I'm trying to make a sort of custom midi player, to do so I'm using an array that already has memorized correctly the midi messages data like this:

int array[3000][4]={{time,status,data1,data2},{...},...}

when I want my program to send the midi message (so that it can be played) I call this array and do the needed distinctions between noteon/off, pitch-bend and such. The pitch-bend value (ranging from 0 to 16383, but usually is around 8192 which means no pitch shifting) is all memorized in data1 (array[i][2]). For the conversion from int to the two 7 bits values to pass to midiOutShortMsg() I've used some of the code I found here. Here is the code I'm actually using:

union { unsigned long word; unsigned char data[4]; } message;
int main(int argc, char** argv) {
    int midiport; // select which MIDI output port to open
    uint16_t bend;
    int flag,u;    // monitor the status of returning functions
    uint16_t mask = 0x007F;
    HMIDIOUT device;    // MIDI device interface for sending MIDI output
    message.data[0] = 0x90;  
    message.data[1] = 60;    
    message.data[2] = 100;   
    message.data[3] = 0;     // Unused parameter

// Assign the MIDI output port number (from input or default to 0)
if (!midiOutGetNumDevs()){
    printf("non ci sono devices");
if (argc < 2) {
    midiport = 0;
else {
    midiport = 0;
printf("MIDI output port set to %d.\n", midiport);

// Open the MIDI output port
flag = midiOutOpen(&device, midiport, 0, 0, CALLBACK_NULL);
if (flag != MMSYSERR_NOERROR) {
    printf("Error opening MIDI Output.\n");
    return 1;
}i = 0;
message.data[0] = 0xC0;
message.data[1] = 25;
message.data[2] = 0;
flag = midiOutShortMsg(device, message.word); //program change to steel guitar
if (flag != MMSYSERR_NOERROR) {
    printf("Warning: MIDI Output is not open.\n");
while (1){
    if (array[i][1] == 1) { //note on 
    else if (array[i][1] == 0){//note off
    else if (array[i][1] == 2){//pitch bend
        while (array[i][1] == 2){
            message.data[0] = 0xE0;
            bend = (uint16_t) array[i][2];
            message.data[1] = bend & mask;
            message.data[2] = (bend & (mask << 7)) >> 7;
            printf("bending %d, %d\n", message.data[1],message.data[2]); 
            flag = midiOutShortMsg(device, message.word);
            if (flag != MMSYSERR_NOERROR) {
                printf("Warning: MIDI Output is not open.\n");

The printf("bending %d,%d") function always prints the first %d as a 0, no matter what. It's the first time I program in midi and I never had to deal with 7 bits values before, so I'm getting quite confused, any help will be appreciated.

  • bend = array[i][2], looking at the array initialization in position 2 there is a variable named byte1, so if you shift the mask to grab after the first seven bits bend & (mask << 7) you only get the last bit in byte1, which for midi bytes should always be zero. May 19, 2015 at 22:17
  • If the data is already separated into two bytes in the array, why do you need to separate it again? just put array[i][2] and array[i][3] into message.data[1] and message.data[2]
    – samgak
    May 20, 2015 at 1:16
  • I think you might have mistaken the meaning of byte1 and byte2, I shall rename them data1 and data2. The data1 (ex byte1) variable contains an int number ranging from 0 to 16383 that I have to divide into 2 separate variables of 7 bit each (message.data[1] and message.data[2]). I'll edit my question. May 20, 2015 at 1:53

1 Answer 1


For a pitch bend message data1 (your message.data[1]) is the LSB, and data2 (message.data[2]) is MSB. I'm not a C developer, but here's how I do it in some pseudo-code:

(byte) data2 = pitchbend >> 7
(byte) data1 = pitchbend & 0x7F

In English:

  • MSB is: pitchbend bit shift right 7
  • LSB is: pitchbend bitwise AND with a mask of 127

For reference, doing the reverse (combining the two values to calculate pitch bend, if you had received them in a message, for instance) is a simple matter of:

pitchbend = (data2 * 128) + data1

Edit: I read your code more closely, and it looks like you're already doing what I described. IE:

uint16_t mask = 0x007F;
bend = (uint16_t) array[i][2];

message.data[1] = bend & mask;
message.data[2] = (bend & (mask << 7)) >> 7;

What values for array[i][2] are you trying to send? Anything that is an even multiple of 128 will result in an LSB (message.data[1]) of zero. It is not uncommon for devices to ignore, or not use the added resolution provided by the low byte, so your sample MIDI data may fall under this condition.

  • 1
    bitwise AND == & Logical AND == &&
    – user1038155
    May 20, 2015 at 9:48
  • This is overly complicated as data2 is simply pitchbend >> 7; no additional masking is needed since the 2 MSB are zeroes. May 20, 2015 at 9:55
  • @Justin Ryan I didn't notice that actually all the pitchbends value I have stored are multiples of 128. Yet I don't understand why the midi player doesn't play the actual pitchbend as it should. It sounds like it's bending less (much less) than a semitone while it should sound like a bend of a semitone with vibrato at the end. May 20, 2015 at 11:18
  • @Miguel I'm not sure I understand your suggestion May 20, 2015 at 11:19
  • @Aki I tried what you suggested and it's true, it still gives the same result (both numerically and midiwise). May 20, 2015 at 11:19

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.