Rework addition of Symbian splash screen to reduce the source impact (uses SVG from Bug 2414)
Notes: by using the OPTION SOURCEDIR parameter in the mifconv extension instructions, I can
arrange to use the same source file name in sfimage, without having to export over the original
Nokia file. This means that the name inside splashscreen.mbg is the same, which removes the need
for the conditional compilation in SplashScreen.cpp, and gets rid of sf_splashscreen.mmp.
/*
* Copyright (c) 2007-2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
/*
* This file is part of zsh, the Z shell.
*
* Copyright (c) 1992-1997 Paul Falstad
* All rights reserved.
*
* Permission is hereby granted, without written agreement and without
* license or royalty fees, to use, copy, modify, and distribute this
* software and to distribute modified versions of this software for any
* purpose, provided that the above copyright notice and the following
* two paragraphs appear in all copies of this software.
*
* In no event shall Paul Falstad or the Zsh Development Group be liable
* to any party for direct, indirect, special, incidental, or consequential
* damages arising out of the use of this software and its documentation,
* even if Paul Falstad and the Zsh Development Group have been advised of
* the possibility of such damage.
*
* Paul Falstad and the Zsh Development Group specifically disclaim any
* warranties, including, but not limited to, the implied warranties of
* merchantability and fitness for a particular purpose. The software
* provided hereunder is on an "as is" basis, and Paul Falstad and the
* Zsh Development Group have no obligation to provide maintenance,
* support, updates, enhancements, or modifications.
*
*/
#include "zsh.mdh"
#include "loop.pro"
#ifdef __SYMBIAN32__
#ifdef __WINSCW__
#pragma warn_unusedarg off
#pragma warn_possunwant off
#endif//__WINSCW__
#endif//__SYMBIAN32__
/* # of nested loops we are in */
/**/
int loops;
/* # of continue levels */
/**/
mod_export int contflag;
/* # of break levels */
/**/
mod_export int breaks;
/**/
int
execfor(Estate state, int do_exec)
{
Wordcode end, loop;
wordcode code = state->pc[-1];
int iscond = (WC_FOR_TYPE(code) == WC_FOR_COND), ctok = 0, atok = 0;
int last = 0;
char *name, *str, *cond = NULL, *advance = NULL;
zlong val = 0;
LinkList vars = NULL, args = NULL;
end = state->pc + WC_FOR_SKIP(code);
if (iscond) {
str = dupstring(ecgetstr(state, EC_NODUP, NULL));
singsub(&str);
if (isset(XTRACE)) {
char *str2 = dupstring(str);
untokenize(str2);
printprompt4();
fprintf(xtrerr, "%s\n", str2);
fflush(xtrerr);
}
if (!errflag)
matheval(str);
if (errflag) {
state->pc = end;
return lastval = errflag;
}
cond = ecgetstr(state, EC_NODUP, &ctok);
advance = ecgetstr(state, EC_NODUP, &atok);
} else {
vars = ecgetlist(state, *state->pc++, EC_NODUP, NULL);
if (WC_FOR_TYPE(code) == WC_FOR_LIST) {
int htok = 0;
if (!(args = ecgetlist(state, *state->pc++, EC_DUPTOK, &htok))) {
state->pc = end;
return 0;
}
if (htok)
execsubst(args);
} else {
char **x;
args = newlinklist();
for (x = pparams; *x; x++)
addlinknode(args, dupstring(*x));
}
}
lastval = 0;
loops++;
pushheap();
cmdpush(CS_FOR);
loop = state->pc;
while (!last) {
if (iscond) {
if (ctok) {
str = dupstring(cond);
singsub(&str);
} else
str = cond;
if (!errflag) {
while (iblank(*str))
str++;
if (*str) {
if (isset(XTRACE)) {
printprompt4();
fprintf(xtrerr, "%s\n", str);
fflush(xtrerr);
}
val = mathevali(str);
} else
val = 1;
}
if (errflag) {
if (breaks)
breaks--;
lastval = 1;
break;
}
if (!val)
break;
} else {
LinkNode node;
int count = 0;
for (node = firstnode(vars); node; incnode(node))
{
name = (char *)getdata(node);
