#include #include #include #include "hid.hh" // Modified HID library: doesn't prefix each packet with ID #include "instrument.hh" //#include "blue.hh" // Ginnie's blue guitar #include "standard.hh" // Standard pins // Maximum time between wammy bar updates. #define UPDATE_INTERVAL_MS 20 // After an edge on a pin, stop listening for this long, to debounce it #define SILENCE_INTERVAL_MS 40 // Your measured samples per frame, more or less #define SAMPLES_PER_FRAME 127 // Some arithmetic for the compiler, to make the code fast #define SAMPLES_PER_MS (SAMPLES_PER_FRAME / UPDATE_INTERVAL_MS) #define SILENCE_SAMPLES (SAMPLES_PER_MS * SILENCE_INTERVAL_MS) #if USB_VID != 0x1bad #error USB_VID must be set to 0x1bad #endif #if USB_PID == 0x0004 #define GUITAR #elif USB_PID == 0x0005 #define DRUM #else #error USB_PID must be set to 4 (Guitar) or 5 (Drum) #endif InstrumentButtonState buttonState; void setup() { pinMode(STRUM_DOWN, INPUT_PULLUP); pinMode(STRUM_UP, INPUT_PULLUP); pinMode(TILT_SWITCH, INPUT_PULLUP); pinMode(BUTTON_GREEN, INPUT_PULLUP); pinMode(BUTTON_RED, INPUT_PULLUP); pinMode(BUTTON_YELLOW, INPUT_PULLUP); pinMode(BUTTON_BLUE, INPUT_PULLUP); pinMode(BUTTON_ORANGE, INPUT_PULLUP); pinMode(SOLO_GREEN, INPUT_PULLUP); pinMode(SOLO_RED, INPUT_PULLUP); pinMode(SOLO_YELLOW, INPUT_PULLUP); pinMode(SOLO_BLUE, INPUT_PULLUP); pinMode(SOLO_ORANGE, INPUT_PULLUP); pinMode(ANALOG_WAMMY, INPUT); pinMode(BUTTON_PLUS, INPUT_PULLUP); pinMode(BUTTON_MINUS, INPUT_PULLUP); // Initialize HID static HIDSubDescriptor node(_hidReportDescriptor, sizeof(_hidReportDescriptor)); HID().AppendDescriptor(&node); buttonState.axis[0] = 0; buttonState.axis[1] = 0; buttonState.axis[2] = 0; buttonState.axis[3] = 0; for (int i = 0; i < 12; i++) { buttonState.reserved1[i] = 0x0; } buttonState.finalConstant = 0x0200020002000200; } // Order of pins in sample uint8_t pins[] = { BUTTON_BLUE, BUTTON_GREEN, BUTTON_RED, BUTTON_YELLOW, BUTTON_ORANGE, TILT_SWITCH, STRUM_UP, // Not in USB packet STRUM_DOWN, // Not in USB packet BUTTON_MINUS, BUTTON_PLUS, SOLO_BLUE, // Not in USB packet SOLO_GREEN, // Not in USB packet SOLO_RED, // Not in USB packet SOLO_YELLOW, // Not in USB packet SOLO_ORANGE, // Not in USB packet }; #define npins (sizeof(pins) / sizeof(*pins)) // The 3.3v Pro Micro is on the slow side. // Our strategy is to poll button state as quickly as possible, // and hope we don't miss anything while we're doing USB stuff. void loop() { uint16_t buttons = 0; uint16_t samples = 0; unsigned long next = 0; uint16_t silence[npins] = {0}; while (1) { unsigned long now = millis(); uint16_t edge = 0; samples++; for (uint8_t i = 0; i < npins; i++) { if (silence[i]) { silence[i]--; } else if (bitRead(buttons, i) != !digitalRead(pins[i])) { edge |= bit(i); silence[i] = SILENCE_SAMPLES; } } buttons ^= edge; // We've sampled everything. Is it time to do calculations and USB? if (!edge && (next > now)) { continue; } next = now + UPDATE_INTERVAL_MS; buttonState.buttons = (buttons & 0b1100111111); // All directly-mappable bits buttonState.buttons |= ((buttons >> 10) & 0b11111); // Solo keys bitWrite(buttonState.buttons, 6, (buttons >> 10) & 0b11111); // Solo bit // I don't understand why any rational engineer would have done this. buttonState.hatAndConstant = (0x08 ^ (bitRead(buttons, 6) << 4) // up // right << 3 ^ (bitRead(buttons, 7) << 2) // down // left << 1 ); buttonState.axis[2] = analogRead(ANALOG_WAMMY) / 4; // The second Y axis doesn't appear to be used, so I'm logging sample rate with it buttonState.axis[3] = samples & 0xff; // most things map this to [-1,1] // Send an update HID().SendReport(0, (uint8_t *)&buttonState, 27); samples = 0; } }