I use superpowered, I need send midi note to a controller midi.
The problem is that I saw a function send(int deviceID, unsigned char *data, int bytes);
Where in their source code say:
deviceID: Device identifier.
data: Raw MIDI data.
bytes: Number of bytes.
I don't know the values that I need put exactly on data and bytes to work.
The raw midi could be 0x80 - 0x48 - 0x00(start of C4 note, pitch= 72, See values)
And the bytes 1001nnnn0kkkkkkk0kkkkkkk(note on event See values) for example?
Something like that:
SuperpoweredUSBMIDI::send(deviceID, reinterpret_cast(0x80 - 0x48 - 0x00), 1001nnnn0kkkkkkk0kkkkkkk);
The problem that always crash, and I can't debug or get the error for the reason that I use the mobile with otg to replicate the error.
When I find a solution, I will put it as soon as I can.
I'm newbie with markdown, sorry for any mistakes and my English grammar.
Edit: I'm using the example project that they have on GitHub for testing purposes, specifically the simpleusb project. (source)
I make a small modifications and work, but with this specifically I try with many ways and nothing. I think this simple macrochange at least could work if I insert well the values
class simpleusb.cpp:
#include <jni.h>
#include <math.h>
#include <SuperpoweredCPU.h>
#include <AndroidIO/SuperpoweredUSBAudio.h>
#include <malloc.h>
#include <pthread.h>
// Called when the application is initialized. You can initialize SuperpoweredUSBSystem
// at any time btw. Although this function is marked __unused, it's due Android Studio's
// annoying warning only. It's definitely used.
__unused jint JNI_OnLoad (
JavaVM * __unused vm,
void * __unused reserved
) {
SuperpoweredUSBSystem::initialize(NULL, NULL, NULL, NULL, NULL);
return JNI_VERSION_1_6;
}
// Called when the application is closed. You can destroy SuperpoweredUSBSystem at any time btw.
// Although this function is marked __unused, it's due Android Studio's annoying warning only.
// It's definitely used.
__unused void JNI_OnUnload (
JavaVM * __unused vm,
void * __unused reserved
) {
SuperpoweredUSBSystem::destroy();
}
// A helper structure for sine wave output.
typedef struct sineWaveOutput {
float mul;
unsigned int step;
} sineWaveOutput;
// This is called periodically for audio I/O. Audio is always 32-bit floating point,
// regardless of the bit depth preference. (SuperpoweredUSBAudioProcessingCallback)
static bool audioProcessing (
void *clientdata,
int __unused deviceID,
float *audioIO,
int numberOfSamples,
int samplerate,
int __unused numInputChannels,
int numOutputChannels
) {
// If audioIO is NULL, then it's the very last call, IO is closing.
if (!audioIO) {
// Free memory for sine wave struct.
free(clientdata);
return true;
}
sineWaveOutput *swo = (sineWaveOutput *)clientdata;
if (swo->mul == 0.0f) swo->mul = (2.0f * float(M_PI) * 300.0f) / float(samplerate);
// Output sine wave on all output channels.
for (int n = 0; n < numberOfSamples; n++) {
float v = sinf(swo->step++ * swo->mul) * 0.5f;
for (int c = 0; c < numOutputChannels; c++) *audioIO++ = v;
}
return true; // Return false for silence, true if we put audio output into audioIO.
}
static pthread_mutex_t mutex = PTHREAD_MUTEX_INITIALIZER;
static int latestMidiCommand = -1;
static int latestMidiChannel = 0;
static int latestMidiNumber = 0;
static int latestMidiValue = 0;
// This is called when some MIDI data is coming in.
// We are doing some primitive MIDI data processing here.
static void onMidiReceived (
void * __unused clientdata,
int __unused deviceID,
unsigned char *data,
int bytes
) {
while (bytes > 0) {
if (*data > 127) {
int command = *data >> 4;
switch (command) {
case 8: // note off
case 9: // note on
case 11: // control change
pthread_mutex_lock(&mutex);
// store incoming MIDI data
latestMidiCommand = command;
latestMidiChannel = *data++ & 15;
latestMidiNumber = *data++;
latestMidiValue = *data++;
pthread_mutex_unlock(&mutex);
bytes -= 3;
break;
default:
data++;
bytes--;
}
} else {
data++;
bytes--;
}
}
}
// Beautifying the ugly Java-C++ bridge (JNI) with these macros.
#define PID com_superpowered_simpleusb_SuperpoweredUSBAudio // Java package name and class name. Don't forget to update when you copy this code.
#define MAKE_JNI_FUNCTION(r, n, p) extern "C" JNIEXPORT r JNICALL Java_ ## p ## _ ## n
#define JNI(r, n, p) MAKE_JNI_FUNCTION(r, n, p)
// This is called by the SuperpoweredUSBAudio Java object when a USB device is connected.
