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cc65/samples/multidemo.c
Greg King 5d9f4dc89d Made the overlay demo programs compile for CBM targets again.
<conio.h> includes target-specific headers; so, we didn't bother to include <cbm.h> where it is needed.  But, '#include <conio.h>' was removed from some files; so now, we must include <cbm.h> explicitly.
2016-06-19 17:41:18 -04:00

263 lines
6.2 KiB
C

/*
** Extended memory overlay demo program.
**
** Shows how to combine multiple cc65 features
** incl. overlays and extended memory drivers.
**
** 2012-17-07, Oliver Schmidt (ol.sc@web.de)
**
*/
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <dirent.h>
#include <em.h>
#include <cc65.h>
#ifndef __CBM__
#include <fcntl.h>
#include <unistd.h>
#else
#include <cbm.h>
#include <device.h>
#endif
/* The symbols _OVERLAY?_LOAD__ and _OVERLAY?_SIZE__ were generated by the
** linker. They contain the overlay area address and size specific to a
** certain program.
*/
extern void _OVERLAY1_LOAD__[], _OVERLAY1_SIZE__[];
extern void _OVERLAY2_LOAD__[], _OVERLAY2_SIZE__[];
extern void _OVERLAY3_LOAD__[], _OVERLAY3_SIZE__[];
struct {
char *name;
int page;
void *addr;
unsigned size;
} overlay[] =
{{"multdemo.1", -1, _OVERLAY1_LOAD__, (unsigned)_OVERLAY1_SIZE__},
{"multdemo.2", -1, _OVERLAY2_LOAD__, (unsigned)_OVERLAY2_SIZE__},
{"multdemo.3", -1, _OVERLAY3_LOAD__, (unsigned)_OVERLAY3_SIZE__}};
/* Functions resident in an overlay can call back functions resident in the
** main program at any time without any precautions. The function log() is
** an example for such a function resident in the main program.
*/
void log (char *msg)
{
/* Functions resident in an overlay can access all program variables and
** constants at any time without any precautions because those are never
** placed in overlays. The string constant below is an example for such
** a constant resident in the main program.
*/
printf ("Log: %s\n", msg);
}
/* In a real-world overlay program one would probably not use a #pragma but
** rather place all the code of certain source files into the overlay by
** compiling them with --code-name OVERLAY1.
*/
#pragma code-name (push, "OVERLAY1");
void foo (void)
{
log ("Calling main from overlay 1");
}
#pragma code-name (pop);
#pragma code-name (push, "OVERLAY2");
void bar (void)
{
log ("Calling main from overlay 2");
}
#pragma code-name (pop);
#pragma code-name (push, "OVERLAY3");
void foobar (void)
{
log ("Calling main from overlay 3");
}
#pragma code-name(pop);
unsigned char loademdriver (void)
{
DIR *dir;
struct dirent *ent;
char *emd = NULL;
unsigned char max = 0;
unsigned char num;
printf ("Dbg: Searching for emdrivers\n");
dir = opendir (".");
if (!dir) {
log ("Opening directory failed");
return 0;
}
while (ent = readdir (dir)) {
char *ext;
if (!_DE_ISREG (ent->d_type)) {
continue;
}
ext = strrchr (ent->d_name, '.');
if (!ext || strcasecmp (ext, ".emd")) {
printf ("Dbg: Skipping file %s\n", ent->d_name);
continue;
}
printf ("Dbg: Memorizing file %s\n", ent->d_name);
emd = realloc (emd, FILENAME_MAX * (max + 1));
strcpy (emd + FILENAME_MAX * max++, ent->d_name);
}
closedir (dir);
for (num = 0; num < max; ++num) {
char *drv;
drv = emd + FILENAME_MAX * num;
printf ("Dbg: Trying emdriver %s\n", drv);
if (em_load_driver (drv) == EM_ERR_OK) {
printf ("Dbg: Loaded emdriver %s\n", drv);
free (emd);
return 1;
}
printf ("Dbg: Emdriver %s failed\n", drv);
}
free (emd);
return 0;
}
unsigned char loadoverlay (unsigned char num)
{
if (overlay[num - 1].page < 0) {
#ifndef __CBM__
int file;
printf ("Dbg: Loading overlay %u from file\n", num);
file = open (overlay[num - 1].name, O_RDONLY);
if (file == -1) {
log ("Opening overlay file failed");
return 0;
}
read (file, overlay[num - 1].addr,
overlay[num - 1].size);
close (file);
#else
if (cbm_load (overlay[num - 1].name, getcurrentdevice (), NULL) == 0) {
log ("Loading overlay file failed");
return 0;
}
#endif
return 1;
} else {
struct em_copy copyinfo;
printf ("Dbg: Loading overlay %u from memory\n", num);
copyinfo.offs = 0;
copyinfo.page = overlay[num - 1].page;
copyinfo.buf = overlay[num - 1].addr;
copyinfo.count = overlay[num - 1].size;
em_copyfrom (&copyinfo);
return 1;
}
}
void copyoverlays (void)
{
unsigned page = 0;
unsigned char num;
for (num = 0; num < sizeof (overlay) / sizeof (overlay[0]); ++num) {
struct em_copy copyinfo;
unsigned size = (overlay[num].size + EM_PAGE_SIZE - 1) / EM_PAGE_SIZE;
if (size > em_pagecount () - page) {
printf ("Dbg: Not enough memory for overlay %u\n", num + 1);
continue;
}
if (loadoverlay (num + 1) == 0)
continue;
copyinfo.offs = 0;
copyinfo.page = page;
copyinfo.buf = overlay[num].addr;
copyinfo.count = overlay[num].size;
em_copyto (&copyinfo);
overlay[num].page = page;
page += size;
printf ("Dbg: Stored overlay %u in pages %u-%u\n",
num + 1, overlay[num].page, page - 1);
}
}
void main (void)
{
log ("Loading extended memory driver");
if (loademdriver ()) {
log ("Copying overlays into ext. memory");
copyoverlays ();
} else {
log ("No extended memory driver found");
}
log ("Press any key...");
getchar ();
if (loadoverlay (1)) {
log ("Calling overlay 1 from main");
/* The linker makes sure that the call to foo() ends up at the right mem
** addr. However it's up to user to make sure that the - right - overlay
** is actually loaded before making the the call.
*/
foo ();
}
/* Replacing one overlay with another one can only happen from the main
** program. This implies that an overlay can never load another overlay.
*/
if (loadoverlay (2)) {
log ("Calling overlay 2 from main");
bar ();
}
if (loadoverlay (3)) {
log ("Calling overlay 3 from main");
foobar ();
}
if (doesclrscrafterexit ()) {
log ("Press any key...");
getchar ();
}
}