Parse_stat MCReturn::parse(MCScriptPoint &sp)
{
initpoint(sp);
if (sp.parseexp(False, True, &source) != PS_NORMAL)
{
MCperror->add
(PE_RETURN_BADEXP, sp);
return PS_ERROR;
}
if (sp.skip_token(SP_REPEAT, TT_UNDEFINED, RF_WITH) == PS_NORMAL)
{
if (sp.skip_token(SP_FACTOR, TT_CHUNK, CT_URL))
{
// MW-2011-06-22: [[ SERVER ]] Update to use SP findvar method to take into account
// execution outwith a handler.
Symbol_type type;
if (sp.next(type) != PS_NORMAL || sp.findvar(sp.gettoken_nameref(), &var) != PS_NORMAL)
sp.backup();
else
var->parsearray(sp);
}
if (var == NULL)
{
sp.skip_token(SP_FACTOR, TT_FUNCTION, F_CACHED_URLS);
if (sp.parseexp(False, True, &url) != PS_NORMAL)
{
MCperror->add
(PE_RETURN_BADEXP, sp);
return PS_ERROR;
}
}
}
return PS_NORMAL;
}
Parse_stat MCAdd::parse(MCScriptPoint &sp)
{
initpoint(sp);
if (sp.parseexp(False, True, &source) != PS_NORMAL)
{
MCperror->add(PE_ADD_BADEXP, sp);
return PS_ERROR;
}
if (sp.skip_token(SP_FACTOR, TT_TO) == PS_ERROR)
{
MCperror->add(PE_ADD_NOTO, sp);
return PS_ERROR;
}
Symbol_type type;
// MW-2011-06-22: [[ SERVER ]] Update to use SP findvar method to take into account
// execution outwith a handler.
if (sp.next(type) != PS_NORMAL || type != ST_ID || sp.findvar(sp.gettoken_nameref(), &destvar) != PS_NORMAL)
{
sp.backup();
dest = new (nothrow) MCChunk(True);
if (dest->parse(sp, False) != PS_NORMAL)
{
MCperror->add(PE_ADD_BADDEST, sp);
return PS_ERROR;
}
}
else
destvar->parsearray(sp);
// MW-2013-08-01: [[ Bug 10925 ]] If the dest chunk is just a var, extract the varref.
if (dest != NULL && dest -> isvarchunk())
destvar = dest -> getrootvarref();
return PS_NORMAL;
}
Parse_stat MCPass::parse(MCScriptPoint &sp)
{
Symbol_type type;
initpoint(sp);
if (sp.next(type) != PS_NORMAL ||
!sp.gethandler()->hasname(sp.gettoken_nameref()))
{
MCperror->add(PE_PASS_NOMESSAGE, sp);
return PS_ERROR;
}
if (sp.skip_token(SP_FACTOR, TT_TO) == PS_NORMAL)
{
if (sp.next(type) != PS_NORMAL)
{
MCperror->add(PE_PASS_NOMESSAGE, sp);
return PS_ERROR;
}
all = True;
}
if (sp.gethandler() -> isprivate())
{
MCperror -> add(PE_PRIVATE_BADPASS, sp);
return PS_ERROR;
}
return PS_NORMAL;
}
Parse_stat MCGlobal::parse(MCScriptPoint &sp)
{
initpoint(sp);
while (True)
{
Symbol_type type;
Parse_stat stat = sp.next(type);
if (stat == PS_EOL)
return PS_NORMAL;
const LT *te;
MCExpression *newfact = NULL;
if (stat != PS_NORMAL || type != ST_ID
|| sp.lookup(SP_FACTOR, te) != PS_NO_MATCH
|| sp.lookupconstant(&newfact) == PS_NORMAL)
{
delete newfact;
MCperror->add
(PE_GLOBAL_BADNAME, sp);
