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gecko-dev/js/src/jsparse.c

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/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is Mozilla Communicator client code, released
* March 31, 1998.
*
* The Initial Developer of the Original Code is
* Netscape Communications Corporation.
* Portions created by the Initial Developer are Copyright (C) 1998
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the terms of
* either of the GNU General Public License Version 2 or later (the "GPL"),
* or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
/*
* JS parser.
*
* This is a recursive-descent parser for the JavaScript language specified by
* "The JavaScript 1.5 Language Specification". It uses lexical and semantic
* feedback to disambiguate non-LL(1) structures. It generates trees of nodes
* induced by the recursive parsing (not precise syntax trees, see jsparse.h).
* After tree construction, it rewrites trees to fold constants and evaluate
* compile-time expressions. Finally, it calls js_EmitTree (see jsemit.h) to
* generate bytecode.
*
* This parser attempts no error recovery.
*/
#include "jsstddef.h"
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include "jstypes.h"
#include "jsarena.h" /* Added by JSIFY */
#include "jsutil.h" /* Added by JSIFY */
#include "jsapi.h"
#include "jsatom.h"
#include "jscntxt.h"
#include "jsconfig.h"
#include "jsemit.h"
#include "jsfun.h"
#include "jsinterp.h"
#include "jslock.h"
#include "jsnum.h"
#include "jsobj.h"
#include "jsopcode.h"
#include "jsparse.h"
#include "jsscan.h"
#include "jsscope.h"
#include "jsscript.h"
#include "jsstr.h"
#if JS_HAS_XML_SUPPORT
#include "jsxml.h"
#endif
/*
* JS parsers, from lowest to highest precedence.
*
* Each parser takes a context, a token stream, and a tree context struct.
* Each returns a parse node tree or null on error.
*/
typedef JSParseNode *
JSParser(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc);
typedef JSParseNode *
JSMemberParser(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc,
JSBool allowCallSyntax);
static JSParser FunctionStmt;
#if JS_HAS_LEXICAL_CLOSURE
static JSParser FunctionExpr;
#endif
static JSParser Statements;
static JSParser Statement;
static JSParser Variables;
static JSParser Expr;
static JSParser AssignExpr;
static JSParser CondExpr;
static JSParser OrExpr;
static JSParser AndExpr;
static JSParser BitOrExpr;
static JSParser BitXorExpr;
static JSParser BitAndExpr;
static JSParser EqExpr;
static JSParser RelExpr;
static JSParser ShiftExpr;
static JSParser AddExpr;
static JSParser MulExpr;
static JSParser UnaryExpr;
static JSMemberParser MemberExpr;
static JSParser PrimaryExpr;
/*
* Insist that the next token be of type tt, or report errno and return null.
* NB: this macro uses cx and ts from its lexical environment.
*/
#define MUST_MATCH_TOKEN(tt, errno) \
JS_BEGIN_MACRO \
if (js_GetToken(cx, ts) != tt) { \
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR, \
errno); \
return NULL; \
} \
JS_END_MACRO
#define CHECK_RECURSION() \
JS_BEGIN_MACRO \
int stackDummy; \
if (!JS_CHECK_STACK_SIZE(cx, stackDummy)) { \
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR, \
JSMSG_OVER_RECURSED); \
return NULL; \
} \
JS_END_MACRO
#ifdef METER_PARSENODES
static uint32 parsenodes = 0;
static uint32 maxparsenodes = 0;
static uint32 recyclednodes = 0;
#endif
static JSParseNode *
RecycleTree(JSParseNode *pn, JSTreeContext *tc)
{
JSParseNode *next;
if (!pn)
return NULL;
JS_ASSERT(pn != tc->nodeList); /* catch back-to-back dup recycles */
next = pn->pn_next;
pn->pn_next = tc->nodeList;
tc->nodeList = pn;
#ifdef METER_PARSENODES
recyclednodes++;
#endif
return next;
}
static JSParseNode *
NewOrRecycledNode(JSContext *cx, JSTreeContext *tc)
{
JSParseNode *pn;
pn = tc->nodeList;
if (!pn) {
JS_ARENA_ALLOCATE_TYPE(pn, JSParseNode, &cx->tempPool);
if (!pn)
JS_ReportOutOfMemory(cx);
} else {
tc->nodeList = pn->pn_next;
/* Recycle immediate descendents only, to save work and working set. */
switch (pn->pn_arity) {
case PN_FUNC:
RecycleTree(pn->pn_body, tc);
break;
case PN_LIST:
if (pn->pn_head) {
/* XXX check for dup recycles in the list */
*pn->pn_tail = tc->nodeList;
tc->nodeList = pn->pn_head;
#ifdef METER_PARSENODES
recyclednodes += pn->pn_count;
#endif
}
break;
case PN_TERNARY:
RecycleTree(pn->pn_kid1, tc);
RecycleTree(pn->pn_kid2, tc);
RecycleTree(pn->pn_kid3, tc);
break;
case PN_BINARY:
RecycleTree(pn->pn_left, tc);
RecycleTree(pn->pn_right, tc);
break;
case PN_UNARY:
RecycleTree(pn->pn_kid, tc);
break;
case PN_NAME:
RecycleTree(pn->pn_expr, tc);
break;
case PN_NULLARY:
break;
}
}
#ifdef METER_PARSENODES
if (pn) {
parsenodes++;
if (parsenodes - recyclednodes > maxparsenodes)
maxparsenodes = parsenodes - recyclednodes;
}
#endif
return pn;
}
/*
* Allocate a JSParseNode from cx's temporary arena.
*/
static JSParseNode *
NewParseNode(JSContext *cx, JSTokenStream *ts, JSParseNodeArity arity,
JSTreeContext *tc)
{
JSParseNode *pn;
JSToken *tp;
pn = NewOrRecycledNode(cx, tc);
if (!pn)
return NULL;
tp = &CURRENT_TOKEN(ts);
pn->pn_type = tp->type;
pn->pn_pos = tp->pos;
pn->pn_op = JSOP_NOP;
pn->pn_arity = arity;
pn->pn_next = NULL;
#if JS_HAS_XML_SUPPORT
pn->pn_ts = ts;
#endif
return pn;
}
static JSParseNode *
NewBinary(JSContext *cx, JSTokenType tt,
JSOp op, JSParseNode *left, JSParseNode *right,
JSTreeContext *tc)
{
JSParseNode *pn, *pn1, *pn2;
if (!left || !right)
return NULL;
/*
* Flatten a left-associative (left-heavy) tree of a given operator into
* a list, to reduce js_FoldConstants and js_EmitTree recursion.
*/
if (left->pn_type == tt &&
left->pn_op == op &&
(js_CodeSpec[op].format & JOF_LEFTASSOC)) {
if (left->pn_arity != PN_LIST) {
pn1 = left->pn_left, pn2 = left->pn_right;
left->pn_arity = PN_LIST;
PN_INIT_LIST_1(left, pn1);
PN_APPEND(left, pn2);
if (tt == TOK_PLUS) {
if (pn1->pn_type == TOK_STRING)
left->pn_extra |= PNX_STRCAT;
else if (pn1->pn_type != TOK_NUMBER)
left->pn_extra |= PNX_CANTFOLD;
if (pn2->pn_type == TOK_STRING)
left->pn_extra |= PNX_STRCAT;
else if (pn2->pn_type != TOK_NUMBER)
left->pn_extra |= PNX_CANTFOLD;
}
}
PN_APPEND(left, right);
left->pn_pos.end = right->pn_pos.end;
if (tt == TOK_PLUS) {
if (right->pn_type == TOK_STRING)
left->pn_extra |= PNX_STRCAT;
else if (right->pn_type != TOK_NUMBER)
left->pn_extra |= PNX_CANTFOLD;
}
return left;
}
/*
* Fold constant addition immediately, to conserve node space and, what's
* more, so js_FoldConstants never sees mixed addition and concatenation
* operations with more than one leading non-string operand in a PN_LIST
* generated for expressions such as 1 + 2 + "pt" (which should evaluate
* to "3pt", not "12pt").
*/
if (tt == TOK_PLUS &&
left->pn_type == TOK_NUMBER &&
right->pn_type == TOK_NUMBER) {
left->pn_dval += right->pn_dval;
left->pn_pos.end = right->pn_pos.end;
RecycleTree(right, tc);
return left;
}
pn = NewOrRecycledNode(cx, tc);
if (!pn)
return NULL;
pn->pn_type = tt;
pn->pn_pos.begin = left->pn_pos.begin;
pn->pn_pos.end = right->pn_pos.end;
pn->pn_op = op;
pn->pn_arity = PN_BINARY;
pn->pn_left = left;
pn->pn_right = right;
pn->pn_next = NULL;
#if JS_HAS_XML_SUPPORT
pn->pn_ts = NULL;
#endif
return pn;
}
#if JS_HAS_GETTER_SETTER
static JSTokenType
CheckGetterOrSetter(JSContext *cx, JSTokenStream *ts, JSTokenType tt)
{
JSAtom *atom;
JSRuntime *rt;
JSOp op;
const char *name;
JS_ASSERT(CURRENT_TOKEN(ts).type == TOK_NAME);
atom = CURRENT_TOKEN(ts).t_atom;
rt = cx->runtime;
if (atom == rt->atomState.getterAtom)
op = JSOP_GETTER;
else if (atom == rt->atomState.setterAtom)
op = JSOP_SETTER;
else
return TOK_NAME;
if (js_PeekTokenSameLine(cx, ts) != tt)
return TOK_NAME;
(void) js_GetToken(cx, ts);
if (CURRENT_TOKEN(ts).t_op != JSOP_NOP) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_GETTER_OR_SETTER,
(op == JSOP_GETTER)
? js_getter_str
: js_setter_str);
return TOK_ERROR;
}
CURRENT_TOKEN(ts).t_op = op;
name = js_AtomToPrintableString(cx, atom);
if (!name ||
!js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT,
JSMSG_DEPRECATED_USAGE,
name)) {
return TOK_ERROR;
}
return tt;
}
#endif
/*
* Parse a top-level JS script.
*/
JS_FRIEND_API(JSParseNode *)
js_ParseTokenStream(JSContext *cx, JSObject *chain, JSTokenStream *ts)
{
JSStackFrame *fp, frame;
JSTreeContext tc;
JSParseNode *pn;
/*
* Push a compiler frame if we have no frames, or if the top frame is a
* lightweight function activation, or if its scope chain doesn't match
* the one passed to us.
*/
fp = cx->fp;
if (!fp || !fp->varobj || fp->scopeChain != chain) {
memset(&frame, 0, sizeof frame);
frame.varobj = frame.scopeChain = chain;
if (cx->options & JSOPTION_VAROBJFIX) {
while ((chain = JS_GetParent(cx, chain)) != NULL)
frame.varobj = chain;
}
frame.down = fp;
if (fp)
frame.flags = fp->flags & (JSFRAME_SPECIAL | JSFRAME_COMPILE_N_GO);
cx->fp = &frame;
}
/*
* Protect atoms from being collected by a GC activation, which might
* - nest on this thread due to out of memory (the so-called "last ditch"
* GC attempted within js_NewGCThing), or
* - run for any reason on another thread if this thread is suspended on
* an object lock before it finishes generating bytecode into a script
* protected from the GC by a root or a stack frame reference.
*/
JS_KEEP_ATOMS(cx->runtime);
TREE_CONTEXT_INIT(&tc);
pn = Statements(cx, ts, &tc);
if (pn) {
if (!js_MatchToken(cx, ts, TOK_EOF)) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_SYNTAX_ERROR);
pn = NULL;
} else {
pn->pn_type = TOK_LC;
if (!js_FoldConstants(cx, pn, &tc))
pn = NULL;
}
}
TREE_CONTEXT_FINISH(&tc);
JS_UNKEEP_ATOMS(cx->runtime);
cx->fp = fp;
return pn;
}
/*
* Compile a top-level script.
*/
JS_FRIEND_API(JSBool)
js_CompileTokenStream(JSContext *cx, JSObject *chain, JSTokenStream *ts,
JSCodeGenerator *cg)
{
JSStackFrame *fp, frame;
uint32 flags;
JSParseNode *pn;
JSBool ok;
#ifdef METER_PARSENODES
void *sbrk(ptrdiff_t), *before = sbrk(0);
#endif
/*
* Push a compiler frame if we have no frames, or if the top frame is a
* lightweight function activation, or if its scope chain doesn't match
* the one passed to us.
*/
fp = cx->fp;
if (!fp || !fp->varobj || fp->scopeChain != chain) {
memset(&frame, 0, sizeof frame);
frame.varobj = frame.scopeChain = chain;
if (cx->options & JSOPTION_VAROBJFIX) {
while ((chain = JS_GetParent(cx, chain)) != NULL)
frame.varobj = chain;
}
frame.down = fp;
if (fp)
frame.flags = fp->flags & (JSFRAME_SPECIAL | JSFRAME_COMPILE_N_GO);
cx->fp = &frame;
}
flags = cx->fp->flags;
cx->fp->flags = flags |
(JS_HAS_COMPILE_N_GO_OPTION(cx)
? JSFRAME_COMPILING | JSFRAME_COMPILE_N_GO
: JSFRAME_COMPILING);
/* Prevent GC activation while compiling. */
JS_KEEP_ATOMS(cx->runtime);
pn = Statements(cx, ts, &cg->treeContext);
if (!pn) {
ok = JS_FALSE;
} else if (!js_MatchToken(cx, ts, TOK_EOF)) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_SYNTAX_ERROR);
ok = JS_FALSE;
} else {
#ifdef METER_PARSENODES
printf("Parser growth: %d (%u nodes, %u max, %u unrecycled)\n",
(char *)sbrk(0) - (char *)before,
parsenodes,
maxparsenodes,
parsenodes - recyclednodes);
before = sbrk(0);
#endif
/*
* No need to emit code here -- Statements already has, for each
* statement in turn. Search for TCF_COMPILING in Statements, below.
* That flag is set for every tc == &cg->treeContext, and it implies
* that the tc can be downcast to a cg and used to emit code during
* parsing, rather than at the end of the parse phase.
*/
JS_ASSERT(cg->treeContext.flags & TCF_COMPILING);
ok = JS_TRUE;
}
#ifdef METER_PARSENODES
printf("Code-gen growth: %d (%u bytecodes, %u srcnotes)\n",
(char *)sbrk(0) - (char *)before, CG_OFFSET(cg), cg->noteCount);
#endif
#ifdef JS_ARENAMETER
JS_DumpArenaStats(stdout);
#endif
JS_UNKEEP_ATOMS(cx->runtime);
cx->fp->flags = flags;
cx->fp = fp;
return ok;
}
/*
* Insist on a final return before control flows out of pn, but don't be too
* smart about loops (do {...; return e2;} while(0) at the end of a function
* that contains an early return e1 will get a strict-option-only warning).
*/
#define ENDS_IN_OTHER 0
#define ENDS_IN_RETURN 1
#define ENDS_IN_BREAK 2
static int
HasFinalReturn(JSParseNode *pn)
{
uintN rv, rv2, hasDefault;
JSParseNode *pn2, *pn3;
switch (pn->pn_type) {
case TOK_LC:
if (!pn->pn_head)
return ENDS_IN_OTHER;
return HasFinalReturn(PN_LAST(pn));
case TOK_IF:
rv = HasFinalReturn(pn->pn_kid2);
if (pn->pn_kid3)
rv &= HasFinalReturn(pn->pn_kid3);
return rv;
#if JS_HAS_SWITCH_STATEMENT
case TOK_SWITCH:
rv = ENDS_IN_RETURN;
hasDefault = ENDS_IN_OTHER;
for (pn2 = pn->pn_kid2->pn_head; rv && pn2; pn2 = pn2->pn_next) {
if (pn2->pn_type == TOK_DEFAULT)
hasDefault = ENDS_IN_RETURN;
pn3 = pn2->pn_right;
JS_ASSERT(pn3->pn_type == TOK_LC);
if (pn3->pn_head) {
rv2 = HasFinalReturn(PN_LAST(pn3));
if (rv2 == ENDS_IN_OTHER && pn2->pn_next)
/* Falling through to next case or default. */;
else
rv &= rv2;
}
}
/* If a final switch has no default case, we judge it harshly. */
rv &= hasDefault;
return rv;
#endif /* JS_HAS_SWITCH_STATEMENT */
case TOK_BREAK:
return ENDS_IN_BREAK;
case TOK_WITH:
return HasFinalReturn(pn->pn_right);
case TOK_RETURN:
return ENDS_IN_RETURN;
case TOK_COLON:
return HasFinalReturn(pn->pn_expr);
#if JS_HAS_EXCEPTIONS
case TOK_THROW:
return ENDS_IN_RETURN;
case TOK_TRY:
/* If we have a finally block that returns, we are done. */
if (pn->pn_kid3) {
rv = HasFinalReturn(pn->pn_kid3);
if (rv == ENDS_IN_RETURN)
return rv;
}
/* Else check the try block and any and all catch statements. */
rv = HasFinalReturn(pn->pn_kid1);
if (pn->pn_kid2)
rv &= HasFinalReturn(pn->pn_kid2);
return rv;
case TOK_CATCH:
/* Check this block's code and iterate over further catch blocks. */
rv = HasFinalReturn(pn->pn_kid3);
for (pn2 = pn->pn_kid2; pn2; pn2 = pn2->pn_kid2)
rv &= HasFinalReturn(pn2->pn_kid3);
return rv;
#endif
default:
return ENDS_IN_OTHER;
}
}
static JSBool
ReportNoReturnValue(JSContext *cx, JSTokenStream *ts)
{
JSFunction *fun;
JSBool ok;
fun = cx->fp->fun;
if (fun->atom) {
char *name = js_GetStringBytes(ATOM_TO_STRING(fun->atom));
ok = js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT,
JSMSG_NO_RETURN_VALUE, name);
} else {
ok = js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT,
JSMSG_ANON_NO_RETURN_VALUE);
}
return ok;
}
static JSBool
CheckFinalReturn(JSContext *cx, JSTokenStream *ts, JSParseNode *pn)
{
return HasFinalReturn(pn) == ENDS_IN_RETURN || ReportNoReturnValue(cx, ts);
}
static JSParseNode *
FunctionBody(JSContext *cx, JSTokenStream *ts, JSFunction *fun,
JSTreeContext *tc)
{
JSStackFrame *fp, frame;
JSObject *funobj;
uintN oldflags;
JSParseNode *pn;
fp = cx->fp;
funobj = fun->object;
if (!fp || fp->fun != fun || fp->varobj != funobj ||
fp->scopeChain != funobj) {
memset(&frame, 0, sizeof frame);
frame.fun = fun;
frame.varobj = frame.scopeChain = funobj;
frame.down = fp;
if (fp)
frame.flags = fp->flags & JSFRAME_COMPILE_N_GO;
cx->fp = &frame;
}
oldflags = tc->flags;
tc->flags &= ~(TCF_RETURN_EXPR | TCF_RETURN_VOID);
tc->flags |= TCF_IN_FUNCTION;
pn = Statements(cx, ts, tc);
/* Check for falling off the end of a function that returns a value. */
if (pn && JS_HAS_STRICT_OPTION(cx) && (tc->flags & TCF_RETURN_EXPR)) {
if (!CheckFinalReturn(cx, ts, pn))
pn = NULL;
}
cx->fp = fp;
tc->flags = oldflags | (tc->flags & (TCF_FUN_FLAGS | TCF_HAS_DEFXMLNS));
return pn;
}
/*
* Compile a JS function body, which might appear as the value of an event
* handler attribute in an HTML <INPUT> tag.
