DIRVERT.EXE: Windows 95, long file names, and MS-DOS 8.3 filenames.

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Today we set the wayback machine (kids, ask your grandparents about Rocky and Bullwinkle) to the year of 1996

But first, I digress.

Some of this will be wrong, but I hope it is at least “directionally accurate.” Feel free to correct (or nit pick, if you prefer) me in the comments.

In 1981, IBM entered the personal computer market with the original IBM-PC. You know the one. It had a cassette port on the back and booted into a Microsoft BASIC. If you were rich enough, you had one with a floppy disk drive and used PC-DOS.

PC-DOS was “created” by Microsoft (kid’s, ask your parents about how Microsoft made a deal with IBM to create a disk operating system for their new computer, then bought an existing disk operating system and sold it to IBM). A bit later, PC-DOS was sold by Microsoft under the name MS-DOS for use with non-IBM-made IBM PC clones.

Thank you for coming to my computer history talk.

8.3: The number that defined a (computer) generation

PC and MS-DOS used 8 characters for the filename with a 3 character extension: FILENAME.BAS, FILENAME.TXT, FILENAME.EXE, etc. This matched the filename convention that the Radio Shack Color Computer Disk Extended Color BASIC (aka, RS-DOS) used, though before PC-DOS, Microsoft used “BIN” for the extension of a binary versus “EXE” and “COM” on the PC-DOS machines. (Maybe BIN was Microsoft’s choice, and EXE was the choice of the original designers of what became known as PC-DOS? I’d look it up, but this has no relevance to this topic at hand.)

Microsoft Windows started out as basically a graphical program that ran from MS-DOS and gave mouse support and a way to run programs. The PCs still booted up into MS-DOS then “ran” the windows program.

Windows 95 and “LFNs”

Windows 95 was a huge change. It altered how “multitasking” would work and, for the first time, allowed long file names on a PC. Instead of being limited to 8.3 for a filename, they could now be up to 255 characters long, with mIxEd CaSe. From the wiki, I see this is called LFN:

https://en.wikipedia.org/wiki/Long_filename

If you created a long filename from Windows 95, it created a backwards compatible 8.3 filename for legacy DOS programs to use. “LongFileName.txt” would be written out as “LONGFI~1.TXT”. The first 6 characters were used, then a tilde and a number.

If you made an 8.3 filename under Windows 95, it would (mostly) work like you expect. Creating “FILENAME.TXT” resulted in “FILENAME.TXT” (and be shown as “Filename.txt” in Windows 95, even if you typed it in all uppercase, for some reason)…

However, some filenames got the “~1” that did not need to. The “~1” should have one been necessary if there was another conflicting file in the directory that matched the first 8 characters and three character extension.

At the time, I was using an MS-DOS C compiler called Power-C. It was not LFN-aware so it only dealt with the 8.3 short filenames. A file like “INDEX.HTML” would become “INDEX~1.HTM” since it had a 4-character extension. But, it could have just become “INDEX.HTM” for the short name (provided there was not another filename that conflicted with).

I got tired of having to deal with “~1” in my website filenames and figured out you I rename them away and make that “INDEX~1.HTM” show up as “INDEX.HTM” (while the long filename was still “INDEX.HTML).

  • Long filename “index.html” shows up as “INDEX~1.HTM”. rename index~1.htm index.htm
  • New filename is “index.htm”. rename index.htm index.html
  • New new filename is “index.html” for long filenames, and “index.htm” for short ;)

Today I bet the wiki entry would explain why it worked that way, but back in 1996 it was just a frustrating mystery.

DIRVERT.EXE

Of course I automated this process… I wrote DIRVERT.EXE, a simple command line program that would loop through a directory and RENAME things to remove the “~1” where possible. Here is what the comments said:

Windows 95 DOS directory converter thingie filter. Takes a Win 95 | directory and renames the 8.3 extentions like they should be… Maybe.

The problem: Pre-Win95 DOS programs don’t know how to deal with long filenames, which end up as “FILENA~1.TXT” to the DOS side. The only time this should be needed is _if_ the DOS name contains spaces or is a duplicate of another truncated filename. ie, “filename1.txt” could be shown as “FILENAME.TXT” but if a “filename2.txt” exists in the same dir, it would have to be “FILENA~2.TXT”. There is no reason for files such as “index.html” to have to be “INDEX~1.HTML”, so this program tries to fix those by renaming them.

To test: “copy con filename.txt”. If you then rename this to a long name with the same first 8.3 characters the same, the DOS name WILL stay the same. ie, “FILENAME.TXT … filenamethatislonger.txt_sothere” in the DIR listing. If you rename and change any of the characters, such as renaming to “filename.text” it will appear as “FILENA~1.TEX” even though it _could_ be “FILENAME.TEX” just fine. This is, in my opinion, a bug in the approach Microsoft took to the filenames. In the above example, this filter will do two renames to try to fix it back. First, it finds the short version of the Win95 name (ie, “filename.tex”) and it renames the DOS name to that. Then it renames it back to the long version. As long as there are no duplicates (those will generate rename errors and just be left alone), this should work just fine. For example, assume:

INDEX~1.HTM – index.html <- current name

this filter does: rename index~1.htm index.htm

INDEX.HTM – index.htm <- new name

then it does: rename index.htm index.html

INDEX.HTM – index.html <- final name, ~1 now gone :)

This won’t work 100% of the time. If there was also a file in there that was called “index.html2”, it would try to make it “index.htm” which would fail since there is already one. So, it would be left alone. Also, any files that might need a space in them ( AFILE.TXT — “a file.txt”) can not be fixed either. BUT, it seems that most anything else can. Note that when you run this, it may be normal to see some errors return from failed renames. No big deal.

