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Article 325 of comp.sys.apple2.programmer:
Path: ns1.nodak.edu!aardvark.ucs.uoknor.edu!constellation!convex!convex!cs.utexas.edu!uunet!psinntp!dg-rtp!webo!dg-webo!bkahn
Newsgroups: comp.sys.apple2.programmer
Subject: Re: Orca C errors so far?
Message-ID: <BKAHN.93Aug3135233@archive.webo.dg.com>
From: bkahn@archive.webo.dg.com (Bruce Kahn)
Date: 03 Aug 1993 18:52:33 GMT
Reply-To: Bruce_Kahn@dg.com (Bruce Kahn)
Sender: usenet@webo.dg.com (Usenet Administration)
References: <cgKGNKu00VR_R4luU=@andrew.cmu.edu>
Organization: NSDD/OpenLAN, Data General Corp., Westboro, MA
In-Reply-To: "Seth D. Kadesh"'s message of 30 Jul 1993 08:47:02 EST
To: "Seth D. Kadesh" <thes+@CMU.EDU>
Lines: 966
Ive been keeping an informal list of all Orca C bugs since 1.1. Some are
my own but most are off the net from various lists or newsgroups. Ive been
offline for about 3 weeks now so I missed the original post about the
unsigned vs unsigned int but I can add that in later.
To forstall any requests, Ill include my entire list below. It starts
w/Orca C 1.1 and goes up to 2.0. If anyone has any I dont have listed, pls
let me know...
Bruce
Known Orca/C 1.1 bugs
From herwin@pro-novapple.cts.com (Harry Erwin):
1. lseek is miscoded. It can be patched, but you have to know the parameters
to the GSOS seek call. Currently it does an LDA 08, when it should do a LDA
from the stack.
2. If j is a long automatic variable, j++ and j-- are mishandled. The stack
gets corrupted. Avoid.
From neufeld@physics.utoronto.ca (Christopher Neufeld):
The compiler makes a mistake when trying to compile:
<ptr> -= <int> or <ptr> += <int>
You should use, instead, <ptr> = <ptr> -/+ <int>
From acmfiu@serss0.fiu.edu (ACMFIU)
<char> += <num> (ie num += strlen (foo);)
The system crashed.
From gwyn@smoke.brl.mil (Doug Gwyn)
Orca/C tries to be a conforming implementation, but it falls short on a
number of counts, most notably in preprocessing, type qualifiers, and the
library.
From acmfiu@serss0.fiu.edu (ACMFIU)
Ive briefly found that vprintf() (which everyone knows about) and strtime()
(or something like that in <time.h>) are not in Orca's libraries.
Also, memxxx() is one instance of a buggy library routine (w/data > 64K).
From acmfiu@serss0.fiu.edu (ACMFIU)
1. #pragma debug 25
I have a 1400+ line program that this fails in. I mainly use it to check for
problems with the stack (i.e My function wants a long and I pass an int). Orca
has stack correcting code for this but it is much nicer for you to have a clean
program. Now, the error happens when you call a function that accepts no
parameters (i.e. void). I can't figure out why this has happened. Several
others on AOL have likewise figured this out. On small programs (who knows how
many lines here) this #pragma seems to work fine.
2. #pragma optimize -1
This, in my opinion, should never be used. I suggest only using '#pragma
optimize 3'. The '-1' will turn off stack repair code. Therefore, if you pass
an int value to a routine that accepts a long your program will definitely
crash. Too bad '#pragma debug 25' doesn't always work or we could find these
things out.
Response from toddpw@nntp-server.caltech.edu (Todd P. Whitesel)
#pragma lint -1
Will tell you if you're passing the wrong size parameters, if you prototype
your functions (a good idea in any case).
3. Prototype all functions
This is a real stupid bug. I had two dumb C routines to demonstrate this bug
that I sent to Mike. I did not prototype these two functions and, I got an
error in the beginning of the second function (at the '{') that said something
like 'bad label'. Anyway, when I prototyped the function everything worked
fine. As a general rule, I know prototype everything (which should be done
anyway). I also had a 22,000+ line program (thank goodness for EMACS and
memory) and I decided to see if Orca could handle it. Well, I got numerous
errors with '{' and also 'local variable space exceeded' which was also a bug
because my local variables would never exceed stack space.
