void live_name_clip_handler_t::messageHandler(const char *path, lo_message& msg)
{
// pic::logmsg() << "live_clip_name_handler_t::messageHandler";
if(lo_message_get_argc(msg) >= 4
&& lo_message_get_types(msg)[0]==LO_INT32
&& lo_message_get_types(msg)[1]==LO_INT32
&& lo_message_get_types(msg)[2]==LO_STRING
&& lo_message_get_types(msg)[3]==LO_INT32)
{
lo_arg** args= lo_message_get_argv(msg);
int track = args[0]->i;
int clip = args[1]->i;
std::string name=&args[2]->s;
int colour= args[3]->i;
// pic::logmsg() << "live_name_clip_handler_t::messageHandler track :" << track << "clip" << clip << "name" << name;
processClip(track,clip,name,colour);
}
}
void OscTransmitter::sendMessage(const char * path, const char * type, const lo_message& message)
{
if(debugMessages_) {
cout << path << " " << type << " ";
int argc = lo_message_get_argc(message);
lo_arg **argv = lo_message_get_argv(message);
for (int i=0; i<argc; i++) {
lo_arg_pp((lo_type)type[i], argv[i]);
cout << " ";
}
cout << endl;
}
// Send message to everyone who's currently listening
for(vector<lo_address>::iterator it = addresses_.begin(); it != addresses_.end(); it++) {
lo_send_message(*it, path, message);
}
}
void live_track_info_handler_t::messageHandler(const char *path, lo_message& msg)
{
// pic::logmsg() << "live_track_info_handler_t::messageHandler";
if(lo_message_get_argc(msg) >= 5
&& lo_message_get_types(msg)[0]==LO_INT32
&& lo_message_get_types(msg)[1]==LO_INT32
&& lo_message_get_types(msg)[2]==LO_INT32
&& lo_message_get_types(msg)[3]==LO_INT32
&& lo_message_get_types(msg)[4]==LO_FLOAT
)
{
lo_arg** args= lo_message_get_argv(msg);
int track = args[0]->i;
int armed = args[1]->i;
int clip = args[2]->i;
int state = args[3]->i;
float length = args[4]->i;
processClip(track,(bool) armed,clip, (state_t) state,length);
}
}
void test_deserialise()
{
char *buf, *buf2, *tmp;
const char *types = NULL, *path;
lo_arg **argv = NULL;
size_t len, size;
char data[256];
int result = 0;
lo_blob btest = lo_blob_new(sizeof(testdata), testdata);
uint8_t midi_data[4] = {0xff, 0xf7, 0xAA, 0x00};
lo_timetag tt = {0x1, 0x80000000};
lo_blob b = NULL;
// build a message
lo_message msg = lo_message_new();
TEST(0 == lo_message_get_argc(msg));
lo_message_add_float(msg, 0.12345678f); // 0 f
lo_message_add_int32(msg, 123); // 1 i
lo_message_add_string(msg, "123"); // 2 s
lo_message_add_blob(msg, btest); // 3 b
lo_message_add_midi(msg, midi_data); // 4 m
lo_message_add_int64(msg, 0x0123456789abcdefULL); // 5 h
lo_message_add_timetag(msg, tt); // 6 t
lo_message_add_double(msg, 0.9999); // 7 d
lo_message_add_symbol(msg, "sym"); // 8 S
lo_message_add_char(msg, 'X'); // 9 c
lo_message_add_char(msg, 'Y'); // 10 c
lo_message_add_true(msg); // 11 T
lo_message_add_false(msg); // 12 F
lo_message_add_nil(msg); // 13 N
lo_message_add_infinitum(msg); // 14 I
// test types, args
TEST(15 == lo_message_get_argc(msg));
types = lo_message_get_types(msg);
TEST(NULL != types);
argv = lo_message_get_argv(msg);
TEST(NULL != argv);
TEST('f' == types[0] && fabs(argv[0]->f - 0.12345678f) < FLT_EPSILON);
TEST('i' == types[1] && 123 == argv[1]->i);
TEST('s' == types[2] && !strcmp(&argv[2]->s, "123"));
TEST('b' == types[3]);
b = (lo_blob)argv[3];
TEST(lo_blob_datasize(b) == sizeof(testdata));
TEST(12 == lo_blobsize(b));
TEST(!memcmp(lo_blob_dataptr(b), &testdata, sizeof(testdata)));
TEST('m' == types[4] && !memcmp(&argv[4]->m, midi_data, 4));