*/
JSBool
js_CompileFunctionBody(JSContext *cx, JSTokenStream *ts, JSFunction *fun)
{
JSArenaPool codePool, notePool;
JSCodeGenerator funcg;
JSStackFrame *fp, frame;
JSObject *funobj;
JSParseNode *pn;
JSBool ok;
JS_InitArenaPool(&codePool, "code", 1024, sizeof(jsbytecode));
JS_InitArenaPool(&notePool, "note", 1024, sizeof(jssrcnote));
if (!js_InitCodeGenerator(cx, &funcg, &codePool, &notePool,
ts->filename, ts->lineno,
ts->principals)) {
return JS_FALSE;
}
/* Prevent GC activation while compiling. */
JS_KEEP_ATOMS(cx->runtime);
/* Push a JSStackFrame for use by FunctionBody. */
fp = cx->fp;
funobj = fun->object;
JS_ASSERT(!fp || (fp->fun != fun && fp->varobj != funobj &&
fp->scopeChain != funobj));
memset(&frame, 0, sizeof frame);
frame.fun = fun;
frame.varobj = frame.scopeChain = funobj;
frame.down = fp;
frame.flags = JS_HAS_COMPILE_N_GO_OPTION(cx)
? JSFRAME_COMPILING | JSFRAME_COMPILE_N_GO
: JSFRAME_COMPILING;
cx->fp = &frame;
/* Ensure that the body looks like a block statement to js_EmitTree. */
CURRENT_TOKEN(ts).type = TOK_LC;
pn = FunctionBody(cx, ts, fun, &funcg.treeContext);
if (!pn) {
ok = JS_FALSE;
} else {
/*
* No need to emit code here -- Statements (via FunctionBody) already
* has. See similar comment in js_CompileTokenStream, and bug 108257.
*/
fun->u.script = js_NewScriptFromCG(cx, &funcg, fun);
if (!fun->u.script) {
ok = JS_FALSE;
} else {
fun->interpreted = JS_TRUE;
if (funcg.treeContext.flags & TCF_FUN_HEAVYWEIGHT)
fun->flags |= JSFUN_HEAVYWEIGHT;
ok = JS_TRUE;
}
}
/* Restore saved state and release code generation arenas. */
cx->fp = fp;
JS_UNKEEP_ATOMS(cx->runtime);
js_FinishCodeGenerator(cx, &funcg);
JS_FinishArenaPool(&codePool);
JS_FinishArenaPool(&notePool);
return ok;
}
static JSParseNode *
FunctionDef(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc,
JSBool lambda)
{
JSOp op, prevop;
JSParseNode *pn, *body;
JSAtom *funAtom, *argAtom;
JSStackFrame *fp;
JSObject *varobj, *pobj;
JSAtomListElement *ale;
JSProperty *prop;
JSFunction *fun;
uintN dupflag;
JSBool ok;
JSTreeContext funtc;
/* Make a TOK_FUNCTION node. */
#if JS_HAS_GETTER_SETTER
op = CURRENT_TOKEN(ts).t_op;
#endif
pn = NewParseNode(cx, ts, PN_FUNC, tc);
if (!pn)
return NULL;
/* Scan the optional function name into funAtom. */
funAtom = js_MatchToken(cx, ts, TOK_NAME) ? CURRENT_TOKEN(ts).t_atom : NULL;
if (!funAtom && !lambda) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_SYNTAX_ERROR);
return NULL;
}
/* Find the nearest variable-declaring scope and use it as our parent. */
fp = cx->fp;
varobj = fp->varobj;
/*
* Record names for function statements in tc->decls so we know when to
* avoid optimizing variable references that might name a function.
*/
if (!lambda && funAtom) {
ATOM_LIST_SEARCH(ale, &tc->decls, funAtom);
if (ale) {
prevop = ALE_JSOP(ale);
if (JS_HAS_STRICT_OPTION(cx) || prevop == JSOP_DEFCONST) {
const char *name = js_AtomToPrintableString(cx, funAtom);
if (!name ||
!js_ReportCompileErrorNumber(cx, ts,
(prevop != JSOP_DEFCONST)
? JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT
: JSREPORT_TS | JSREPORT_ERROR,
JSMSG_REDECLARED_VAR,
(prevop == JSOP_DEFFUN ||
prevop == JSOP_CLOSURE)
? js_function_str
: (prevop == JSOP_DEFCONST)
? js_const_str
: js_var_str,
name)) {
return NULL;
}
}
if (tc->topStmt && prevop == JSOP_DEFVAR)
tc->flags |= TCF_FUN_CLOSURE_VS_VAR;
} else {
ale = js_IndexAtom(cx, funAtom, &tc->decls);
if (!ale)
return NULL;
}
ALE_SET_JSOP(ale, tc->topStmt ? JSOP_CLOSURE : JSOP_DEFFUN);
#if JS_HAS_LEXICAL_CLOSURE
/*
* A function nested at top level inside another's body needs only a
* local variable to bind its name to its value, and not an activation
* object property (it might also need the activation property, if the
* outer function contains with statements, e.g., but the stack slot
* wins when jsemit.c's LookupArgOrVar can optimize a JSOP_NAME into a
* JSOP_GETVAR bytecode).
*/
if (!tc->topStmt && (tc->flags & TCF_IN_FUNCTION)) {
/*
* Define a property on the outer function so that LookupArgOrVar
* can properly optimize accesses.
*/
JS_ASSERT(OBJ_GET_CLASS(cx, varobj) == &js_FunctionClass);
JS_ASSERT(fp->fun == (JSFunction *) JS_GetPrivate(cx, varobj));
if (!js_LookupHiddenProperty(cx, varobj, ATOM_TO_JSID(funAtom),
&pobj, &prop)) {
return NULL;
}
if (prop)
OBJ_DROP_PROPERTY(cx, pobj, prop);
if (!prop ||
pobj != varobj ||
((JSScopeProperty *)prop)->getter != js_GetLocalVariable) {
if (!js_AddHiddenProperty(cx, varobj, ATOM_TO_JSID(funAtom),
js_GetLocalVariable,
js_SetLocalVariable,
SPROP_INVALID_SLOT,
JSPROP_PERMANENT | JSPROP_SHARED,
SPROP_HAS_SHORTID, fp->fun->nvars)) {
return NULL;
}
if (fp->fun->nvars == JS_BITMASK(16)) {
JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL,
JSMSG_TOO_MANY_FUN_VARS);
return NULL;
}
fp->fun->nvars++;
}
}
#endif
}
fun = js_NewFunction(cx, NULL, NULL, 0, lambda ? JSFUN_LAMBDA : 0, varobj,
funAtom);
if (!fun)
return NULL;
#if JS_HAS_GETTER_SETTER
if (op != JSOP_NOP)
fun->flags |= (op == JSOP_GETTER) ? JSPROP_GETTER : JSPROP_SETTER;
#endif
/* Now parse formal argument list and compute fun->nargs. */
MUST_MATCH_TOKEN(TOK_LP, JSMSG_PAREN_BEFORE_FORMAL);
if (!js_MatchToken(cx, ts, TOK_RP)) {
do {
MUST_MATCH_TOKEN(TOK_NAME, JSMSG_MISSING_FORMAL);
argAtom = CURRENT_TOKEN(ts).t_atom;
pobj = NULL;
if (!js_LookupHiddenProperty(cx, fun->object, ATOM_TO_JSID(argAtom),
&pobj, &prop)) {
return NULL;
}
dupflag = 0;
if (prop) {
ok = JS_TRUE;
if (pobj == fun->object &&
((JSScopeProperty *) prop)->getter == js_GetArgument) {
const char *name = js_AtomToPrintableString(cx, argAtom);
/*
* A duplicate parameter name. We force a duplicate node
* on the SCOPE_LAST_PROP(scope) list with the same id,
* distinguished by the SPROP_IS_DUPLICATE flag, and not
* mapped by an entry in scope.
*/
ok = name &&
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT,
JSMSG_DUPLICATE_FORMAL,
name);
dupflag = SPROP_IS_DUPLICATE;
}
OBJ_DROP_PROPERTY(cx, pobj, prop);
if (!ok)
return NULL;
prop = NULL;
}
if (!js_AddHiddenProperty(cx, fun->object, ATOM_TO_JSID(argAtom),
js_GetArgument, js_SetArgument,
SPROP_INVALID_SLOT,
JSPROP_PERMANENT | JSPROP_SHARED,
dupflag | SPROP_HAS_SHORTID,
fun->nargs)) {
return NULL;
}
if (fun->nargs == JS_BITMASK(16)) {
JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL,
JSMSG_TOO_MANY_FUN_ARGS);
return NULL;
}
fun->nargs++;
} while (js_MatchToken(cx, ts, TOK_COMMA));
MUST_MATCH_TOKEN(TOK_RP, JSMSG_PAREN_AFTER_FORMAL);
}
MUST_MATCH_TOKEN(TOK_LC, JSMSG_CURLY_BEFORE_BODY);
pn->pn_pos.begin = CURRENT_TOKEN(ts).pos.begin;
TREE_CONTEXT_INIT(&funtc);
body = FunctionBody(cx, ts, fun, &funtc);
if (!body)
return NULL;
MUST_MATCH_TOKEN(TOK_RC, JSMSG_CURLY_AFTER_BODY);
pn->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
#if JS_HAS_LEXICAL_CLOSURE
/*
* If we collected flags that indicate nested heavyweight functions, or
* this function contains heavyweight-making statements (references to
* __parent__ or __proto__; use of with, eval, import, or export; and
* assignment to arguments), flag the function as heavyweight (requiring
* a call object per invocation).
*/
if (funtc.flags & TCF_FUN_HEAVYWEIGHT) {
fun->flags |= JSFUN_HEAVYWEIGHT;
tc->flags |= TCF_FUN_HEAVYWEIGHT;
} else {
/*
* If this function is a named statement function not at top-level
* (i.e. a JSOP_CLOSURE), or if it refers to unqualified names that
* are not local args or vars (TCF_FUN_USES_NONLOCALS), then our
* enclosing function, if any, must be heavyweight.
*/
if ((!lambda && funAtom && tc->topStmt) ||
(funtc.flags & TCF_FUN_USES_NONLOCALS)) {
tc->flags |= TCF_FUN_HEAVYWEIGHT;
}
}
#endif
#if JS_HAS_LEXICAL_CLOSURE
JS_ASSERT(lambda || funAtom);
if (lambda) {
/*
* ECMA ed. 3 standard: function expression, possibly anonymous (even
* if at top-level, an unnamed function is an expression statement, not
* a function declaration).
*/
op = funAtom ? JSOP_NAMEDFUNOBJ : JSOP_ANONFUNOBJ;
} else if (tc->topStmt) {
/*
* ECMA ed. 3 extension: a function expression statement not at the
* top level, e.g., in a compound statement such as the "then" part
* of an "if" statement, binds a closure only if control reaches that
* sub-statement.
*/
op = JSOP_CLOSURE;
} else
#endif
op = JSOP_NOP;
/*
* Absent use of the new scoped local GC roots API around compiler calls,
* we need to atomize here to protect against a GC activation. Atoms are
* protected from GC during compilation by the JS_FRIEND_API entry points
* in this file. There doesn't seem to be any gain in switching from the
* atom-keeping method to the bulkier, slower scoped local roots method.
*/
pn->pn_funAtom = js_AtomizeObject(cx, fun->object, 0);
if (!pn->pn_funAtom)
return NULL;
pn->pn_op = op;
pn->pn_body = body;
pn->pn_flags = funtc.flags & (TCF_FUN_FLAGS | TCF_HAS_DEFXMLNS);
pn->pn_tryCount = funtc.tryCount;
TREE_CONTEXT_FINISH(&funtc);
return pn;
}
static JSParseNode *
FunctionStmt(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
return FunctionDef(cx, ts, tc, JS_FALSE);
}
#if JS_HAS_LEXICAL_CLOSURE
static JSParseNode *
FunctionExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
return FunctionDef(cx, ts, tc, JS_TRUE);
}
#endif
/*
* Parse the statements in a block, creating a TOK_LC node that lists the
* statements' trees. If called from block-parsing code, the caller must
* match { before and } after.
*/
static JSParseNode *
Statements(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn, *pn2;
JSTokenType tt;
CHECK_RECURSION();
pn = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn)
return NULL;
PN_INIT_LIST(pn);
ts->flags |= TSF_OPERAND;
while ((tt = js_PeekToken(cx, ts)) > TOK_EOF && tt != TOK_RC) {
ts->flags &= ~TSF_OPERAND;
pn2 = Statement(cx, ts, tc);
if (!pn2) {
if (ts->flags & TSF_EOF)
ts->flags |= TSF_UNEXPECTED_EOF;
return NULL;
}
ts->flags |= TSF_OPERAND;
/* If compiling top-level statements, emit as we go to save space. */
if (!tc->topStmt && (tc->flags & TCF_COMPILING)) {
if (cx->fp->fun &&
JS_HAS_STRICT_OPTION(cx) &&
(tc->flags & TCF_RETURN_EXPR)) {
/*
* Check pn2 for lack of a final return statement if it is the
* last statement in the block.
*/
tt = js_PeekToken(cx, ts);
if ((tt == TOK_EOF || tt == TOK_RC) &&
!CheckFinalReturn(cx, ts, pn2)) {
tt = TOK_ERROR;
break;
}
/*
* Clear TCF_RETURN_EXPR so FunctionBody doesn't try to
* CheckFinalReturn again.
*/
tc->flags &= ~TCF_RETURN_EXPR;
}
if (!js_FoldConstants(cx, pn2, tc) ||
!js_AllocTryNotes(cx, (JSCodeGenerator *)tc) ||
!js_EmitTree(cx, (JSCodeGenerator *)tc, pn2)) {
tt = TOK_ERROR;
break;
}
RecycleTree(pn2, tc);
} else {
PN_APPEND(pn, pn2);
}
}
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_ERROR)
return NULL;
pn->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
return pn;
}
static JSParseNode *
Condition(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn, *pn2;
MUST_MATCH_TOKEN(TOK_LP, JSMSG_PAREN_BEFORE_COND);
pn = Expr(cx, ts, tc);
if (!pn)
return NULL;
MUST_MATCH_TOKEN(TOK_RP, JSMSG_PAREN_AFTER_COND);
/*
* Check for (a = b) and "correct" it to (a == b) iff b's operator has
* greater precedence than ==.
* XXX not ECMA, but documented in several books -- now a strict warning.