4. Bad code generation
This has only happened in one instance but it took several days to find
(thank you GSBug) and 5 minutes to fix. I had a C program that, when it would
call another function, would never return from that function, even if the
function was "void foo(void) { }". This was particulary bothersome. Anyway , I
traced through the program with GSBug and found out that Orca/C generated bad
code and was destroying the contents of the stack (and thus the address to
return to after foo() was executed was destroyed. The simple patch to this was
an inline asm routine that saved the contents of the stack and direct page,
called the function (in the asm routine via JSL), then restored the stack and
direct page. It was vital to JSL to the function, rather than using "foo ()". I
have not heard other stories of this happening to anyone and I know my code
didn't corrupt the stack (as stated before "void foo(void) { }" didn't work so
it wasn't my code).
5. NULL == 0
In many old-style (read K&R) code, you see NULL and 0 intermixed. Well,
Orca/C balks at this. I had one program I was converting over from UNIX which
had 0 and NULL intermixed. It crashes. I replaced all 0's with NULL's and it
worked fine. Personally, I don't think anyone should ever use 0.
Response from toddpw@nntp-server.caltech.edu (Todd P. Whitesel)
Perhaps this fails because NULL is a long equaling zero and 0 is an int
equaling zero. I've noticed that Orca/C fails to do implicit type-conversion in
certain cases, and adding L's or (long)'s always fixes the problem.
6. inline asm
The inline "asm" feature is nice. Yet it is also buggy. For some reason it
doesn't seem to like 'rtl'. I have to use 'dcb 0x6b' in it's place. Now 'rtl'
sometimes works. It worked once for me in a 1400+ line program but then when I
inserted it into a 3100+ line program (without any changes to the asm code),
orca/c balked at me about it. Nothing major but be careful.
Response from toddpw@nntp-server.caltech.edu (Todd P. Whitesel)
Always works like a charm for me, with one exception: the mini-assembler
always puts 16 bit immediates in the generated code -- it appears to only
change the immediate operand size after the close bracket of the asm{} and then
it uses 8 bit immediates for the rest of the source file! Since I was
forgetting to restore the register sizes anyway, fixing my bug circumvented
Orca's.
7. Static variables
Orca/C v1.0 had problems with this. V1.1 supposedly fixed this but this is
not true. In small programs I seems to work. But in programs over 1000 lines it
doesn't seem to work. The problem is that the static variables get saved in the
~GLOBALS data segment. However, with these 1000+ line programs the compiler
fails to save the variable name in the ~GLOBALS segment and therefore the
linker gives you unresolved variable references when you link. This is a real
pain. Several others on AOL have encountered this.
8. 'const' type qualifier
Orca/C has problems with this. I encountered this a few months back and kinda
forget what error I get but Doug McIntyre has also discovered problems with
this. Rule of thumb: don't use it, although some of the library .h files have
'const' in it.
9. array indexing
The following code will access the last element in a char array:
foo[strlen (foo) - 1] = '/'
- (foo + strlen (foo) - 1) = '/'
These two, however, fail to work, for me anyway, in large programs, again
1400+ lines. To fix the bug, I had to declare a dummy local variable of type
'unsigned long' (even 'int' would do) and then say:
foo[strlen (foo) - num] = '/'
- (foo + strlen (foo) - num) = '/'
This is a particularly troublesome bug because it might just as well
apply to indexing other elements of the array (although I know of no
other even though I tried). Also, note that this works:
foo[strlen (foo) - 2] = '/'
This accesses the second to last element. Now you explain this to me?
Response from toddpw@nntp-server.caltech.edu (Todd P. Whitesel)
foo[strlen (foo) - 2] = '/'
try 2L and see what happens.
10. a = (1 == 1 ? 1 : 2)
I think this is called the trinary operator but I forget (anyway, you can get
the picture by my example). Now, I was porting GNUregexp and Orca gave type
mismatch errors on a trinary operator in the code. So I matched all the types
and sure enough everything was OK. However, I have had no problems with this.
Neverthless, good 'ol if..then solved the problem in the regexp program. Just
beware.
Response from toddpw@nntp-server.caltech.edu (Todd P. Whitesel)
I tried the above expression with nothing else around it and it compiles
fine. Try sprinkling parenthesis on the off chance that the order of operators
is off; if a is a long then L's are probably a good idea also.