TEST('h' == types[5] && 0x0123456789abcdefULL == argv[5]->h);
TEST('t' == types[6] && 1 == argv[6]->t.sec && 0x80000000 == argv[6]->t.frac);
TEST('d' == types[7] && fabs(argv[7]->d - 0.9999) < FLT_EPSILON);
TEST('S' == types[8] && !strcmp(&argv[8]->s, "sym"));
TEST('c' == types[9] && 'X' == argv[9]->c);
TEST('c' == types[10] && 'Y' == argv[10]->c);
TEST('T' == types[11] && NULL == argv[11]);
TEST('F' == types[12] && NULL == argv[12]);
TEST('N' == types[13] && NULL == argv[13]);
TEST('I' == types[14] && NULL == argv[14]);
// serialise it
len = lo_message_length(msg, "/foo");
printf("serialise message_length=%d\n", (int)len);
buf = calloc(len, sizeof(char));
size = 0;
tmp = lo_message_serialise(msg, "/foo", buf, &size);
TEST(tmp == buf && size == len && 92 == len);
lo_message_free(msg);
// deserialise it
printf("deserialise\n");
path = lo_get_path(buf, len);
TEST(NULL != path && !strcmp(path, "/foo"));
msg = lo_message_deserialise(buf, size, NULL);
TEST(NULL != msg);
// repeat same test as above
TEST(15 == lo_message_get_argc(msg));
types = lo_message_get_types(msg);
TEST(NULL != types);
argv = lo_message_get_argv(msg);
TEST(NULL != argv);
TEST('f' == types[0] && fabs(argv[0]->f - 0.12345678f) < FLT_EPSILON);
TEST('i' == types[1] && 123 == argv[1]->i);
TEST('s' == types[2] && !strcmp(&argv[2]->s, "123"));
TEST('b' == types[3]);
b = (lo_blob)argv[3];
TEST(lo_blob_datasize(b) == sizeof(testdata));
TEST(12 == lo_blobsize(b));
TEST(!memcmp(lo_blob_dataptr(b), &testdata, sizeof(testdata)));
TEST('m' == types[4] && !memcmp(&argv[4]->m, midi_data, 4));
TEST('h' == types[5] && 0x0123456789abcdefULL == argv[5]->h);
TEST('t' == types[6] && 1 == argv[6]->t.sec && 0x80000000 == argv[6]->t.frac);
TEST('d' == types[7] && fabs(argv[7]->d - 0.9999) < FLT_EPSILON);
TEST('S' == types[8] && !strcmp(&argv[8]->s, "sym"));
TEST('c' == types[9] && 'X' == argv[9]->c);
TEST('c' == types[10] && 'Y' == argv[10]->c);
TEST('T' == types[11] && NULL == argv[11]);
TEST('F' == types[12] && NULL == argv[12]);
TEST('N' == types[13] && NULL == argv[13]);
TEST('I' == types[14] && NULL == argv[14]);
// serialise it again, compare
len = lo_message_length(msg, "/foo");
printf("serialise message_length=%d\n", (int)len);
buf2 = calloc(len, sizeof(char));
size = 0;
tmp = lo_message_serialise(msg, "/foo", buf2, &size);
TEST(tmp == buf2 && size == len && 92 == len);
TEST(!memcmp(buf, buf2, len));
lo_message_free(msg);
lo_blob_free(btest);
free(buf);
free(buf2);
// deserialise failure tests with invalid message data
msg = lo_message_deserialise(data, 0, &result); // 0 size
TEST(NULL == msg && LO_ESIZE == result);
snprintf(data, 256, "%s", "/foo"); // unterminated path string
msg = lo_message_deserialise(data, 4, &result);
TEST(NULL == msg && LO_EINVALIDPATH == result);
snprintf(data, 256, "%s", "/f_o"); // non-0 in pad area
msg = lo_message_deserialise(data, 4, &result);
TEST(NULL == msg && LO_EINVALIDPATH == result);
snprintf(data, 256, "%s", "/t__"); // types missing
replace_char(data, 4, '_', '\0');
msg = lo_message_deserialise(data, 4, &result);
TEST(NULL == msg && LO_ENOTYPE == result);
snprintf(data, 256, "%s%s", "/t__", "____"); // types empty
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 8, &result);
TEST(NULL == msg && LO_EBADTYPE == result);
snprintf(data, 256, "%s%s", "/t__", ",f_"); // short message
replace_char(data, 7, '_', '\0');
msg = lo_message_deserialise(data, 7, &result);