*/
if (pn->pn_type == TOK_ASSIGN &&
pn->pn_op == JSOP_NOP &&
pn->pn_right->pn_type > TOK_EQOP)
{
JSBool rewrite = !JS_VERSION_IS_ECMA(cx);
if (!js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT,
JSMSG_EQUAL_AS_ASSIGN,
rewrite
? "\nAssuming equality test"
: "")) {
return NULL;
}
if (rewrite) {
pn->pn_type = TOK_EQOP;
pn->pn_op = (JSOp)cx->jsop_eq;
pn2 = pn->pn_left;
switch (pn2->pn_op) {
case JSOP_SETNAME:
pn2->pn_op = JSOP_NAME;
break;
case JSOP_SETPROP:
pn2->pn_op = JSOP_GETPROP;
break;
case JSOP_SETELEM:
pn2->pn_op = JSOP_GETELEM;
break;
default:
JS_ASSERT(0);
}
}
}
return pn;
}
static JSBool
MatchLabel(JSContext *cx, JSTokenStream *ts, JSParseNode *pn)
{
JSAtom *label;
#if JS_HAS_LABEL_STATEMENT
JSTokenType tt;
tt = js_PeekTokenSameLine(cx, ts);
if (tt == TOK_ERROR)
return JS_FALSE;
if (tt == TOK_NAME) {
(void) js_GetToken(cx, ts);
label = CURRENT_TOKEN(ts).t_atom;
} else {
label = NULL;
}
#else
label = NULL;
#endif
pn->pn_atom = label;
return JS_TRUE;
}
#if JS_HAS_EXPORT_IMPORT
static JSParseNode *
ImportExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn, *pn2;
JSTokenType tt;
MUST_MATCH_TOKEN(TOK_NAME, JSMSG_NO_IMPORT_NAME);
pn = NewParseNode(cx, ts, PN_NAME, tc);
if (!pn)
return NULL;
pn->pn_op = JSOP_NAME;
pn->pn_atom = CURRENT_TOKEN(ts).t_atom;
pn->pn_expr = NULL;
pn->pn_slot = -1;
pn->pn_attrs = 0;
ts->flags |= TSF_OPERAND;
while ((tt = js_GetToken(cx, ts)) == TOK_DOT || tt == TOK_LB) {
ts->flags &= ~TSF_OPERAND;
if (pn->pn_op == JSOP_IMPORTALL)
goto bad_import;
if (tt == TOK_DOT) {
pn2 = NewParseNode(cx, ts, PN_NAME, tc);
if (!pn2)
return NULL;
if (js_MatchToken(cx, ts, TOK_STAR)) {
pn2->pn_op = JSOP_IMPORTALL;
pn2->pn_atom = NULL;
} else {
MUST_MATCH_TOKEN(TOK_NAME, JSMSG_NAME_AFTER_DOT);
pn2->pn_op = JSOP_GETPROP;
pn2->pn_atom = CURRENT_TOKEN(ts).t_atom;
pn2->pn_slot = -1;
pn2->pn_attrs = 0;
}
pn2->pn_expr = pn;
pn2->pn_pos.begin = pn->pn_pos.begin;
pn2->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
} else {
/* Make a TOK_LB binary node. */
pn2 = NewBinary(cx, tt, JSOP_GETELEM, pn, Expr(cx, ts, tc), tc);
if (!pn2)
return NULL;
MUST_MATCH_TOKEN(TOK_RB, JSMSG_BRACKET_IN_INDEX);
}
pn = pn2;
ts->flags |= TSF_OPERAND;
}
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_ERROR)
return NULL;
js_UngetToken(ts);
switch (pn->pn_op) {
case JSOP_GETPROP:
pn->pn_op = JSOP_IMPORTPROP;
break;
case JSOP_GETELEM:
pn->pn_op = JSOP_IMPORTELEM;
break;
case JSOP_IMPORTALL:
break;
default:
goto bad_import;
}
return pn;
bad_import:
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_IMPORT);
return NULL;
}
#endif /* JS_HAS_EXPORT_IMPORT */
extern const char js_with_statement_str[];
static JSParseNode *
Statement(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSTokenType tt;
JSParseNode *pn, *pn1, *pn2, *pn3, *pn4;
JSStmtInfo stmtInfo, *stmt, *stmt2;
JSAtom *label;
CHECK_RECURSION();
ts->flags |= TSF_OPERAND;
tt = js_GetToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
#if JS_HAS_GETTER_SETTER
if (tt == TOK_NAME) {
tt = CheckGetterOrSetter(cx, ts, TOK_FUNCTION);
if (tt == TOK_ERROR)
return NULL;
}
#endif
switch (tt) {
#if JS_HAS_EXPORT_IMPORT
case TOK_EXPORT:
pn = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn)
return NULL;
PN_INIT_LIST(pn);
if (js_MatchToken(cx, ts, TOK_STAR)) {
pn2 = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn2)
return NULL;
PN_APPEND(pn, pn2);
} else {
do {
MUST_MATCH_TOKEN(TOK_NAME, JSMSG_NO_EXPORT_NAME);
pn2 = NewParseNode(cx, ts, PN_NAME, tc);
if (!pn2)
return NULL;
pn2->pn_op = JSOP_NAME;
pn2->pn_atom = CURRENT_TOKEN(ts).t_atom;
pn2->pn_expr = NULL;
pn2->pn_slot = -1;
pn2->pn_attrs = 0;
PN_APPEND(pn, pn2);
} while (js_MatchToken(cx, ts, TOK_COMMA));
}
pn->pn_pos.end = PN_LAST(pn)->pn_pos.end;
tc->flags |= TCF_FUN_HEAVYWEIGHT;
break;
case TOK_IMPORT:
pn = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn)
return NULL;
PN_INIT_LIST(pn);
do {
pn2 = ImportExpr(cx, ts, tc);
if (!pn2)
return NULL;
PN_APPEND(pn, pn2);
} while (js_MatchToken(cx, ts, TOK_COMMA));
pn->pn_pos.end = PN_LAST(pn)->pn_pos.end;
tc->flags |= TCF_FUN_HEAVYWEIGHT;
break;
#endif /* JS_HAS_EXPORT_IMPORT */
case TOK_FUNCTION:
#if JS_HAS_XML_SUPPORT
if (js_PeekToken(cx, ts) == TOK_DBLCOLON)
goto expression;
#endif
return FunctionStmt(cx, ts, tc);
case TOK_IF:
/* An IF node has three kids: condition, then, and optional else. */
pn = NewParseNode(cx, ts, PN_TERNARY, tc);
if (!pn)
return NULL;
pn1 = Condition(cx, ts, tc);
if (!pn1)
return NULL;
js_PushStatement(tc, &stmtInfo, STMT_IF, -1);
pn2 = Statement(cx, ts, tc);
if (!pn2)
return NULL;
if (js_MatchToken(cx, ts, TOK_ELSE)) {
stmtInfo.type = STMT_ELSE;
pn3 = Statement(cx, ts, tc);
if (!pn3)
return NULL;
pn->pn_pos.end = pn3->pn_pos.end;
} else {
pn3 = NULL;
pn->pn_pos.end = pn2->pn_pos.end;
}
js_PopStatement(tc);
pn->pn_kid1 = pn1;
pn->pn_kid2 = pn2;
pn->pn_kid3 = pn3;
return pn;
#if JS_HAS_SWITCH_STATEMENT
case TOK_SWITCH:
{
JSParseNode *pn5;
JSBool seenDefault = JS_FALSE;
pn = NewParseNode(cx, ts, PN_BINARY, tc);
if (!pn)
return NULL;
MUST_MATCH_TOKEN(TOK_LP, JSMSG_PAREN_BEFORE_SWITCH);
/* pn1 points to the switch's discriminant. */
pn1 = Expr(cx, ts, tc);
if (!pn1)
return NULL;
MUST_MATCH_TOKEN(TOK_RP, JSMSG_PAREN_AFTER_SWITCH);
MUST_MATCH_TOKEN(TOK_LC, JSMSG_CURLY_BEFORE_SWITCH);
/* pn2 is a list of case nodes. The default case has pn_left == NULL */
pn2 = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn2)
return NULL;
PN_INIT_LIST(pn2);
js_PushStatement(tc, &stmtInfo, STMT_SWITCH, -1);
while ((tt = js_GetToken(cx, ts)) != TOK_RC) {
switch (tt) {
case TOK_DEFAULT:
if (seenDefault) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_TOO_MANY_DEFAULTS);
return NULL;
}
seenDefault = JS_TRUE;
/* fall through */
case TOK_CASE:
pn3 = NewParseNode(cx, ts, PN_BINARY, tc);
if (!pn3)
return NULL;
if (tt == TOK_DEFAULT) {
pn3->pn_left = NULL;
} else {
pn3->pn_left = Expr(cx, ts, tc);
if (!pn3->pn_left)
return NULL;
}
PN_APPEND(pn2, pn3);
if (pn2->pn_count == JS_BIT(16)) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_TOO_MANY_CASES);
return NULL;
}
break;
case TOK_ERROR:
return NULL;
default:
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_SWITCH);
return NULL;
}
MUST_MATCH_TOKEN(TOK_COLON, JSMSG_COLON_AFTER_CASE);
pn4 = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn4)
return NULL;
pn4->pn_type = TOK_LC;
PN_INIT_LIST(pn4);
ts->flags |= TSF_OPERAND;
while ((tt = js_PeekToken(cx, ts)) != TOK_RC &&
tt != TOK_CASE && tt != TOK_DEFAULT) {
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_ERROR)
return NULL;
pn5 = Statement(cx, ts, tc);
if (!pn5)
return NULL;
pn4->pn_pos.end = pn5->pn_pos.end;
PN_APPEND(pn4, pn5);
ts->flags |= TSF_OPERAND;
}
ts->flags &= ~TSF_OPERAND;
/* Fix the PN_LIST so it doesn't begin at the TOK_COLON. */
if (pn4->pn_head)
pn4->pn_pos.begin = pn4->pn_head->pn_pos.begin;
pn3->pn_pos.end = pn4->pn_pos.end;
pn3->pn_right = pn4;
}
js_PopStatement(tc);
pn->pn_pos.end = pn2->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
pn->pn_kid1 = pn1;
pn->pn_kid2 = pn2;
return pn;
}
#endif /* JS_HAS_SWITCH_STATEMENT */
case TOK_WHILE:
pn = NewParseNode(cx, ts, PN_BINARY, tc);
if (!pn)
return NULL;
js_PushStatement(tc, &stmtInfo, STMT_WHILE_LOOP, -1);
pn2 = Condition(cx, ts, tc);
if (!pn2)
return NULL;
pn->pn_left = pn2;
pn2 = Statement(cx, ts, tc);
if (!pn2)
return NULL;
js_PopStatement(tc);
pn->pn_pos.end = pn2->pn_pos.end;
pn->pn_right = pn2;
return pn;
#if JS_HAS_DO_WHILE_LOOP
case TOK_DO:
pn = NewParseNode(cx, ts, PN_BINARY, tc);
if (!pn)
return NULL;
js_PushStatement(tc, &stmtInfo, STMT_DO_LOOP, -1);
pn2 = Statement(cx, ts, tc);
if (!pn2)
return NULL;
pn->pn_left = pn2;
MUST_MATCH_TOKEN(TOK_WHILE, JSMSG_WHILE_AFTER_DO);
pn2 = Condition(cx, ts, tc);
if (!pn2)
return NULL;
js_PopStatement(tc);
pn->pn_pos.end = pn2->pn_pos.end;
pn->pn_right = pn2;
if ((cx->version & JSVERSION_MASK) != JSVERSION_ECMA_3) {
/*
* All legacy and extended versions must do automatic semicolon
* insertion after do-while. See the testcase and discussion in
* http://bugzilla.mozilla.org/show_bug.cgi?id=238945.
*/
(void) js_MatchToken(cx, ts, TOK_SEMI);
return pn;
}
break;
#endif /* JS_HAS_DO_WHILE_LOOP */
case TOK_FOR:
/* A FOR node is binary, left is loop control and right is the body. */
pn = NewParseNode(cx, ts, PN_BINARY, tc);
if (!pn)
return NULL;
js_PushStatement(tc, &stmtInfo, STMT_FOR_LOOP, -1);
#if JS_HAS_XML_SUPPORT
pn->pn_op = JSOP_NOP;
if (js_MatchToken(cx, ts, TOK_NAME)) {
if (CURRENT_TOKEN(ts).t_atom == cx->runtime->atomState.eachAtom)
pn->pn_op = JSOP_FOREACH;
else
js_UngetToken(ts);
}
#endif
MUST_MATCH_TOKEN(TOK_LP, JSMSG_PAREN_AFTER_FOR);
ts->flags |= TSF_OPERAND;
tt = js_PeekToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_SEMI) {
#if JS_HAS_XML_SUPPORT
if (pn->pn_op == JSOP_FOREACH)
goto bad_for_each;
#endif
/* No initializer -- set first kid of left sub-node to null. */
pn1 = NULL;
} else {
/* Set pn1 to a var list or an initializing expression. */
#if JS_HAS_IN_OPERATOR
/*
* Set the TCF_IN_FOR_INIT flag during parsing of the first clause
* of the for statement. This flag will be used by the RelExpr
* production; if it is set, then the 'in' keyword will not be
* recognized as an operator, leaving it available to be parsed as
* part of a for/in loop. A side effect of this restriction is
* that (unparenthesized) expressions involving an 'in' operator
* are illegal in the init clause of an ordinary for loop.
*/
tc->flags |= TCF_IN_FOR_INIT;
#endif /* JS_HAS_IN_OPERATOR */
if (tt == TOK_VAR) {
(void) js_GetToken(cx, ts);
pn1 = Variables(cx, ts, tc);
} else {
pn1 = Expr(cx, ts, tc);
}
#if JS_HAS_IN_OPERATOR
tc->flags &= ~TCF_IN_FOR_INIT;
#endif /* JS_HAS_IN_OPERATOR */
if (!pn1)
return NULL;
}
/*
* We can be sure that it's a for/in loop if there's still an 'in'
* keyword here, even if JavaScript recognizes 'in' as an operator,
* as we've excluded 'in' from being parsed in RelExpr by setting
* the TCF_IN_FOR_INIT flag in our JSTreeContext.
*/
if (pn1 && js_MatchToken(cx, ts, TOK_IN)) {
stmtInfo.type = STMT_FOR_IN_LOOP;
/* Check that the left side of the 'in' is valid. */
if ((pn1->pn_type == TOK_VAR)
? (pn1->pn_count > 1 || pn1->pn_op == JSOP_DEFCONST)
: (pn1->pn_type != TOK_NAME &&
pn1->pn_type != TOK_DOT &&
pn1->pn_type != TOK_LB)) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_FOR_LEFTSIDE);
return NULL;
}
if (pn1->pn_type == TOK_VAR) {
/* Tell js_EmitTree(TOK_VAR) that pn1 is part of a for/in. */
pn1->pn_extra |= PNX_FORINVAR;
/* Generate a final POP only if the var has an initializer. */
pn2 = pn1->pn_head;
if (pn2->pn_expr)
pn1->pn_extra |= PNX_POPVAR;
} else {
pn2 = pn1;
}
/* Beware 'for (arguments in ...)' with or without a 'var'. */
if (pn2->pn_type == TOK_NAME &&
pn2->pn_atom == cx->runtime->atomState.argumentsAtom) {
tc->flags |= TCF_FUN_HEAVYWEIGHT;
}
/* Parse the object expression as the right operand of 'in'. */
pn2 = NewBinary(cx, TOK_IN, JSOP_NOP, pn1, Expr(cx, ts, tc), tc);
if (!pn2)
return NULL;
pn->pn_left = pn2;
} else {
#if JS_HAS_XML_SUPPORT
if (pn->pn_op == JSOP_FOREACH)
goto bad_for_each;
#endif
/* Parse the loop condition or null into pn2. */
MUST_MATCH_TOKEN(TOK_SEMI, JSMSG_SEMI_AFTER_FOR_INIT);
ts->flags |= TSF_OPERAND;
tt = js_PeekToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_SEMI) {
pn2 = NULL;
} else {
pn2 = Expr(cx, ts, tc);
if (!pn2)
return NULL;
}
/* Parse the update expression or null into pn3. */
MUST_MATCH_TOKEN(TOK_SEMI, JSMSG_SEMI_AFTER_FOR_COND);
ts->flags |= TSF_OPERAND;
tt = js_PeekToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_RP) {
pn3 = NULL;
} else {
pn3 = Expr(cx, ts, tc);
if (!pn3)
return NULL;
}
/* Build the RESERVED node to use as the left kid of pn. */
pn4 = NewParseNode(cx, ts, PN_TERNARY, tc);
if (!pn4)
return NULL;
pn4->pn_type = TOK_RESERVED;
pn4->pn_op = JSOP_NOP;
pn4->pn_kid1 = pn1;
pn4->pn_kid2 = pn2;
pn4->pn_kid3 = pn3;
pn->pn_left = pn4;
}
MUST_MATCH_TOKEN(TOK_RP, JSMSG_PAREN_AFTER_FOR_CTRL);
/* Parse the loop body into pn->pn_right. */
pn2 = Statement(cx, ts, tc);
if (!pn2)
return NULL;
pn->pn_right = pn2;
js_PopStatement(tc);
/* Record the absolute line number for source note emission. */
pn->pn_pos.end = pn2->pn_pos.end;
return pn;
#if JS_HAS_XML_SUPPORT
bad_for_each:
js_ReportCompileErrorNumber(cx, pn,
JSREPORT_PN | JSREPORT_ERROR,
JSMSG_BAD_FOR_EACH_LOOP);
return NULL;
#endif
#if JS_HAS_EXCEPTIONS
case TOK_TRY: {
JSParseNode *catchtail = NULL;
/*
* try nodes are ternary.
* kid1 is the try Statement
* kid2 is the catch node
* kid3 is the finally Statement
*
* catch nodes are ternary.
* kid1 is the discriminant
* kid2 is the next catch node, or NULL
* kid3 is the catch block (on kid3 so that we can always append a
* new catch pn on catchtail->kid2)
*
* catch discriminant nodes are binary
* atom is the receptacle
* expr is the discriminant code
*
* finally nodes are unary (just the finally expression)
*/
pn = NewParseNode(cx, ts, PN_TERNARY, tc);
pn->pn_op = JSOP_NOP;
MUST_MATCH_TOKEN(TOK_LC, JSMSG_CURLY_BEFORE_TRY);
js_PushStatement(tc, &stmtInfo, STMT_TRY, -1);
pn->pn_kid1 = Statements(cx, ts, tc);
if (!pn->pn_kid1)
return NULL;
MUST_MATCH_TOKEN(TOK_RC, JSMSG_CURLY_AFTER_TRY);
js_PopStatement(tc);
catchtail = pn;
while (js_PeekToken(cx, ts) == TOK_CATCH) {
/* check for another catch after unconditional catch */
if (catchtail != pn && !catchtail->pn_kid1->pn_expr) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_CATCH_AFTER_GENERAL);
return NULL;
}
/*
* legal catch forms are:
* catch (v)
* catch (v if <boolean_expression>)
* (the latter is legal only #ifdef JS_HAS_CATCH_GUARD)
*/
(void) js_GetToken(cx, ts); /* eat `catch' */
pn2 = NewParseNode(cx, ts, PN_TERNARY, tc);
if (!pn2)
return NULL;
/*
* We use a PN_NAME for the discriminant (catchguard) node
* with the actual discriminant code in the initializer spot
*/
MUST_MATCH_TOKEN(TOK_LP, JSMSG_PAREN_BEFORE_CATCH);
MUST_MATCH_TOKEN(TOK_NAME, JSMSG_CATCH_IDENTIFIER);
pn3 = NewParseNode(cx, ts, PN_NAME, tc);
if (!pn3)
return NULL;
pn3->pn_atom = CURRENT_TOKEN(ts).t_atom;
pn3->pn_expr = NULL;
#if JS_HAS_CATCH_GUARD
/*
* We use `catch (x if x === 5)' (not `catch (x : x === 5)') to
* avoid conflicting with the JS2/ECMA2 proposed catchguard syntax.