if (!args || !(str = (char *) ugetnode(args)))
{
if (count) {
str = "";
last = 1;
} else
break;
}
if (isset(XTRACE)) {
printprompt4();
fprintf(xtrerr, "%s=%s\n", name, str);
fflush(xtrerr);
}
setsparam(name, ztrdup(str));
count++;
}
if (!count)
break;
}
state->pc = loop;
execlist(state, 1, do_exec && args && empty(args));
if (breaks) {
breaks--;
if (breaks || !contflag)
break;
contflag = 0;
}
if (retflag)
break;
if (iscond && !errflag) {
if (atok) {
str = dupstring(advance);
singsub(&str);
} else
str = advance;
if (isset(XTRACE)) {
printprompt4();
fprintf(xtrerr, "%s\n", str);
fflush(xtrerr);
}
if (!errflag)
matheval(str);
}
if (errflag) {
if (breaks)
breaks--;
lastval = 1;
break;
}
freeheap();
}
popheap();
cmdpop();
loops--;
state->pc = end;
return lastval;
}
/**/
int
execselect(Estate state, UNUSED(int do_exec))
{
Wordcode end, loop;
wordcode code = state->pc[-1];
char *str, *s, *name;
LinkNode n;
int i, usezle;
FILE *inp;
size_t more;
LinkList args;
end = state->pc + WC_FOR_SKIP(code);
name = ecgetstr(state, EC_NODUP, NULL);
if (WC_SELECT_TYPE(code) == WC_SELECT_PPARAM) {
char **x;
args = newlinklist();
for (x = pparams; *x; x++)
addlinknode(args, dupstring(*x));
} else {
int htok = 0;
if (!(args = ecgetlist(state, *state->pc++, EC_DUPTOK, &htok))) {
state->pc = end;
return 0;
}
if (htok)
execsubst(args);
}
if (!args || empty(args)) {
state->pc = end;
return 1;
}
loops++;
lastval = 0;
pushheap();
cmdpush(CS_SELECT);
usezle = interact && SHTTY != -1 && isset(USEZLE);
inp = fdopen(dup(usezle ? SHTTY : 0), "r");
more = selectlist(args, 0);
loop = state->pc;
for (;;) {
for (;;) {
if (empty(bufstack)) {
if (usezle) {
int oef = errflag;
isfirstln = 1;
str = (char *)zleread(&prompt3, NULL, 0, ZLCON_SELECT);
if (errflag)
str = NULL;
errflag = oef;
} else {
str = promptexpand(prompt3, 0, NULL, NULL);
zputs(str, stderr);
free(str);
fflush(stderr);
str = fgets(zalloc(256), 256, inp);
}
} else
str = (char *)getlinknode(bufstack);
if (!str || errflag) {
if (breaks)
breaks--;
fprintf(stderr, "\n");
fflush(stderr);
goto done;
}
if ((s = strchr(str, '\n')))
*s = '\0';
if (*str)
break;
more = selectlist(args, more);
}
setsparam("REPLY", ztrdup(str));
i = atoi(str);
if (!i)
str = "";
else {
for (i--, n = firstnode(args); n && i; incnode(n), i--);
if (n)
str = (char *) getdata(n);
else
str = "";
}
setsparam(name, ztrdup(str));
state->pc = loop;
execlist(state, 1, 0);
freeheap();
if (breaks) {
breaks--;
if (breaks || !contflag)
break;
contflag = 0;
}
if (retflag || errflag)
break;
}
done:
cmdpop();
popheap();
fclose(inp);
loops--;
state->pc = end;
return lastval;
}
/* And this is used to print select lists. */
/**/
size_t
selectlist(LinkList l, size_t start)
{
size_t longest = 1, fct, fw = 0, colsz, t0, t1, ct;
LinkNode n;
char **arr, **ap;
trashzle();
ct = countlinknodes(l);
ap = arr = (char **) zhalloc((countlinknodes(l) + 1) * sizeof(char **));
for (n = (LinkNode) firstnode(l); n; incnode(n))
*ap++ = (char *)getdata(n);
*ap = NULL;
for (ap = arr; *ap; ap++)
if (strlen(*ap) > longest)
longest = strlen(*ap);
t0 = ct;
longest++;
while (t0)
t0 /= 10, longest++;
/* to compensate for added ')' */
fct = (columns - 1) / (longest + 3);
if (fct == 0)
fct = 1;
else
fw = (columns - 1) / fct;
colsz = (ct + fct - 1) / fct;
for (t1 = start; t1 != colsz && t1 - start < lines - 2; t1++) {
ap = arr + t1;
do {
size_t t2 = strlen(*ap) + 2;
int t3;
fprintf(stderr, "%d) %s", t3 = ap - arr + 1, *ap);
while (t3)
t2++, t3 /= 10;
for (; t2 < fw; t2++)
fputc(' ', stderr);
for (t0 = colsz; t0 && *ap; t0--, ap++);
}
while (*ap);
fputc('\n', stderr);
}
/* Below is a simple attempt at doing it the Korn Way..
