!isfinite(d) || d == 0) return 0; d = fmod(d, two32); d = d >= 0 ? floor(d) : ceil(d) + two32; if (d >= two31) return d - two32; else return d; } static unsigned int touint32(double d) { return (unsigned int)toint32(d); } static int jsP_setnumnode(js_Ast *node, double x) { node->type = EXP_NUMBER; node->number = x; node->a = node->b = node->c = node->d = NULL; return 1; } static int jsP_foldconst(js_Ast *node) { double x, y; int a, b; if (node->type == EXP_NUMBER) return 1; a = node->a ? jsP_foldconst(node->a) : 0; b = node->b ? jsP_foldconst(node->b) : 0; if (node->c) jsP_foldconst(node->c); if (node->d) jsP_foldconst(node->d); if (a) { x = node->a->number; switch (node->type) { default: break; case EXP_NEG: return jsP_setnumnode(node, -x); case EXP_POS: return jsP_setnumnode(node, x); case EXP_BITNOT: return jsP_setnumnode(node, ~toint32(x)); } if (b) { y = node->b->number; switch (node->type) { default: break; case EXP_MUL: return jsP_setnumnode(node, x * y); case EXP_DIV: return jsP_setnumnode(node, x / y); case EXP_MOD: return jsP_setnumnode(node, fmod(x, y)); case EXP_ADD: return jsP_setnumnode(node, x + y); case EXP_SUB: return jsP_setnumnode(node, x - y); case EXP_SHL: return jsP_setnumnode(node, toint32(x) << (touint32(y) & 0x1F)); case EXP_SHR: return jsP_setnumnode(node, toint32(x) >> (touint32(y) & 0x1F)); case EXP_USHR: return jsP_setnumnode(node, touint32(x) >> (touint32(y) & 0x1F)); case EXP_BITAND: return jsP_setnumnode(node, toint32(x) & toint32(y)); case EXP_BITXOR: return jsP_setnumnode(node, toint32(x) ^ toint32(y)); case EXP_BITOR: return jsP_setnumnode(node, toint32(x) | toint32(y)); } } } return 0; } /* Main entry point */ js_Ast *jsP_parse(js_State *J, const char *filename, const char *source) { js_Ast *p; jsY_initlex(J, filename, source); jsP_next(J); p = script(J, 0); if (p) jsP_foldconst(p); return p; } js_Ast *jsP_parsefunction(js_State *J, const char *filename, const char *params, const char *body) { js_Ast *p = NULL; if (params) { jsY_initlex(J, filename, params); jsP_next(J); p = parameters(J); } return EXP3(FUN, NULL, p, jsP_parse(J, filename, body)); }