Since this is just a filter, it poses no threat to damaging the directory other than renaming files, which is the only shell command it forks.

I used this program for years – right up until the end of my PC era (I switched full-time to a Macintosh in 2001). It is pointless and useless today, but I thought I’d share it. Here it is on GitHub, along with various other “stupid” utilities I wrote for my own use:

https://github.com/allenhuffman/oldcstuff/tree/main/DIRVERT

It appears I updated until 1998.

As I look at it today, I see it had a conditional compile for OS-9000, which was Microware’s OS-9 RTOS that ran on x86 PC hardware. I am unsure why this would have even been useful — perhaps for dealing with MS-DOS disks when reading them under OS-9000 using the PCF (PC File System) file manager? Ah, the things I have forgotten…

These were fun times. Until next time…

/*---------------------------------------------------------------------------|
| Dirvert V1.08 by Allen Huffman (allenh@pobox.com)                          |
| Copyright (C) 1996,97 by Sub-Etha Software                                 |
|----------------------------------------------------------------------------|
| Syntax: dir {directory} | dirvert -z                                       |
|         dirvert {directory}                                                |
|         dirvert -z < {dirfile.txt}                                         |
| Usage : Win95 directory long filename fixer (and filter).                  |
| Opts  : -? or /? = display this message                                    |
|         -L or /L = lowercase directory filenames.
|         -Z or /Z = read directory output from standard input (filter).     |
|----------------------------------------------------------------------------|
| NOTE:  It seems this does not work under OSR2!  Any ideas why it doesn't?  |
|                                                                            |
|       Windows 95 DOS directory converter thingie filter.  Takes a Win 95   |
| directory and renames the 8.3 extentions like they should be...  Maybe.    |
|                                                                            |
| The problem:  Pre-Win95 DOS programs don't know how to deal with long      |
| filenames, which end up as "FILENA~1.TXT" to the DOS side.  The only time  |
| this should be needed is _if_ the DOS name contains spaces or is a         |
| duplicate of another truncated filename.  ie, "filename1.txt" could be     |
| shown as "FILENAME.TXT" but if a "filename2.txt" exists in the same dir,   |
| it would have to be "FILENA~2.TXT".  There is no reason for files such as  |
| "index.html" to have to be "INDEX~1.HTML", so this program tries to fix    |
| those by renaming them.                                                    |
|                                                                            |
| To test:  "copy con filename.txt".  If you then rename this to a long      |
| name with the same first 8.3 characters the same, the DOS name WILL stay   |
| the same.  ie, "FILENAME.TXT ... filenamethatislonger.txt_sothere" in the  |
| DIR listing.  If you rename and change any of the characters, such as      |
| renaming to "filename.text" it will appear as "FILENA~1.TEX" even though   |
| it _could_ be "FILENAME.TEX" just fine.  This is, in my opinion, a bug in  |
| the approach Microsoft took to the filenames.  In the above example, this  |
| filter will do two renames to try to fix it back.  First, it finds the     |
| short version of the Win95 name (ie, "filename.tex") and it renames the    |
| DOS name to that.  Then it renames it back to the long version.  As long   |
| as there are no duplicates (those will generate rename errors and just be  |
| left alone), this should work just fine.  For example, assume:             |
|                                                                            |
| INDEX~1.HTM - index.html     <- current name                               |
|      this filter does:   rename index~1.htm index.htm                      |
| INDEX.HTM   - index.htm      <- new name                                   |
|      then it does:       rename index.htm index.html                       |
| INDEX.HTM   - index.html     <- final name, ~1 now gone :)                 |
|                                                                            |
| This won't work 100% of the time.  If there was also a file in there that  |
| was called "index.html2", it would try to make it "index.htm" which would  |
| fail since there is already one.  So, it would be left alone.  Also, any   |
| files that might need a space in them ( AFILE.TXT --- "a file.txt") can    |
| not be fixed either.  BUT, it seems that most anything else can.  Note     |
| that when you run this, it may be normal to see some errors return from    |
| failed renames.  No big deal.                                              |
|                                                                            |
| Since this is just a filter, it poses no threat to damaging the directory  |
| other than renaming files, which is the only shell command it forks.       |
|                                                                            |
| COMPILING NOTE:  This source defaults to compile in "debug mode" unless    |
| you pass in/define "NODEBUG", ie "cc -dNODEBUG dirver.c" to generate the   |
| actual "working" version.                                                  |
|----------------------------------------------------------------------------|
| Ed #    Date      What Happened                                       Who  |
|  --   --------    ------------------------------------------------    ---  |
|  01   96/09/25    Created                                             ach  |
|  02   96/10/06    Bug fix for filenames with spaces in them           ach  |
|  03   96/10/09    Fixed function style mistakes (see comments)        tc   |
|                   Added proper include file for string functions      tc   |
|                   Fixed no command line option bug                    tc   |
|  04   96/10/09    Fixed "fix" to no command line option bug to make        |
|                   it work again like it did in the first place :)     ach  |
|  05   96/10/23    Debug updates, startup output, and bacon.           ach  |
|  06   96/12/19    Updated comments, "-z" or "auto" operation.         ach  |
|  07   97/08/20    Added "-l" lowercase mode.                          ach  |
|  08   98/01/29    Use "stdout" instead of "stderr" now for DOS.       ach  |
|---------------------------------------------------------------------------*/
 
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
 
void usage(void);
 
#define MAXLEN 80 /* max dir line length to accept */
#define WINLEN 80 /* won't work on win names longer than this :) */