ap = arr;
t0 = 0;
do {
t0++;
fprintf(stderr,"%d) %s\n",t0,*ap);
ap++;
}
while (*ap);*/
fflush(stderr);
return t1 < colsz ? t1 : 0;
}
/**/
int
execwhile(Estate state, UNUSED(int do_exec))
{
Wordcode end, loop;
wordcode code = state->pc[-1];
int olderrexit, oldval, isuntil = (WC_WHILE_TYPE(code) == WC_WHILE_UNTIL);
end = state->pc + WC_WHILE_SKIP(code);
olderrexit = noerrexit;
oldval = 0;
pushheap();
cmdpush(isuntil ? CS_UNTIL : CS_WHILE);
loops++;
loop = state->pc;
if (loop[0] == WC_END && loop[1] == WC_END) {
/* This is an empty loop. Make sure the signal handler sets the
* flags and then just wait for someone hitting ^C. */
int old_simple_pline = simple_pline;
simple_pline = 1;
while (!breaks)
;
breaks--;
simple_pline = old_simple_pline;
} else
for (;;) {
state->pc = loop;
noerrexit = 1;
execlist(state, 1, 0);
noerrexit = olderrexit;
if (!((lastval == 0) ^ isuntil)) {
if (breaks)
breaks--;
lastval = oldval;
break;
}
if (retflag) {
lastval = oldval;
break;
}
execlist(state, 1, 0);
if (breaks) {
breaks--;
if (breaks || !contflag)
break;
contflag = 0;
}
if (errflag) {
lastval = 1;
break;
}
if (retflag)
break;
freeheap();
oldval = lastval;
}
cmdpop();
popheap();
loops--;
state->pc = end;
return lastval;
}
/**/
int
execrepeat(Estate state, UNUSED(int do_exec))
{
Wordcode end, loop;
wordcode code = state->pc[-1];
int count, htok = 0;
char *tmp;
end = state->pc + WC_REPEAT_SKIP(code);
lastval = 0;
tmp = ecgetstr(state, EC_DUPTOK, &htok);
if (htok)
singsub(&tmp);
count = atoi(tmp);
pushheap();
cmdpush(CS_REPEAT);
loops++;
loop = state->pc;
while (count-- > 0) {
state->pc = loop;
execlist(state, 1, 0);
freeheap();
if (breaks) {
breaks--;
if (breaks || !contflag)
break;
contflag = 0;
}
if (errflag) {
lastval = 1;
break;
}
if (retflag)
break;
}
cmdpop();
popheap();
loops--;
state->pc = end;
return lastval;
}
/**/
int
execif(Estate state, int do_exec)
{
Wordcode end, next;
wordcode code = state->pc[-1];
int olderrexit, s = 0, run = 0;
olderrexit = noerrexit;
end = state->pc + WC_IF_SKIP(code);
if (!noerrexit)
noerrexit = 1;
while (state->pc < end) {
code = *state->pc++;
if (wc_code(code) != WC_IF ||
(run = (WC_IF_TYPE(code) == WC_IF_ELSE))) {
if (run)
run = 2;
break;
}
next = state->pc + WC_IF_SKIP(code);
cmdpush(s ? CS_ELIF : CS_IF);
execlist(state, 1, 0);
cmdpop();
if (!lastval) {
run = 1;
break;
}
if (retflag)
break;
s = 1;
state->pc = next;
}
noerrexit = olderrexit;
if (run) {
cmdpush(run == 2 ? CS_ELSE : (s ? CS_ELIFTHEN : CS_IFTHEN));
execlist(state, 1, do_exec);
cmdpop();
} else
lastval = 0;
state->pc = end;
return lastval;
}
/**/
int
execcase(Estate state, int do_exec)
{
Wordcode end, next;
wordcode code = state->pc[-1];
char *word, *pat;
int npat, save;
Patprog *spprog, pprog;