JNI(jint, onConnect, PID) (
JNIEnv *env,
jobject __unused obj,
jint deviceID,
jint fd,
jbyteArray rawDescriptor
) {
jbyte *rd = env->GetByteArrayElements(rawDescriptor, NULL);
int dataBytes = env->GetArrayLength(rawDescriptor);
int r = SuperpoweredUSBSystem::onConnect(deviceID, fd, (unsigned char *)rd, dataBytes);
env->ReleaseByteArrayElements(rawDescriptor, rd, JNI_ABORT);
// r is 0 if SuperpoweredUSBSystem can't do anything with the connected device.
// r & 2 is true if the device has MIDI. Start receiving events.
if (r & 2) {
SuperpoweredUSBMIDI::startIO(deviceID, NULL, onMidiReceived);
//TODO HERE IT'S THE PROBLEM: error: integer literal is too large to be represented in any integer type
SuperpoweredUSBMIDI::send(deviceID, reinterpret_cast<unsigned char *>(0x80 - 0x48 - 0x00), 100100010011100000000011);
//FINISH PROBLEM
}
// r & 1 is true if the device has audio. Start output.
if (r & 1) {
// allocate struct for sine wave oscillator
sineWaveOutput *swo = (sineWaveOutput *)malloc(sizeof(sineWaveOutput));
if (swo) {
swo->mul = 0.0f;
swo->step = 0;
SuperpoweredCPU::setSustainedPerformanceMode(true);
// Our preferred settings: 44100 Hz, 16 bits, 0 input channels, 256 output channels,
// low latency. Superpowered will set up the audio device as close as it can to these.
SuperpoweredUSBAudio::easyIO (
deviceID, // deviceID
44100, // sampling rate
16, // bits per sample
0, // numInputChannels
256, // numOutputChannels
SuperpoweredUSBLatency_Low, // latency
swo, // clientData
audioProcessing // SuperpoweredUSBAudioProcessingCallback
);
}
}
return r;
}
// This is called by the SuperpoweredUSBAudio Java object when a USB device is disconnected.
JNI(void, onDisconnect, PID) (
JNIEnv * __unused env,
jobject __unused obj,
jint deviceID
) {
SuperpoweredUSBSystem::onDisconnect(deviceID);
SuperpoweredCPU::setSustainedPerformanceMode(false);
}
#undef PID
#define PID com_superpowered_simpleusb_MainActivity
// This is called by the MainActivity Java object periodically.
JNI(jintArray, getLatestMidiMessage, PID) (
JNIEnv *env,
jobject __unused obj
) {
jintArray ints = env->NewIntArray(4);
jint *i = env->GetIntArrayElements(ints, 0);
pthread_mutex_lock(&mutex);
i[0] = latestMidiCommand;
i[1] = latestMidiChannel;
i[2] = latestMidiNumber;
i[3] = latestMidiValue;
pthread_mutex_unlock(&mutex);
env->ReleaseIntArrayElements(ints, i, 0);
return ints;
}
The other important class but I don't change on this problem, MainActivity:
@RequiresApi(api = Build.VERSION_CODES.M)
public class MainActivity extends AppCompatActivity implements SuperpoweredUSBAudioHandler {
private Handler handler;
private TextView textView;
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
textView = findViewById(R.id.text);
SuperpoweredUSBAudio usbAudio = new SuperpoweredUSBAudio(getApplicationContext(), this);
usbAudio.check();
// Update UI every 40 ms.
Runnable runnable = new Runnable() {
@Override
public void run() {
int[] midi = getLatestMidiMessage();
switch (midi[0]) {
case 8: textView.setText(String.format(Locale.ENGLISH, "Note Off, CH %d, %d, %d",
midi[1] + 1, midi[2], midi[3]));
break;
case 9: textView.setText(String.format(Locale.ENGLISH, "Note On, CH %d, %d, %d",
midi[1] + 1, midi[2], midi[3]));
break;
case 11: textView.setText(String.format(Locale.ENGLISH, "Control Change, CH %d, %d, %d",
midi[1] + 1, midi[2], midi[3]));
break;
}
handler.postDelayed(this, 40);
}
};
handler = new Handler();
handler.postDelayed(runnable, 40);
/*Not look, only for testing purposes and for remember what use.
byte[] buffer = new byte[32];
int numBytes = 0;
int channel = 6; // MIDI channels 1-16 are encoded as 0-15.
buffer[numBytes++] = (byte)(0x90 + (channel - 1)); // note on
buffer[numBytes++] = (byte)60; // pitch is middle C
buffer[numBytes++] = (byte)127; // max velocity
int offset = 0;*/
}
public void onUSBAudioDeviceAttached(int deviceIdentifier) {
}
public void onUSBMIDIDeviceAttached(int deviceIdentifier) {
}
public void onUSBDeviceDetached(int deviceIdentifier) {
}
// Function implemented in the native library.
private native int[] getLatestMidiMessage();
static {
System.loadLibrary("SuperpoweredExample");
}
}
Error that I can't build app finally:
Build command failed.