*/
if (js_PeekToken(cx, ts) == TOK_IF) {
(void)js_GetToken(cx, ts); /* eat `if' */
pn3->pn_expr = Expr(cx, ts, tc);
if (!pn3->pn_expr)
return NULL;
}
#endif
pn2->pn_kid1 = pn3;
MUST_MATCH_TOKEN(TOK_RP, JSMSG_PAREN_AFTER_CATCH);
MUST_MATCH_TOKEN(TOK_LC, JSMSG_CURLY_BEFORE_CATCH);
js_PushStatement(tc, &stmtInfo, STMT_CATCH, -1);
stmtInfo.label = pn3->pn_atom;
pn2->pn_kid3 = Statements(cx, ts, tc);
if (!pn2->pn_kid3)
return NULL;
MUST_MATCH_TOKEN(TOK_RC, JSMSG_CURLY_AFTER_CATCH);
js_PopStatement(tc);
catchtail = catchtail->pn_kid2 = pn2;
}
catchtail->pn_kid2 = NULL;
if (js_MatchToken(cx, ts, TOK_FINALLY)) {
tc->tryCount++;
MUST_MATCH_TOKEN(TOK_LC, JSMSG_CURLY_BEFORE_FINALLY);
js_PushStatement(tc, &stmtInfo, STMT_FINALLY, -1);
pn->pn_kid3 = Statements(cx, ts, tc);
if (!pn->pn_kid3)
return NULL;
MUST_MATCH_TOKEN(TOK_RC, JSMSG_CURLY_AFTER_FINALLY);
js_PopStatement(tc);
} else {
pn->pn_kid3 = NULL;
}
if (!pn->pn_kid2 && !pn->pn_kid3) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_CATCH_OR_FINALLY);
return NULL;
}
tc->tryCount++;
return pn;
}
case TOK_THROW:
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
/* ECMA-262 Edition 3 says 'throw [no LineTerminator here] Expr'. */
ts->flags |= TSF_OPERAND;
tt = js_PeekTokenSameLine(cx, ts);
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_ERROR)
return NULL;
if (tt == TOK_EOF || tt == TOK_EOL || tt == TOK_SEMI || tt == TOK_RC) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_SYNTAX_ERROR);
return NULL;
}
pn2 = Expr(cx, ts, tc);
if (!pn2)
return NULL;
pn->pn_pos.end = pn2->pn_pos.end;
pn->pn_op = JSOP_THROW;
pn->pn_kid = pn2;
break;
/* TOK_CATCH and TOK_FINALLY are both handled in the TOK_TRY case */
case TOK_CATCH:
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_CATCH_WITHOUT_TRY);
return NULL;
case TOK_FINALLY:
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_FINALLY_WITHOUT_TRY);
return NULL;
#endif /* JS_HAS_EXCEPTIONS */
case TOK_BREAK:
pn = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn)
return NULL;
if (!MatchLabel(cx, ts, pn))
return NULL;
stmt = tc->topStmt;
label = pn->pn_atom;
if (label) {
for (; ; stmt = stmt->down) {
if (!stmt) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_LABEL_NOT_FOUND);
return NULL;
}
if (stmt->type == STMT_LABEL && stmt->label == label)
break;
}
} else {
for (; ; stmt = stmt->down) {
if (!stmt) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_TOUGH_BREAK);
return NULL;
}
if (STMT_IS_LOOP(stmt) || stmt->type == STMT_SWITCH)
break;
}
}
if (label)
pn->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
break;
case TOK_CONTINUE:
pn = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn)
return NULL;
if (!MatchLabel(cx, ts, pn))
return NULL;
stmt = tc->topStmt;
label = pn->pn_atom;
if (label) {
for (stmt2 = NULL; ; stmt = stmt->down) {
if (!stmt) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_LABEL_NOT_FOUND);
return NULL;
}
if (stmt->type == STMT_LABEL) {
if (stmt->label == label) {
if (!stmt2 || !STMT_IS_LOOP(stmt2)) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS |
JSREPORT_ERROR,
JSMSG_BAD_CONTINUE);
return NULL;
}
break;
}
} else {
stmt2 = stmt;
}
}
} else {
for (; ; stmt = stmt->down) {
if (!stmt) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_CONTINUE);
return NULL;
}
if (STMT_IS_LOOP(stmt))
break;
}
}
if (label)
pn->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
break;
case TOK_WITH:
if (!js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT,
JSMSG_DEPRECATED_USAGE,
js_with_statement_str)) {
return NULL;
}
pn = NewParseNode(cx, ts, PN_BINARY, tc);
if (!pn)
return NULL;
MUST_MATCH_TOKEN(TOK_LP, JSMSG_PAREN_BEFORE_WITH);
pn2 = Expr(cx, ts, tc);
if (!pn2)
return NULL;
MUST_MATCH_TOKEN(TOK_RP, JSMSG_PAREN_AFTER_WITH);
pn->pn_left = pn2;
js_PushStatement(tc, &stmtInfo, STMT_WITH, -1);
pn2 = Statement(cx, ts, tc);
if (!pn2)
return NULL;
js_PopStatement(tc);
pn->pn_pos.end = pn2->pn_pos.end;
pn->pn_right = pn2;
tc->flags |= TCF_FUN_HEAVYWEIGHT;
return pn;
case TOK_VAR:
pn = Variables(cx, ts, tc);
if (!pn)
return NULL;
/* Tell js_EmitTree to generate a final POP. */
pn->pn_extra |= PNX_POPVAR;
break;
case TOK_RETURN:
if (!(tc->flags & TCF_IN_FUNCTION)) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_RETURN);
return NULL;
}
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
/* This is ugly, but we don't want to require a semicolon. */
ts->flags |= TSF_OPERAND;
tt = js_PeekTokenSameLine(cx, ts);
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_ERROR)
return NULL;
if (tt != TOK_EOF && tt != TOK_EOL && tt != TOK_SEMI && tt != TOK_RC) {
pn2 = Expr(cx, ts, tc);
if (!pn2)
return NULL;
tc->flags |= TCF_RETURN_EXPR;
pn->pn_pos.end = pn2->pn_pos.end;
pn->pn_kid = pn2;
} else {
tc->flags |= TCF_RETURN_VOID;
pn->pn_kid = NULL;
}
if (JS_HAS_STRICT_OPTION(cx) &&
(~tc->flags & (TCF_RETURN_EXPR | TCF_RETURN_VOID)) == 0) {
/*
* We must be in a frame with a non-native function, because
* we're compiling one.
*/
if (!ReportNoReturnValue(cx, ts))
return NULL;
}
break;
case TOK_LC:
js_PushStatement(tc, &stmtInfo, STMT_BLOCK, -1);
pn = Statements(cx, ts, tc);
if (!pn)
return NULL;
MUST_MATCH_TOKEN(TOK_RC, JSMSG_CURLY_IN_COMPOUND);
js_PopStatement(tc);
return pn;
case TOK_EOL:
case TOK_SEMI:
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
pn->pn_type = TOK_SEMI;
pn->pn_kid = NULL;
return pn;
#if JS_HAS_DEBUGGER_KEYWORD
case TOK_DEBUGGER:
pn = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn)
return NULL;
pn->pn_type = TOK_DEBUGGER;
tc->flags |= TCF_FUN_HEAVYWEIGHT;
break;
#endif /* JS_HAS_DEBUGGER_KEYWORD */
#if JS_HAS_XML_SUPPORT
case TOK_DEFAULT:
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
if (!js_MatchToken(cx, ts, TOK_NAME) ||
CURRENT_TOKEN(ts).t_atom != cx->runtime->atomState.xmlAtom ||
!js_MatchToken(cx, ts, TOK_NAME) ||
CURRENT_TOKEN(ts).t_atom != cx->runtime->atomState.namespaceAtom ||
!js_MatchToken(cx, ts, TOK_ASSIGN) ||
CURRENT_TOKEN(ts).t_op != JSOP_NOP) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_DEFAULT_XML_NAMESPACE);
return NULL;
}
pn2 = Expr(cx, ts, tc);
if (!pn2)
return NULL;
pn->pn_op = JSOP_DEFXMLNS;
pn->pn_pos.end = pn2->pn_pos.end;
pn->pn_kid = pn2;
tc->flags |= TCF_HAS_DEFXMLNS;
break;
#endif
case TOK_ERROR:
return NULL;
default:
#if JS_HAS_XML_SUPPORT
expression:
#endif
js_UngetToken(ts);
pn2 = Expr(cx, ts, tc);
if (!pn2)
return NULL;
if (js_PeekToken(cx, ts) == TOK_COLON) {
if (pn2->pn_type != TOK_NAME) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_LABEL);
return NULL;
}
label = pn2->pn_atom;
for (stmt = tc->topStmt; stmt; stmt = stmt->down) {
if (stmt->type == STMT_LABEL && stmt->label == label) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_DUPLICATE_LABEL);
return NULL;
}
}
(void) js_GetToken(cx, ts);
/* Push a label struct and parse the statement. */
js_PushStatement(tc, &stmtInfo, STMT_LABEL, -1);
stmtInfo.label = label;
pn = Statement(cx, ts, tc);
if (!pn)
return NULL;
/* Pop the label, set pn_expr, and return early. */
js_PopStatement(tc);
pn2->pn_type = TOK_COLON;
pn2->pn_pos.end = pn->pn_pos.end;
pn2->pn_expr = pn;
return pn2;
}
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
pn->pn_type = TOK_SEMI;
pn->pn_pos = pn2->pn_pos;
pn->pn_kid = pn2;
break;
}
/* Check termination of this primitive statement. */
if (ON_CURRENT_LINE(ts, pn->pn_pos)) {
tt = js_PeekTokenSameLine(cx, ts);
if (tt == TOK_ERROR)
return NULL;
if (tt != TOK_EOF && tt != TOK_EOL && tt != TOK_SEMI && tt != TOK_RC) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_SEMI_BEFORE_STMNT);
return NULL;
}
}
(void) js_MatchToken(cx, ts, TOK_SEMI);
return pn;
}
static JSParseNode *
Variables(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn, *pn2;
JSObject *obj, *pobj;
JSStackFrame *fp;
JSFunction *fun;
JSClass *clasp;
JSPropertyOp getter, setter, currentGetter, currentSetter;
JSAtom *atom;
JSAtomListElement *ale;
JSOp prevop;
JSProperty *prop;
JSScopeProperty *sprop;
JSBool ok;
/*
* The tricky part of this code is to create special parsenode opcodes for
* getting and setting variables (which will be stored as special slots in
* the frame). The complex special case is an eval() inside a function.
* If the evaluated string references variables in the enclosing function,
* then we need to generate the special variable opcodes. We determine
* this by looking up the variable id in the current variable scope.
*/
JS_ASSERT(CURRENT_TOKEN(ts).type == TOK_VAR);
pn = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn)
return NULL;
pn->pn_op = CURRENT_TOKEN(ts).t_op;
PN_INIT_LIST(pn);
/*
* Skip eval and debugger frames when looking for the function whose code
* is being compiled. If we are called from FunctionBody, TCF_IN_FUNCTION
* will be set in tc->flags, and we can be sure fp->fun is the function to
* use. But if a function calls eval, the string argument is treated as a
* Program (per ECMA), so TCF_IN_FUNCTION won't be set.
*
* What's more, when the following code is reached from eval, cx->fp->fun
* is eval's JSFunction (a native function), so we need to skip its frame.
* We should find the scripted caller's function frame just below it, but
* we code a loop out of paranoia.
*/
for (fp = cx->fp; (fp->flags & JSFRAME_SPECIAL) && fp->down; fp = fp->down)
continue;
obj = fp->varobj;
fun = fp->fun;
clasp = OBJ_GET_CLASS(cx, obj);
if (fun && clasp == &js_FunctionClass) {
/* We are compiling code inside a function */
getter = js_GetLocalVariable;
setter = js_SetLocalVariable;
} else if (fun && clasp == &js_CallClass) {
/* We are compiling code from an eval inside a function */
getter = js_GetCallVariable;
setter = js_SetCallVariable;
} else {
getter = clasp->getProperty;
setter = clasp->setProperty;
}
ok = JS_TRUE;
do {
currentGetter = getter;
currentSetter = setter;
MUST_MATCH_TOKEN(TOK_NAME, JSMSG_NO_VARIABLE_NAME);
atom = CURRENT_TOKEN(ts).t_atom;
ATOM_LIST_SEARCH(ale, &tc->decls, atom);
if (ale) {
prevop = ALE_JSOP(ale);
if (JS_HAS_STRICT_OPTION(cx)
? pn->pn_op != JSOP_DEFVAR || prevop != JSOP_DEFVAR
: pn->pn_op == JSOP_DEFCONST || prevop == JSOP_DEFCONST) {
const char *name = js_AtomToPrintableString(cx, atom);
if (!name ||
!js_ReportCompileErrorNumber(cx, ts,
(pn->pn_op != JSOP_DEFCONST &&
prevop != JSOP_DEFCONST)
? JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT
: JSREPORT_TS | JSREPORT_ERROR,
JSMSG_REDECLARED_VAR,
(prevop == JSOP_DEFFUN ||
prevop == JSOP_CLOSURE)
? js_function_str
: (prevop == JSOP_DEFCONST)
? js_const_str
: js_var_str,
name)) {
return NULL;
}
}
if (pn->pn_op == JSOP_DEFVAR && prevop == JSOP_CLOSURE)
tc->flags |= TCF_FUN_CLOSURE_VS_VAR;
} else {
ale = js_IndexAtom(cx, atom, &tc->decls);
if (!ale)
return NULL;
}
ALE_SET_JSOP(ale, pn->pn_op);
pn2 = NewParseNode(cx, ts, PN_NAME, tc);
if (!pn2)
return NULL;
pn2->pn_op = JSOP_NAME;
pn2->pn_atom = atom;
pn2->pn_expr = NULL;
pn2->pn_slot = -1;
pn2->pn_attrs = (pn->pn_op == JSOP_DEFCONST)
? JSPROP_PERMANENT | JSPROP_READONLY
: JSPROP_PERMANENT;
PN_APPEND(pn, pn2);
if (!fun) {
/* Don't lookup global variables at compile time. */
prop = NULL;
} else if (OBJ_IS_NATIVE(obj)) {
if (!js_LookupHiddenProperty(cx, obj, ATOM_TO_JSID(atom),
&pobj, &prop)) {
return NULL;
}
} else {
if (!OBJ_LOOKUP_PROPERTY(cx, obj, ATOM_TO_JSID(atom), &pobj, &prop))
return NULL;
}
if (prop && pobj == obj && OBJ_IS_NATIVE(pobj)) {
sprop = (JSScopeProperty *)prop;
if (sprop->getter == js_GetArgument) {
const char *name = js_AtomToPrintableString(cx, atom);
if (!name) {
ok = JS_FALSE;
} else if (pn->pn_op == JSOP_DEFCONST) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_REDECLARED_PARAM,
name);
ok = JS_FALSE;
} else {
currentGetter = js_GetArgument;
currentSetter = js_SetArgument;
ok = js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT,
JSMSG_VAR_HIDES_ARG,
name);
}
} else {
if (fun) {
/* Not an argument, must be a redeclared local var. */
if (clasp == &js_FunctionClass) {
JS_ASSERT(sprop->getter == js_GetLocalVariable);
JS_ASSERT((sprop->flags & SPROP_HAS_SHORTID) &&
(uint16) sprop->shortid < fun->nvars);
} else if (clasp == &js_CallClass) {
if (sprop->getter == js_GetCallVariable) {
/*
* Referencing a variable introduced by a var
* statement in the enclosing function. Check
* that the slot number we have is in range.
*/
JS_ASSERT((sprop->flags & SPROP_HAS_SHORTID) &&
(uint16) sprop->shortid < fun->nvars);
} else {
/*
* A variable introduced through another eval:
* don't use the special getters and setters
* since we can't allocate a slot in the frame.
*/
currentGetter = sprop->getter;
currentSetter = sprop->setter;
}
}
/* Override the old getter and setter, to handle eval. */
sprop = js_ChangeNativePropertyAttrs(cx, obj, sprop,
0, sprop->attrs,
currentGetter,
currentSetter);
if (!sprop)
ok = JS_FALSE;
}
}
} else {
/*
* Property not found in current variable scope: we have not seen
* this variable before. Define a new local variable by adding a
* property to the function's scope, allocating one slot in the
* function's frame. Global variables and any locals declared in
* with statement bodies are handled at runtime, by script prolog
* JSOP_DEFVAR bytecodes generated for slot-less vars.
*/
sprop = NULL;
if (prop) {
OBJ_DROP_PROPERTY(cx, pobj, prop);
prop = NULL;
}
if (currentGetter == js_GetCallVariable) {
/* Can't increase fun->nvars in an active frame! */
currentGetter = clasp->getProperty;
currentSetter = clasp->setProperty;
}
if (currentGetter == js_GetLocalVariable &&
atom != cx->runtime->atomState.argumentsAtom &&
fp->scopeChain == obj &&
!js_InWithStatement(tc)) {
if (!js_AddHiddenProperty(cx, obj, ATOM_TO_JSID(atom),
currentGetter, currentSetter,
SPROP_INVALID_SLOT,
pn2->pn_attrs | JSPROP_SHARED,
SPROP_HAS_SHORTID, fun->nvars)) {
return NULL;
}
if (fun->nvars == JS_BITMASK(16)) {
JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL,
JSMSG_TOO_MANY_FUN_VARS);
return NULL;
}
fun->nvars++;
}
}
if (js_MatchToken(cx, ts, TOK_ASSIGN)) {
if (CURRENT_TOKEN(ts).t_op != JSOP_NOP) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_VAR_INIT);
ok = JS_FALSE;
} else {
pn2->pn_expr = AssignExpr(cx, ts, tc);
if (!pn2->pn_expr) {
ok = JS_FALSE;
} else {
pn2->pn_op = (pn->pn_op == JSOP_DEFCONST)
? JSOP_SETCONST
: JSOP_SETNAME;
if (atom == cx->runtime->atomState.argumentsAtom)
tc->flags |= TCF_FUN_HEAVYWEIGHT;
}
}
}
if (prop)
OBJ_DROP_PROPERTY(cx, pobj, prop);
if (!ok)
return NULL;
} while (js_MatchToken(cx, ts, TOK_COMMA));
pn->pn_pos.end = PN_LAST(pn)->pn_pos.end;
return pn;
}
static JSParseNode *
Expr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn, *pn2;
pn = AssignExpr(cx, ts, tc);
if (pn && js_MatchToken(cx, ts, TOK_COMMA)) {
pn2 = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn2)
return NULL;
pn2->pn_pos.begin = pn->pn_pos.begin;
PN_INIT_LIST_1(pn2, pn);
pn = pn2;
do {
pn2 = AssignExpr(cx, ts, tc);
if (!pn2)
return NULL;
PN_APPEND(pn, pn2);
} while (js_MatchToken(cx, ts, TOK_COMMA));
pn->pn_pos.end = PN_LAST(pn)->pn_pos.end;
}
return pn;
}
static JSParseNode *
AssignExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn, *pn2;
JSTokenType tt;
JSOp op;
CHECK_RECURSION();
pn = CondExpr(cx, ts, tc);
if (!pn)
return NULL;
tt = js_GetToken(cx, ts);
#if JS_HAS_GETTER_SETTER
if (tt == TOK_NAME) {
tt = CheckGetterOrSetter(cx, ts, TOK_ASSIGN);
if (tt == TOK_ERROR)
return NULL;
}
#endif
if (tt != TOK_ASSIGN) {
js_UngetToken(ts);
return pn;
}
op = CURRENT_TOKEN(ts).t_op;
for (pn2 = pn; pn2->pn_type == TOK_RP; pn2 = pn2->pn_kid)
continue;
switch (pn2->pn_type) {
case TOK_NAME:
pn2->pn_op = JSOP_SETNAME;
if (pn2->pn_atom == cx->runtime->atomState.argumentsAtom)
tc->flags |= TCF_FUN_HEAVYWEIGHT;
break;
case TOK_DOT:
pn2->pn_op = JSOP_SETPROP;
break;
case TOK_LB:
pn2->pn_op = JSOP_SETELEM;
break;
#if JS_HAS_LVALUE_RETURN
case TOK_LP:
if (pn2->pn_op == JSOP_CALL) {
pn2->pn_op = JSOP_SETCALL;
break;
}
/* FALL THROUGH */
#endif
#if JS_HAS_XML_SUPPORT
case TOK_UNARYOP:
if (pn2->pn_op == JSOP_XMLNAME) {
pn2->pn_op = JSOP_SETXMLNAME;
break;
}
/* FALL THROUGH */
#endif
default:
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_LEFTSIDE_OF_ASS);
return NULL;
}
pn = NewBinary(cx, TOK_ASSIGN, op, pn2, AssignExpr(cx, ts, tc), tc);
return pn;
}
static JSParseNode *
CondExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn, *pn1, *pn2, *pn3;
#if JS_HAS_IN_OPERATOR
uintN oldflags;
#endif /* JS_HAS_IN_OPERATOR */
pn = OrExpr(cx, ts, tc);
if (pn && js_MatchToken(cx, ts, TOK_HOOK)) {
pn1 = pn;
pn = NewParseNode(cx, ts, PN_TERNARY, tc);
if (!pn)
return NULL;
#if JS_HAS_IN_OPERATOR
/*
* Always accept the 'in' operator in the middle clause of a ternary,
* where it's unambiguous, even if we might be parsing the init of a
* for statement.