return PS_ERROR;
}
if (sp.gethandler() == NULL)
sp.gethlist()->newglobal(sp.gettoken_nameref());
else
sp.gethandler()->newglobal(sp.gettoken_nameref());
switch (sp.next(type))
{
case PS_NORMAL:
if (type != ST_SEP)
{
MCperror->add
(PE_STATEMENT_NOTSEP, sp);
return PS_ERROR;
}
break;
case PS_EOL:
case PS_EOF:
return PS_NORMAL;
default:
MCperror->add
(PE_STATEMENT_NOTSEP, sp);
return PS_ERROR;
}
}
return PS_NORMAL;
}
Parse_stat MCExit::parse(MCScriptPoint &sp)
{
Symbol_type type;
const LT *te;
initpoint(sp);
if (sp.next(type) != PS_NORMAL
|| sp.lookup(SP_EXIT, te) != PS_NORMAL)
{
if (!sp.gethandler()->hasname(sp.gettoken_nameref()))
{
MCperror->add(PE_EXIT_BADDEST, sp);
return PS_ERROR;
}
exit = ES_EXIT_HANDLER;
}
else
switch (te->which)
{
case ET_ALL:
exit = ES_EXIT_ALL;
break;
case ET_REPEAT:
exit = ES_EXIT_REPEAT;
break;
case ET_SWITCH:
exit = ES_EXIT_SWITCH;
break;
case ET_TO:
if (sp.next(type) != PS_NORMAL)
{
MCperror->add
(PE_EXIT_NODEST, sp);
return PS_ERROR;
}
if (sp.lookup(SP_EXIT, te) != PS_NORMAL || te->which != ET_ALL)
{
MCperror->add
(PE_EXIT_BADDEST, sp);
return PS_ERROR;
}
exit = ES_EXIT_ALL;
break;
}
return PS_NORMAL;
}
Parse_stat MCSetOp::parse(MCScriptPoint &sp)
{
initpoint(sp);
// MW-2011-06-22: [[ SERVER ]] Update to use SP findvar method to take into account
// execution outwith a handler.
Symbol_type type;
if (sp.next(type) != PS_NORMAL || type != ST_ID
|| sp.findvar(sp.gettoken_nameref(), &destvar) != PS_NORMAL
|| destvar -> parsearray(sp) != PS_NORMAL)
{
MCperror->add(PE_ARRAYOP_BADARRAY, sp);
return PS_ERROR;
}
if (sp.skip_token(SP_REPEAT, TT_UNDEFINED, RF_WITH) == PS_ERROR
&& sp.skip_token(SP_FACTOR, TT_PREP, PT_BY) == PS_ERROR)
{
MCperror->add(PE_ARRAYOP_NOWITH, sp);
return PS_ERROR;
}
if (sp.parseexp(True, False, &source) != PS_NORMAL)
{
MCperror->add(PE_ARRAYOP_BADEXP, sp);
return PS_ERROR;
}
// MERG-2013-08-26: [[ RecursiveArrayOp ]] Support nested arrays in union and intersect
recursive = sp.skip_token(SP_SUGAR, TT_UNDEFINED, SG_RECURSIVELY) == PS_NORMAL;
MCVarref *t_src_ref, *t_dst_ref;
t_src_ref = source -> getrootvarref();
t_dst_ref = destvar -> getrootvarref();
overlap = t_src_ref != NULL && t_dst_ref != NULL && t_src_ref -> rootmatches(t_dst_ref);
return PS_NORMAL;
}
Parse_stat MCArrayOp::parse(MCScriptPoint &sp)
{
initpoint(sp);
Symbol_type type;
// MW-2008-08-20: [[ Bug 6954 ]] Split/Combine don't work on array keys
// MW-2011-06-22: [[ SERVER ]] Update to use SP findvar method to take into account
// execution outwith a handler.
