void testSequence(char *seq,
size_t len,
const char *fmt,
Bottle ref,
bool testWrite = true)
{
char err[1024];
printf("\n");
printf("================================================\n");
printf(" READ %s\n", fmt);
Bytes b1(seq, len);
WireTwiddler tt;
tt.configure(fmt, fmt);
printf(">>> %s\n", tt.toString().c_str());
Bottle bot;
checkTrue(tt.read(bot, b1), "Read failed");
snprintf(err, 1024, "%s: read %s, expected %s", fmt, bot.toString().c_str(), ref.toString().c_str());
checkTrue(bot == ref, err);
printf("[1] %s: read %s as expected\n", fmt, bot.toString().c_str());
StringInputStream sis;
sis.add(b1);
sis.add(b1);
WireTwiddlerReader twiddled_input(sis, tt);
Route route;
bot.clear();
twiddled_input.reset();
ConnectionReader::readFromStream(bot, twiddled_input);
snprintf(err, 1024, "%s: read %s, expected %s", fmt, bot.toString().c_str(), ref.toString().c_str());
checkTrue(bot == ref, err);
printf("[2] %s: read %s as expected\n", fmt, bot.toString().c_str());
bot.clear();
twiddled_input.reset();
ConnectionReader::readFromStream(bot, twiddled_input);
snprintf(err, 1024, "%s: read %s, expected %s", fmt, bot.toString().c_str(), ref.toString().c_str());
checkTrue(bot == ref, err);
printf("[3] %s: read %s as expected\n", fmt, bot.toString().c_str());
if (testWrite) {
printf("\n");
printf("================================================\n");
printf(" WRITE %s\n", fmt);
ManagedBytes output;
checkTrue(tt.write(ref, output), "WRITE FAILED");
snprintf(err, 1024, "WRITE MISMATCH, length %zd, expected %zd", output.length(), len);
checkTrue(output.length() == len, err);
for (size_t i = 0; i < output.length(); i++) {
snprintf(err, 1024, "WRITE MISMATCH, at %zd, have [%d:%c] expected [%d:%c]\n", i, output.get()[i], output.get()[i], seq[i], seq[i]);
checkTrue(output.get()[i] == seq[i], err);
}
printf("[4] %s: wrote %s as expected\n", fmt, bot.toString().c_str());
}
}
bool testSequence(char *seq, int len, const char *fmt, Bottle ref,
bool testWrite = true) {
printf("\n");
printf("================================================\n");
printf(" READ %s\n", fmt);
Bytes b1(seq,len);
WireTwiddler tt;
tt.configure(fmt);
printf(">>> %s\n", tt.toString().c_str());
Bottle bot;
if (!tt.read(bot,b1)) {
fprintf(stderr,"Read failed\n");
return 1;
}
if (bot!=ref) {
printf("%s: read %s, expected %s\n", fmt,
bot.toString().c_str(),
ref.toString().c_str());
printf("MISMATCH\n");
exit(1);
return false;
}
printf("[1] %s: read %s as expected\n", fmt, bot.toString().c_str());
StringInputStream sis;
sis.add(b1);
sis.add(b1);
WireTwiddlerReader twiddled_input(sis,tt);
Route route;
StreamConnectionReader reader2;
reader2.reset(twiddled_input,NULL,route,0,false);
bot.clear();
twiddled_input.reset();
bot.read(reader2);
if (bot!=ref) {
printf("%s: read %s, expected %s\n", fmt,
bot.toString().c_str(),
ref.toString().c_str());
printf("MISMATCH\n");
exit(1);
return false;
}
printf("[2] %s: read %s as expected\n", fmt, bot.toString().c_str());
StreamConnectionReader reader3;
reader3.reset(twiddled_input,NULL,route,0,false);
bot.clear();
twiddled_input.reset();
bot.read(reader3);
if (bot!=ref) {
printf("%s: read %s, expected %s\n", fmt,
bot.toString().c_str(),
ref.toString().c_str());
printf("MISMATCH\n");
exit(1);
return false;
}
printf("[3] %s: read %s as expected\n", fmt, bot.toString().c_str());
if (testWrite) {
printf("\n");
printf("================================================\n");
printf(" WRITE %s\n", fmt);
ManagedBytes output;
tt.write(ref,output);
if (output.length()!=(size_t)len) {
fprintf(stderr,"WRITE MISMATCH, length %d, expected %d\n",
(int)output.length(), len);
exit(1);
return false;
}
for (size_t i=0; i<output.length(); i++) {
if (output.get()[i] != seq[i]) {
fprintf(stderr,"WRITE MISMATCH, at %d, have [%d:%c] expected [%d:%c]\n",
(int)i, output.get()[i], output.get()[i], seq[i], seq[i]);
exit(1);
return false;
}
}
printf("[4] %s: wrote %s as expected\n", fmt, bot.toString().c_str());
}
return true;
}