#ifndef TRUE
#define TRUE 1
#endif
#ifndef FALSE
#define FALSE 0
#endif
 
int main( int argc, char *argv[] )
{
    char    line[MAXLEN];
    char    dosname[13];
    char    newname[13];
    char    win95name[WINLEN];
    char    cmd[160];
    int     count = 0;
    int     i,j;
    char    *ptr;
    char    doit = FALSE;
    char    lowerit = FALSE;

    for ( i=1 ; i<argc ; i++ ) {
        if ( argv[i][0] == '-' || argv[i][0] == '/' ) { /* option found! */
            switch( toupper(argv[i][1]) ) {
                case '?': /* request for help? */
                case 'H':
                    usage();
		case 'L':
                    lowerit = TRUE;
                    break;
                case 'Z': /* filter mode? */
                    doit = TRUE;
                    break;
                default:
                    fputs( "\nUnrecognized option: ", stdout );
                    fputs( argv[i], stdout );
                    fputs( "\n", stdout );
                    usage();
            }
        } else { /* must be a directory path? */
            strcpy( cmd, "dir " );
            strcat( cmd, argv[i] );
#ifdef _OS9000
            strcat( cmd, " ! " );
#else
            strcat( cmd, " | " );
#endif
            strcat( cmd, argv[0] );
            strcat( cmd, " -z" );
            if ( lowerit == TRUE ) strcat( cmd, " -l" );
#ifndef NODEBUG
            fprintf( stdout, "--- fork: %s\n", cmd );
#endif
            i = system( cmd ); /* forgive me, father, for I have sinned... */
            return( i );    /* get outta here */
        }
    }
    if ( doit != TRUE ) { /* if we aren't in auto mode, we can bail */
        usage();
    }

    fputs( "dirvert:  Processing directory output.\n", stdout );
 
    /*--------------------------------------------------|
    | Read as many lines as we can from standard input. |
    |--------------------------------------------------*/
    while( !feof( stdin ) ) {
        fgets( line, MAXLEN+1, stdin );
 
        if ( strlen(line)<44 ) continue;        /* ignore short lines */
 
        line[strlen(line)-1] = '\0';            /* convert CR into a NULL */
 
        /*----------------------------------------------------|
        | Check to see if the line contains filename entries. |
        |----------------------------------------------------*/
        if (( line[39] == ':' ) && ( line[15] != '<' )) {

            if ( lowerit != TRUE ) { /* skip bad names only if not lowerit mode */
                i = strcspn( line, "~" );           /* extended name? */
                if ( i == strlen(line) ) continue;  /* no, so skip */
            }
 
            /*--------------------------------|
            | Build existing DOS name string. |
            |--------------------------------*/
            i = strcspn( line, " " );           /* find first space */
            strncpy( dosname, line, i );        /* copy up to the space */
            dosname[i] = '\0';                  /* NULL terminate */
            strcat( dosname, "." );             /* append "." */
            strncat( dosname, line+9, 3 );      /* append extension */

            /*---------------------------|
            | Build the new name string. |
            |---------------------------*/
            ptr = line + 44;                    /* point to long filename */
            strncpy( win95name, ptr, WINLEN );  /* copy it over */

            if ( lowerit == TRUE ) {
                for ( i=0; i<strlen(win95name) ; i++ ) {
		    win95name[i] = (char)tolower( win95name[i] );
                }
            }

            i = strcspn( ptr, "." );            /* find extension */
            if ( i > 8 ) {                      /* extension past first 8? */
                j = 8;                          /* yes, crop there */
            } else {
                j = i;                          /* no, crop at extension */
            }
            strncpy( newname, ptr, j );         /* copy filename */
            newname[j] = '\0';                  /* NULL terminate */
 
            strcat( newname, "." );             /* append "." */
 
            if ( i < strlen(ptr) ) {            /* if it has an extension, */
                strncat( newname, ptr+i+1, 3 ); /* append it */
            }
#ifndef NODEBUG
            fprintf( stdout, "DOSname : %s\n", dosname );
            fprintf( stdout, "WINname : %s\n", win95name );
            fprintf( stdout, "NEWname : %s\n", newname );
#endif
 
/* this check could and should be done earlier somehow since none of this
   needs to be done of the resulting 8.3 filename is still invalid for DOS,
   such as containing spaces */
 
            /* if new name contains a space, it's not valid so ignore */
            if ( strcspn( newname, " " ) != strlen(newname) ) {
#ifndef NODEBUG
                fprintf( stdout, "--- This file cannot be changed.\n\n");
#endif
                continue;
            }
 
            /*--------------------------|
            | Fork the rename commands. |
            |--------------------------*/
            strcpy( cmd, "rename " );           /* build command line */
            strcat( cmd, dosname );
            strcat( cmd, " " );
            strcat( cmd, newname );
#ifndef NODEBUG
            fprintf( stdout, "--- fork: %s\n", cmd );
#else
            system( cmd ); /* forgive me, father, for I have sinned... */
#endif
            strcpy( cmd, "rename ");            /* build command line */
            strcat( cmd, newname );
            strcat( cmd, " \x22" );
            strcat( cmd, win95name );
            strcat( cmd, "\x22" );
#ifndef NODEBUG
            fprintf( stdout, "          %s\n\n", cmd );
#else
            system( cmd );
#endif
            count++;                            /* increment counter :) */
        }
    }
#ifndef NODEBUG
    fprintf( stdout, "%d directory entries processed.\n", count );
#endif
 
    return 0;
}
 
void usage(void)
{
    fputs( "\nDirvert V1.08 by Allen Huffman (allenh@pobox.com)\n", stdout );
    fputs( "Copyright (C) 1996-1998 by Sub-Etha Software\n\n", stdout );

    fputs( "Syntax: dir {directory} | dirvert -z\n", stdout );
    fputs( "        dirvert {directory}\n", stdout );
    fputs( "        dirvert -z < {dirfile.txt}\n", stdout );
    fputs( "Usage : Win95 directory long filename fixer (and filter).\n", stdout );
    fputs( "Opts  : -? or /? = display this message.\n", stdout );
    fputs( "        -L or /L = lowercase directory filenames.\n", stdout );
    fputs( "        -Z or /Z = read directory output from standard input (filter).\n", stdout );
#ifndef NODEBUG
    fputs( "\n*** DEBUG VERSION ***\n", stdout );
#endif

    exit(0);
}

GFXFLIP2.BAS – scrolling a PMODE 4 screen.