TEST(NULL == msg && LO_EINVALIDTYPE == result);
snprintf(data, 256, "%s%s", "/t__", "ifi_"); // types missing comma
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 8, &result);
TEST(NULL == msg && LO_EBADTYPE == result);
snprintf(data, 256, "%s%s", "/t__", ",ifi"); // types unterminated
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 8, &result);
TEST(NULL == msg && LO_EINVALIDTYPE == result);
snprintf(data, 256, "%s%s", "/t__", ",ii_"); // not enough arg data
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 12, &result);
TEST(NULL == msg && LO_EINVALIDARG == result);
snprintf(data, 256, "%s%s", "/t__", ",ii_"); // not enough arg data again
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 15, &result);
TEST(NULL == msg && LO_EINVALIDARG == result);
snprintf(data, 256, "%s%s", "/t__", ",f__"); // too much arg data
replace_char(data, 8, '_', '\0');
msg = lo_message_deserialise(data, 16, &result);
TEST(NULL == msg && LO_ESIZE == result);
snprintf(data, 256, "%s%s", "/t__", ",bs_"); // blob longer than msg length
replace_char(data, 8, '_', '\0');
*(uint32_t *)(data + 8) = lo_htoo32((uint32_t)99999);
msg = lo_message_deserialise(data, 256, &result);
TEST(NULL == msg && LO_EINVALIDARG == result);
}
int main(int argc, char **argv)
{
int i, j, result = 0;
// process flags for -v verbose, -h help
for (i = 1; i < argc; i++) {
if (argv[i] && argv[i][0] == '-') {
int len = strlen(argv[i]);
for (j = 1; j < len; j++) {
switch (argv[i][j]) {
case 'h':
eprintf("testdatabase.c: possible arguments "
"-q quiet (suppress output), "
"-h help\n");
return 1;
break;
case 'q':
verbose = 0;
break;
default:
break;
}
}
}
}
lo_message lom;
mapper_message msg;
uint64_t id = 1;
mapper_network net = mapper_network_new(0, 0, 0);
mapper_database db = &net->database;
mapper_device dev, *pdev, *pdev2;
mapper_signal sig, *psig, *psig2;
mapper_map *pmap, *pmap2;
/* Test the database functions */
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
lo_message_add_string(lom, "@port");
lo_message_add_int32(lom, 1234);
lo_message_add_string(lom, "@host");
lo_message_add_string(lom, "localhost");
lo_message_add_string(lom, "@num_inputs");
lo_message_add_int32(lom, 2);
lo_message_add_string(lom, "@num_outputs");
lo_message_add_int32(lom, 2);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
mapper_database_add_or_update_device(db, "testdatabase.1", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
lo_message_add_string(lom, "@port");
lo_message_add_int32(lom, 1234);
lo_message_add_string(lom, "@host");
lo_message_add_string(lom, "localhost");
lo_message_add_string(lom, "@num_inputs");
lo_message_add_int32(lom, 2);
lo_message_add_string(lom, "@num_outputs");
lo_message_add_int32(lom, 1);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
mapper_database_add_or_update_device(db, "testdatabase__.2", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
lo_message_add_string(lom, "@port");
lo_message_add_int32(lom, 3000);
lo_message_add_string(lom, "@host");
lo_message_add_string(lom, "192.168.0.100");
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
mapper_database_add_or_update_device(db, "testdatabase.3", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
lo_message_add_string(lom, "@port");
lo_message_add_int32(lom, 5678);
lo_message_add_string(lom, "@host");
lo_message_add_string(lom, "192.168.0.100");
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