if (sp.next(type) != PS_NORMAL || type != ST_ID
|| sp.findvar(sp.gettoken_nameref(), &destvar) != PS_NORMAL
|| destvar -> parsearray(sp) != PS_NORMAL)
{
MCperror->add(PE_ARRAYOP_BADARRAY, sp);
return PS_ERROR;
}
if (sp.skip_token(SP_REPEAT, TT_UNDEFINED, RF_WITH) != PS_NORMAL
&& sp.skip_token(SP_FACTOR, TT_PREP, PT_BY) != PS_NORMAL
&& sp.skip_token(SP_START, TT_UNDEFINED, SC_USING) != PS_NORMAL)
{
MCperror->add(PE_ARRAYOP_NOWITH, sp);
return PS_ERROR;
}
if (sp . next(type) == PS_NORMAL && type == ST_ID &&
(sp . gettoken() == "column" || sp . gettoken() == "row"))
{
if (sp . gettoken() == "column")
mode = TYPE_COLUMN;
else
mode = TYPE_ROW;
}
else
{
sp.backup();
if (sp.parseexp(True, False, &element) != PS_NORMAL)
{
MCperror->add(PE_ARRAYOP_BADEXP, sp);
return PS_ERROR;
}
if (sp.skip_token(SP_FACTOR, TT_BINOP, O_AND) == PS_NORMAL)
if (sp.parseexp(True, False, &key) != PS_NORMAL)
{
MCperror->add(PE_ARRAYOP_BADEXP, sp);
return PS_ERROR;
}
}
if (sp . skip_token(SP_FACTOR, TT_PREP, PT_AS) == PS_NORMAL)
{
if (sp . skip_token(SP_COMMAND, TT_STATEMENT, S_SET) != PS_NORMAL ||
key != nil)
{
MCperror -> add(PE_ARRAYOP_BADFORM, sp);
return PS_ERROR;
}
form = FORM_SET;
}
return PS_NORMAL;
}
Parse_stat MCSetOp::parse(MCScriptPoint &sp)
{
initpoint(sp);
if (op == kOpSymmetricDifference)
{
if (sp.skip_token(SP_COMMAND, TT_STATEMENT, S_DIFFERENCE) == PS_ERROR)
{
MCperror->add(PE_ARRAYOP_NODIFFERENCE, sp);
return PS_ERROR;
}
}
// MW-2011-06-22: [[ SERVER ]] Update to use SP findvar method to take into account
// execution outwith a handler.
MCerrorlock++;
Symbol_type type;
MCScriptPoint tsp(sp);
if (sp.next(type) != PS_NORMAL || type != ST_ID
|| sp.findvar(sp.gettoken_nameref(), &(&destvar)) != PS_NORMAL
|| destvar -> parsearray(sp) != PS_NORMAL)
{
sp = tsp;
MCerrorlock--;
destvar.Reset();
if (sp.parseexp(False, True, &(&destexpr)) != PS_NORMAL)
{
MCperror->add(PE_ARRAYOP_BADARRAY, sp);
return PS_ERROR;
}
}
else
MCerrorlock--;
if (sp.skip_token(SP_REPEAT, TT_UNDEFINED, RF_WITH) == PS_ERROR
&& sp.skip_token(SP_FACTOR, TT_PREP, PT_BY) == PS_ERROR)
{
MCperror->add(PE_ARRAYOP_NOWITH, sp);
return PS_ERROR;
}
if (sp.parseexp(True, False, &(&source)) != PS_NORMAL)
{
MCperror->add(PE_ARRAYOP_BADEXP, sp);
return PS_ERROR;
}
// MERG-2013-08-26: [[ RecursiveArrayOp ]] Support nested arrays in union and intersect
if (sp.skip_token(SP_SUGAR, TT_UNDEFINED, SG_RECURSIVELY) == PS_NORMAL)
{
if (op == kOpIntersect)
op = kOpIntersectRecursively;
else if (op == kOpUnion)
op = kOpUnionRecursively;
else
{
MCperror->add(PE_ARRAYOP_BADRECURSIVE, sp);
return PS_ERROR;
}
}
if (sp.skip_token(SP_FACTOR, TT_PREP, PT_INTO) == PS_NORMAL)
{
if (!destexpr)
{
destexpr.Reset(destvar.Release());
}
Symbol_type ttype;
if (sp.next(ttype) != PS_NORMAL || ttype != ST_ID
|| sp.findvar(sp.gettoken_nameref(), &(&destvar)) != PS_NORMAL
|| destvar -> parsearray(sp) != PS_NORMAL)
{
MCperror->add(PE_ARRAYOP_BADARRAY, sp);
return PS_ERROR;
}
is_into = true;
}