11. Out of memory
I have a program that's about 3000+ lines (i think) and when I compile it I
get "out of memory" errors which is ridiculous because I have 4 megs of memory.
Mike has duplicated this error but has been unable to solve the problem. I had
2 megs once I attempted to port p2c. I had the same problem. Then when I got 4
megs the problem went away. Obviously this is due to memory mismanagement in
Orca/C. Beware.
From avery@netcom.COM (Avery Colter):
I made this complex.h, this little suite of basic arithmetic
functions for complex numbers, including a typedef of
typedef struct {extended Re; extended Im;} complex;
I made a simple little void main (void) to check out the operation,
and it worked fine... this test main having all local variables.
Then I started hacking out an RLC impedance function, which should
take a string of series and parallel placed passive elements, and
compute the impedance of the whole setup and the output voltage
for each of number of driving frequencies.
Instead, I got a big headache. The linker refused to link.
Every variable I declared gloablly was lost in the compile.
A perusal of the symbol table indicated that these had never gotten there.
When I made a large-memory-model setting, the ~GLOBALS segment was
one byte long!
In addition, with some seperate compiles, I was able to force recognition
of almost all the global variables....
Except for one of the structs.
The linker was saying: Unresoved reference: ~struct08486 or something.
Like the structure's internal definition was not getting into the symbol table.
What confuses me is, the standard header files are going just fine,
with all the structures they set up, while this piddly thing is breaking
the linker.
It can't be a syntax error in the code, unless the compiler is completely
missing it, because it tests out with no code errors. It's only inside
the linker that it gets hosed.
From toddpw@nntp-server.caltech.edu (Todd P. Whitesel):
Orca seems to be really sensitive about where you put your globals. Try
putting all your globals (except private statics) in the front of each source
file, after the headers but before the first function. I do this all the time
and it works reasonably well.
BEWARE OF USING GLOBAL STRUCTS. I've had the compiler generate totally bogus
code for accessing global structs directly (with .) -- if you auto the struct
or only access the elements through a pointer (as in -> ) then it works fine.
From acmfiu@serss0.fiu.edu (ACMFIU):
For those of you using Orca/C and Prizm, the following is a bug:
void foo (void)
{
int a;
a = 0;
while (TRUE)
{
int b;
b = 1;
break;
}
}
Under Prizm, you can view the variables of your program. Prizm will allow you
to view the variable 'a'. However, it will not allow you to view the variable
'b'. This is apparently a bug in Orca/C's debug code generation. It "should"
be fixed in the next release of the compiler (1.2 or >).
From toddpw@nntp-server.caltech.edu (Todd P. Whitesel):
Orca seems to be really sensitive about where you put your globals. Try
putting all your globals (except private statics) in the front of each source
file, after the headers but before the first function. I do this all the time
and it works reasonably well.
BEWARE OF USING GLOBAL STRUCTS. I've had the compiler generate totally bogus
code for accessing global structs directly (with .) -- if you auto the struct
or only access the elements through a pointer (as in -> ) then it works fine.
From neufeld@aurora.physics.utoronto.ca (Christopher Neufeld):
fprintf(stderr,"Testing\n"); doesn't work in a long program. I
don't have to open the file, it's standard open when run from the shell. If I
change it to printf("Testing\n"); everything works.
Other weird things include programs which run fine, but if you use the
"variables" command (under Prizm) to monitor one of the variables, it
immediately crashes Prizm into the monitor, until you rename the variable in
the source code. No variable name conflicts were involved.
When I had a doubly defined #define argument, it issued the appropriate error
message and line and column numbers in the source file, but it echoed the line
after the error, which was another #define.
From:neufeld@aurora.physics.utoronto.ca (Christopher Neufeld):
The "sizeof" function returns the wrong value for floating-point passed
parameters of type other than extended. This means that the "fwrite" command,
which takes the size of the argument as one of its parameters, writes too many
bytes to the disk file, which throws everything off when you try to read it
back with the correct "sizeof" values.
From: STEIN@UCONNVM.BITNET (Alan Stein):
I've been having problems with functions returning values. For example,
the following bombed:
float f(x)
float x;
{
return (x*x);
}
void main ()
{
float y;
...
y = f(x);
...