mapper_database_add_or_update_device(db, "testdatabase__.4", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
lo_message_add_string(lom, "@direction");
lo_message_add_string(lom, "input");
lo_message_add_string(lom, "@type");
lo_message_add_char(lom, 'f');
lo_message_add_string(lom, "@id");
lo_message_add_int64(lom, id);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
mapper_database_add_or_update_signal(db, "in1", "testdatabase.1", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
id++;
lo_message_add_string(lom, "@direction");
lo_message_add_string(lom, "input");
lo_message_add_string(lom, "@type");
lo_message_add_char(lom, 'f');
lo_message_add_string(lom, "@id");
lo_message_add_int64(lom, id);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
mapper_database_add_or_update_signal(db, "in2", "testdatabase.1", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
id++;
lo_message_add_string(lom, "@direction");
lo_message_add_string(lom, "output");
lo_message_add_string(lom, "@type");
lo_message_add_char(lom, 'f');
lo_message_add_string(lom, "@id");
lo_message_add_int64(lom, id);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
mapper_database_add_or_update_signal(db, "out1", "testdatabase.1", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
id++;
lo_message_add_string(lom, "@direction");
lo_message_add_string(lom, "output");
lo_message_add_string(lom, "@type");
lo_message_add_char(lom, 'f');
lo_message_add_string(lom, "@id");
lo_message_add_int64(lom, id);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
mapper_database_add_or_update_signal(db, "out2", "testdatabase.1", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
id++;
lo_message_add_string(lom, "@direction");
lo_message_add_string(lom, "output");
lo_message_add_string(lom, "@type");
lo_message_add_char(lom, 'f');
lo_message_add_string(lom, "@id");
lo_message_add_int64(lom, id);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
mapper_database_add_or_update_signal(db, "out1", "testdatabase__.2", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
id++;
lo_message_add_string(lom, "@mode");
lo_message_add_string(lom, "bypass");
lo_message_add_string(lom, "@dst@bound_min");
lo_message_add_string(lom, "none");
lo_message_add_string(lom, "@id");
lo_message_add_int64(lom, id);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
const char *src_sig_name = "testdatabase.1/out2";
mapper_database_add_or_update_map(db, 1, &src_sig_name,
"testdatabase__.2/in1", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
id++;
lo_message_add_string(lom, "@mode");
lo_message_add_string(lom, "bypass");
lo_message_add_string(lom, "@dst@bound_min");
lo_message_add_string(lom, "none");
lo_message_add_string(lom, "@id");
lo_message_add_int64(lom, id);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
src_sig_name = "testdatabase__.2/out1";
mapper_database_add_or_update_map(db, 1, &src_sig_name,
"testdatabase.1/in1", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
id++;
lo_message_add_string(lom, "@mode");
lo_message_add_string(lom, "expression");
lo_message_add_string(lom, "@expression");
lo_message_add_string(lom, "(x-10)*80");
lo_message_add_string(lom, "@dst@bound_min");
lo_message_add_string(lom, "clamp");
lo_message_add_string(lom, "@src@min");
lo_message_add_float(lom, 0.f);
lo_message_add_float(lom, 1.f);
lo_message_add_string(lom, "@src@max");
lo_message_add_float(lom, 1.f);
lo_message_add_float(lom, 2.f);