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In a post to the CoCo mailing list, Juan Castro said this:

“… I was trying to comment on this post – https://subethasoftware.com/2026/05/19/where-does-cocos-pmode-graphics-memory-start/#comment-42465 – and I was trying to say this:

In GFXFLIP.BAS, instead of the ‘flip through them’ code, try this:

1000 ‘GO DO THE ROTATION
1010 GOTO 1050
1020 FOR P=2 TO 5:GOSUB 1070:PMODE 4,P:SCREEN1:NEXT
1030 IF INKEY$=”” THEN 1030
1040 FOR P=4 TO 1 STEP -1:GOSUB 1070:PMODE 4,P:SCREEN1:NEXT
1050 IF INKEY$=”” THEN 1050
1060 GOTO 1020
1070 FOR TT=0 TO 40:NEXT:RETURN

– Juan Casto via CoCo Mailing list

So let’s take a look and see what it does. Replacing my code from 70-110 with a GOSUB to this routine gives us this:

0 'GFXFLIP2.BAS
1 'Juan Castro
10 PCLEAR 8
15 ' DRAW FIRST SCREEN
20 PMODE 4,1:PCLS:SCREEN 1,1
30 CIRCLE(128,96),50
35 ' DRAW SECOND SCREEN
40 PMODE 4,5:PCLS:SCREEN 1,1
50 LINE (10,10)-(245,171),PSET,B
60 ' FLIP THROUGH THEM
70 GOSUB 1000
110 GOTO 70

1000 'GO DO THE ROTATION
1010 GOTO 1050
1020 FOR P=2 TO 5:GOSUB 1070:PMODE 4,P:SCREEN1:NEXT
1030 IF INKEY$="" THEN 1030
1040 FOR P=4 TO 1 STEP -1:GOSUB 1070:PMODE 4,P:SCREEN1:NEXT
1050 IF INKEY$="" THEN 1050
1060 GOTO 1020
1070 FOR TT=0 TO 40:NEXT:RETURN

…and when you run it, you will see it takes the PMODE 4 screen (which is 4 blocks of graphics memory) then goes in a loop where it starts the displayed screen at block 2, then 3, then 4, then 5. With a small delay in-between each change, it shows (initially) the first PMODE 4 screen (blocks 1-4), then it toggles the memory displayed through each block until the start is block 5. This makes the screen appear to scroll up in chunks (1/4th of the screen each time). The process is then reversed to scroll back down.

Neat trick.

C DEBUG printf macros and while(0) loops?

3 Replies

Trigger warning: This post will show some examples that “just work” and “just work fine” but may not be correct. I am posting this because I’d like to hear how you do this. Show us all a much better way.

I was today years old when I “learned” (possibly incorrectly) something (possibly) wrong that I have seen “always” done in the C debug print macros I’ve encountered.

Debug Macros: Basic

To enabled or disable debugging printf output, I often see macros like this:

#if defined(DEBUG_ENABLED)
    #define DEBUG_PRINTF(...) printf(__VA_ARGS__)
#else
    #define DEBUG_PRINTF(...)
#endif

This allows debug printfs to appear in code when debug is enabled or not exist at all when debugging is not enabled:

DEBUG_PRINTF ("Starting up system...\n");

Debug Macros: Intermediate

There is a fancier version of this macro. Instead of just using a #define DEBUG_ENABLED (present means enabled), the code uses a #define set to a number. That number is used to tell when to include the debug print:

#if (DEBUG_LEVEL > 1)
    DEBUG_PRINTF ("tlv_parse_ptr (0x%x, %u, 0x%x)\r\n",
                  (unsigned int)((uintptr_t)p_buf),
                  buf_size, (unsigned int)(uintptr_t)p_tlv_table);
#endif

If you “#define DEBUG_LEVEL 1”, the above code will not be part of the program. If the DEBUG_LEVEL is defined to be greater than 1, it will.

That also “just works” but makes the source code messier with all those extra “#if (DEBUG_LEVEL > x)” and #endif” lines.

Debug Macros: Advanced

This leads to the even fancier version which builds the level check into the macro itself. Those get used like:

DEBUG_PRINTF (2, "This will only print at level 2 and above.\n");

The downside of that approach is that a #define macro cannot contain preprocessor #if to check another #define macro inside of it. You can NOT do this:

#define DEBUG_PRINTF(level, ...) \
    #if (level < DEBUG_LEVEL)     \
        printf (__VA_ARGS__);    \
    #endif

Instead, the macro must have actual C code with an “if” and such, which embeds that extra code into your program:

#define DEBUG_PRINTF(level, ...) \
    if (level < DEBUG_LEVEL)     \
    {                            \
        printf(__VA_ARGS__);     \
    }

The problem with this is that even with debugging disabled (where you may not want the bulk of printf included in your program) it will still include all that macro C code in your program. With DEBUG_LEVEL enabled:

#define DEBUG_LEVEL 1
DEBUG_PRINTF(0, "Starting system up...\n")

…you get:

if (0 < 1)
{
    printf ("Starting system up...\n");
}

But if you do not want debugging, and set the debug level to 0, you’d get this:

#define DEBUG_LEVEL 0
DEBUG_PRINTF(0, "Starting system up...\n")

if (0 < 0)
{
    printf ("Starting system up...\n");
}

That is more like using some syslog() library that is always present, even if you are logging things below the level that go to the system log. But the point of using macros is so you can have the code NOT included at all when you don’t want to use it.

