void print_list(struct node *first) {
struct node *p;
for(p = first; p != NULL; p = p->next) {
print_note(p->value);
printf(" ");
}
printf("\n");
}
int main(int argc, char *argv[]) {
int userid, printing = 1, fd;
char searchstring[100];
if (argc > 1)
strcpy(searchstring, argv[1]);
else
searchstring[0] = 0;
userid = getuid();
// Opening file
fd = open(FILENAME , O_RDONLY);
if (fd == -1)
fatal("in main() while opening file for reading");
while (printing)
printing = print_note(fd, userid, searchstring);
printf("-------[end of note data]-------\n");
close(fd);
}
int main(int argc, char *argv[])
{
opt::options_description desc("Usage: ");
opt::positional_options_description po;
opt::variables_map vm;
std::shared_ptr<cnote> cn;
set_options(desc, po);
if (!parse_command_line_options(desc, po, argc, argv, vm)) {
std::cout << "See -h for usage." << std::endl;
return -1;
}
parse_cnote_options(vm);
cnote_parser parser;
if (!parse_note_database(parser, opts.notes_db_.c_str()))
return -1;
if (vm.count("help")) {
std::cout << desc << std::endl;
return 0;
} else if (vm.count("search")) {
if (opts.debug_)
std::cout << "Searching for: " << vm["search"].as<std::string>()
<< std::endl;
print_note(parser, vm["search"].as<std::string>());
return 0;
} else if (vm.count("list")) {
list_notes(parser);
return 0;
}
cnote_creator cc;
cn = cc.create_note();
if (cn) {
parser.save_note(cn);
write_note_database(parser, opts.notes_db_.c_str());
}
return 0;
}
int
main(int argc, char *argv[])
{
int ret = 1, i;
dldev_t dev;
note_t db;
u8 *data;
u16 len;
/* for data security */
/*
umask(S_IRWXG | S_IRWXO);
*/
while((i = getopt(argc, argv, "hd:u:e:")) != -1){
switch(i){
case 'd':
dev_file = optarg;
break;
case 'u':
unused_recs = atoi(optarg);
if(unused_recs < 0)
unused_recs = 0;
break;
case 'e':
extra_msg_len = atoi(optarg);
if(extra_msg_len < 0)
extra_msg_len = 0;
break;
case 'h':
default:
usage();
break;
}
}
argc -= optind;
argv += optind;
set_note_unused_recs(unused_recs);
set_note_extra_len(extra_msg_len);
#ifdef USB_USBHID
dev.usb.file = dev_file;
#endif
if(open_dev(&dev)){
ERROR("open_dev");
goto exit;
}
if(start_session(&dev)){
ERROR("read_app_info");
goto exit;
}
/******************************************************************************/
#ifdef DEBUG
for(i = 0; i < NUM_APPS; i++){
if(!dev.app[i].acd.app_idx)
continue;
printf("%2d: %d%d%d%d%d%d%d%d %02x %02x %04x %04x %04x %04x %04x %04x %s\n", i,
dev.app[i].acd.app_idx,
dev.app[i].acd.code_loc,
dev.app[i].acd.db_loc,
dev.app[i].acd.code_invalid,
dev.app[i].acd.db_modified,
dev.app[i].acd.db_invalid,
dev.app[i].acd.passwd_req,
dev.app[i].acd.mode_name,
dev.app[i].acb.app_type,
dev.app[i].acb.app_inst,
dev.app[i].acb.asd_addr,
dev.app[i].acb.add_addr,
dev.app[i].acb.state_mgr_addr,
dev.app[i].acb.refresh_addr,
dev.app[i].acb.banner_addr,
dev.app[i].acb.code_addr,
dev.app[i].banner
);
}
#endif
/******************************************************************************/
if(read_note_mem(&dev, &db)){
ERROR("read_note_mem");
goto end;
}
create_note(&db, &data, &len);
if(load_add(&dev, find_app(&dev, "NOTE"), data)){
ERROR("load_add");
goto end;
}
free(data);
print_note(&db, stdout);
free_note(&db);
/******************************************************************************/
end:
if(end_session(&dev)){
ERROR("end_session");
goto exit;
}
ret = 0;
exit:
close_dev(&dev);
exit(ret);
}
int main(int argc, char **argv)
{
if (argc > 1)
while (++argv, --argc) {
if (!strcmp("-c", argv[0]))
color_on = 1;
else if (!strcmp("-h", argv[0]))
printf("liblisp unit tests\n\tusage ./%s (-c)? (-h)?\n", argv[0]);
else
printf("unknown argument '%s'\n", argv[0]);
}
unit_test_start("liblisp");