lo_message_add_string(lom, "@id");
lo_message_add_int64(lom, id);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
src_sig_name = "testdatabase.1/out1";
mapper_database_add_or_update_map(db, 1, &src_sig_name,
"testdatabase__.2/in2", msg);
mapper_message_free(msg);
lo_message_free(lom);
lom = lo_message_new();
if (!lom) {
result = 1;
goto done;
}
id++;
lo_message_add_string(lom, "@mode");
lo_message_add_string(lom, "expression");
lo_message_add_string(lom, "@expression");
lo_message_add_string(lom, "(x-10)*80");
lo_message_add_string(lom, "@dst@bound_min");
lo_message_add_string(lom, "clamp");
lo_message_add_string(lom, "@src@min");
lo_message_add_float(lom, 0.f);
lo_message_add_float(lom, 1.f);
lo_message_add_string(lom, "@src@max");
lo_message_add_float(lom, 1.f);
lo_message_add_float(lom, 2.f);
lo_message_add_string(lom, "@id");
lo_message_add_int64(lom, id);
if (!(msg = mapper_message_parse_properties(lo_message_get_argc(lom),
lo_message_get_types(lom),
lo_message_get_argv(lom)))) {
eprintf("1: Error, parsing failed.\n");
result = 1;
goto done;
}
src_sig_name = "testdatabase.1/out1";
mapper_database_add_or_update_map(db, 1, &src_sig_name,
"testdatabase__.2/in1", msg);
mapper_message_free(msg);
lo_message_free(lom);
/*********/
if (verbose) {
eprintf("Dump:\n");
mapper_database_print(db);
}
/*********/
eprintf("\n--- Devices ---\n");
eprintf("\nWalk the whole database:\n");
pdev = mapper_database_devices(db);
int count=0;
if (!pdev) {
eprintf("mapper_database_devices() returned 0.\n");
result = 1;
goto done;
}
if (!*pdev) {
eprintf("mapper_database_devices() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (pdev) {
count ++;
printdevice(*pdev);
pdev = mapper_device_query_next(pdev);
}
if (count != 4) {
eprintf("Expected 4 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind device named 'testdatabase.3':\n");
dev = mapper_database_device_by_name(db, "testdatabase.3");
if (!dev) {
eprintf("Not found.\n");
result = 1;
goto done;
}
printdevice(dev);
/*********/
eprintf("\nFind device named 'dummy':\n");
dev = mapper_database_device_by_name(db, "dummy");
if (dev) {
eprintf("unexpected found 'dummy': %p\n", dev);
result = 1;
goto done;
}
eprintf(" not found, good.\n");
/*********/
eprintf("\nFind devices matching '__':\n");
pdev = mapper_database_devices_by_name(db, "*__*");
count=0;
if (!pdev) {
eprintf("mapper_database_devices_by_name() returned 0.\n");
result = 1;
goto done;
}
if (!*pdev) {
eprintf("mapper_database_devices_by_name() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (pdev) {
count ++;
printdevice(*pdev);
pdev = mapper_device_query_next(pdev);
}
if (count != 2) {
eprintf("Expected 2 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind devices with property 'host'=='192.168.0.100':\n");
pdev = mapper_database_devices_by_property(db, "host", 1, 's',
"192.168.0.100", MAPPER_OP_EQUAL);
count=0;
if (!pdev) {
eprintf("mapper_database_devices_by_property() returned 0.\n");
result = 1;
goto done;
}
if (!*pdev) {
eprintf("mapper_database_devices_by_property() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (pdev) {
count ++;
printdevice(*pdev);
pdev = mapper_device_query_next(pdev);
}
if (count != 2) {
eprintf("Expected 2 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind devices with property 'port'<5678:\n");
int port = 5678;
pdev = mapper_database_devices_by_property(db, "port", 1, 'i', &port,
MAPPER_OP_LESS_THAN);