if (!destvar && is_into)
{
MCperror->add(PE_ARRAYOP_DSTNOTCONTAINER, sp);
return PS_ERROR;
}
return PS_NORMAL;
}
Parse_stat MCRepeat::parse(MCScriptPoint &sp)
{
Parse_stat stat;
Symbol_type type;
const LT *te;
initpoint(sp);
if ((stat = sp.next(type)) != PS_NORMAL)
{
if (stat == PS_EOL)
{
if (sp.skip_eol() != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_BADCONDEOL, sp);
return PS_ERROR;
}
}
else
{
MCperror->add
(PE_REPEAT_BADCONDTYPE, sp);
return PS_ERROR;
}
}
else
switch (stat)
{
case PS_NORMAL:
if (sp.lookup(SP_REPEAT, te) != PS_NORMAL)
{
sp.backup();
form = RF_FOR;
if (sp.parseexp(False, True, &endcond) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_BADCOND, sp);
return PS_ERROR;
}
}
else
{
MCExpression *newfact = NULL;
switch (form = (Repeat_form)te->which)
{
case RF_FOREVER:
break;
case RF_FOR:
if (sp.skip_token(SP_REPEAT, TT_UNDEFINED, RF_EACH) == PS_NORMAL)
{
if (sp.next(type) != PS_NORMAL
|| sp.lookup(SP_UNIT, te) != PS_NORMAL
|| sp.next(type) != PS_NORMAL)
{
MCperror->add(PE_REPEAT_BADCOND, sp);
return PS_ERROR;
}
each = (File_unit)te->which;
if (sp.lookupconstant(&newfact) == PS_NORMAL
|| sp . findnewvar(sp.gettoken_nameref(), kMCEmptyName, &loopvar) != PS_NORMAL)
{
delete newfact;
MCperror->add(PE_REPEAT_BADWITHVAR, sp);
return PS_ERROR;
}
if (sp.skip_token(SP_FACTOR, TT_IN) != PS_NORMAL)
{
MCperror->add(PE_REPEAT_NOOF, sp);
return PS_ERROR;
}
}
case RF_UNTIL:
case RF_WHILE:
if (sp.parseexp(False, True, &endcond) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_BADCOND, sp);
return PS_ERROR;
}
break;
case RF_WITH:
if ((stat = sp.next(type)) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_NOWITHVAR, sp);
return PS_ERROR;
}
if (sp.lookupconstant(&newfact) == PS_NORMAL
|| sp.findnewvar(sp.gettoken_nameref(), kMCEmptyName, &loopvar) != PS_NORMAL)
{
delete newfact;
MCperror->add
(PE_REPEAT_BADWITHVAR, sp);
return PS_ERROR;
}
if ((stat = sp.next(type)) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_NOEQUALS, sp);
return PS_ERROR;
}
if (sp.lookup(SP_FACTOR, te) != PS_NORMAL
|| te->type != TT_BINOP || te->which != O_EQ)
{
MCperror->add
(PE_REPEAT_NOTEQUALS, sp);
return PS_ERROR;
}
if (sp.parseexp(False, True, &startcond) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_BADWITHSTARTEXP, sp);
return PS_ERROR;
}
if ((stat = sp.next(type)) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_NOWITHTO, sp);
return PS_ERROR;
}
if (sp.lookup(SP_FACTOR, te) != PS_NORMAL)
{
if (sp.gettoken() != "down")
{
MCperror->add
(PE_REPEAT_NOWITHTO, sp);
return PS_ERROR;
}
stepval = -1.0;
if (sp.skip_token(SP_FACTOR, TT_TO) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_NODOWNTO, sp);
return PS_ERROR;
}
}
else
if (te->type != TT_TO)
{
MCperror->add
(PE_REPEAT_NOTWITHTO, sp);
return PS_ERROR;
}
else
stepval = 1.0;
if (sp.parseexp(False, True, &endcond) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_BADWITHENDEXP, sp);
return PS_ERROR;
}
if (sp.skip_token(SP_REPEAT, TT_UNDEFINED, RF_STEP) == PS_NORMAL)