{
print_note("util.c");
test(is_number("0xfAb"));
test(is_number("-01234567"));
test(is_number("+1000000000000000000000000000003"));
test(!is_number(""));
test(!is_number("+"));
test(!is_number("-"));
test(unbalanced("(((", '(', ')') > 0);
test(unbalanced("))", '(', ')') < 0);
test(unbalanced("", '(', ')') == 0);
test(unbalanced("\"(", '(', ')') == 0);
test(unbalanced("( \"))))(()()()(()\\\"())\")", '(', ')') == 0);
test(unbalanced("(a (b) c (d (e (f) \")\" g)))", '(', ')') == 0);
test(unbalanced("((a b) c", '(', ')') > 0);
test(!is_fnumber(""));
test(!is_fnumber("1e"));
test(!is_fnumber("-1e"));
test(!is_fnumber("1-e"));
test(is_fnumber("+0."));
test(is_fnumber("123")); /*this passes, see header */
test(is_fnumber("1e-3"));
test(is_fnumber("1.003e+34"));
test(is_fnumber("1e34"));
test(is_fnumber("93.04"));
test(match("", ""));
test(match("abc", "abc"));
test(!match("abC", "abc"));
test(match("aaa*", "aaaXX"));
test(!match("aaa*", "XXaaaXX"));
test(match(".bc", "abc"));
test(match("a.c", "aXc"));
test(!match("a\\.c", "aXc"));
test(match("a\\.c", "a.c"));
char *s = NULL;
state(s = vstrcatsep(",", "a", "b", "c", "", "foo", "bar", NULL));
test(!sstrcmp("a,b,c,,foo,bar", s));
free(s);
char *t = NULL, *s1 = "Hello,", *s2 = " World!";
state(t = calloc(16, 1));
state(strcpy(t, s1));
test(((size_t) (lstrcatend(t, s2) - t)) == (strlen(s1) + strlen(s2)));
free(t);
/*test tr, or translate, functionality */
size_t trinsz = 0;
uint8_t trout[128] = { 0 }, *trin = (uint8_t *) "aaabbbcdaacccdeeefxxxa";
tr_state_t *tr1;
state(tr1 = tr_new());
state(trinsz = strlen((char *)trin));
test(tr_init(tr1, "", (uint8_t *) "abc", (uint8_t *) "def") == TR_OK);
test(tr_block(tr1, trin, trout, trinsz) == trinsz);
test(!strcmp((char *)trout, "dddeeefdddfffdeeefxxxd"));
test(tr_init(tr1, "s", (uint8_t *) "abc", (uint8_t *) "def") == TR_OK);
state(memset(trout, 0, 128));
test(tr_block(tr1, trin, trout, trinsz) <= trinsz);
test(!strcmp((char *)trout, "defddfdeeefxxxd"));
state(tr_delete(tr1));
/*know collisions for the djb2 hash algorithm */
test(djb2("heliotropes", strlen("heliotropes")) ==
djb2("neurospora", strlen("neurospora")));
test(djb2("depravement", strlen("depravement")) ==
djb2("serafins", strlen("serafins")));
/*should not collide */
test(djb2("heliotropes", strlen("heliotropes")) !=
djb2("serafins", strlen("serafins")));
}
{ /*io.c test */
io_t *in, *out;
print_note("io.c");
/*string input */
static const char hello[] = "Hello\n";
/**@note io_sin currently duplicates "hello" internally*/
state(in = io_sin(hello, strlen(hello)));
test(io_is_in(in));
test(io_getc(in) == 'H');
test(io_getc(in) == 'e');
test(io_getc(in) == 'l');
test(io_getc(in) == 'l');
test(io_getc(in) == 'o');
test(io_getc(in) == '\n');
test(io_getc(in) == EOF);
test(io_getc(in) == EOF);
test(!io_error(in));
test(io_seek(in, 0, SEEK_SET) >= 0);
test(io_getc(in) == 'H');
test(io_seek(in, 3, SEEK_SET) >= 0);
test(io_getc(in) == 'l');
test(io_ungetc('x', in) == 'x');
test(io_getc(in) == 'x');
test(io_getc(in) == 'o');
state(io_close(in));
/*string output */
char *s = NULL;
static const char hello_world[] = "Hello,\n\tWorld!\n";
/**@note io_sin currently duplicates hello_world internally*/
state(in = io_sin(hello_world, strlen(hello_world)));
test(!strcmp(s = io_getline(in), "Hello,"));
s = (free(s), NULL);
test(!strcmp(s = io_getline(in), "\tWorld!"));
s = (free(s), NULL);
test(!io_getline(in));
test(io_seek(in, 0, SEEK_SET) >= 0);
test(!strcmp(s = io_getdelim(in, EOF), "Hello,\n\tWorld!\n"));
s = (free(s), NULL);
state(io_close(in));
state(out = io_sout(1));
test(io_puts("Hello, World", out) != EOF);
test(!strcmp("Hello, World", io_get_string(out)));