}
While, changing just those lines to the following works fine:
void f (x,py)
float x,*py;
{
}
void main ()
{
float x,y;
...
f(x,&y);
...
}
===============================================================================
Known Orca/C 1.2 Bugs
From gwyn@smoke.brl.mil (Doug Gwyn):
Two of the bugs would not have surfaced in my applications had
the SIGNAL.H header (in LIBRARIES/ORCACDEFS) omitted the final "int"
parameter specification for the signal() function. Just comment it out
to avoid the particular problems that I encountered, until MikeW50 gets
around to fixing the compiler.
From neufeld@aurora.physics.utoronto.ca (Christopher Neufeld):
I've discovered a compiler bug in ORCA/C v1.2. The compiler does not compile
extended precision constants in source code properly. It generates double
precision numbers, then converts them to extended for insertion into the code.
Worse, extended precision arrays seem to fill with nonsense if defined by
constants in the source code, ie:
extended arr[2] = {1.234567890123456789,9.876543210987654321};
The 'L' flag doesn't help, and the manual mentions that ORCA/C ignores that
flag anyway.
Other things which don't work:
#define M_PI 3.1415926535897932385
used in something like:
myval = M_PI; gives wrong results.
The solution: the stdlib function "strtod" does work properly, so here's an
inelegant solution:
#define M_PI strtod("3.141592653589792385",NULL);
myval = M_PI;
Similar things can be done for initializing arrays. You initialize a string
array, and then your program has to take time to convert those strings into
extended values.
From neufeld@aurora.physics.utoronto.ca (Christopher Neufeld):
The sscanf() function doesn't work properly. If a string is assigned which
contains a long field, and a later NULL-terminated string is assigned which is
shorter than that field, the sscanf() function merrily runs over the null
character in its zeal to locate two fields where only one exists. It is
supposed to return only a single string and return the actual number of fields
read. Instead it gleefully runs across the NULL character to get the fields it
needs. In some circumstances it works properly. It seems OK if the string it
is operating upon was never any longer than it is at the moment it is called.
This is strange. Anyway, here's a code fragment which demonstrates the error,
with the output as produced under ORCA/C v1.2 and on a Sun/4. If anybody can
suggest a useful workaround, I'd be glad to hear it. I tried copying an extra
NULL character after the one already at the end of the string. That had no
effect. The problem seems to be that sscanf() is treating the NULL character as
whitespace, and so it's skipping it. This has been responsible for it picking
up garbage which wasn't ever in the input string, because it kept looking off
the end of the memory reserved for the string. For now I'm planning to move to
the strtok() function for the things I want to do. It's more natural in my
program anyway, but the bug is still a nuisance.
#include <stdio.h>
#include <string.h>
void main()
{
char test[100];
char s1[100],s2[100];
int n;
strcpy(test,"1234567890 ABCDEFGHIJ"); /* sscanf should find two strings */
n = sscanf(test,"%s %s",s1,s2);
printf("n=%i, s1=%s, s2=%s\n",n,s1,s2);
strcpy(test,"abc"); /* sscanf should find one string */
n = sscanf(test,"%s %s",s1,s2);
printf("n=%i, s1=%s, s2=%s\n",n,s1,s2);
}
Compiled under ORCA/C v1.2 with ORCAGLIB library
n=2, s1=1234567890, s2=ABCDEFGHIJ
n=2, s1=abc, s2=567890
Compiled on a Sun/4:
n=2, s1=1234567890, s2=ABCDEFGHIJ
n=1, s1=abc, s2=ABCDEFGHIJ
From gt0t+@andrew.cmu.edu (Gregory Ross Thompson):
if (foo.bar = spooge[this]) {
printf("Cool.");
}
This should print Cool. Whenever the value being assigned up there is
non-zero, right? That's what K&R says, that's what EVERY OTHER COMPILER IN THE
UNIVERSE does. That's NOT what Orca/C does. To get Orca to have the same
functionality, I had to do:
if ((foo.bar = spooge[this]) != 0) {
printf("Cool.");
}
From gwyn@smoke.brl.mil (Doug Gwyn):
Bug fixes for ORCA/C release 1.2 (including APW) header files (in ORCACDEFS):
To avoid copyright hassles, I show only enough of the context to make the
patch.