count=0;
if (!pdev) {
eprintf("mapper_database_devices_by_property() returned 0.\n");
result = 1;
goto done;
}
if (!*pdev) {
eprintf("mapper_database_devices_by_property() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (pdev) {
count ++;
printdevice(*pdev);
pdev = mapper_device_query_next(pdev);
}
if (count != 3) {
eprintf("Expected 3 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind devices with property 'num_outputs'==2:\n");
int temp = 2;
pdev = mapper_database_devices_by_property(db, "num_outputs", 1, 'i', &temp,
MAPPER_OP_EQUAL);
count=0;
if (!pdev) {
eprintf("mapper_database_devices_by_property() returned 0.\n");
result = 1;
goto done;
}
if (!*pdev) {
eprintf("mapper_database_devices_by_property() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (pdev) {
count ++;
printdevice(*pdev);
pdev = mapper_device_query_next(pdev);
}
if (count != 1) {
eprintf("Expected 1 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind devices with properties 'host'!='localhost' AND 'port'>=4000:\n");
pdev = mapper_database_devices_by_property(db, "host", 1, 's', "localhost",
MAPPER_OP_NOT_EQUAL);
pdev2 = mapper_database_devices_by_property(db, "port", 1, 'i', &port,
MAPPER_OP_GREATER_THAN_OR_EQUAL);
pdev = mapper_device_query_intersection(pdev, pdev2);
count=0;
if (!pdev) {
eprintf("mapper_database_devices_by_property() returned 0.\n");
result = 1;
goto done;
}
if (!*pdev) {
eprintf("mapper_database_devices_by_property() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (pdev) {
count ++;
printdevice(*pdev);
pdev = mapper_device_query_next(pdev);
}
if (count != 1) {
eprintf("Expected 1 record, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\n--- Signals ---\n");
eprintf("\nFind all signals for device 'testdatabase.1':\n");
dev = mapper_database_device_by_name(db, "testdatabase.1");
psig = mapper_device_signals(dev, MAPPER_DIR_ANY);
count=0;
if (!psig) {
eprintf("mapper_device_signals() returned 0.\n");
result = 1;
goto done;
}
if (!*psig) {
eprintf("mapper_device_signals() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (psig) {
count ++;
printsignal(*psig);
psig = mapper_signal_query_next(psig);
}
if (count != 4) {
eprintf("Expected 4 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind all signals for device 'testdatabase__xx.2':\n");
dev = mapper_database_device_by_name(db, "testdatabase__xx.2");
psig = mapper_device_signals(dev, MAPPER_DIR_ANY);
count=0;
if (psig) {
eprintf("mapper_device_signals() incorrectly found something.\n");
printsignal(*psig);
mapper_signal_query_done(psig);
result = 1;
goto done;
}
else
eprintf(" correctly returned 0.\n");
/*********/
eprintf("\nFind all outputs for device 'testdatabase__.2':\n");
dev = mapper_database_device_by_name(db, "testdatabase__.2");
psig = mapper_device_signals(dev, MAPPER_DIR_ANY);
count=0;
if (!psig) {
eprintf("mapper_device_signals() returned 0.\n");
result = 1;
goto done;
}
if (!*psig) {
eprintf("mapper_device_signals() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (psig) {
count ++;
printsignal(*psig);
psig = mapper_signal_query_next(psig);
}
if (count != 3) {
eprintf("Expected 3 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind signal matching 'in' for device 'testdatabase.1':\n");
dev = mapper_database_device_by_name(db, "testdatabase.1");
psig = mapper_device_signals(dev, MAPPER_DIR_ANY);
psig2 = mapper_database_signals_by_name(db, "*in*");