A bit more work is needed, which leads to something like this:

#define DEBUG_LEVEL 1

#if (DEBUG_LEVEL > 0)
    #define DEBUG_PRINTF(level, ...) \
        if (level < DEBUG_LEVEL)     \
        {                            \
            printf(__VA_ARGS__);     \
        }
#else
    #define DEBUG_PRINTF(level, ...)
#endif

Now we get what we want when we want it, and get nothing when we don’t.

But that’s really not important to this story…

The above macros are things that “just work” which may explain why I see things like that often.

But today I learned they are actually not fine. Our good robot friend Copilot “taught” me that the macro above should really look like this, with the code wrapped in something like a do/while:

#define DEBUG_LEVEL 1

#if (DEBUG_LEVEL > 0)
    #define DEBUG_PRINTF(level, ...) \
        do {                         \
            if (level < DEBUG_LEVEL) \
            {                        \
                printf(__VA_ARGS__); \
            }                        \
        } while (0)
#else
    #define DEBUG_PRINTF(level, ...) \
        do { } while (0)
#endif

I found it odd that it suggested an empty “do / while(0)” and had to research this a bit. You may already know this, but since I had never seen it, I was unaware of the issue(s). Here is what Copilot says about this:

  1. It forces the macro to behave like ONE statement
  2. It makes the trailing semicolon safe
  3. It prevents `if/else` breakage
  4. It prevents partial execution
  5. It compiles away to nothing when disabled

I could argue with the robot about #5 since I have certainly used compiler that where happy to leave in unused variables and functions without even a warning about them. ;-)

Of that list, #3 is really the only oneI think that applies to this specific debug macro. As Copilot points out, this example will not work with the non-do/while version of the macro:

if (flag)
    DEBUG_PRINTF(1, "msg");
else
    do_other_thing();

That would translate into this:

if (flag)
    if (level < DEBUG_LEVEL) \
    {                        \
        printf(__VA_ARGS__); \
    }
    ;
else
    do_other_thing();

And that won’t compile.

However, the coding standards where I have worked all forbid if/else usage like that. Without having curly braces around the statements, someone might later introduce a bug like this:

if (flag)
    DEBUG_PRINTF(1, "msg");
else
    do_other_thing();
    this_will_always_run();

…because without the braces, the compiler is basically seeing the code like this:

if (flag) DEBUG_PRINTF(1, "msg"); else do_other_thing();
this_will_always_run();

The curly braces ensure the code runs the statements as intended.

If you use that original “bad” macro with the same code but add braces:

if (flag)
{
    DEBUG_PRINTF(1, "msg");
}
else
{
    do_other_thing();
}

It looks like this, and works fine:

if (flag)
{        
    if (level < DEBUG_LEVEL) \
    {                        \
        printf(__VA_ARGS__); \
    }
    ;
}
else
{
    do_other_thing();
}

But, the addition of the “useless” do/while loop (or similar logic) around the macro would make it work with the non-curly brace version:

if (flag)
    do {                         \
        if (level < DEBUG_LEVEL) \
        {                        \
            printf(__VA_ARGS__); \
        }                        \
    } while (0)
    ;
else
    do_other_thing();

Try it yourself.

Here is a sample you can test in a web browser:

https://onlinegdb.com/KpTEGVsg7

Or, here is the code:

#include <stdbool.h>
#include <stdio.h>

#define DEBUG_LEVEL 1

#if (DEBUG_LEVEL > 0)
    #define DEBUG_PRINTF(level, ...) \
        do {                         \
            if (level < DEBUG_LEVEL) \
            {                        \
                printf(__VA_ARGS__); \
            }                        \
        } while (0)
#else
    #define DEBUG_PRINTF(level, ...) \
        do { } while (0)
#endif

void do_other_thing () { return; }

int main()
{
    bool flag = true;

    if (flag)
        DEBUG_PRINTF (0, "Hello\n");
    else
        do_other_thing();

    return 0;
}

Here’s where you come in…

What have you seen? I know modern PC/Linux/Mac environments don’t care about a few extra K of code space, so far fancier debug logging is likely common. But for embedded space, have you ran into the macros like I have, or do you always see the “do / while(0)” ones or something else?

Comment away…

Until next time…

Stupid VARPTR tricks

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A recent e-mail exchange with CoCo user Torsten D. inspired me to try something stupid.

The Radio Shack Color Computer gained the VARPTR command in the Extended BASIC ROM. As has been discussed here many times, VARPTR returns the memory location of a 5-byte variable descriptor. There are actually seven bytes total, since the two bytes before the VARPTR address is the two byte variable name.

0 'MAKE42-1.BAS
10 DIM A,B,C:A=42:B=VARPTR(A)
20 FOR C=B-2 TO B+4
30 PRINT C,PEEK(C):NEXT

Running this will show the full seven bytes required to represent the A variable:

VARPTR is returning 9792 as the location of the start of the 5-byte floating point value for the numeric A variable. The two bytes before it are the variable name: 65 (uppercase “A”) and 0 (no second letter). Had the variable name been “AA” that would be 65 65.

The five bytes of 134, 40, 0, 0 and 0 are the floating point representation of 42.0.

If you got the VARPTR address of one numeric variable, and of a second numeric variable, you could just copy those five bytes and clone the variable value:

0 'MAKE42-2.BAS
10 DIM A,B,I
20 A=42:B=0
30 PRINT "A =";A,"B =";B
40 FOR I=0 TO 4:POKE VARPTR(B)+I,PEEK(VARPTR(A)+I):NEXT
50 PRINT "A =";A,"B =";B

If you run this, you will see output showing “A = 42” and “B = 0”, followed by output showing “A = 42” and “B = 42”. The code in line 40 copies the five bytes (offset 0 to 4) from the VARPTR address of variable A into the VARPTR address of variable B.