*/
oldflags = tc->flags;
tc->flags &= ~TCF_IN_FOR_INIT;
#endif /* JS_HAS_IN_OPERATOR */
pn2 = AssignExpr(cx, ts, tc);
#if JS_HAS_IN_OPERATOR
tc->flags = oldflags | (tc->flags & TCF_FUN_FLAGS);
#endif /* JS_HAS_IN_OPERATOR */
if (!pn2)
return NULL;
MUST_MATCH_TOKEN(TOK_COLON, JSMSG_COLON_IN_COND);
pn3 = AssignExpr(cx, ts, tc);
if (!pn3)
return NULL;
pn->pn_pos.begin = pn1->pn_pos.begin;
pn->pn_pos.end = pn3->pn_pos.end;
pn->pn_kid1 = pn1;
pn->pn_kid2 = pn2;
pn->pn_kid3 = pn3;
}
return pn;
}
static JSParseNode *
OrExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
pn = AndExpr(cx, ts, tc);
if (pn && js_MatchToken(cx, ts, TOK_OR))
pn = NewBinary(cx, TOK_OR, JSOP_OR, pn, OrExpr(cx, ts, tc), tc);
return pn;
}
static JSParseNode *
AndExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
pn = BitOrExpr(cx, ts, tc);
if (pn && js_MatchToken(cx, ts, TOK_AND))
pn = NewBinary(cx, TOK_AND, JSOP_AND, pn, AndExpr(cx, ts, tc), tc);
return pn;
}
static JSParseNode *
BitOrExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
pn = BitXorExpr(cx, ts, tc);
while (pn && js_MatchToken(cx, ts, TOK_BITOR)) {
pn = NewBinary(cx, TOK_BITOR, JSOP_BITOR, pn, BitXorExpr(cx, ts, tc),
tc);
}
return pn;
}
static JSParseNode *
BitXorExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
pn = BitAndExpr(cx, ts, tc);
while (pn && js_MatchToken(cx, ts, TOK_BITXOR)) {
pn = NewBinary(cx, TOK_BITXOR, JSOP_BITXOR, pn, BitAndExpr(cx, ts, tc),
tc);
}
return pn;
}
static JSParseNode *
BitAndExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
pn = EqExpr(cx, ts, tc);
while (pn && js_MatchToken(cx, ts, TOK_BITAND))
pn = NewBinary(cx, TOK_BITAND, JSOP_BITAND, pn, EqExpr(cx, ts, tc), tc);
return pn;
}
static JSParseNode *
EqExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
JSOp op;
pn = RelExpr(cx, ts, tc);
while (pn && js_MatchToken(cx, ts, TOK_EQOP)) {
op = CURRENT_TOKEN(ts).t_op;
pn = NewBinary(cx, TOK_EQOP, op, pn, RelExpr(cx, ts, tc), tc);
}
return pn;
}
static JSParseNode *
RelExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
JSTokenType tt;
JSOp op;
#if JS_HAS_IN_OPERATOR
uintN inForInitFlag = tc->flags & TCF_IN_FOR_INIT;
/*
* Uses of the in operator in ShiftExprs are always unambiguous,
* so unset the flag that prohibits recognizing it.
*/
tc->flags &= ~TCF_IN_FOR_INIT;
#endif /* JS_HAS_IN_OPERATOR */
pn = ShiftExpr(cx, ts, tc);
while (pn &&
(js_MatchToken(cx, ts, TOK_RELOP)
#if JS_HAS_IN_OPERATOR
/*
* Recognize the 'in' token as an operator only if we're not
* currently in the init expr of a for loop.
*/
|| (inForInitFlag == 0 && js_MatchToken(cx, ts, TOK_IN))
#endif /* JS_HAS_IN_OPERATOR */
#if JS_HAS_INSTANCEOF
|| js_MatchToken(cx, ts, TOK_INSTANCEOF)
#endif /* JS_HAS_INSTANCEOF */
)) {
tt = CURRENT_TOKEN(ts).type;
op = CURRENT_TOKEN(ts).t_op;
pn = NewBinary(cx, tt, op, pn, ShiftExpr(cx, ts, tc), tc);
}
#if JS_HAS_IN_OPERATOR
/* Restore previous state of inForInit flag. */
tc->flags |= inForInitFlag;
#endif /* JS_HAS_IN_OPERATOR */
return pn;
}
static JSParseNode *
ShiftExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
JSOp op;
pn = AddExpr(cx, ts, tc);
while (pn && js_MatchToken(cx, ts, TOK_SHOP)) {
op = CURRENT_TOKEN(ts).t_op;
pn = NewBinary(cx, TOK_SHOP, op, pn, AddExpr(cx, ts, tc), tc);
}
return pn;
}
static JSParseNode *
AddExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
JSTokenType tt;
JSOp op;
pn = MulExpr(cx, ts, tc);
while (pn &&
(js_MatchToken(cx, ts, TOK_PLUS) ||
js_MatchToken(cx, ts, TOK_MINUS))) {
tt = CURRENT_TOKEN(ts).type;
op = (tt == TOK_PLUS) ? JSOP_ADD : JSOP_SUB;
pn = NewBinary(cx, tt, op, pn, MulExpr(cx, ts, tc), tc);
}
return pn;
}
static JSParseNode *
MulExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
JSTokenType tt;
JSOp op;
pn = UnaryExpr(cx, ts, tc);
while (pn &&
(js_MatchToken(cx, ts, TOK_STAR) ||
js_MatchToken(cx, ts, TOK_DIVOP))) {
tt = CURRENT_TOKEN(ts).type;
op = CURRENT_TOKEN(ts).t_op;
pn = NewBinary(cx, tt, op, pn, UnaryExpr(cx, ts, tc), tc);
}
return pn;
}
static JSParseNode *
SetLvalKid(JSContext *cx, JSTokenStream *ts, JSParseNode *pn, JSParseNode *kid,
const char *name)
{
while (kid->pn_type == TOK_RP)
kid = kid->pn_kid;
if (kid->pn_type != TOK_NAME &&
kid->pn_type != TOK_DOT &&
#if JS_HAS_LVALUE_RETURN
(kid->pn_type != TOK_LP || kid->pn_op != JSOP_CALL) &&
#endif
#if JS_HAS_XML_SUPPORT
(kid->pn_type != TOK_UNARYOP || kid->pn_op != JSOP_XMLNAME) &&
#endif
kid->pn_type != TOK_LB) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_OPERAND, name);
return NULL;
}
pn->pn_kid = kid;
return kid;
}
static const char *incop_name_str[] = {"increment", "decrement"};
static JSBool
SetIncOpKid(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc,
JSParseNode *pn, JSParseNode *kid,
JSTokenType tt, JSBool preorder)
{
JSOp op;
kid = SetLvalKid(cx, ts, pn, kid, incop_name_str[tt == TOK_DEC]);
if (!kid)
return JS_FALSE;
switch (kid->pn_type) {
case TOK_NAME:
op = (tt == TOK_INC)
? (preorder ? JSOP_INCNAME : JSOP_NAMEINC)
: (preorder ? JSOP_DECNAME : JSOP_NAMEDEC);
if (kid->pn_atom == cx->runtime->atomState.argumentsAtom)
tc->flags |= TCF_FUN_HEAVYWEIGHT;
break;
case TOK_DOT:
op = (tt == TOK_INC)
? (preorder ? JSOP_INCPROP : JSOP_PROPINC)
: (preorder ? JSOP_DECPROP : JSOP_PROPDEC);
break;
#if JS_HAS_LVALUE_RETURN
case TOK_LP:
JS_ASSERT(kid->pn_op == JSOP_CALL);
kid->pn_op = JSOP_SETCALL;
/* FALL THROUGH */
#endif
#if JS_HAS_XML_SUPPORT
case TOK_UNARYOP:
if (kid->pn_op == JSOP_XMLNAME)
kid->pn_op = JSOP_SETXMLNAME;
/* FALL THROUGH */
#endif
case TOK_LB:
op = (tt == TOK_INC)
? (preorder ? JSOP_INCELEM : JSOP_ELEMINC)
: (preorder ? JSOP_DECELEM : JSOP_ELEMDEC);
break;
default:
JS_ASSERT(0);
op = JSOP_NOP;
}
pn->pn_op = op;
return JS_TRUE;
}
static JSParseNode *
UnaryExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSTokenType tt;
JSParseNode *pn, *pn2;
ts->flags |= TSF_OPERAND;
tt = js_GetToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
switch (tt) {
case TOK_UNARYOP:
case TOK_PLUS:
case TOK_MINUS:
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
pn->pn_type = TOK_UNARYOP; /* PLUS and MINUS are binary */
pn->pn_op = CURRENT_TOKEN(ts).t_op;
pn2 = UnaryExpr(cx, ts, tc);
if (!pn2)
return NULL;
pn->pn_pos.end = pn2->pn_pos.end;
pn->pn_kid = pn2;
break;
case TOK_INC:
case TOK_DEC:
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
pn2 = MemberExpr(cx, ts, tc, JS_TRUE);
if (!pn2)
return NULL;
if (!SetIncOpKid(cx, ts, tc, pn, pn2, tt, JS_TRUE))
return NULL;
pn->pn_pos.end = pn2->pn_pos.end;
break;
case TOK_DELETE:
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
pn2 = UnaryExpr(cx, ts, tc);
if (!pn2)
return NULL;
pn->pn_pos.end = pn2->pn_pos.end;
/*
* Under ECMA3, deleting any unary expression is valid -- it simply
* returns true. Here we strip off any parentheses.
*/
while (pn2->pn_type == TOK_RP)
pn2 = pn2->pn_kid;
pn->pn_kid = pn2;
break;
case TOK_ERROR:
return NULL;
default:
js_UngetToken(ts);
pn = MemberExpr(cx, ts, tc, JS_TRUE);
if (!pn)
return NULL;
/* Don't look across a newline boundary for a postfix incop. */
if (ON_CURRENT_LINE(ts, pn->pn_pos)) {
tt = js_PeekTokenSameLine(cx, ts);
if (tt == TOK_INC || tt == TOK_DEC) {
(void) js_GetToken(cx, ts);
pn2 = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn2)
return NULL;
if (!SetIncOpKid(cx, ts, tc, pn2, pn, tt, JS_FALSE))
return NULL;
pn2->pn_pos.begin = pn->pn_pos.begin;
pn = pn2;
}
}
break;
}
return pn;
}
static JSBool
ArgumentList(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc,
JSParseNode *listNode)
{
JSBool matched;
ts->flags |= TSF_OPERAND;
matched = js_MatchToken(cx, ts, TOK_RP);
ts->flags &= ~TSF_OPERAND;
if (!matched) {
do {
JSParseNode *argNode = AssignExpr(cx, ts, tc);
if (!argNode)
return JS_FALSE;
PN_APPEND(listNode, argNode);
} while (js_MatchToken(cx, ts, TOK_COMMA));
if (js_GetToken(cx, ts) != TOK_RP) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_PAREN_AFTER_ARGS);
return JS_FALSE;
}
}
return JS_TRUE;
}
static JSParseNode *
MemberExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc,
JSBool allowCallSyntax)
{
JSParseNode *pn, *pn2, *pn3;
JSTokenType tt;
CHECK_RECURSION();
/* Check for new expression first. */
ts->flags |= TSF_OPERAND;
tt = js_PeekToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_NEW) {
(void) js_GetToken(cx, ts);
pn = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn)
return NULL;
pn2 = MemberExpr(cx, ts, tc, JS_FALSE);
if (!pn2)
return NULL;
pn->pn_op = JSOP_NEW;
PN_INIT_LIST_1(pn, pn2);
pn->pn_pos.begin = pn2->pn_pos.begin;
if (js_MatchToken(cx, ts, TOK_LP) && !ArgumentList(cx, ts, tc, pn))
return NULL;
if (pn->pn_count > ARGC_LIMIT) {
JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL,
JSMSG_TOO_MANY_CON_ARGS);
return NULL;
}
pn->pn_pos.end = PN_LAST(pn)->pn_pos.end;
} else {
pn = PrimaryExpr(cx, ts, tc);
if (!pn)
return NULL;
if (pn->pn_type == TOK_AT || pn->pn_type == TOK_DBLCOLON) {
pn2 = NewOrRecycledNode(cx, tc);
if (!pn2)
return NULL;
pn2->pn_type = TOK_UNARYOP;
pn2->pn_pos = pn->pn_pos;
pn2->pn_op = JSOP_XMLNAME;
pn2->pn_arity = PN_UNARY;
pn2->pn_kid = pn;
pn2->pn_next = NULL;
pn = pn2;
}
}
while ((tt = js_GetToken(cx, ts)) > TOK_EOF) {
if (tt == TOK_DOT) {
pn2 = NewParseNode(cx, ts, PN_NAME, tc);
if (!pn2)
return NULL;
#if JS_HAS_XML_SUPPORT
pn3 = PrimaryExpr(cx, ts, tc);
if (!pn3)
return NULL;
tt = pn3->pn_type;
if (tt == TOK_NAME ||
(tt == TOK_DBLCOLON &&
pn3->pn_arity == PN_NAME &&
pn3->pn_expr->pn_type == TOK_FUNCTION)) {
pn2->pn_op = (tt == TOK_NAME) ? JSOP_GETPROP : JSOP_GETMETHOD;
pn2->pn_expr = pn;
pn2->pn_atom = pn3->pn_atom;
RecycleTree(pn3, tc);
} else {
if (TOKEN_TYPE_IS_XML(tt)) {
pn2->pn_type = TOK_LB;
pn2->pn_op = JSOP_GETELEM;
} else if (tt == TOK_RP) {
JSParseNode *group = pn3;
/* Recycle the useless TOK_RP/JSOP_GROUP node. */
pn3 = group->pn_kid;
group->pn_kid = NULL;
RecycleTree(group, tc);
pn2->pn_type = TOK_FILTER;
pn2->pn_op = JSOP_FILTER;
} else {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_NAME_AFTER_DOT);
return NULL;
}
pn2->pn_arity = PN_BINARY;
pn2->pn_left = pn;
pn2->pn_right = pn3;
}
#else
MUST_MATCH_TOKEN(TOK_NAME, JSMSG_NAME_AFTER_DOT);
pn2->pn_op = JSOP_GETPROP;
pn2->pn_expr = pn;
pn2->pn_atom = CURRENT_TOKEN(ts).t_atom;
#endif
pn2->pn_pos.begin = pn->pn_pos.begin;
pn2->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
#if JS_HAS_XML_SUPPORT
} else if (tt == TOK_DBLDOT) {
pn2 = NewParseNode(cx, ts, PN_BINARY, tc);
if (!pn2)
return NULL;
pn3 = PrimaryExpr(cx, ts, tc);
if (!pn3)
return NULL;
tt = pn3->pn_type;
if (tt == TOK_NAME) {
pn3->pn_type = TOK_STRING;
pn3->pn_arity = PN_NULLARY;
pn3->pn_op = JSOP_STRING;
} else if (!TOKEN_TYPE_IS_XML(tt)) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_NAME_AFTER_DOT);
return NULL;
}
pn2->pn_op = JSOP_DESCENDANTS;
pn2->pn_left = pn;
pn2->pn_right = pn3;
pn2->pn_pos.begin = pn->pn_pos.begin;
pn2->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
#endif
} else if (tt == TOK_LB) {
pn2 = NewParseNode(cx, ts, PN_BINARY, tc);
if (!pn2)
return NULL;
pn3 = Expr(cx, ts, tc);
if (!pn3)
return NULL;
MUST_MATCH_TOKEN(TOK_RB, JSMSG_BRACKET_IN_INDEX);
pn2->pn_pos.begin = pn->pn_pos.begin;
pn2->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
/* Optimize o['p'] to o.p by rewriting pn2. */
if (pn3->pn_type == TOK_STRING) {
pn2->pn_type = TOK_DOT;
pn2->pn_op = JSOP_GETPROP;
pn2->pn_arity = PN_NAME;
pn2->pn_expr = pn;
pn2->pn_atom = pn3->pn_atom;
} else {
pn2->pn_op = JSOP_GETELEM;
pn2->pn_left = pn;
pn2->pn_right = pn3;
}
} else if (allowCallSyntax && tt == TOK_LP) {
pn2 = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn2)
return NULL;
/* Pick JSOP_EVAL and flag tc as heavyweight if eval(...). */
pn2->pn_op = JSOP_CALL;
if (pn->pn_op == JSOP_NAME &&
pn->pn_atom == cx->runtime->atomState.evalAtom) {
pn2->pn_op = JSOP_EVAL;
tc->flags |= TCF_FUN_HEAVYWEIGHT;
}
PN_INIT_LIST_1(pn2, pn);
pn2->pn_pos.begin = pn->pn_pos.begin;
if (!ArgumentList(cx, ts, tc, pn2))
return NULL;
if (pn2->pn_count > ARGC_LIMIT) {
JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL,
JSMSG_TOO_MANY_FUN_ARGS);
return NULL;
}
pn2->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
} else {
js_UngetToken(ts);
return pn;
}
pn = pn2;
}
if (tt == TOK_ERROR)
return NULL;
return pn;
}
static JSParseNode *
BracketedExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
uintN oldflags;
JSParseNode *pn;
#if JS_HAS_IN_OPERATOR
/*
* Always accept the 'in' operator in a parenthesized expression,
* where it's unambiguous, even if we might be parsing the init of a
* for statement.