end = state->pc + WC_CASE_SKIP(code);
word = ecgetstr(state, EC_DUP, NULL);
singsub(&word);
untokenize(word);
lastval = 0;
cmdpush(CS_CASE);
while (state->pc < end) {
code = *state->pc++;
if (wc_code(code) != WC_CASE)
break;
pat = NULL;
pprog = NULL;
save = 0;
npat = state->pc[1];
spprog = state->prog->pats + npat;
next = state->pc + WC_CASE_SKIP(code);
if (isset(XTRACE)) {
char *pat2, *opat;
pat = dupstring(opat = ecrawstr(state->prog, state->pc, NULL));
singsub(&pat);
save = (!(state->prog->flags & EF_HEAP) &&
!strcmp(pat, opat) && *spprog != dummy_patprog2);
pat2 = dupstring(pat);
untokenize(pat2);
printprompt4();
fprintf(xtrerr, "case %s (%s)\n", word, pat2);
fflush(xtrerr);
}
state->pc += 2;
if (*spprog != dummy_patprog1 && *spprog != dummy_patprog2)
pprog = *spprog;
if (!pprog) {
if (!pat) {
char *opat;
int htok = 0;
pat = dupstring(opat = ecrawstr(state->prog,
state->pc - 2, &htok));
if (htok)
singsub(&pat);
save = (!(state->prog->flags & EF_HEAP) &&
!strcmp(pat, opat) && *spprog != dummy_patprog2);
}
if (!(pprog = patcompile(pat, (save ? PAT_ZDUP : PAT_STATIC),
NULL)))
zerr("bad pattern: %s", pat, 0);
else if (save)
*spprog = pprog;
}
if (pprog && pattry(pprog, word)) {
execlist(state, 1, ((WC_CASE_TYPE(code) == WC_CASE_OR) &&
do_exec));
while (!retflag && wc_code(code) == WC_CASE &&
WC_CASE_TYPE(code) == WC_CASE_AND) {
state->pc = next;
code = *state->pc;
state->pc += 3;
next = state->pc + WC_CASE_SKIP(code) - 2;
execlist(state, 1, ((WC_CASE_TYPE(code) == WC_CASE_OR) &&
do_exec));
}
break;
} else
state->pc = next;
}
cmdpop();
state->pc = end;
return lastval;
}
/*
* Errflag from `try' block, may be reset in `always' block.
* Accessible from an integer parameter, so needs to be a zlong.
*/
/**/
zlong
try_errflag = -1;
/**/
int
exectry(Estate state, int do_exec)
{
Wordcode end, always;
int endval;
int save_retflag, save_breaks, save_loops, save_contflag;
zlong save_try_errflag;
end = state->pc + WC_TRY_SKIP(state->pc[-1]);
always = state->pc + 1 + WC_TRY_SKIP(*state->pc);
state->pc++;
pushheap();
cmdpush(CS_CURSH);
/* The :try clause */
execlist(state, 1, do_exec);
/* Don't record errflag here, may be reset. */
endval = lastval;
freeheap();
cmdpop();
cmdpush(CS_ALWAYS);
/* The always clause. */
save_try_errflag = try_errflag;
try_errflag = (zlong)errflag;
errflag = 0;
save_retflag = retflag;
retflag = 0;
save_breaks = breaks;
breaks = 0;
save_loops = loops;
loops = 0;
save_contflag = contflag;
contflag = 0;
state->pc = always;
execlist(state, 1, do_exec);
errflag = try_errflag ? 1 : 0;
try_errflag = save_try_errflag;
retflag = save_retflag;
breaks = save_breaks;
loops = save_loops;
contflag = save_contflag;
cmdpop();
popheap();
state->pc = end;
return endval;
}