But why would you want to do that?

B=A is would have been much simpler.

Here’s where it gets more stupid…

And if you can clone a variable, you could also change a variable if you knew what five bytes represented the number you wanted. In the first example, we saw that the five bytes that represent 42.0 are 134, 40, 0, 0 and 0. Knowing that, you could do something like this:

0 'MAKE42-3.BAS
10 DIM A,V
20 PRINT "A =";A
30 V=VARPTR(A):POKE V,134:POKE V+1,40: POKE V+2,0:POKE V+3,0:POKE V+4,0
40 PRINT "A =";A

The “DIM” is not really needed in this example, but it is a good habit to get into if you want to control the order your variables exist in the variable table. Variables that need to be the fastest should be at the front of the list, and variables use infrequently or ones that can be slow can be at the end.

But I digress.

The point of this stupid code is that an “A” variable is created with 0 as its default value, then VARPTR is used to see where that variable is in memory. Five POKE commands put that floating point representation of 42.0 into that variable’s storage… So when you print A, you get a value of 42, even though A=42 (or indeed, A= ANYTHING) was nowhere in the program.

I have no idea why you would want to do that.

Until next time…

Clock Signal emulator

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I just learned about the Clock Signal emulator:

https://github.com/TomHarte/CLK

The author recently joined the Cocopedia.com and has updated some technical sections with information he has learned in adding support for the CoCo. Clock Signal is described as:

“A latency-hating emulator of: the Acorn Electron, BBC Micro and Archimedes, Amstrad CPC, Apple II/II+/IIe and early Macintosh, Atari 2600 and ST, ColecoVision, Enterprise 64/128, Commodore Vic-20 and Amiga, MSX 1/2, Oric 1/Atmos, early PC compatibles, Sega Master System, Sinclair ZX80/81 and ZX Spectrum, and Thomson MO5/6.”

https://github.com/TomHarte/CLK

The author is adding CoCo to this list. As someone who started out with a Commodore VIC-20, then went to the CoCo, I am intrigued to find another emulator that will do both. (MAME/MESS also does both.) There is currently early support for the CoCo in there, but it only boots a CoCo Color BASIC 1.2 ROM:

I was able to download Clock Signal from GitHub, then open the Xcode project on my Mac, change one setting, then build and run. Neat!

When you first run one of the emulators, it will prompt you to drag in the needed ROMs:

Drag them into that window, then it’s ready to go. Pretty easy.

I know little beyond this, but plan to play with this a bit and try to get some of the other systems up and running.

One downside is that it looks like there may not be a Windows version.

To be continued…

My C compiler is not like your C compiler.

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I have worked with a variety of C compilers at my day jobs over the years. Although they try to be “real” compilers, they often have limitations that would drive “real” C programmers crazy.

Like, one tool I used did not allow constant strings longer than 80 characters. The error it gave was unhelpful, but eventually support was able to figure out what was going on.

Imagine my surprise to find that this would simply not build:

char *msg = "123456789012345678901234567890123456789012345678901234567890123456789012345678901";

…but removing one character allowed it to build just fine.

Another compiler did not allow constants to be passed as arguments to a function. You could not do this:

strcpy (buffer, "Hello"); // This wouldn't work.

…and had to do this instead:

char *temp = "Hello";
strcpy (buffer, temp); // This is the way.

And that was just the start of it. In that world, the “const” keyword was basically off-limits to use as you might be used to using it. A function that is not supposed to mess with a buffer passed in might look like this:

void function (const char *buffer_ptr, size_t buffer_size)
{
    // stuff...
}

…but since you cannot pass const data into functions on that compiler, that code will not compile.

And if you are trying to use code between a modern system (like a PC) and this compiler, removing “const” then has the modern compiler — with strict warnings turned on — will issue warnings if you pass a “constant string” into that function because it removes that “const” protection since it is a “char *” instead of a “const char *”.

My career is fun. Let’s use say I use “#ifdef” more than most C programmers ever have to…

If you don’t have to deal with this type of stuff, I hope you appreciate that. Embedded programmers have to do so much more work with so much less resources to get something done ;-)

Until next time…

Arduino deactivated your forum account? Here is how to get it back. Maybe.

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Please read this tale with a sense of humor ;-) If you ended up on this page by searching for “Arduino account deactivated” or “Arduino wrong email/username or password” or similar, you can skip down to “Potential Solution” to see what you might be able to try…

Background

I created an Arduino account back in 2012 and popped in to the forum from time to time when I was working on a project. My last forum login was 2018. While I wasn’t using their forum often, I still had an Arduino UNO on my desk at work. I use it throughout the year to test 16-bit C code. I just had no reason to post about that mundane use in the forum, so I hadn’t been logging in.

In 2026, I got a new Arduino UNO R4 WiFi. When I tried to check out Arduino Cloud, I found my login did not work. Password recovery never sent a new password, and trying to sign up for a new account told me my username was already in use. Some quick searches revealed Arduino now deactivates accounts if you they are not being used often enough.

Support to the rescue! Well, not really…

I contacted support. They told me they could not reinstate my account. They said I needed to sign up with a new e-mail and create a new username. I pushed back on this. I’ve been using the same e-mail address since 1995 and see no reason to create a new one just for Arduino. Support merely pointed me to their Terms and Conditions:

10.5 Should User be inactive for twenty-four (24) months, Arduino may close their Account for inactivity. The posts made via the inactive Account will remain on the Forum and Project Hub for a period of five (5) years and will continue to identify User during such period via username, and after such five (5) year period such posts will become de-identified by deleting all Personal Data which may directly identify User.

https://www.arduino.cc/en/terms-conditions/

Imagine not visiting Burger King for two years, then seeing some new marketing from their CEO that makes you want to go back and try the new Whopper… and the store tells you:

“Sorry, you haven’t been to Burger King in over 24 months, so we will not allow you back in unless you change your identify.”