*/
oldflags = tc->flags;
tc->flags &= ~TCF_IN_FOR_INIT;
#endif
pn = Expr(cx, ts, tc);
#if JS_HAS_IN_OPERATOR
tc->flags = oldflags | (tc->flags & TCF_FUN_FLAGS);
#endif
return pn;
}
#if JS_HAS_XML_SUPPORT
static JSParseNode *
EndBracketedExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
pn = BracketedExpr(cx, ts, tc);
if (!pn)
return NULL;
MUST_MATCH_TOKEN(TOK_RB, JSMSG_BRACKET_AFTER_ATTR_EXPR);
return pn;
}
/*
* From the ECMA-357 grammar in 11.1.1 and 11.1.2:
*
* AttributeIdentifier:
* @ PropertySelector
* @ QualifiedIdentifier
* @ [ Expression ]
*
* PropertySelector:
* Identifier
* *
*
* QualifiedIdentifier:
* PropertySelector :: PropertySelector
* PropertySelector :: [ Expression ]
*
* We adapt AttributeIdentifier and QualifiedIdentier to be LL(1), like so:
*
* AttributeIdentifier:
* @ QualifiedIdentifier
* @ [ Expression ]
*
* PropertySelector:
* Identifier
* *
*
* QualifiedIdentifier:
* PropertySelector :: PropertySelector
* PropertySelector :: [ Expression ]
* PropertySelector
*
* Since PrimaryExpression: Identifier in ECMA-262 and we want the semantics
* for that rule to result in a name node, but extend the grammar to include
* PrimaryExpression: QualifiedIdentifier, we factor further:
*
* QualifiedIdentifier:
* PropertySelector QualifiedSuffix
*
* QualifiedSuffix:
* :: PropertySelector
* :: [ Expression ]
* /nothing/
*
* And use this production instead of PrimaryExpression: QualifiedIdentifier:
*
* PrimaryExpression:
* Identifier QualifiedSuffix
*
* We hoists the :: match into callers of QualifiedSuffix, in order to tweak
* PropertySelector vs. Identifier pn_arity, pn_op, and other members.
*/
static JSParseNode *
PropertySelector(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
pn = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn)
return NULL;
if (pn->pn_type == TOK_STAR) {
pn->pn_type = TOK_ANYNAME;
pn->pn_op = JSOP_ANYNAME;
pn->pn_atom = cx->runtime->atomState.starAtom;
} else {
JS_ASSERT(pn->pn_type == TOK_NAME);
pn->pn_op = JSOP_QNAMEPART;
pn->pn_arity = PN_NAME;
pn->pn_atom = CURRENT_TOKEN(ts).t_atom;
pn->pn_expr = NULL;
pn->pn_slot = -1;
pn->pn_attrs = 0;
}
return pn;
}
static JSParseNode *
QualifiedSuffix(JSContext *cx, JSTokenStream *ts, JSParseNode *pn,
JSTreeContext *tc)
{
JSParseNode *pn2, *pn3;
JSTokenType tt;
JS_ASSERT(CURRENT_TOKEN(ts).type == TOK_DBLCOLON);
pn2 = NewParseNode(cx, ts, PN_NAME, tc);
if (!pn2)
return NULL;
/* Left operand of :: must be evaluated if it is an identifier. */
if (pn->pn_op == JSOP_QNAMEPART)
pn->pn_op = JSOP_NAME;
tt = js_GetToken(cx, ts);
if (tt == TOK_STAR || tt == TOK_NAME) {
/* Inline and specialize PropertySelector for JSOP_QNAMECONST. */
pn2->pn_op = JSOP_QNAMECONST;
pn2->pn_atom = (tt == TOK_STAR)
? cx->runtime->atomState.starAtom
: CURRENT_TOKEN(ts).t_atom;
pn2->pn_expr = pn;
pn2->pn_slot = -1;
pn2->pn_attrs = 0;
return pn2;
}
if (tt != TOK_LB) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_SYNTAX_ERROR);
return NULL;
}
pn3 = EndBracketedExpr(cx, ts, tc);
if (!pn3)
return NULL;
pn2->pn_op = JSOP_QNAME;
pn2->pn_arity = PN_BINARY;
pn2->pn_left = pn;
pn2->pn_right = pn3;
return pn2;
}
static JSParseNode *
QualifiedIdentifier(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
pn = PropertySelector(cx, ts, tc);
if (!pn)
return NULL;
if (js_MatchToken(cx, ts, TOK_DBLCOLON))
pn = QualifiedSuffix(cx, ts, pn, tc);
return pn;
}
static JSParseNode *
AttributeIdentifier(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn, *pn2;
JSTokenType tt;
JS_ASSERT(CURRENT_TOKEN(ts).type == TOK_AT);
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
pn->pn_op = JSOP_TOATTRNAME;
tt = js_GetToken(cx, ts);
if (tt == TOK_STAR || tt == TOK_NAME) {
pn2 = QualifiedIdentifier(cx, ts, tc);
} else if (tt == TOK_LB) {
pn2 = EndBracketedExpr(cx, ts, tc);
} else {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_SYNTAX_ERROR);
return NULL;
}
if (!pn2)
return NULL;
pn->pn_kid = pn2;
return pn;
}
/*
* Make a TOK_LC unary node whose pn_kid is an expression.
*/
static JSParseNode *
XMLExpr(JSContext *cx, JSTokenStream *ts, JSBool inTag, JSTreeContext *tc)
{
JSParseNode *pn, *pn2;
uintN oldflags;
JS_ASSERT(CURRENT_TOKEN(ts).type == TOK_LC);
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
/*
* Turn off XML tag mode, but don't restore it after parsing this braced
* expression. Instead, simply restore ts's old flags. This is required
* because XMLExpr is called both from within a tag, and from within text
* contained in an element, but outside of any start, end, or point tag.
*/
oldflags = ts->flags;
ts->flags = oldflags & ~TSF_XMLTAGMODE;
pn2 = Expr(cx, ts, tc);
if (!pn2)
return NULL;
MUST_MATCH_TOKEN(TOK_RC, JSMSG_CURLY_IN_XML_EXPR);
ts->flags = oldflags;
pn->pn_kid = pn2;
pn->pn_op = inTag ? JSOP_XMLTAGEXPR : JSOP_XMLELTEXPR;
return pn;
}
/*
* Make a terminal node for oneof TOK_XMLNAME, TOK_XMLATTR, TOK_XMLSPACE,
* TOK_XMLTEXT, TOK_XMLCDATA, TOK_XMLCOMMENT, or TOK_XMLPI. When converting
* parse tree to XML, we preserve a TOK_XMLSPACE node only if it's the sole
* child of a container tag.
*/
static JSParseNode *
XMLAtomNode(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn;
JSToken *tp;
pn = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn)
return NULL;
tp = &CURRENT_TOKEN(ts);
pn->pn_op = tp->t_op;
pn->pn_atom = tp->t_atom;
if (tp->type == TOK_XMLPI)
pn->pn_atom2 = tp->t_atom2;
return pn;
}
/*
* Parse the productions:
*
* XMLNameExpr:
* XMLName XMLNameExpr?
* { Expr } XMLNameExpr?
*
* Return a PN_LIST, PN_UNARY, or PN_NULLARY according as XMLNameExpr produces
* a list of names and/or expressions, a single expression, or a single name.
* If PN_LIST or PN_NULLARY, pn_type will be TOK_XMLNAME; if PN_UNARY, pn_type
* will be TOK_LC.
*/
static JSParseNode *
XMLNameExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSParseNode *pn, *pn2, *list;
JSTokenType tt;
pn = list = NULL;
do {
tt = CURRENT_TOKEN(ts).type;
if (tt == TOK_LC) {
pn2 = XMLExpr(cx, ts, JS_TRUE, tc);
if (!pn2)
return NULL;
} else {
JS_ASSERT(tt == TOK_XMLNAME);
pn2 = XMLAtomNode(cx, ts, tc);
if (!pn2)
return NULL;
}
if (!pn) {
pn = pn2;
} else {
if (!list) {
list = NewParseNode(cx, ts, PN_LIST, tc);
if (!list)
return NULL;
list->pn_type = TOK_XMLNAME;
list->pn_pos.begin = pn->pn_pos.begin;
PN_INIT_LIST_1(list, pn);
list->pn_extra = PNX_CANTFOLD;
pn = list;
}
pn->pn_pos.end = pn2->pn_pos.end;
PN_APPEND(pn, pn2);
}
} while ((tt = js_GetToken(cx, ts)) == TOK_XMLNAME || tt == TOK_LC);
js_UngetToken(ts);
return pn;
}
/*
* Macro to test whether an XMLNameExpr or XMLTagContent node can be folded
* at compile time into a JSXML tree.
*/
#define XML_FOLDABLE(pn) ((pn)->pn_arity == PN_LIST \
? ((pn)->pn_extra & PNX_CANTFOLD) == 0 \
: (pn)->pn_type != TOK_LC)
/*
* Parse the productions:
*
* XMLTagContent:
* XMLNameExpr
* XMLTagContent S XMLNameExpr S? = S? XMLAttr
* XMLTagContent S XMLNameExpr S? = S? { Expr }
*
* Return a PN_LIST, PN_UNARY, or PN_NULLARY according to how XMLTagContent
* produces a list of name and attribute values and/or braced expressions, a
* single expression, or a single name.
*
* If PN_LIST or PN_NULLARY, pn_type will be TOK_XMLNAME for the case where
* XMLTagContent: XMLNameExpr. If pn_type is not TOK_XMLNAME but pn_arity is
* PN_LIST, pn_type will be tagtype. If PN_UNARY, pn_type will be TOK_LC and
* we parsed exactly one expression.
*/
static JSParseNode *
XMLTagContent(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc,
JSTokenType tagtype, JSAtom **namep)
{
JSParseNode *pn, *pn2, *list;
JSTokenType tt;
pn = XMLNameExpr(cx, ts, tc);
if (!pn)
return NULL;
*namep = (pn->pn_arity == PN_NULLARY) ? pn->pn_atom : NULL;
list = NULL;
while (js_MatchToken(cx, ts, TOK_XMLSPACE)) {
tt = js_GetToken(cx, ts);
if (tt != TOK_XMLNAME && tt != TOK_LC) {
js_UngetToken(ts);
break;
}
pn2 = XMLNameExpr(cx, ts, tc);
if (!pn2)
return NULL;
if (!list) {
list = NewParseNode(cx, ts, PN_LIST, tc);
if (!list)
return NULL;
list->pn_type = tagtype;
list->pn_pos.begin = pn->pn_pos.begin;
PN_INIT_LIST_1(list, pn);
pn = list;
}
PN_APPEND(pn, pn2);
if (!XML_FOLDABLE(pn2))
pn->pn_extra |= PNX_CANTFOLD;
js_MatchToken(cx, ts, TOK_XMLSPACE);
MUST_MATCH_TOKEN(TOK_ASSIGN, JSMSG_NO_ASSIGN_IN_XML_ATTR);
js_MatchToken(cx, ts, TOK_XMLSPACE);
tt = js_GetToken(cx, ts);
if (tt == TOK_XMLATTR) {
pn2 = XMLAtomNode(cx, ts, tc);
} else if (tt == TOK_LC) {
pn2 = XMLExpr(cx, ts, JS_TRUE, tc);
pn->pn_extra |= PNX_CANTFOLD;
} else {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_XML_ATTR_VALUE);
return NULL;
}
if (!pn2)
return NULL;
pn->pn_pos.end = pn2->pn_pos.end;
PN_APPEND(pn, pn2);
}
return pn;
}
#define XML_CHECK_FOR_ERROR_AND_EOF(tt,result) \
JS_BEGIN_MACRO \
if ((tt) <= TOK_EOF) { \
if ((tt) == TOK_EOF) { \
js_ReportCompileErrorNumber(cx, ts, \
JSREPORT_TS | JSREPORT_ERROR, \
JSMSG_END_OF_XML_SOURCE); \
} \
return result; \
} \
JS_END_MACRO
static JSParseNode *
XMLElementOrList(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc,
JSBool allowList);
/*
* Consume XML element tag content, including the TOK_XMLETAGO (</) sequence
* that opens the end tag for the container.
*/
static JSBool
XMLElementContent(JSContext *cx, JSTokenStream *ts, JSParseNode *pn,
JSTreeContext *tc)
{
JSTokenType tt;
JSParseNode *pn2;
JSAtom *textAtom;
ts->flags &= ~TSF_XMLTAGMODE;
for (;;) {
ts->flags |= TSF_XMLTEXTMODE;
tt = js_GetToken(cx, ts);
ts->flags &= ~TSF_XMLTEXTMODE;
XML_CHECK_FOR_ERROR_AND_EOF(tt, JS_FALSE);
JS_ASSERT(tt == TOK_XMLSPACE || tt == TOK_XMLTEXT);
textAtom = CURRENT_TOKEN(ts).t_atom;
if (textAtom) {
/* Non-zero-length XML text scanned. */
pn2 = XMLAtomNode(cx, ts, tc);
if (!pn2)
return JS_FALSE;
pn->pn_pos.end = pn2->pn_pos.end;
PN_APPEND(pn, pn2);
}
ts->flags |= TSF_OPERAND;
tt = js_GetToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
XML_CHECK_FOR_ERROR_AND_EOF(tt, JS_FALSE);
if (tt == TOK_XMLETAGO)
break;
if (tt == TOK_LC) {
pn2 = XMLExpr(cx, ts, JS_FALSE, tc);
pn->pn_extra |= PNX_CANTFOLD;
} else if (tt == TOK_XMLSTAGO) {
pn2 = XMLElementOrList(cx, ts, tc, JS_FALSE);
if (pn2) {
pn2->pn_extra &= ~PNX_XMLROOT;
pn->pn_extra |= pn2->pn_extra;
}
} else {
JS_ASSERT(tt == TOK_XMLCDATA || tt == TOK_XMLCOMMENT ||
tt == TOK_XMLPI);
pn2 = XMLAtomNode(cx, ts, tc);
}
if (!pn2)
return JS_FALSE;
pn->pn_pos.end = pn2->pn_pos.end;
PN_APPEND(pn, pn2);
}
JS_ASSERT(CURRENT_TOKEN(ts).type == TOK_XMLETAGO);
ts->flags |= TSF_XMLTAGMODE;
return JS_TRUE;
}
/*
* Return a PN_LIST node containing an XML or XMLList Initialiser.
*/
static JSParseNode *
XMLElementOrList(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc,
JSBool allowList)
{
JSParseNode *pn, *pn2, *list;
JSBool hadSpace;
JSTokenType tt;
JSAtom *startAtom, *endAtom;
JS_ASSERT(CURRENT_TOKEN(ts).type == TOK_XMLSTAGO);
pn = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn)
return NULL;
ts->flags |= TSF_XMLTAGMODE;
hadSpace = js_MatchToken(cx, ts, TOK_XMLSPACE);
tt = js_GetToken(cx, ts);
if (tt == TOK_ERROR)
return NULL;
if (tt == TOK_XMLNAME || tt == TOK_LC) {
/*
* XMLElement. Append the tag and its contents, if any, to pn.
*/
pn2 = XMLTagContent(cx, ts, tc, TOK_XMLSTAGO, &startAtom);
if (!pn2)
return NULL;
js_MatchToken(cx, ts, TOK_XMLSPACE);
tt = js_GetToken(cx, ts);
if (tt == TOK_XMLPTAGC) {
/* Point tag (/>): recycle pn if pn2 is a list of tag contents. */
if (pn2->pn_type == TOK_XMLSTAGO) {
PN_INIT_LIST(pn);
RecycleTree(pn, tc);
pn = pn2;
} else {
JS_ASSERT(pn2->pn_type == TOK_XMLNAME ||
pn2->pn_type == TOK_LC);
PN_INIT_LIST_1(pn, pn2);
if (!XML_FOLDABLE(pn2))
pn->pn_extra |= PNX_CANTFOLD;
}
pn->pn_type = TOK_XMLPTAGC;
pn->pn_extra |= PNX_XMLROOT;
} else {
/* We had better have a tag-close (>) at this point. */
if (tt != TOK_XMLTAGC) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_XML_TAG_SYNTAX);
return NULL;
}
pn2->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
/* Make sure pn2 is a TOK_XMLSTAGO list containing tag contents. */
if (pn2->pn_type != TOK_XMLSTAGO) {
PN_INIT_LIST_1(pn, pn2);
if (!XML_FOLDABLE(pn2))
pn->pn_extra |= PNX_CANTFOLD;
pn2 = pn;
pn = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn)
return NULL;
}
/* Now make pn a nominal-root TOK_XMLELEM list containing pn2. */
pn->pn_type = TOK_XMLELEM;
PN_INIT_LIST_1(pn, pn2);
if (!XML_FOLDABLE(pn2))
pn->pn_extra |= PNX_CANTFOLD;
pn->pn_extra |= PNX_XMLROOT;
/* Get element contents and delimiting end-tag-open sequence. */
if (!XMLElementContent(cx, ts, pn, tc))
return NULL;
js_MatchToken(cx, ts, TOK_XMLSPACE);
tt = js_GetToken(cx, ts);
XML_CHECK_FOR_ERROR_AND_EOF(tt, NULL);
if (tt != TOK_XMLNAME && tt != TOK_LC) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_XML_TAG_SYNTAX);
return NULL;
}
/* Parse end tag; check mismatch at compile-time if we can. */
pn2 = XMLTagContent(cx, ts, tc, TOK_XMLETAGO, &endAtom);
if (!pn2)
return NULL;
if (pn2->pn_type == TOK_XMLETAGO) {
/* Oops, end tag has attributes! */
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_XML_TAG_SYNTAX);
return NULL;
}
if (endAtom && startAtom && endAtom != startAtom) {
/* End vs. start tag name mismatch: point to the tag name. */
++pn2->pn_pos.begin.index;
js_ReportCompileErrorNumber(cx, pn2,
JSREPORT_PN | JSREPORT_ERROR,
JSMSG_XML_TAG_NAME_MISMATCH);
return NULL;
}
/* Make a TOK_XMLETAGO list with pn2 as its single child. */
JS_ASSERT(pn2->pn_type == TOK_XMLNAME || pn2->pn_type == TOK_LC);
list = NewParseNode(cx, ts, PN_LIST, tc);
if (!list)
return NULL;
list->pn_type = TOK_XMLETAGO;
PN_INIT_LIST_1(list, pn2);
PN_APPEND(pn, list);
if (!XML_FOLDABLE(pn2)) {
list->pn_extra |= PNX_CANTFOLD;
pn->pn_extra |= PNX_CANTFOLD;
}
js_MatchToken(cx, ts, TOK_XMLSPACE);
MUST_MATCH_TOKEN(TOK_XMLTAGC, JSMSG_BAD_XML_TAG_SYNTAX);
}
/* Set pn_op now that pn has been updated to its final value. */
pn->pn_op = JSOP_TOXML;
} else if (!hadSpace && allowList && tt == TOK_XMLTAGC) {
/* XMLList Initialiser. */
pn->pn_type = TOK_XMLLIST;
pn->pn_op = JSOP_TOXMLLIST;
PN_INIT_LIST(pn);
pn->pn_extra |= PNX_XMLROOT;
if (!XMLElementContent(cx, ts, pn, tc))
return NULL;
MUST_MATCH_TOKEN(TOK_XMLTAGC, JSMSG_BAD_XML_LIST_SYNTAX);
} else {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_XML_NAME_SYNTAX);
return NULL;
}
pn->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
ts->flags &= ~TSF_XMLTAGMODE;
return pn;
}
JS_FRIEND_API(JSParseNode *)
js_ParseXMLTokenStream(JSContext *cx, JSObject *chain, JSTokenStream *ts,
JSBool allowList)
{
JSStackFrame *fp, frame;
JSParseNode *pn;
JSTreeContext tc;
JSTokenType tt;
/*
* Push a compiler frame if we have no frames, or if the top frame is a
* lightweight function activation, or if its scope chain doesn't match
* the one passed to us.