if (sp.parseexp(False, True, &step) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_BADWITHSTARTEXP, sp);
return PS_ERROR;
}
break;
default: /* repeat form */
fprintf(stderr, "Repeat: ERROR bad control form\n");
return PS_ERROR;
}
}
if (sp.skip_eol() != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_BADFORMEOL, sp);
return PS_ERROR;
}
break;
case PS_EOL:
break;
default: /* token type */
MCperror->add
(PE_REPEAT_BADFORMTYPE, sp);
return PS_ERROR;
}
MCStatement *curstatement = NULL;
MCStatement *newstatement = NULL;
while (True)
{
switch (sp.next(type))
{
case PS_NORMAL:
if (type == ST_DATA)
newstatement = new MCEcho;
else if (sp.lookup(SP_COMMAND, te) != PS_NORMAL)
{
if (type == ST_ID)
newstatement = new MCComref(sp.gettoken_nameref());
else
{
MCperror->add
(PE_REPEAT_NOTCOMMAND, sp);
return PS_ERROR;
}
}
else
{
switch (te->type)
{
case TT_STATEMENT:
newstatement = MCN_new_statement(te->which);
break;
case TT_END:
if (sp.skip_token(SP_COMMAND, TT_STATEMENT, S_REPEAT) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_WANTEDENDREPEAT, sp);
return PS_ERROR;
}
return PS_NORMAL;
default:
MCperror->add
(PE_REPEAT_BADSTATEMENT, sp);
return PS_ERROR;
}
}
break;
case PS_EOL:
if (sp.skip_eol() != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_WANTEDENDREPEAT, sp);
return PS_ERROR;
}
continue;
default:
MCperror->add
(PE_REPEAT_BADTOKEN, sp);
return PS_ERROR;
}
if (newstatement->parse(sp) != PS_NORMAL)
{
MCperror->add
(PE_REPEAT_BADCOMMAND, sp);
delete newstatement;
return PS_ERROR;
}
if (statements == NULL)
statements = curstatement = newstatement;
else
{
curstatement->setnext(newstatement);
curstatement = newstatement;
}
}
return PS_NORMAL;
}
Parse_stat MCIf::parse(MCScriptPoint &sp)
{
initpoint(sp);
if (sp.parseexp(False, True, &cond) != PS_NORMAL)
{
MCperror->add
(PE_IF_BADCONDITION, sp);
return PS_ERROR;
}
Symbol_type type;
const LT *te;
MCStatement *curstatement = NULL;
MCStatement *newstatement = NULL;
If_state state = IS_UNDEFINED;
If_format format = IF_UNDEFINED;
Boolean needstatement = False;
while (True)
{
switch (sp.next(type))
{
case PS_NORMAL:
if (type == ST_DATA || sp.lookup(SP_COMMAND, te) != PS_NORMAL)
{
if (needstatement)
{
if (type == ST_ID)
newstatement = new MCComref(sp.gettoken_nameref());
else if (type == ST_DATA)
newstatement = new MCEcho;
else
{
MCperror->add(PE_IF_NOTCOMMAND, sp);
return PS_ERROR;
}
}
else
{
if (state == IS_UNDEFINED)
{
MCperror->add(PE_IF_NOTHEN, sp);
return PS_ERROR;
}
sp.backup();
return PS_NORMAL;
}
}
else
{
switch (te->type)
{
case TT_STATEMENT:
if (needstatement)
newstatement = MCN_new_statement(te->which);
else
{
if (state == IS_UNDEFINED)
{
MCperror->add(PE_IF_NOTHEN, sp);
return PS_ERROR;
}
sp.backup();
return PS_NORMAL;
}
break;
case TT_THEN:
state = IS_THEN;
needstatement = True;
continue;
case TT_ELSE:
state = IS_ELSE;
needstatement = True;
continue;
case TT_END:
if (needstatement)
{