psig = mapper_signal_query_intersection(psig, psig2);
count=0;
if (!psig) {
eprintf("intersection of mapper_device_signals() and "
"mapper_database_signals_by_name() returned 0.\n");
result = 1;
goto done;
}
if (!*psig) {
eprintf("intersection of mapper_device_signals() and "
"mapper_database_signals_by_name() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (psig) {
count ++;
printsignal(*psig);
psig = mapper_signal_query_next(psig);
}
if (count != 2) {
eprintf("Expected 2 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind signal matching 'out' for device 'testdatabase.1':\n");
dev = mapper_database_device_by_name(db, "testdatabase.1");
psig = mapper_device_signals(dev, MAPPER_DIR_ANY);
psig2 = mapper_database_signals_by_name(db, "*out*");
psig = mapper_signal_query_intersection(psig, psig2);
count=0;
if (!psig) {
eprintf("intersection of mapper_device_signals() and "
"mapper_database_signals_by_name() returned 0.\n");
result = 1;
goto done;
}
if (!*psig) {
eprintf("intersection of mapper_device_signals() and "
"mapper_database_signals_by_name() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (psig) {
count ++;
printsignal(*psig);
psig = mapper_signal_query_next(psig);
}
if (count != 2) {
eprintf("Expected 2 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind signal matching 'out' for device 'testdatabase__.2':\n");
dev = mapper_database_device_by_name(db, "testdatabase__.2");
psig = mapper_device_signals(dev, MAPPER_DIR_ANY);
psig2 = mapper_database_signals_by_name(db, "*out*");
psig = mapper_signal_query_intersection(psig, psig2);
count=0;
if (!psig) {
eprintf("intersection of mapper_device_signals() and "
"mapper_database_signals_by_name() returned 0.\n");
result = 1;
goto done;
}
if (!*psig) {
eprintf("intersection of mapper_device_signals() and "
"mapper_database_signals_by_name() returned something "
"which pointed to 0.\n");
result = 1;
goto done;
}
while (psig) {
count ++;
printsignal(*psig);
psig = mapper_signal_query_next(psig);
}
if (count != 1) {
eprintf("Expected 1 record, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\n--- maps ---\n");
eprintf("\nFind maps with source 'out1':\n");
psig = mapper_database_signals_by_name(db, "out1");
pmap = 0;
while (psig) {
pmap2 = mapper_signal_maps(*psig, MAPPER_DIR_OUTGOING);
pmap = mapper_map_query_union(pmap, pmap2);
psig = mapper_signal_query_next(psig);
}
count=0;
if (!pmap) {
eprintf("combined query returned 0.\n");
result = 1;
goto done;
}
if (!*pmap) {
eprintf("combined query returned something which pointed to 0.\n");
result = 1;
goto done;
}
while (pmap) {
count ++;
printmap(*pmap);
pmap = mapper_map_query_next(pmap);
}
if (count != 3) {
eprintf("Expected 3 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind maps for device 'testdatabase.1', source 'out1':\n");
dev = mapper_database_device_by_name(db, "testdatabase.1");
sig = mapper_device_signal_by_name(dev, "out1");
pmap = mapper_signal_maps(sig, 0);
count=0;
if (!pmap) {
eprintf("mapper_signal_maps() returned 0.\n");
result = 1;
goto done;
}
if (!*pmap) {
eprintf("mapper_signal_maps() returned something which pointed to 0.\n");
result = 1;
goto done;
}
while (pmap) {
count ++;
printmap(*pmap);
pmap = mapper_map_query_next(pmap);
}
if (count != 2) {
eprintf("Expected 2 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind maps with destination signal named 'in2':\n");
psig = mapper_database_signals_by_name(db, "in2");
pmap = 0;