ASSERT.H:
#ifndef NDEBUG
extern void exit (int status); /* DAG -- was missing */
extern int printf(char *format, ...); /* DAG -- was missing */
#define assert(expression) (((expression) == 0) ? (printf("Assertion failed: file %s, line %d\n", __FILE__, __LINE__), exit(-1)): (void)0) /* DAG -- added cast */
Note that this is still not a fully standard-conforming <assert.h>. The
biggest problem is that it doesn't raise(SIGABRT).
MISCTOOL.H:
#define alreadyInQueue 0x0382
/* DAG -- added following for 5.0.4: */
#define badTimeVerb 0x0390 /* Invalid convVerb value */
#define badTimeData 0x0391 /* Invalid date or time to be converted */
extern pascal void ClrHeartBeat() inline(0x1403,dispatcher);
/* DAG -- added following for 5.0.4: */
extern pascal unsigned long ConvSeconds() inline(0x3703,dispatcher);
QUICKDRAW.H:
#define mode640 0x0080 /* Argument to QDStartup */
#define noFastFont 0x1000 /* masterSCB bit; DAG -- added for 5.0.4 */
SIGNAL.H:
void (*signal(int sig, void (*func) (int)))(/*int*/); /* DAG */
int raise(int sig);
WINDOW.H:
#define tmIdleEvents 0x00100000L
#define tmNoGetNextEvent 0x00200000L /* DAG -- added for 5.0.4 */
From meekins@cis.ohio-state.edu (Tim Meekins):
Anyone know a good hack around the Orca/C NULL bug. I remember when we
discovered it at the programming party last May. I just verified the bug today.
The generated code is hilarious and can't possibly work right.
I have the following:
BLAH *ptr = NULL;
and Orca generates:
ldx #0
tay ;where did A come from????
bpl lab1 ;this will randomly get taken depending
phx ; on whatever A happens to be
lab1 pha
pla
sta ptr ;this value is unknown, not NULL
pla
sta ptr+2 ;this value is correct.
From meekins@cis.ohio-state.edu (Tim Meekins):
After a marathon 10 straight hours, I fixed the bad bug that has been driving
me nuts for two days. Well, my suspicions were founded, and Orca/C was the
culprit. I had a function that had no parameters but Orca was setting up a
stack frame for 6 bytes! Strange. I wrote macro which essentially did the
following before every call to my function:
asm { pha \
pha \
pha }
BTW, I tried prototyping with and with out a void.
[Follow up via email:]
It's the same void bug I've heard others complain, and even others reply back
and say that it doesn't exist. My program had nearly 20 voided functions, and
about 50 non-void functions. That particular function was the first function in
that source file, so maybe something didn't get initialized. I need to verify
if this is the problem by moving somewhere else and seeing what happens.
Basically, it creates a stack from for the local variables only, since there
were no parameters. Upon exiting it restores the local variables and then moves
the rtl back 6 bytes and removes an extra 6 bytes as though it were expecting 6
bytes of parameters. I tried using the void statement and not using it. Same
problem.
From meekins@cis.ohio-state.edu (Tim Meekins):
I wanted to see how many characters were in a string segment, so I subtracted
the start from the end to get the number of bytes. Orca did the subtraction,
then divided the result by 2. Why?
for example,
char *start,*p;
printf("%d bytes used", (int)(p - start));
Orca generated the following (pseudocode):
push start
sub p
div 2
From schwarts@cps.msu.edu (Steven Eric Schwartz):
I cannot seem to get longint variables to work and/or store values over
16384. As an example, this program (typing from memory):
int i;
longint j;
for(i = 0; i <= 15; i++) printf("i=%10d\n",1 << i);
yields as output:
1
2
4
.
.
.
16384
-32767
Any ideas on what's wrong?
===============================================================================
Known Orca/C 1.3 Bugs
From David.Empson@bbs.actrix.gen.nz (David Empson):
1: As I've already told Hisao Kuroda in E-Mail, the problem in this case
appears to be a bug with forward references to structures. This bug
(in ORCA/C 1.2 and 1.3) causes the compiler to choke if you refer to a
structure which hasn't been defined yet, within the definition of
another structure.
As soon as any code tries to access the forward-referenced structure, you
either get an 'illegal forward reference' error, or a compiler crash [I wasn't
aware of the latter until I tried this code].