*/
fp = cx->fp;
if (!fp || !fp->varobj || fp->scopeChain != chain) {
memset(&frame, 0, sizeof frame);
frame.varobj = frame.scopeChain = chain;
if (cx->options & JSOPTION_VAROBJFIX) {
while ((chain = JS_GetParent(cx, chain)) != NULL)
frame.varobj = chain;
}
frame.down = fp;
if (fp)
frame.flags = fp->flags & (JSFRAME_SPECIAL | JSFRAME_COMPILE_N_GO);
cx->fp = &frame;
}
JS_KEEP_ATOMS(cx->runtime);
TREE_CONTEXT_INIT(&tc);
/* Set XML-only mode to turn off special treatment of {expr} in XML. */
ts->flags |= TSF_OPERAND | TSF_XMLONLYMODE;
tt = js_GetToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
if (tt != TOK_XMLSTAGO) {
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_XML_MARKUP);
pn = NULL;
} else {
pn = XMLElementOrList(cx, ts, &tc, allowList);
}
ts->flags &= ~TSF_XMLONLYMODE;
TREE_CONTEXT_FINISH(&tc);
JS_UNKEEP_ATOMS(cx->runtime);
cx->fp = fp;
return pn;
}
#endif /* JS_HAS_XMLSUPPORT */
static JSParseNode *
PrimaryExpr(JSContext *cx, JSTokenStream *ts, JSTreeContext *tc)
{
JSTokenType tt;
JSParseNode *pn, *pn2, *pn3;
#if JS_HAS_GETTER_SETTER
JSAtom *atom;
JSRuntime *rt;
#endif
#if JS_HAS_SHARP_VARS
JSParseNode *defsharp;
JSBool notsharp;
defsharp = NULL;
notsharp = JS_FALSE;
again:
/*
* Control flows here after #n= is scanned. If the following primary is
* not valid after such a "sharp variable" definition, the tt switch case
* should set notsharp.
*/
#endif
CHECK_RECURSION();
ts->flags |= TSF_OPERAND;
tt = js_GetToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
#if JS_HAS_GETTER_SETTER
if (tt == TOK_NAME) {
tt = CheckGetterOrSetter(cx, ts, TOK_FUNCTION);
if (tt == TOK_ERROR)
return NULL;
}
#endif
switch (tt) {
#if JS_HAS_LEXICAL_CLOSURE || JS_HAS_XML_SUPPORT
case TOK_FUNCTION:
#if JS_HAS_XML_SUPPORT
if (js_MatchToken(cx, ts, TOK_DBLCOLON)) {
pn2 = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn2)
return NULL;
pn2->pn_type = TOK_FUNCTION;
pn = QualifiedSuffix(cx, ts, pn2, tc);
if (!pn)
return NULL;
break;
}
#endif
pn = FunctionExpr(cx, ts, tc);
if (!pn)
return NULL;
break;
#endif
#if JS_HAS_INITIALIZERS
case TOK_LB:
{
JSBool matched;
jsuint atomIndex;
pn = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn)
return NULL;
pn->pn_type = TOK_RB;
#if JS_HAS_SHARP_VARS
if (defsharp) {
PN_INIT_LIST_1(pn, defsharp);
defsharp = NULL;
} else
#endif
PN_INIT_LIST(pn);
ts->flags |= TSF_OPERAND;
matched = js_MatchToken(cx, ts, TOK_RB);
ts->flags &= ~TSF_OPERAND;
if (!matched) {
for (atomIndex = 0; ; atomIndex++) {
if (atomIndex == ATOM_INDEX_LIMIT) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_ARRAY_INIT_TOO_BIG);
return NULL;
}
ts->flags |= TSF_OPERAND;
tt = js_PeekToken(cx, ts);
ts->flags &= ~TSF_OPERAND;
if (tt == TOK_RB) {
pn->pn_extra |= PNX_ENDCOMMA;
break;
}
if (tt == TOK_COMMA) {
/* So CURRENT_TOKEN gets TOK_COMMA and not TOK_LB. */
js_MatchToken(cx, ts, TOK_COMMA);
pn2 = NewParseNode(cx, ts, PN_NULLARY, tc);
} else {
pn2 = AssignExpr(cx, ts, tc);
}
if (!pn2)
return NULL;
PN_APPEND(pn, pn2);
if (tt != TOK_COMMA) {
/* If we didn't already match TOK_COMMA in above case. */
if (!js_MatchToken(cx, ts, TOK_COMMA))
break;
}
}
MUST_MATCH_TOKEN(TOK_RB, JSMSG_BRACKET_AFTER_LIST);
}
pn->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
return pn;
}
case TOK_LC:
pn = NewParseNode(cx, ts, PN_LIST, tc);
if (!pn)
return NULL;
pn->pn_type = TOK_RC;
#if JS_HAS_SHARP_VARS
if (defsharp) {
PN_INIT_LIST_1(pn, defsharp);
defsharp = NULL;
} else
#endif
PN_INIT_LIST(pn);
if (!js_MatchToken(cx, ts, TOK_RC)) {
do {
JSOp op;
tt = js_GetToken(cx, ts);
switch (tt) {
case TOK_NUMBER:
pn3 = NewParseNode(cx, ts, PN_NULLARY, tc);
if (pn3)
pn3->pn_dval = CURRENT_TOKEN(ts).t_dval;
break;
case TOK_NAME:
#if JS_HAS_GETTER_SETTER
atom = CURRENT_TOKEN(ts).t_atom;
rt = cx->runtime;
if (atom == rt->atomState.getAtom ||
atom == rt->atomState.setAtom) {
op = (atom == rt->atomState.getAtom)
? JSOP_GETTER
: JSOP_SETTER;
if (js_MatchToken(cx, ts, TOK_NAME)) {
pn3 = NewParseNode(cx, ts, PN_NAME, tc);
if (!pn3)
return NULL;
pn3->pn_atom = CURRENT_TOKEN(ts).t_atom;
pn3->pn_expr = NULL;
/* We have to fake a 'function' token here. */
CURRENT_TOKEN(ts).t_op = JSOP_NOP;
CURRENT_TOKEN(ts).type = TOK_FUNCTION;
pn2 = FunctionExpr(cx, ts, tc);
pn2 = NewBinary(cx, TOK_COLON, op, pn3, pn2, tc);
goto skip;
}
}
/* else fall thru ... */
#endif
case TOK_STRING:
pn3 = NewParseNode(cx, ts, PN_NULLARY, tc);
if (pn3)
pn3->pn_atom = CURRENT_TOKEN(ts).t_atom;
break;
case TOK_RC:
if (!js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS |
JSREPORT_WARNING |
JSREPORT_STRICT,
JSMSG_TRAILING_COMMA)) {
return NULL;
}
goto end_obj_init;
default:
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_PROP_ID);
return NULL;
}
tt = js_GetToken(cx, ts);
#if JS_HAS_GETTER_SETTER
if (tt == TOK_NAME) {
tt = CheckGetterOrSetter(cx, ts, TOK_COLON);
if (tt == TOK_ERROR)
return NULL;
}
#endif
if (tt != TOK_COLON) {
js_ReportCompileErrorNumber(cx, ts,
JSREPORT_TS | JSREPORT_ERROR,
JSMSG_COLON_AFTER_ID);
return NULL;
}
op = CURRENT_TOKEN(ts).t_op;
pn2 = NewBinary(cx, TOK_COLON, op, pn3, AssignExpr(cx, ts, tc),
tc);
#if JS_HAS_GETTER_SETTER
skip:
#endif
if (!pn2)
return NULL;
PN_APPEND(pn, pn2);
} while (js_MatchToken(cx, ts, TOK_COMMA));
MUST_MATCH_TOKEN(TOK_RC, JSMSG_CURLY_AFTER_LIST);
}
end_obj_init:
pn->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
return pn;
#if JS_HAS_SHARP_VARS
case TOK_DEFSHARP:
if (defsharp)
goto badsharp;
defsharp = NewParseNode(cx, ts, PN_UNARY, tc);
if (!defsharp)
return NULL;
defsharp->pn_kid = NULL;
defsharp->pn_num = (jsint) CURRENT_TOKEN(ts).t_dval;
goto again;
case TOK_USESHARP:
/* Check for forward/dangling references at runtime, to allow eval. */
pn = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn)
return NULL;
pn->pn_num = (jsint) CURRENT_TOKEN(ts).t_dval;
notsharp = JS_TRUE;
break;
#endif /* JS_HAS_SHARP_VARS */
#endif /* JS_HAS_INITIALIZERS */
case TOK_LP:
pn = NewParseNode(cx, ts, PN_UNARY, tc);
if (!pn)
return NULL;
pn2 = BracketedExpr(cx, ts, tc);
if (!pn2)
return NULL;
MUST_MATCH_TOKEN(TOK_RP, JSMSG_PAREN_IN_PAREN);
pn->pn_type = TOK_RP;
pn->pn_pos.end = CURRENT_TOKEN(ts).pos.end;
pn->pn_kid = pn2;
break;
#if JS_HAS_XML_SUPPORT
case TOK_STAR:
pn = QualifiedIdentifier(cx, ts, tc);
if (!pn)
return NULL;
notsharp = JS_TRUE;
break;
case TOK_AT:
pn = AttributeIdentifier(cx, ts, tc);
if (!pn)
return NULL;
notsharp = JS_TRUE;
break;
case TOK_XMLSTAGO:
pn = XMLElementOrList(cx, ts, tc, JS_TRUE);
if (!pn)
return NULL;
notsharp = JS_TRUE; /* XXXbe could be sharp? */
break;
#endif /* JS_HAS_XML_SUPPORT */
case TOK_STRING:
#if JS_HAS_SHARP_VARS
notsharp = JS_TRUE;
/* FALL THROUGH */
#endif
#if JS_HAS_XML_SUPPORT
case TOK_XMLCDATA:
case TOK_XMLCOMMENT:
case TOK_XMLPI:
#endif
case TOK_NAME:
case TOK_OBJECT:
pn = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn)
return NULL;
pn->pn_atom = CURRENT_TOKEN(ts).t_atom;
#if JS_HAS_XML_SUPPORT
if (tt == TOK_XMLPI)
pn->pn_atom2 = CURRENT_TOKEN(ts).t_atom2;
else
#endif
pn->pn_op = CURRENT_TOKEN(ts).t_op;
if (tt == TOK_NAME) {
pn->pn_arity = PN_NAME;
pn->pn_expr = NULL;
pn->pn_slot = -1;
pn->pn_attrs = 0;
#if JS_HAS_XML_SUPPORT
if (js_MatchToken(cx, ts, TOK_DBLCOLON)) {
pn = QualifiedSuffix(cx, ts, pn, tc);
if (!pn)
return NULL;
break;
}
#endif
/* Unqualified __parent__ and __proto__ uses require activations. */
if (pn->pn_atom == cx->runtime->atomState.parentAtom ||
pn->pn_atom == cx->runtime->atomState.protoAtom) {
tc->flags |= TCF_FUN_HEAVYWEIGHT;
} else {
JSAtomListElement *ale;
JSStackFrame *fp;
JSStmtInfo *stmt;
/* Measure optimizable global variable uses. */
ATOM_LIST_SEARCH(ale, &tc->decls, pn->pn_atom);
if (ale &&
!(fp = cx->fp)->fun &&
fp->scopeChain == fp->varobj &&
!js_InWithStatement(tc) &&
!js_InCatchBlock(tc, pn->pn_atom)) {
tc->globalUses++;
for (stmt = tc->topStmt; stmt; stmt = stmt->down) {
if (STMT_IS_LOOP(stmt)) {
tc->loopyGlobalUses++;
break;
}
}
}
}
}
break;
case TOK_NUMBER:
pn = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn)
return NULL;
pn->pn_dval = CURRENT_TOKEN(ts).t_dval;
#if JS_HAS_SHARP_VARS
notsharp = JS_TRUE;
#endif
break;
case TOK_PRIMARY:
pn = NewParseNode(cx, ts, PN_NULLARY, tc);
if (!pn)
return NULL;
pn->pn_op = CURRENT_TOKEN(ts).t_op;
#if JS_HAS_SHARP_VARS
notsharp = JS_TRUE;
#endif
break;
#if !JS_HAS_EXPORT_IMPORT
case TOK_EXPORT:
case TOK_IMPORT:
#endif
case TOK_ERROR:
/* The scanner or one of its subroutines reported the error. */
return NULL;
default:
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_SYNTAX_ERROR);
return NULL;
}
#if JS_HAS_SHARP_VARS
if (defsharp) {
if (notsharp) {
badsharp:
js_ReportCompileErrorNumber(cx, ts, JSREPORT_TS | JSREPORT_ERROR,
JSMSG_BAD_SHARP_VAR_DEF);
return NULL;
}
defsharp->pn_kid = pn;
return defsharp;
}
#endif
return pn;
}
static JSBool
ContainsVarStmt(JSParseNode *pn)
{
JSParseNode *pn2;
if (!pn)
return JS_FALSE;
switch (pn->pn_arity) {
case PN_LIST:
if (pn->pn_type == TOK_VAR)
return JS_TRUE;
for (pn2 = pn->pn_head; pn2; pn2 = pn2->pn_next) {
if (ContainsVarStmt(pn2))
return JS_TRUE;
}
break;
case PN_TERNARY:
return ContainsVarStmt(pn->pn_kid1) ||
ContainsVarStmt(pn->pn_kid2) ||
ContainsVarStmt(pn->pn_kid3);
case PN_BINARY:
/*
* Limit recursion if pn is a binary expression, which can't contain a
* var statement.
*/
if (pn->pn_op != JSOP_NOP)
return JS_FALSE;
return ContainsVarStmt(pn->pn_left) || ContainsVarStmt(pn->pn_right);
case PN_UNARY:
if (pn->pn_op != JSOP_NOP)
return JS_FALSE;
return ContainsVarStmt(pn->pn_kid);
default:;
}
return JS_FALSE;
}
/*
* Fold from one constant type to another.
* XXX handles only strings and numbers for now
*/
static JSBool
FoldType(JSContext *cx, JSParseNode *pn, JSTokenType type)
{
if (pn->pn_type != type) {
switch (type) {
case TOK_NUMBER:
if (pn->pn_type == TOK_STRING) {
jsdouble d;
if (!js_ValueToNumber(cx, ATOM_KEY(pn->pn_atom), &d))
return JS_FALSE;
pn->pn_dval = d;
pn->pn_type = TOK_NUMBER;
pn->pn_op = JSOP_NUMBER;
}
break;
case TOK_STRING:
if (pn->pn_type == TOK_NUMBER) {
JSString *str = js_NumberToString(cx, pn->pn_dval);
if (!str)
return JS_FALSE;
pn->pn_atom = js_AtomizeString(cx, str, 0);
if (!pn->pn_atom)
return JS_FALSE;
pn->pn_type = TOK_STRING;
pn->pn_op = JSOP_STRING;
}
break;
default:;
}
}
return JS_TRUE;
}
/*
* Fold two numeric constants. Beware that pn1 and pn2 are recycled, unless
* one of them aliases pn, so you can't safely fetch pn2->pn_next, e.g., after
* a successful call to this function.