while (psig) {
pmap2 = mapper_signal_maps(*psig, MAPPER_DIR_INCOMING);
pmap = mapper_map_query_union(pmap, pmap2);
psig = mapper_signal_query_next(psig);
}
count=0;
if (!pmap) {
eprintf("combined query returned 0.\n");
result = 1;
goto done;
}
if (!*pmap) {
eprintf("combined query returned something which pointed to 0.\n");
result = 1;
goto done;
}
while (pmap) {
count ++;
printmap(*pmap);
pmap = mapper_map_query_next(pmap);
}
if (count != 1) {
eprintf("Expected 1 record, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind maps for device 'testdatabase__.2', destination 'in1':\n");
dev = mapper_database_device_by_name(db, "testdatabase__.2");
sig = mapper_device_signal_by_name(dev, "in1");
pmap = mapper_signal_maps(sig, MAPPER_DIR_INCOMING);
count=0;
if (!pmap) {
eprintf("mapper_signal_maps() returned 0.\n");
result = 1;
goto done;
}
if (!*pmap) {
eprintf("mapper_signal_maps() returned something which pointed to 0.\n");
result = 1;
goto done;
}
while (pmap) {
count ++;
printmap(*pmap);
pmap = mapper_map_query_next(pmap);
}
if (count != 2) {
eprintf("Expected 2 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind maps for source device 'testdatabase__.2', signal 'out1'"
"\n AND dest device 'testdatabase.1', signal 'in1':\n");
// get maps with source signal
dev = mapper_database_device_by_name(db, "testdatabase__.2");
sig = mapper_device_signal_by_name(dev, "out1");
pmap = mapper_signal_maps(sig, MAPPER_DIR_OUTGOING);
// get maps with destination signal
dev = mapper_database_device_by_name(db, "testdatabase.1");
sig = mapper_device_signal_by_name(dev, "in1");
pmap2 = mapper_signal_maps(sig, MAPPER_DIR_INCOMING);
// intersect map queries
pmap = mapper_map_query_intersection(pmap, pmap2);
count=0;
if (!pmap) {
eprintf("combined query returned 0.\n");
result = 1;
goto done;
}
if (!*pmap) {
eprintf("combined query returned something which pointed to 0.\n");
result = 1;
goto done;
}
while (pmap) {
count ++;
printmap(*pmap);
pmap = mapper_map_query_next(pmap);
}
if (count != 1) {
eprintf("Expected 1 records, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
eprintf("\nFind maps for source device 'testdatabase__.2', signals matching 'out',"
"\n AND dest device 'testdatabase.1', all signals:\n");
// build source query
dev = mapper_database_device_by_name(db, "testdatabase__.2");
psig = mapper_device_signals(dev, MAPPER_DIR_ANY);
psig2 = mapper_database_signals_by_name(db, "*out*");
psig = mapper_signal_query_intersection(psig, psig2);
pmap = 0;
while (psig) {
pmap2 = mapper_signal_maps(*psig, MAPPER_DIR_OUTGOING);
pmap = mapper_map_query_union(pmap, pmap2);
psig = mapper_signal_query_next(psig);
}
// build destination query
dev = mapper_database_device_by_name(db, "testdatabase.1");
pmap2 = mapper_device_maps(dev, MAPPER_DIR_ANY);
// intersect queries
pmap = mapper_map_query_intersection(pmap, pmap2);
count=0;
if (!pmap) {
eprintf("combined query returned 0.\n");
result = 1;
goto done;
}
if (!*pmap) {
eprintf("combined query returned something which pointed to 0.\n");
result = 1;
goto done;
}
while (pmap) {
count ++;
printmap(*pmap);
pmap = mapper_map_query_next(pmap);
}
if (count != 1) {
eprintf("Expected 1 record, but counted %d.\n", count);
result = 1;
goto done;
}
/*********/
done:
mapper_network_free(net);
if (!verbose)
printf("..................................................");
printf("Test %s.\n", result ? "FAILED" : "PASSED");
return result;
}