Here is a simple example which demonstrates it:
struct a {
struct b *bptr;
};
struct b {
int i, j, k;
struct a *aptr;
};
int main(int argc, char *argv[]) {
struct a var1;
struct b var2;
var2.i = var2.j = var2.k = 0;
var2.aptr = &var1;
var1.bptr = &var2; /* COMPILER REPORTS ERROR HERE */
return 0;
}
The bug can be worked around by adding the line "struct b;" before the
definition of "struct a".
From benson@vuse.vanderbilt.edu (Paul BaJa Benson):
I think it is a compiler bug. Try this quick code:
{
unsigned long ivar = 0xFFFF;
printf("%ld\n", ivar+1);
}
Now, this code works when compiled without optimization (i.e. returns
0x10000), but set optimize to -1 and it returns a 0. This appears to be the
same bug Dave Empson is complaining about (or similar to it). 0xFFFF+1 works
in either situation, a variable must contain the FFFF.
From uerics@mcl.ucsb.edu (Eric D. Shepherd):
Well... I have a program written in ANSI C which does not run after being
compiled under Orca/C. I've already had to do some revisions to get it to
compile in the first place. But now I'm having strange stack problems:
Here's a basic outline of the functions in question:
void function1(...) {
.
.
x=function2();
.
.
while (...)
--(*wordary)= some expression (no function calls);
.
.
return x;
}
The problem is this: this routine crashes on exit. Using strategically
placed breakpoints, I found that the stack is in good condition immediately
before the while loop, but during the while loop, stuff is being pulled off the
stack -- including the return address from function1!! Does this make sense?
Why is this happening?
From David.Empson@bbs.actrix.gen.nz:
Library routine gets() doesn't write anything into a string if an empty line
is entered - it should be inserting a \0 terminator byte. Haven't tried
fgets() to see if it shares the problem.
From David.Empson@bbs.actrix.gen.nz:
Library routine fscanf() goes into an infinite loop if whitespace is used in
the scan string, and end of file is reached. It appears to be executing the
code: while (isspace(fgetc(fp)); and fgetc() is returning -1, which happens to
be regarded as a space. See the next bug.
From David.Empson@bbs.actrix.gen.nz:
Bug in isxxx() macros, hence a bug in the compiler: negative indexing
doesn't work if a variable is used to index into the array. Obviously this
isn't valid for a standard array, but it is quite legal to use a negative
offset from a pointer, writing it as p[-1]. e.g.
int a;
a = -1;
if (isspace(a)) ...
which expands to
a = -1;
if (((__ctype+1)[a] & __space)) ...
generates the code
lda #$FFFF
sta 7
ldx 7
lda _ctype + 1,x
This will index 65535 bytes past the end of the table, not to the first byte
in the table! isspace(-1) does generate the correct code: lda _ctype This bug
also applies to the large memory model - the index is treated as unsigned,
whether or not it was a signed variable. The following code doesn't work
either:
(*((__ctype+1)+(c)) & __space)
However, the following does work (since a negative index is no longer used),
but generates less efficient code: (__ctype[c+1] & __space) It appears that the
buggy code is only generated if the pointer is an array or an array plus an
offset. If a pointer variable is involved, different code is used, which also
has a bug (see #4). Optimization was off (#pragma optimize 0) at the time this
and the next bug were noticed.
It appears that Mike forgot or overlooked the fact that LDA absolute,X
DOESN'T wrap within the same bank - it moves on to the next bank.
From David.Empson@bbs.actrix.gen.nz:
Unrelated bug in pointer addition in the SMALL model: adding an int variable
or numeric constant to a pointer doesn't update the high word of the pointer,
resulting in wraparound within the same bank. Adding a long to a pointer is
OK. There is no problem in the large model - the integer is sign extended
before the addition. e.g.
char *p;
int a;
p = (char *) 0x02FFFEL;
a = 2;
p += a;
The following code is generated:
pei $0002
pei $FFFE
lda 1,s
sta 07
lda 3,s
sta 09
pla
pla
lda #$0002
sta 0B
pei 09
pei 07
lda 0B
clc
adc 1,s
sta 1,s
lda 1,s
sta 07
lda 3,s
sta 09
pla
pla
This will result in the pointer containing 0x020000, not 0x030000. This bug
has a side effect: negative indexing WILL work properly in this case. Note:
everything should be fine PROVIDED no data structure crosses a bank boundary.