*/
static JSBool
FoldBinaryNumeric(JSContext *cx, JSOp op, JSParseNode *pn1, JSParseNode *pn2,
JSParseNode *pn, JSTreeContext *tc)
{
jsdouble d, d2;
int32 i, j;
uint32 u;
JS_ASSERT(pn1->pn_type == TOK_NUMBER && pn2->pn_type == TOK_NUMBER);
d = pn1->pn_dval;
d2 = pn2->pn_dval;
switch (op) {
case JSOP_LSH:
case JSOP_RSH:
if (!js_DoubleToECMAInt32(cx, d, &i))
return JS_FALSE;
if (!js_DoubleToECMAInt32(cx, d2, &j))
return JS_FALSE;
j &= 31;
d = (op == JSOP_LSH) ? i << j : i >> j;
break;
case JSOP_URSH:
if (!js_DoubleToECMAUint32(cx, d, &u))
return JS_FALSE;
if (!js_DoubleToECMAInt32(cx, d2, &j))
return JS_FALSE;
j &= 31;
d = u >> j;
break;
case JSOP_ADD:
d += d2;
break;
case JSOP_SUB:
d -= d2;
break;
case JSOP_MUL:
d *= d2;
break;
case JSOP_DIV:
if (d2 == 0) {
#if defined(XP_WIN)
/* XXX MSVC miscompiles such that (NaN == 0) */
if (JSDOUBLE_IS_NaN(d2))
d = *cx->runtime->jsNaN;
else
#endif
if (d == 0 || JSDOUBLE_IS_NaN(d))
d = *cx->runtime->jsNaN;
else if ((JSDOUBLE_HI32(d) ^ JSDOUBLE_HI32(d2)) >> 31)
d = *cx->runtime->jsNegativeInfinity;
else
d = *cx->runtime->jsPositiveInfinity;
} else {
d /= d2;
}
break;
case JSOP_MOD:
if (d2 == 0) {
d = *cx->runtime->jsNaN;
} else {
#if defined(XP_WIN)
/* Workaround MS fmod bug where 42 % (1/0) => NaN, not 42. */
if (!(JSDOUBLE_IS_FINITE(d) && JSDOUBLE_IS_INFINITE(d2)))
#endif
d = fmod(d, d2);
}
break;
default:;
}
/* Take care to allow pn1 or pn2 to alias pn. */
if (pn1 != pn)
RecycleTree(pn1, tc);
if (pn2 != pn)
RecycleTree(pn2, tc);
pn->pn_type = TOK_NUMBER;
pn->pn_op = JSOP_NUMBER;
pn->pn_arity = PN_NULLARY;
pn->pn_dval = d;
return JS_TRUE;
}
#if JS_HAS_XML_SUPPORT
static JSBool
FoldXMLConstants(JSContext *cx, JSParseNode *pn, JSTreeContext *tc)
{
JSTokenType tt;
JSParseNode **pnp, *pn1, *pn2;
JSString *accum, *str;
uint32 i, j;
JS_ASSERT(pn->pn_arity == PN_LIST);
tt = pn->pn_type;
pnp = &pn->pn_head;
pn1 = *pnp;
accum = NULL;
if ((pn->pn_extra & PNX_CANTFOLD) == 0) {
if (tt == TOK_XMLETAGO)
accum = ATOM_TO_STRING(cx->runtime->atomState.etagoAtom);
else if (tt == TOK_XMLSTAGO || tt == TOK_XMLPTAGC)
accum = ATOM_TO_STRING(cx->runtime->atomState.stagoAtom);
}
for (pn2 = pn1, i = j = 0; pn2; pn2 = pn2->pn_next, i++) {
/* The parser already rejected end-tags with attributes. */
JS_ASSERT(tt != TOK_XMLETAGO || i == 0);
switch (pn2->pn_type) {
case TOK_XMLNAME:
case TOK_XMLATTR:
case TOK_XMLSPACE:
case TOK_XMLTEXT:
case TOK_STRING:
str = ATOM_TO_STRING(pn2->pn_atom);
break;
case TOK_XMLCDATA:
str = js_MakeXMLCDATAString(cx, ATOM_TO_STRING(pn2->pn_atom));
if (!str)
return JS_FALSE;
break;
case TOK_XMLCOMMENT:
str = js_MakeXMLCommentString(cx, ATOM_TO_STRING(pn2->pn_atom));
if (!str)
return JS_FALSE;
break;
case TOK_XMLPI:
str = js_MakeXMLPIString(cx, ATOM_TO_STRING(pn2->pn_atom),
ATOM_TO_STRING(pn2->pn_atom2));
if (!str)
return JS_FALSE;
break;
default:
JS_ASSERT(*pnp == pn1);
if ((tt == TOK_XMLSTAGO || tt == TOK_XMLPTAGC) &&
(i & 1) ^ (j & 1)) {
#ifdef DEBUG_brendanXXX
printf("1: %d, %d => %s\n",
i, j, accum ? JS_GetStringBytes(accum) : "NULL");
#endif
} else if (accum && pn1 != pn2) {
while (pn1->pn_next != pn2) {
pn1 = RecycleTree(pn1, tc);
--pn->pn_count;
}
pn1->pn_type = TOK_XMLTEXT;
pn1->pn_op = JSOP_STRING;
pn1->pn_arity = PN_NULLARY;
pn1->pn_atom = js_AtomizeString(cx, accum, 0);
if (!pn1->pn_atom)
return JS_FALSE;
JS_ASSERT(pnp != &pn1->pn_next);
*pnp = pn1;
}
pnp = &pn2->pn_next;
pn1 = *pnp;
accum = NULL;
continue;
}
if (accum) {
str = ((tt == TOK_XMLSTAGO || tt == TOK_XMLPTAGC) && i != 0)
? js_AddAttributePart(cx, i & 1, accum, str)
: js_ConcatStrings(cx, accum, str);
if (!str)
return JS_FALSE;
#ifdef DEBUG_brendanXXX
printf("2: %d, %d => %s (%u)\n",
i, j, JS_GetStringBytes(str), JSSTRING_LENGTH(str));
#endif
++j;
}
accum = str;
}
if (accum) {
str = NULL;
if ((pn->pn_extra & PNX_CANTFOLD) == 0) {
if (tt == TOK_XMLPTAGC)
str = ATOM_TO_STRING(cx->runtime->atomState.ptagcAtom);
else if (tt == TOK_XMLSTAGO || tt == TOK_XMLETAGO)
str = ATOM_TO_STRING(cx->runtime->atomState.tagcAtom);
}
if (str) {
accum = js_ConcatStrings(cx, accum, str);
if (!accum)
return JS_FALSE;
}
JS_ASSERT(*pnp == pn1);
while (pn1->pn_next) {
pn1 = RecycleTree(pn1, tc);
--pn->pn_count;
}
pn1->pn_type = TOK_XMLTEXT;
pn1->pn_op = JSOP_STRING;
pn1->pn_arity = PN_NULLARY;
pn1->pn_atom = js_AtomizeString(cx, accum, 0);
if (!pn1->pn_atom)
return JS_FALSE;
JS_ASSERT(pnp != &pn1->pn_next);
*pnp = pn1;
}
if (pn1 && pn->pn_count == 1) {
/*
* Only one node under pn, and it has been folded: move pn1 onto pn
* unless pn is an XML root (in which case we need it to tell the code
* generator to emit a JSOP_TOXML or JSOP_TOXMLLIST op). If pn is an
* XML root *and* it's a point-tag, rewrite it to TOK_XMLELEM to avoid
* extra "<" and "/>" bracketing at runtime.
*/
if (!(pn->pn_extra & PNX_XMLROOT)) {
PN_MOVE_NODE(pn, pn1);
} else if (tt == TOK_XMLPTAGC) {
pn->pn_type = TOK_XMLELEM;
pn->pn_op = JSOP_TOXML;
}
}
return JS_TRUE;
}
#endif /* JS_HAS_XML_SUPPORT */
JSBool
js_FoldConstants(JSContext *cx, JSParseNode *pn, JSTreeContext *tc)
{
JSParseNode *pn1 = NULL, *pn2 = NULL, *pn3 = NULL;
int stackDummy;
if (!JS_CHECK_STACK_SIZE(cx, stackDummy)) {
JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_OVER_RECURSED);
return JS_FALSE;
}
switch (pn->pn_arity) {
case PN_FUNC:
{
uint16 oldflags = tc->flags;
tc->flags = (uint16) pn->pn_flags;
if (!js_FoldConstants(cx, pn->pn_body, tc))
return JS_FALSE;
tc->flags = oldflags;
break;
}
case PN_LIST:
#if 0 /* JS_HAS_XML_SUPPORT */
switch (pn->pn_type) {
case TOK_XMLELEM:
case TOK_XMLLIST:
case TOK_XMLPTAGC:
/*
* Try to fold this XML parse tree once, from the top down, into
* a JSXML tree with just one object wrapping the tree root.
*
* Certain subtrees could be folded similarly, but we'd have to
* ensure that none used namespace prefixes declared elsewhere in
* its super-tree, and we would have to convert each XML object
* created at runtime for such sub-trees back into a string, and
* concatenate and re-parse anyway.
*/
if ((pn->pn_extra & (PNX_XMLROOT | PNX_CANTFOLD)) == PNX_XMLROOT &&
!(tc->flags & TCF_HAS_DEFXMLNS)) {
JSObject *obj;
JSAtom *atom;
obj = js_ParseNodeToXMLObject(cx, pn);
if (!obj)
return JS_FALSE;
atom = js_AtomizeObject(cx, obj, 0);
if (!atom)
return JS_FALSE;
pn->pn_op = JSOP_XMLOBJECT;
pn->pn_arity = PN_NULLARY;
pn->pn_atom = atom;
return JS_TRUE;
}
/*
* Can't fold from parse node to XML tree -- try folding strings
* as much as possible, and folding XML sub-trees bottom up to
* minimize string concatenation and ToXML/ToXMLList operations
* at runtime.
*/
break;
default:;
}
#endif
/* Save the list head in pn1 for later use. */
for (pn1 = pn2 = pn->pn_head; pn2; pn2 = pn2->pn_next) {
if (!js_FoldConstants(cx, pn2, tc))
return JS_FALSE;
}
break;
case PN_TERNARY:
/* Any kid may be null (e.g. for (;;)). */
pn1 = pn->pn_kid1;
pn2 = pn->pn_kid2;
pn3 = pn->pn_kid3;
if (pn1 && !js_FoldConstants(cx, pn1, tc))
return JS_FALSE;
if (pn2 && !js_FoldConstants(cx, pn2, tc))
return JS_FALSE;
if (pn3 && !js_FoldConstants(cx, pn3, tc))
return JS_FALSE;
break;
case PN_BINARY:
/* First kid may be null (for default case in switch). */
pn1 = pn->pn_left;
pn2 = pn->pn_right;
if (pn1 && !js_FoldConstants(cx, pn1, tc))
return JS_FALSE;
if (!js_FoldConstants(cx, pn2, tc))
return JS_FALSE;
break;
case PN_UNARY:
/* Our kid may be null (e.g. return; vs. return e;). */
pn1 = pn->pn_kid;
if (pn1 && !js_FoldConstants(cx, pn1, tc))
return JS_FALSE;
break;
case PN_NAME:
/*
* Skip pn1 down along a chain of dotted member expressions to avoid
* excessive recursion. Our only goal here is to fold constants (if
* any) in the primary expression operand to the left of the first
* dot in the chain.
*/
pn1 = pn->pn_expr;
while (pn1 && pn1->pn_arity == PN_NAME)
pn1 = pn1->pn_expr;
if (pn1 && !js_FoldConstants(cx, pn1, tc))
return JS_FALSE;
break;
case PN_NULLARY:
break;
}
switch (pn->pn_type) {
case TOK_IF:
if (ContainsVarStmt(pn2) || ContainsVarStmt(pn3))
break;
/* FALL THROUGH */
case TOK_HOOK:
/* Reduce 'if (C) T; else E' into T for true C, E for false. */
switch (pn1->pn_type) {
case TOK_NUMBER:
if (pn1->pn_dval == 0)
pn2 = pn3;
break;
case TOK_STRING:
if (JSSTRING_LENGTH(ATOM_TO_STRING(pn1->pn_atom)) == 0)
pn2 = pn3;
break;
case TOK_PRIMARY:
if (pn1->pn_op == JSOP_TRUE)
break;
if (pn1->pn_op == JSOP_FALSE || pn1->pn_op == JSOP_NULL) {
pn2 = pn3;
break;
}
/* FALL THROUGH */
default:
/* Early return to dodge common code that copies pn2 to pn. */
return JS_TRUE;
}
if (pn2) {
/* pn2 is the then- or else-statement subtree to compile. */
PN_MOVE_NODE(pn, pn2);
} else {
/* False condition and no else: make pn an empty statement. */
pn->pn_type = TOK_SEMI;
pn->pn_arity = PN_UNARY;
pn->pn_kid = NULL;
}
RecycleTree(pn2, tc);
if (pn3 && pn3 != pn2)
RecycleTree(pn3, tc);
break;
case TOK_PLUS:
if (pn->pn_arity == PN_LIST) {
size_t length, length2;
jschar *chars;
JSString *str, *str2;
/*
* Any string literal term with all others number or string means
* this is a concatenation. If any term is not a string or number
* literal, we can't fold.
*/
JS_ASSERT(pn->pn_count > 2);
if (pn->pn_extra & PNX_CANTFOLD)
return JS_TRUE;
if (pn->pn_extra != PNX_STRCAT)
goto do_binary_op;
/* Ok, we're concatenating: convert non-string constant operands. */
length = 0;
for (pn2 = pn1; pn2; pn2 = pn2->pn_next) {
if (!FoldType(cx, pn2, TOK_STRING))
return JS_FALSE;
/* XXX fold only if all operands convert to string */
if (pn2->pn_type != TOK_STRING)
return JS_TRUE;
length += ATOM_TO_STRING(pn2->pn_atom)->length;
}
/* Allocate a new buffer and string descriptor for the result. */
chars = (jschar *) JS_malloc(cx, (length + 1) * sizeof(jschar));
if (!chars)
return JS_FALSE;
str = js_NewString(cx, chars, length, 0);
if (!str) {
JS_free(cx, chars);
return JS_FALSE;
}
/* Fill the buffer, advancing chars and recycling kids as we go. */
for (pn2 = pn1; pn2; pn2 = RecycleTree(pn2, tc)) {
str2 = ATOM_TO_STRING(pn2->pn_atom);
length2 = str2->length;
js_strncpy(chars, str2->chars, length2);
chars += length2;
}
*chars = 0;
/* Atomize the result string and mutate pn to refer to it. */
pn->pn_atom = js_AtomizeString(cx, str, 0);
if (!pn->pn_atom)
return JS_FALSE;
pn->pn_type = TOK_STRING;
pn->pn_op = JSOP_STRING;
pn->pn_arity = PN_NULLARY;
break;
}
/* Handle a binary string concatenation. */
JS_ASSERT(pn->pn_arity == PN_BINARY);
if (pn1->pn_type == TOK_STRING || pn2->pn_type == TOK_STRING) {
JSString *left, *right, *str;
if (!FoldType(cx, (pn1->pn_type != TOK_STRING) ? pn1 : pn2,
TOK_STRING)) {
return JS_FALSE;
}
if (pn1->pn_type != TOK_STRING || pn2->pn_type != TOK_STRING)
return JS_TRUE;
left = ATOM_TO_STRING(pn1->pn_atom);
right = ATOM_TO_STRING(pn2->pn_atom);
str = js_ConcatStrings(cx, left, right);
if (!str)
return JS_FALSE;
pn->pn_atom = js_AtomizeString(cx, str, 0);
if (!pn->pn_atom)
return JS_FALSE;
pn->pn_type = TOK_STRING;
pn->pn_op = JSOP_STRING;
pn->pn_arity = PN_NULLARY;
RecycleTree(pn1, tc);
RecycleTree(pn2, tc);
break;
}
/* Can't concatenate string literals, let's try numbers. */
goto do_binary_op;
case TOK_STAR:
/* The * in 'import *;' parses as a nullary star node. */
if (pn->pn_arity == PN_NULLARY)
break;
/* FALL THROUGH */
case TOK_SHOP:
case TOK_MINUS:
case TOK_DIVOP:
do_binary_op:
if (pn->pn_arity == PN_LIST) {
JS_ASSERT(pn->pn_count > 2);
for (pn2 = pn1; pn2; pn2 = pn2->pn_next) {
if (!FoldType(cx, pn2, TOK_NUMBER))
return JS_FALSE;
/* XXX fold only if all operands convert to number */
if (pn2->pn_type != TOK_NUMBER)
break;
}
if (!pn2) {
JSOp op = pn->pn_op;
pn2 = pn1->pn_next;
pn3 = pn2->pn_next;
if (!FoldBinaryNumeric(cx, op, pn1, pn2, pn, tc))
return JS_FALSE;
while ((pn2 = pn3) != NULL) {
pn3 = pn2->pn_next;
if (!FoldBinaryNumeric(cx, op, pn, pn2, pn, tc))
return JS_FALSE;
}
}
} else {
JS_ASSERT(pn->pn_arity == PN_BINARY);
if (!FoldType(cx, pn1, TOK_NUMBER) ||
!FoldType(cx, pn2, TOK_NUMBER)) {
return JS_FALSE;
}
if (pn1->pn_type == TOK_NUMBER && pn2->pn_type == TOK_NUMBER) {
if (!FoldBinaryNumeric(cx, pn->pn_op, pn1, pn2, pn, tc))
return JS_FALSE;
}
}
break;
case TOK_UNARYOP:
if (pn1->pn_type == TOK_NUMBER) {
jsdouble d;
int32 i;
/* Operate on one numeric constant. */
d = pn1->pn_dval;
switch (pn->pn_op) {
case JSOP_BITNOT:
if (!js_DoubleToECMAInt32(cx, d, &i))
return JS_FALSE;
d = ~i;
break;
case JSOP_NEG:
#ifdef HPUX
/*
* Negation of a zero doesn't produce a negative
* zero on HPUX. Perform the operation by bit
* twiddling.
*/
JSDOUBLE_HI32(d) ^= JSDOUBLE_HI32_SIGNBIT;
#else
d = -d;
#endif
break;
case JSOP_POS:
break;
case JSOP_NOT:
pn->pn_type = TOK_PRIMARY;
pn->pn_op = (d == 0) ? JSOP_TRUE : JSOP_FALSE;
pn->pn_arity = PN_NULLARY;
/* FALL THROUGH */
default:
/* Return early to dodge the common TOK_NUMBER code. */
return JS_TRUE;
}
pn->pn_type = TOK_NUMBER;
pn->pn_op = JSOP_NUMBER;
pn->pn_arity = PN_NULLARY;
pn->pn_dval = d;
RecycleTree(pn1, tc);
}
break;
#if JS_HAS_XML_SUPPORT
case TOK_XMLELEM:
case TOK_XMLLIST:
case TOK_XMLPTAGC:
case TOK_XMLSTAGO:
case TOK_XMLETAGO:
case TOK_XMLNAME:
if (pn->pn_arity == PN_LIST) {
JS_ASSERT(pn->pn_type == TOK_XMLLIST || pn->pn_count != 0);
if (!FoldXMLConstants(cx, pn, tc))
return JS_FALSE;
}
break;
case TOK_AT:
if (pn1->pn_type == TOK_XMLNAME) {
jsval v;
JSAtom *atom;
v = ATOM_KEY(pn1->pn_atom);
if (!js_ToAttributeName(cx, &v))
return JS_FALSE;
JS_ASSERT(!JSVAL_IS_PRIMITIVE(v));
atom = js_AtomizeObject(cx, JSVAL_TO_OBJECT(v), 0);
if (!atom)
return JS_FALSE;
pn->pn_type = TOK_XMLNAME;
pn->pn_op = JSOP_OBJECT;
pn->pn_arity = PN_NULLARY;
pn->pn_atom = atom;
RecycleTree(pn1, tc);
}
break;
#endif /* JS_HAS_XML_SUPPORT */
default:;
}
return JS_TRUE;
}
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