Now, I’d like to point out that we agree to weird Terms and Conditions all the time. And companies will change their terms and conditions on us, all the time. We either accept the new terms or stop using the service. This seems fine. They can have whatever terms they wish and those of us that just click “I agree” without reading them can suffer the consequences — such as having your account deactivated.

If I had it to do all over, I would have just set a reminder to “Log in to Arduino” once a year. Problem solved ;-)

Can a company violate its own terms?

Remember, humor. If you are getting wound up by any of this, just remember it’s just some text on a random blog you stumbled into…

The 10.5 section I was pointed to says two things:

  1. “Should User be inactive for twenty-four (24) months, Arduino may close their Account for inactivity.”
    Yep, they certainly did that. It has been over 24 months since I logged in. They are in compliance. Though, they say “may” so I wish they would have decided to not may for mine.
  2. “The posts made via the inactive Account will remain on the Forum and Project Hub for a period of five (5) years and will continue to identify User during such period via username, and after such five (5) year period such posts will become de-identified by deleting all Personal Data which may directly identify User.”
    This one seems to be in violation, since 7+ years after my last login, all my information is still there – user profile, profile page, my posts, etc., all attributed to em.

I am bummed they honored #1 which was a “may”, but pleased they did not honor #2, which is a “will”.

Can a company be in violation of their own terms and conditions? Asking for a friend… ;-)

I went back and forth with Arduino Support a few times and eventually was transferred to someone in the “CX Education & Maker Support Team”, whatever that is. They finally gave me a solution, which might be a potential solution for you.

Potential Solution

If your Arduino Forum account is deactivated and you are unable to get back in using a password reset, try this:

  1. Sign up for a new non-forum Arduino account: https://login.arduino.cc/login
  2. You can use your existing e-mail (the one that is deactivated in the forum) but you will need to create a different username.
  3. Once you have this new account, you can then go to the forum and it will associate your old forum account with this new account via the same e-mail.

Now I can log in using my old e-mail address, and still have my old username in the forum. Only my main Arduino login has a different username.

Hope this helps!

Where does CoCo’s PMODE graphics memory start?

8 Replies

When I got my first Radio Shack TRS-80 Color Computer 1 back around 1983, I dove into the Getting Started manuals and learned all the new wonderful commands that EXTENDED COLOR BASIC offered me that my Commodore VIC-20 did not have. Commands like PLAY for music, SOUND for a beep, and graphics commands to draw CIRCLEs, LINEs and even DRAW complex objects were … amazing.

On my original tape based CoCo (EXTENDED COLOR BASIC) the high-resolution graphics memory started just after the memory used for the 32×16 text screen:

DEC     HEX     DESCRIPTION
-----   ----    -----------
0       0000    Color BASIC Use
512     0400    Text Screen
1536    0600    Hi-Rez Graphics

Knowing that, as I learned some 6809 assembly language I wrote routines to scroll a PMODE 4 256×192 graphics screen. I used this to do video titles for my dad. I’d create a screen using a graphics program, and load that into the second half of the graphics memory, then let my routine smooth scroll that screen into view.

I’d love to find that old source code and see how awfully inefficient it was. I bet one of you could really show me a faster way to do it.

But I digress…

DISK EXTENDED BASIC changed everything!

The next major leap in home computing for me was getting a disk drive for my CoCo. Imagine being able to store up to 156K of data on a floppy disk, and load things at such blazing speed (compared to the tape player and it’s 1500 baud rate).

It was nice… but it broke my assembly code! It turned out, when DISK BASIC was added, it used memory after the text screen for its own purposes, and shifted the high resolution graphics memory 2K further down in the memory map:

DEC     HEX     DESCRIPTION
-----   ----    -----------
0       0000    Color BASIC Use
512     0400    Text Screen
1536    0600    Disk BASIC Use    
3584    0E00    Hi-Rez Graphics

Learning this, I adjusted my assembly routines to work on graphics screens starting at 3584 (disk systems) rather than 1536 (tape systems).

How do we know?

I wondered if there was some programmatic way to tell where the screen started. I don’t think this even dawned on me back in the 1980s, but I asked this question to the new Color Computer mailing list and quickly got an answer:

Word at $BC (GRPRAM) is start of graphics RAM. Word at $BA (BEGGRP) gets you the start of the current view window.

Juan Castro
Enviado do meu Olivetti Programma 101
http://retropolis.com.br

Bonus. Not only can you tell where graphics memory starts, but you can tell which page is displayed. With EXTENDED BASIC, you have 8 1.5K pages of graphics memory you can use. You reserve them with the PCLEAR command (it defaults to 4 pages). You can learn more about PCLEAR in this article.

PMODE 3 (128×192 4-color) and PMODE 4 (256×192 2-color) both need 4 pages, so you can have two screens in those modes. PMODE 0 uses 1 page, so you can have 8 pages in that ode.