test(io_putc('\n', out) != EOF);
test(!strcmp("Hello, World\n", io_get_string(out)));
test(io_seek(out, -6, SEEK_CUR) >= 0);
test(io_puts("Mars\n", out) != EOF);
test(!strcmp("Hello, Mars\n\n", io_get_string(out)));
free(io_get_string(out));
state(io_close(out));
static const char block_in[16] = {1, 3, 4, 6};
static char block_out[16] = {0};
state((in = io_sin(block_in, 16)));
test(io_getc(in) == 1);
test(io_read(block_out, 15, in) == 15);
test(!memcmp(block_out, block_in+1, 15));
state(io_close(in));
}
{ /* hash.c hash table tests */
hash_table_t *h = NULL;
print_note("hash.c");
state(h = hash_create(1));
return_if(!h);
test(!hash_insert(h, "key1", "val1"));
test(!hash_insert(h, "key2", "val2"));
/* assuming the hash algorithm is djb2, then
* "heliotropes" collides with "neurospora"
* "depravement" collides with "serafins"
* "playwright" collides with "snush" (for djb2a)
* See:
* <https://programmers.stackexchange.com/questions/49550/which-hashing-algorithm-is-best-for-uniqueness-and-speed> */
test(!hash_insert(h, "heliotropes", "val3"));
test(!hash_insert(h, "neurospora", "val4"));
test(!hash_insert(h, "depravement", "val5"));
test(!hash_insert(h, "serafins", "val6"));
test(!hash_insert(h, "playwright", "val7"));
test(!hash_insert(h, "snush", "val8"));
test(!hash_insert(h, "", "val9"));
test(!hash_insert(h, "nil", ""));
test(!hash_insert(h, "a", "x"));
test(!hash_insert(h, "a", "y"));
test(!hash_insert(h, "a", "z"));
test(!sstrcmp("val1", hash_lookup(h, "key1")));
test(!sstrcmp("val2", hash_lookup(h, "key2")));
test(!sstrcmp("val3", hash_lookup(h, "heliotropes")));
test(!sstrcmp("val4", hash_lookup(h, "neurospora")));
test(!sstrcmp("val5", hash_lookup(h, "depravement")));
test(!sstrcmp("val6", hash_lookup(h, "serafins")));
test(!sstrcmp("val7", hash_lookup(h, "playwright")));
test(!sstrcmp("val8", hash_lookup(h, "snush")));
test(!sstrcmp("val9", hash_lookup(h, "")));
test(!sstrcmp("", hash_lookup(h, "nil")));
test(!sstrcmp("z", hash_lookup(h, "a")));
test(hash_get_load_factor(h) <= 0.75f);
state(hash_destroy(h));
}
{ /* lisp.c (and the lisp interpreter in general) */
lisp_t *l;
print_note("lisp.c");
/*while unit testing eschews state being held across tests it is makes
*little sense in this case*/
state(l = lisp_init());
state(io_close(lisp_get_logging(l)));
test(!lisp_set_logging(l, io_nout()));
return_if(!l);
test(!lisp_eval_string(l, ""));
test(is_int(lisp_eval_string(l, "2")));
test(get_int(lisp_eval_string(l, "(+ 2 2)")) == 4);
test(get_int(lisp_eval_string(l, "(* 3 2)")) == 6);
lisp_cell_t *x = NULL, *y = NULL, *z = NULL;
char *t = NULL;
state(x = lisp_intern(l, lstrdup_or_abort("foo")));
state(y = lisp_intern(l, t = lstrdup_or_abort("foo"))); /*this one needs freeing! */
state(z = lisp_intern(l, lstrdup_or_abort("bar")));
test(x == y && x != NULL);
test(x != z);
free(t); /*free the non-interned string */
test(is_proc(lisp_eval_string(l, "(define square (lambda (x) (* x x)))")));
test(get_int(lisp_eval_string(l, "(square 4)")) == 16);
test(!is_list(cons(l, gsym_tee(), gsym_tee())));
test(is_list(cons(l, gsym_tee(), gsym_nil())));
test(!is_list(cons(l, gsym_nil(), cons(l, gsym_tee(), gsym_tee()))));
test(is_list(mk_list(l, gsym_tee(), gsym_nil(), gsym_tee(), NULL)));
test(gsym_error() == lisp_eval_string(l, "(> 'a 1)"));
test(is_sym(x));
test(is_asciiz(x));
test(!is_str(x));
test(gsym_error() == lisp_eval_string(l, "(eval (cons quote 0))"));
char *serial = NULL;
test(!strcmp((serial = lisp_serialize(l, cons(l, gsym_tee(), gsym_error()))), "(t . error)"));
state(free(serial));
state(lisp_destroy(l));
}
return unit_test_end("liblisp"); /*should be zero! */
}