Error while executing process D:\Users\ramoc\AppData\Local\Android\sdk\cmake\3.6.4111459\bin\cmake.exe with arguments {--build F:\PROYECTOFIN\SuperpoweredUSBExample\simpleusb\.externalNativeBuild\cmake\debug\arm64-v8a --target SuperpoweredExample}
[1/2] Building CXX object CMakeFiles/SuperpoweredExample.dir/simpleusb.cpp.o
FAILED: D:\Users\ramoc\AppData\Local\Android\sdk\ndk-bundle\toolchains\llvm\prebuilt\windows-x86_64\bin\clang++.exe --target=aarch64-none-linux-android --gcc-toolchain=D:/Users/ramoc/AppData/Local/Android/sdk/ndk-bundle/toolchains/aarch64-linux-android-4.9/prebuilt/windows-x86_64 --sysroot=D:/Users/ramoc/AppData/Local/Android/sdk/ndk-bundle/sysroot -DSuperpoweredExample_EXPORTS -IF:/PROYECTOFIN/SuperpoweredUSBExample/simpleusb/src/main/jni/src/main/jni -IF:/PROYECTOFIN/SuperpoweredUSBExample/simpleusb/../../../Superpowered -isystem D:/Users/ramoc/AppData/Local/Android/sdk/ndk-bundle/sources/cxx-stl/gnu-libstdc++/4.9/include -isystem D:/Users/ramoc/AppData/Local/Android/sdk/ndk-bundle/sources/cxx-stl/gnu-libstdc++/4.9/libs/arm64-v8a/include -isystem D:/Users/ramoc/AppData/Local/Android/sdk/ndk-bundle/sources/cxx-stl/gnu-libstdc++/4.9/include/backward -isystem D:/Users/ramoc/AppData/Local/Android/sdk/ndk-bundle/sysroot/usr/include/aarch64-linux-android -D__ANDROID_API__=21 -g -DANDROID -ffunction-sections -funwind-tables -fstack-protector-strong -no-canonical-prefixes -Wa,--noexecstack -Wformat -Werror=format-security -fsigned-char -IF:\PROYECTOFIN\SuperpoweredUSBExample\simpleusb\..\..\..\Superpowered -O0 -fno-limit-debug-info -fPIC -MD -MT CMakeFiles/SuperpoweredExample.dir/simpleusb.cpp.o -MF CMakeFiles\SuperpoweredExample.dir\simpleusb.cpp.o.d -o CMakeFiles/SuperpoweredExample.dir/simpleusb.cpp.o -c F:\PROYECTOFIN\SuperpoweredUSBExample\simpleusb\src\main\jni\simpleusb.cpp
F:\PROYECTOFIN\SuperpoweredUSBExample\simpleusb\src\main\jni\simpleusb.cpp:129:100: error: integer literal is too large to be represented in any integer type
SuperpoweredUSBMIDI::send(deviceID, reinterpret_cast<unsigned char *>(0x80 - 0x48 - 0x00), 100100010011100000000011);
^
F:\PROYECTOFIN\SuperpoweredUSBExample\simpleusb\src\main\jni\simpleusb.cpp:129:100: warning: implicit conversion from 'unsigned long long' to 'int' changes value from 7976667151972931595 to 887068683 [-Wconstant-conversion]
SuperpoweredUSBMIDI::send(deviceID, reinterpret_cast<unsigned char *>(0x80 - 0x48 - 0x00), 100100010011100000000011);
~~~~~~~~~~~~~~~~~~~ ^~~~~~~~~~~~~~~~~~~~~~~~
1 warning and 1 error generated.
ninja: build stopped: subcommand failed.
Maybe it's for the documentation, very newbie with jni or too complex to me for now to understand 100%.
Ok, so here's what send is saying:
send(int deviceID, unsigned char *data, int bytes);
Send to deviceId a pointer to a buffer called data that has a certain number of bytes.
So when you say: SuperpoweredUSBMIDI::send(deviceID, reinterpret_cast(0x80 - 0x48 - 0x00), 100100010011100000000011);
What you are essentially saying is "subtract these 3 numbers: 0x80 - 0x48 - 0x00", then re-interpret that number as a pointer to a buffer somewhere in memory. That buffer in memory contains 100100010011100000000011 bytes of data that I want you to read.
To fix this, we would send the data like this:
unsigned char* send_buffer[32] = {0}; // zero out buffer to use as scratch
send_buffer[0] = 0x90;
send_buffer[1] = 0x48;
send_buffer[2] = 0x00;
SuperpoweredUSBMIDI::send(deviceID, send_buffer, 3);