There is no mention of this in the manual (it only says that no data structure
should exceed 64k), and I don't know if malloc() requests memory with
AttrNoCross set. This isn't a sufficient requirement though, since a toolbox
call might return a data structure that crosses a bank boundary (e.g. the
resource manager might load a resource which crosses a bank boundary).
From David.Empson@bbs.actrix.gen.nz:
The compiler locked up while trying to compile this:
b = ((*(__ctype+1)(a) & __space));
It should have reported a syntax error or something.
From David.Empson@bbs.actrix.gen.nz:
Declaring a pointer to a previously undefined structure type causes the
compiler to crash and/or produce an "illegal forward reference" error when
structure elements are accessed through the pointer. [Already reported to Byte
Works.]
From David.Empson@bbs.actrix.gen.nz:
Toolbox glue code FWEntry passes parameters in the wrong order (should it be
declared 'pascal'?).
From David.Empson@bbs.actrix.gen.nz:
Declared a local char * variable with the
same name as a function, and tried to call the function. The compiler hung.
char *filesys(word);
void show_usage(VolumeRecGS *vrec) {
char *filesys;
my_printf("(%s)", filesys(vrec->fileSysID));
}
From David.Empson@bbs.actrix.gen.nz:
Incorrect code is generated for the following:
osrc.resourceNumber = odest.resourceNumber += 1;
The address of osrc.resourceNumber is not pushed onto the stack, put the code
attempts to pull it off to do the second store operation.[new bugs since letter
sent]
From David.Empson@bbs.actrix.gen.nz:
No library glue code for WriteTimeHex call.
From dave@mystie.webo.dg.com:
Declaring
#define A B
#define B A
A;
will cause the compiler to hang.
From dave@mystie.weob.dg.com:
Declaring:
#define A(x) printf(#x)
And then using it as A(foo) yields A("foo"). However, using it as A("foo")
should yield A(""foo"") but instead yields something like A(")").
From dempson@swell.actrix.gen.nz (David Empson):
1. [Library] If gets() is used and a blank line is entered, nothing
is written into the target string (a null terminator should be
written into the first byte). I haven't tried fgets(). [Bug
also in 2.0]
2. [Library] The FWEntry glue code passes the parameters in the
wrong order to the toolbox call, resulting in a crash. [Bug also
in 2.0]
[Ed.- The following have been fixed in 2.0]
1. [Library] fscanf(), scanf() and sscanf() hung if end of input was
reached while skipping whitespace.
2. isspace(var) where var contains -1 (and the other classification
macros). ORCA/C 1.3 indexed 65535 bytes past the array and
returned a random result. The same applied to any expression of
the form *(pointer + var), pointer[var] or array[var], where var
contained a negative value.
3. In the small memory model, adding an integer constant to a
pointer didn't update the high word of the pointer. This
prevented any data structure crossing a 64k boundary (including
anything that the toolbox returned to the program, such as a
block from NewHandle, or a resource).
4. Compiler hung when compiling the following (erroneous)
expression:
b = ((*(__ctype+1)(a) & __space));
ORCA/C 2.0 reports several errors (including "Compiler bug").
5. Wrong code generated for the following (osrc and odest are
OpenRecGS structures).
osrc.resourceNumber = odest.resourceNumber += 1;
(i.e. increment resource number for destination file and copy it
to the source file parameter block).
The compiler didn't push the address of the first variable, then
tried to pull it off the stack later, causing stack corruption.
6. Hex and octal constants from 0x8000 to 0xFFFF were treated as
signed long, rather than unsigned int.
7. [Library] gmtime() and localtime() returned the wrong date if the
time was exactly midnight on the first of a month.
From Reade Glyn Devin (glyn@cs.UAlberta.CA):
Although it _should_ work, both Orca/C 1.3 and 2.0 have some problems.
Try these in order:
1. try ...(exact_match ? NULL : (unitptr) n)))
2. try ...(exact_match ? (unitptr) NULL : (unitptr) n)))
3. try pulling the above fragment out of the if() statement
as a separate function.