if (sp.skip_token(SP_COMMAND, TT_STATEMENT, S_IF) != PS_NORMAL)
{
MCperror->add(PE_IF_WANTEDENDIF, sp);
return PS_ERROR;
}
}
else
sp.backup();
return PS_NORMAL;
default: /* token type */
if (needstatement)
{
MCperror->add(PE_IF_WANTEDENDIF, sp);
return PS_ERROR;
}
sp.backup();
return PS_NORMAL;
}
}
break;
case PS_EOL:
switch (format)
{
case IF_UNDEFINED:
if (state == IS_THEN)
format = IF_MULTIPLE;
else
format = IF_SINGLE;
break;
case IF_ONELINE:
if (state == IS_ELSE)
return PS_NORMAL;
format = IF_SINGLE;
needstatement = False;
break;
case IF_SINGLE:
if (state == IS_ELSE)
format = IF_ELSEMULTIPLE;
else
format = IF_MULTIPLE;
break;
case IF_MULTIPLE:
if (state == IS_ELSE)
format = IF_ELSEMULTIPLE;
break;
case IF_ELSEMULTIPLE:
break;
}
if (sp.skip_eol() != PS_NORMAL)
{
MCperror->add(PE_IF_BADEOL, sp);
return PS_ERROR;
}
continue;
case PS_EOF:
return PS_NORMAL;
default:
MCperror->add(PE_IF_BADTYPE, sp);
return PS_ERROR;
}
if (newstatement->parse(sp) != PS_NORMAL)
{
MCperror->add(PE_IF_BADSTATEMENT, sp);
delete newstatement;
return PS_ERROR;
}
switch (state)
{
case IS_THEN:
if (thenstatements == NULL)
thenstatements = curstatement = newstatement;
else
{
curstatement->setnext(newstatement);
curstatement = newstatement;
}
switch (format)
{
case IF_UNDEFINED:
format = IF_ONELINE;
needstatement = False;
break;
case IF_SINGLE:
needstatement = False;
break;
case IF_MULTIPLE:
break;
default: // may be unreachable
return PS_ERROR;
}
break;
case IS_ELSE:
if (elsestatements == NULL)
elsestatements = curstatement = newstatement;
else
{
curstatement->setnext(newstatement);
curstatement = newstatement;
}
if (format != IF_ELSEMULTIPLE)
return PS_NORMAL;
break;
case IS_UNDEFINED:
MCperror->add(PE_IF_NOTHEN, sp);
delete newstatement;
return PS_ERROR;
}
}
return PS_NORMAL;
}
Parse_stat MCTry::parse(MCScriptPoint &sp)
{
initpoint(sp);
Try_state state = TS_TRY;
if (sp.skip_eol() != PS_NORMAL)
{
MCperror->add
(PE_TRY_WANTEDENDTRY, sp);
return PS_ERROR;
}
MCStatement *curstatement = NULL;
MCStatement *newstatement = NULL;
while (True)
{
Symbol_type type;
const LT *te;
switch (sp.next(type))
{
case PS_NORMAL:
if (type == ST_DATA)
newstatement = new MCEcho;
else if (sp.lookup(SP_COMMAND, te) != PS_NORMAL)
{
if (type == ST_ID)
newstatement = new MCComref(sp.gettoken_nameref());
else
{
MCperror->add
(PE_TRY_NOTCOMMAND, sp);
return PS_ERROR;
}
}
else
{
Parse_stat stat;
MCExpression *newfact = NULL;
switch (te->type)
{
case TT_STATEMENT:
newstatement = MCN_new_statement(te->which);
break;
case TT_CATCH:
state = TS_CATCH;
curstatement = NULL;
stat = sp.next(type);
if (errorvar != NULL || stat != PS_NORMAL || type != ST_ID
|| sp.lookup(SP_FACTOR, te) != PS_NO_MATCH
|| sp.lookupconstant(&newfact) == PS_NORMAL
|| sp . findnewvar(sp.gettoken_nameref(), kMCEmptyName, &errorvar) != PS_NORMAL)
{
delete newfact;
MCperror->add(PE_LOCAL_BADNAME, sp);
return PS_ERROR;
}
continue;
break;
case TT_FINALLY:
state = TS_FINALLY;
curstatement = NULL;
continue;