  • PMODE 0 – 128×96 2-color (1536 bytes)
  • PMODE 1 – 128×96 4-color (3072 bytes)
  • PMODE 2 – 128×192 2-color (3072 bytes)
  • PMODE 3 – 128×192 4-color (6144 bytes)
  • PMODE 4 – 256×192 2-color (6144 bytes)

When you use PMODE, the first parameter is the graphics mode, and the second is which page for the screen to start on. For PMODE 4 you can do “PMODE 4,1” to get one screen of 4 pages starting at page 1, and “PMODE 4,5” to get a second screen of 4 pages starting at page 5. You can set PMODE to the first screen and draw something, then set it to the second screen and draw something different, then flip back and forth between them using PMODE. Here is a silly example:

0 'GFXFLIP.BAS
10 PCLEAR 8
15 ' DRAW FIRST SCREEN
20 PMODE 4,1:PCLS:SCREEN 1,1
30 CIRCLE(128,96),50
35 ' DRAW SECOND SCREEN
40 PMODE 4,5:PCLS:SCREEN 1,1
50 LINE (10,10)-(245,171),PSET,B
60 ' FLIP THROUGH THEM
70 PMODE 4,1:SCREEN 1,1
80 FOR A=1 TO 100:NEXT
90 PMODE 4,5:SCREEN 1,1
100 FOR A=1 TO 100:NEXT
110 GOTO 70

That program will reserve all 8 pages, then set a PMODE 4 screen starting at page 1. It draws a circle on that page. Then it sets a PMODE 4 screen starting at page 5. It draws a box on that screen. After that it just toggles between showing PMODE 4 starting at page 1, then at page 5, and the image will flicker back and forth between the circle screen and the square screen.

With low-resolution PMODE 0, you can do 8 screens of animation this way.

I wrote a second program that will print out where screen memory starts, and where the current viewed page starts.

0 ' SCRSTART.BAS
1 ' THANK YOU, JUAN CARLOS!
10 PCLEAR 8
20 FOR P=1 TO 8:PMODE 0,P
30 PRINT PEEK(&HBC)*256+PEEK(&HBD),PEEK(&HBA)*256+PEEK(&HBB)
40 NEXT P

When I run this on an tape-based EXTENDED BASIC CoCo (emulator) with no Disk Controller, it shows graphics memory starts at 1536 and then it toggles through each PMODE 0 page to show where each one would start:

And when DISK EXTENDED BASIC is used, the same program shows the memory locations starting 2K higher in memory:

Thank you, Juan Carlos, for telling me this. I wish I had known about this back then. I could have made my assembly program automatically find the start of the graphics screen rather than having to assembly separate versions for tape or disk systems.

Until next time…

Arduino bans you for life if you don’t log in often enough?

4 Replies

Here is an interesting tidbit that I find very customer un-friendly.

If you have not logged in to your Arduino account in 24 months, they “may” lock your account. If you try to log in after this happens, you will be told “Wrong email/username or password“.

Obviously you will try “Forgot your password.” That will give you the message:

Check your email, we just sent you a link to complete the reset of your password.

…but no e-mail ever shows up.

Some searching revealed they were purging accounts that had not been accessed. I tried to create a new account. As soon as I entered my exciting username, it told me:

This username is reserved: the account was recently deleted for inactivity.

And that led me to contacting their support.

Support says…

Unfortunately, support cannot reinstate old accounts. You have to create a new account using a new e-mail address and a new username. They pointed out it is in the terms of service:

And thus, my account I have had since I first signed up in 2012

https://forum.arduino.cc/u/allenhuffman/summary

…is now frozen in time, and I have no access to it.

Terms for thee, but not for me?

I last logged in in 2018 – which is over five years ago. Since all my data is still there, and still identified via my username, it looks like Arduino may be in violation of its own terms of service. ;-) They definitely did the part they say they “may” do (close an account for inactivity) but the rest, not so much. That is really frustrating with an account I started 14 years ago.

And, to make matters worse, I have used the same e-mail address since 1995. For me to create a new e-mail address just for this one site and then not have access to all my messages, etc. from the past 14 years is … unfortunate.

Perhaps getting back into Arduino this week was a bad idea ;-)

In conclusion…

Go log in to your Arduino account if you want to keep it.

A bug that almost made me quit my career.

2 Replies

…and there have been many like this.

I try to wrote gooder code, I really do. I am happy to own up to one of my own bugs, but when someone elses’ bug wastes hours or even days of my time, I am … not so happy.

And when “someone else” is whoever wrote the compiler I am using, and it created a bug that defies logic… well, that’s when I blog about it.

Consider this:

unsigned int type = 1;

printf ("Is %u == %u? ", p_tlv_table[table_entry].type, type);

if (p_tlv_table[table_entry].type == type)
{
    printf ("Yes.\r\n");
}
else
{
    printf ("No.\r\n");
}

The table is a structure that contains sets of Type-Length-Value numbers, but that is not important. What is important is that the debug output prints the following:

Is 1 == 1? No.

What if I told you that 1 == 1 is not true?

At the time of the printf, the value of “type” in the table at this entry is 1. It prints 1. It is 1.

And, at the time of the printf, the value of “type” is 1. It prints 1. It is 1.

Yet … the simple “if” fails, reporting that 1 does not equal 1.

This, my friends, is an S.C.T. – Strange Compiler Thing. (I just made that up, but I have been using S.W.T – Strange Window Thing – for way too many years.)

The values in the table are:

typedef struct
{
   uint8_t  type;
   uint8_t  length;
   uint16_t offset; // or uint8_t if not struct is > 255 bytes.
} tlv_offset_entry_t;

So “type” from that table entry is a U8, while “type” in the local variable is an unsigned int. But that should not matter. Test code like this in the same program works as you would expect:

unsigned int val1 = 1;
uint8_t      val2 = 1;

printf ("%u == %u is %d\r\n", val1, val2, (val1 == val2));

That will print 1, indicating that “val1 == val2” was true. They are equal.

So that is not the issue. I mean, you couldn’t do much if you can’t compare variables of different sizes like that.

And if I compare the same structure outside of the function it was passed into, the comparison works as expected.

A compiler quirk strikes again.

And when you can’t check “if (1 == 1)”, this is a good one ;-)

Welcome to my world. (Within minutes of me finally getting code down to be easily reproducible, the company is already working with me to identify why this happens. They rock.)