From Sameer Parekh (zane@genesis.MCS.COM) writes:
NULL, as usual, is (void *)
n is an array, with the declaration:
unit n[MAX_UNIT_PRECISION];
userid_match is a function with the header:
static boolean userid_match(char *userid, char *substr,unitptr n);
if (userid_match((char *)userid0, (char *) userid,
(exact_match ? NULL : n)))
^ The operation cannot be performed on operands of the type given
^ The operation cannot be performed on operands of the type given
===============================================================================
Known Orca/C 2.0 Bugs
From jmk3@crux3.cit.cornell.edu (Jay Krell):
I reported a problem in ORCA/Pascal that remains in C 2.0. The CDev glue
code allocates a new ID every time your CDev is loaded.
I've seen wierd results from stdio, like lines being output out of order.
Mike said this is due to buffering in stdio and the shell.
From dempson@swell.actrix.gen.nz (David Empson):
1. [Library] If gets() is used and a blank line is entered, nothing
is written into the target string (a null terminator should be
written into the first byte). I haven't tried fgets(). [Bug
also in 1.3]
2. [Library] The FWEntry glue code passes the parameters in the
wrong order to the toolbox call, resulting in a crash. [Bug also
in 1.3]
3. Compiler doesn't catch an error in the following. I accidentally
used the same name for a global function and local variable, and
tried to call the function:
char *filesys(word);
void show_filesys(word fs) {
char *filesys;
printf("(%s)", filesys(fs));
}
The compiler generates code which calls the character pointer!
In version 1.3, the compiler hung when trying to compile the
show_filesys function.
4. The parameter structure for the WriteTimeHex call has its fields
in the wrong order. In version 1.3, misctool.h claimed that
WriteTimeHex was a library routine, but no glue code was provided
to call the toolbox, resulting in a linker error.
5. [Shell or Library] Strange problems with standard input.
(a) Programs compiled with ORCA/C 1.3 work fine in Shell 2.0.0.
(b) Programs compiled with ORCA/C 2.0.0 ignore input redirection in
Shell 2.0.0. See also item 6.
(c) Programs compiled with ORCA/C 1.3 or 2.0.0 hang with Shell 2.0.1
if input redirection is used. The computer appears to be stuck
in a loop inside GS/OS.
6. [Shell or Library] Bug in handling input from .CONSOLE (Shell
2.0.0 and 2.0.1).
If output redirection is used with a simple "copy standard in to
standard out" program, some CR characters are sent to the wrong
destination.
When the .CONSOLE formatted read routine is used, the program
must output a CR to bring the cursor down to the next line. The
CR is being sent to the current output device or file, not to
.CONSOLE. This means that extra CRs are written to the output
file, and the input lines are tacked on the end of each other.
This doesn't happen if the program is compiled with ORCA/C 1.3.
7. [Shell 2.0.1 or ORCA/C 2.0.0] Either of these is causing frequent
crashes - I have to reboot after a few compiles. No problem when
going back to Shell 2.0.0 and ORCA/C 1.3. Symptom is random
memory location getting set to zero, usually in GS/OS or a
previously loaded program (such as the Linker).
8. [Compiler] Serious bug in automatic type conversions.
If an unsigned integer VARIABLE is added to a long, the compiler
generates code to sign extend the unsigned integer. It should be
setting the high word to zero, not the sign extension of the low
word. Here is an example:
unsigned int u = 32768U;
printf("65536 + 32768 = %lu\n", 65536L + u);
The program should print 98304, but it prints 32768!
The program works correctly if an unsigned constant is used. I
haven't tried more complex expressions than a constant or a
single variable.
From Reade Glyn Devin (glyn@cs.UAlberta.CA):
Although it _should_ work, both Orca/C 1.3 and 2.0 have some problems.
Try these in order:
1. try ...(exact_match ? NULL : (unitptr) n)))
2. try ...(exact_match ? (unitptr) NULL : (unitptr) n)))
3. try pulling the above fragment out of the if() statement
as a separate function.
--
Bruce <I-wont-give-my-middle-initial> Kahn Phone (508) 870-6488
NSDD / OpenLAN FAX (508) 898-4212
Data General Corporation, Westboro MA USA INet: Bruce_Kahn@dg.com
Standard disclaimers still apply, even where prohibited by law...