}
}
+void mon_dump(int argc, char *argv[])
+{
+ int i = 0;
+ WORD start = 0, end = 0xFFFF;
+ if(argc > 0 && stracmp(argv[0], 2, (char* []){"a", "auto"})) {
+ execmode.dump = true;
+ } else if(argc > 0 && stracmp(argv[0], 2, (char* []){"no", "noauto"})) {
+ execmode.dump = false;
+ } else {
+ if(argc > 0) {
+ start = nh2word(argv[0]);
+ if(argc > 1) {
+ end = nh2word(argv[1]);
+ }
+ }
+ dumpmemory(start, end);
+ if(argc > 2) {
+ for(i = 2; i < argc; i++) {
+ if(i > 2) {
+ fprintf(stderr, " ");
+ }
+ fprintf(stderr, "%s", argv[i+1]);
+ }
+ fprintf(stderr, ": ignored.\n");
+ }
+ }
+}
+
MONCMDTYPE monitorcmd(char *cmd, MONARGS *args)
{
MONCMDTYPE cmdtype = MONREPEAT;
- if(stracmp(cmd, 2, (char* []){"s", "step"})) {
- execmode.step = true;
- cmdtype = MONNEXT;
+ if(stracmp(cmd, 2, (char* []){"a", "assemble"})) {
+ if(args->argc == 0) {
+ fprintf(stderr, "Error: Input file name.\n");
+ } else if(args->argc == 1) {
+ assemble(1, (char* []){args->argv[0]}, 0);
+ } else {
+ assemble(1, (char* []){args->argv[0]}, nh2word(args->argv[1]));
+ }
} else if(stracmp(cmd, 2, (char* []){"b", "break"})) {
mon_break(args->argc, args->argv);
} else if(stracmp(cmd, 2, (char* []){"c", "continue"})) {
execmode.step = false;
cmdtype = MONNEXT;
+ } else if(stracmp(cmd, 2, (char* []){"d", "dump"})) {
+ mon_dump(args->argc, args->argv);
+ } else if(stracmp(cmd, 2, (char* []){"l", "load"})) {
+ loadassemble(args->argv[0], nh2word(args->argv[1]));
+ } else if(stracmp(cmd, 2, (char* []){"n", "next"})) {
+ execmode.step = true;
+ cmdtype = MONNEXT;
+ } else if(stracmp(cmd, 2, (char* []){"q", "quit"})) {
+ fprintf(stdout, "Quit: COMET II monitor\n");
+ cmdtype = MONQUIT;
+ } else if(stracmp(cmd, 2, (char* []){"r", "reverse"})) {
+ if(args->argc == 2) {
+ disassemble_memory(nh2word(args->argv[0]), nh2word(args->argv[1]));
+ }
+ } else if(stracmp(cmd, 1, (char* []){"reset"})) {
+ fprintf(stdout, "Reset COMET II.\n");
+ reset(sys->memsize, sys->clocks); /* COMET II仮想マシンのリセット */
} else if(stracmp(cmd, 2, (char* []){"t", "trace"})) {
if(args->argc > 0 && stracmp(args->argv[0], 2, (char* []){"a", "auto"})) {
execmode.logical = false;
fprintf(stdout, "#%04X: Register::::\n", sys->cpu->pr);
dspregister();
}
- } else if(stracmp(cmd, 2, (char* []){"d", "dump"})) {
- if(args->argc > 0 && stracmp(args->argv[0], 2, (char* []){"a", "auto"})) {
- execmode.dump = true;
- } else if(args->argc > 0 && stracmp(args->argv[0], 2, (char* []){"no", "noauto"})) {
- execmode.dump = false;
- } else if(args->argc == 1) {
- dumpmemory(nh2word(args->argv[0]), 0xFFFF);
- } else if(args->argc > 1) {
- dumpmemory(nh2word(args->argv[0]), nh2word(args->argv[1]));
- }
- } else if(stracmp(cmd, 2, (char* []){"r", "reverse"})) {
- if(args->argc == 2) {
- disassemble_memory(nh2word(args->argv[0]), nh2word(args->argv[1]));
- }
- } else if(stracmp(cmd, 2, (char* []){"q", "quit"})) {
- fprintf(stdout, "Quit: COMET II monitor\n");
- cmdtype = MONQUIT;
} else if(stracmp(cmd, 3, (char* []){"?", "h", "help"})) {
- fprintf(stdout, "b[reak] -- Manipulate Breakpoints. Details in `b ?'.\n");
- fprintf(stdout, "s[tep] -- Step by step running your program until next interaction.\n");
+ fprintf(stdout, "b[reak] -- Manipulate Breakpoints. See details, `b ?'.\n");
fprintf(stdout, "c[ontinue] -- Continue running your program.\n");
- fprintf(stdout, "t[race] -- Display CPU register. `t[race] a[uto]/n[oauto]' set auto/noauto display. \n");
fprintf(stdout, "d[ump] -- Display memory dump. `d[ump] a[uto]/n[oauto]' set auto/noauto display.\n");
+ fprintf(stdout, "l[oad] -- Load object from a file to the memory. `l[oad] <filepath> <address>' if address is omitted, load to address 0.\n");
+ fprintf(stdout, "n[ext] -- Go next instruction.\n");
+ fprintf(stdout, "q[uit] -- Quit running your program.\n");
+ fprintf(stdout, "reset -- Reset the system.\n");
+ fprintf(stdout, "r[everse] -- Disassemble memory. `r[everse] <start address> <end address>.\n");
+ fprintf(stdout, "s[ave] -- Save object from the memory to a file. `s[ave] <filepath> [<start address1> [<end address>]]' if <start address> and <end address> is omitted, save the whole memory. if <end address> is omitted, save the memory after <start address>.\n");
+ fprintf(stdout, "t[race] -- Display CPU register. `t[race] a[uto]/n[oauto]' set auto/noauto display. \n");
+ fprintf(stdout, "T[race] -- Display CPU register as logical value. `t[race] a[uto]/n[oauto]' set auto/noauto display. \n");
fprintf(stdout, "?/h[elp] -- Display this help.\n");
}
return cmdtype;
char *buf, *p;
MONCMDLINE *moncmdl;
MONCMDTYPE cmdtype = MONREPEAT;
+
do {
- fprintf(stdout, "COMET II (Type ? for help) > ");
+ fprintf(stdout, "- ");
buf = malloc_chk(MONINSIZE + 1, "monitor.buf");
fgets(buf, MONINSIZE, stdin);
if((p = strchr(buf, '\n')) != NULL) {
if(cmdtype == MONQUIT) {
shutdown();
freebps();
- free_code_cmdtype();
+ free_cmdtable(HASH_CODE);
freecerr();
exit(0);
}