break;
case TT_END:
if (sp.skip_token(SP_COMMAND, TT_STATEMENT, S_TRY) != PS_NORMAL)
{
MCperror->add
(PE_TRY_WANTEDENDTRY, sp);
return PS_ERROR;
}
return PS_NORMAL;
default: /* token type */
MCperror->add
(PE_TRY_BADSTATEMENT, sp);
return PS_ERROR;
}
}
break;
case PS_EOL:
if (sp.skip_eol() != PS_NORMAL)
{
MCperror->add
(PE_TRY_WANTEDENDTRY, sp);
return PS_ERROR;
}
continue;
case PS_EOF:
return PS_NORMAL;
default:
MCperror->add
(PE_TRY_BADTYPE, sp);
return PS_ERROR;
}
if (newstatement->parse(sp) != PS_NORMAL)
{
MCperror->add
(PE_TRY_BADSTATEMENT, sp);
delete newstatement;
return PS_ERROR;
}
if (curstatement != NULL)
{
curstatement->setnext(newstatement);
curstatement = newstatement;
}
else
switch (state)
{
case TS_TRY:
trystatements = curstatement = newstatement;
break;
case TS_CATCH:
catchstatements = curstatement = newstatement;
break;
case TS_FINALLY:
finallystatements = curstatement = newstatement;
break;
}
}
return PS_NORMAL;
}
Parse_stat MCSwitch::parse(MCScriptPoint &sp)
{
Symbol_type type;
const LT *te;
initpoint(sp);
if (sp.next(type) == PS_NORMAL)
{
sp.backup();
if (sp.parseexp(False, True, &cond) != PS_NORMAL)
{
MCperror->add
(PE_SWITCH_BADCONDITION, sp);
return PS_ERROR;
}
}
else
if (sp.skip_eol() != PS_NORMAL)
{
MCperror->add
(PE_SWITCH_WANTEDENDSWITCH, sp);
return PS_ERROR;
}
uint2 snum = 0;
MCStatement *curstatement = NULL;
MCStatement *newstatement = NULL;
while (True)
{
switch (sp.next(type))
{
case PS_NORMAL:
if (type == ST_DATA)
newstatement = new MCEcho;
else if (sp.lookup(SP_COMMAND, te) != PS_NORMAL)
{
if (type == ST_ID)
newstatement = new MCComref(sp.gettoken_nameref());
else
{
MCperror->add
(PE_SWITCH_NOTCOMMAND, sp);
return PS_ERROR;
}
}
else
{
switch (te->type)
{
case TT_STATEMENT:
newstatement = MCN_new_statement(te->which);
break;
case TT_CASE:
MCU_realloc((char **)&cases, ncases, ncases + 1,
sizeof(MCExpression *));
if (sp.parseexp(False, True, &cases[ncases]) != PS_NORMAL)
{
MCperror->add
(PE_SWITCH_BADCASECONDITION, sp);
return PS_ERROR;
}
MCU_realloc((char **)&caseoffsets, ncases, ncases + 1,
sizeof(uint2));
caseoffsets[ncases++] = snum;
continue;
case TT_DEFAULT:
defaultcase = snum;
continue;
case TT_END:
if (sp.skip_token(SP_COMMAND, TT_STATEMENT, S_SWITCH) != PS_NORMAL)
{
MCperror->add
(PE_SWITCH_WANTEDENDSWITCH, sp);
return PS_ERROR;
}
return PS_NORMAL;
default: /* token type */
MCperror->add
(PE_SWITCH_BADCASECONDITION, sp);
return PS_ERROR;
}
}
break;
case PS_EOL:
if (sp.skip_eol() != PS_NORMAL)
{
MCperror->add
(PE_SWITCH_WANTEDENDSWITCH, sp);
return PS_ERROR;
}
continue;
case PS_EOF:
return PS_NORMAL;
default:
MCperror->add
(PE_SWITCH_BADTYPE, sp);
return PS_ERROR;
}
if (newstatement->parse(sp) != PS_NORMAL)
{
MCperror->add
(PE_SWITCH_BADSTATEMENT, sp);
delete newstatement;
return PS_ERROR;
}
if (statements == NULL)
statements = curstatement = newstatement;
else
{
curstatement->setnext(newstatement);
curstatement = newstatement;
}
snum++;
}
return PS_NORMAL;
}