#include "Sub.h" // Functions that will handle joystick/gamepad input // ---------------------------------------------------------------------------- // Anonymous namespace to hold variables used only in this file namespace { float cam_tilt = 1500.0; int16_t lights1 = 1100; int16_t lights2 = 1100; int16_t rollTrim = 0; int16_t pitchTrim = 0; int16_t zTrim = 0; int16_t xTrim = 0; int16_t yTrim = 0; int16_t video_switch = 1100; int16_t x_last, y_last, z_last; uint16_t buttons_prev; // Servo control output channels // TODO: Allow selecting output channels const uint8_t SERVO_CHAN_1 = 9; // Pixhawk Aux1 const uint8_t SERVO_CHAN_2 = 10; // Pixhawk Aux2 const uint8_t SERVO_CHAN_3 = 11; // Pixhawk Aux3 uint8_t roll_pitch_flag = false; // Flag to adjust roll/pitch instead of forward/lateral } void Sub::init_joystick() { default_js_buttons(); set_mode(MANUAL, MODE_REASON_TX_COMMAND); // Initialize flight mode if (g.numGainSettings < 1) { g.numGainSettings.set_and_save(1); } if (g.numGainSettings == 1 || (g.gain_default < g.maxGain + 0.01 && g.gain_default > g.minGain - 0.01)) { gain = constrain_float(g.gain_default, g.minGain, g.maxGain); // Use default gain parameter } else { // Use setting closest to average of minGain and maxGain gain = g.minGain + (g.numGainSettings/2 - 1) * (g.maxGain - g.minGain) / (g.numGainSettings - 1); } gain = constrain_float(gain, 0.1, 1.0); } void Sub::transform_manual_control_to_rc_override(int16_t x, int16_t y, int16_t z, int16_t r, uint16_t buttons) { int16_t channels[11]; uint32_t tnow_ms = millis(); float rpyScale = 0.4*gain; // Scale -1000-1000 to -400-400 with gain float throttleScale = 0.8*gain*g.throttle_gain; // Scale 0-1000 to 0-800 times gain int16_t rpyCenter = 1500; int16_t throttleBase = 1500-500*throttleScale; bool shift = false; static uint32_t buttonDebounce; // Debouncing timer if (tnow_ms - buttonDebounce > 100) { // Detect if any shift button is pressed for (uint8_t i = 0 ; i < 16 ; i++) { if ((buttons & (1 << i)) && get_button(i)->function() == JSButton::button_function_t::k_shift) { shift = true; } } // Act if button is pressed // Only act upon pressing button and ignore holding. This provides compatibility with Taranis as joystick. for (uint8_t i = 0 ; i < 16 ; i++) { if ((buttons & (1 << i))) { handle_jsbutton_press(i,shift,(buttons_prev & (1 << i))); buttonDebounce = tnow_ms; } } buttons_prev = buttons; } // Set channels to override if (!roll_pitch_flag) { channels[0] = 1500 + pitchTrim; // pitch channels[1] = 1500 + rollTrim; // roll } else { // adjust roll and pitch with joystick input instead of forward and lateral channels[0] = constrain_int16((x+pitchTrim)*rpyScale+rpyCenter,1100,1900); channels[1] = constrain_int16((y+rollTrim)*rpyScale+rpyCenter,1100,1900); } channels[2] = constrain_int16((z+zTrim)*throttleScale+throttleBase,1100,1900); // throttle channels[3] = constrain_int16(r*rpyScale+rpyCenter,1100,1900); // yaw if (!roll_pitch_flag) { // adjust forward and lateral with joystick input instead of roll and pitch channels[4] = constrain_int16((x+xTrim)*rpyScale+rpyCenter,1100,1900); // forward for ROV channels[5] = constrain_int16((y+yTrim)*rpyScale+rpyCenter,1100,1900); // lateral for ROV } else { // neutralize forward and lateral input while we are adjusting roll and pitch channels[4] = constrain_int16(xTrim*rpyScale+rpyCenter,1100,1900); // forward for ROV channels[5] = constrain_int16(yTrim*rpyScale+rpyCenter,1100,1900); // lateral for ROV } channels[6] = 0; // Unused channels[7] = cam_tilt; // camera tilt channels[8] = lights1; // lights 1 channels[9] = lights2; // lights 2 channels[10] = video_switch; // video switch // Store old x, y, z values for use in input hold logic x_last = x; y_last = y; z_last = z; hal.rcin->set_overrides(channels, 10); } void Sub::handle_jsbutton_press(uint8_t button, bool shift, bool held) { // Act based on the function assigned to this button switch (get_button(button)->function(shift)) { case JSButton::button_function_t::k_arm_toggle: if (motors.armed()) { init_disarm_motors(); } else { init_arm_motors(true); } break; case JSButton::button_function_t::k_arm: init_arm_motors(true); break; case JSButton::button_function_t::k_disarm: init_disarm_motors(); break; case JSButton::button_function_t::k_mode_manual: set_mode(MANUAL, MODE_REASON_TX_COMMAND); break; case JSButton::button_function_t::k_mode_stabilize: set_mode(STABILIZE, MODE_REASON_TX_COMMAND); break; case JSButton::button_function_t::k_mode_depth_hold: set_mode(ALT_HOLD, MODE_REASON_TX_COMMAND); break; case JSButton::button_function_t::k_mode_auto: set_mode(AUTO, MODE_REASON_TX_COMMAND); break; case JSButton::button_function_t::k_mode_guided: set_mode(GUIDED, MODE_REASON_TX_COMMAND); break; case JSButton::button_function_t::k_mode_circle: set_mode(CIRCLE, MODE_REASON_TX_COMMAND); break; case JSButton::button_function_t::k_mode_acro: set_mode(ACRO, MODE_REASON_TX_COMMAND); break; case JSButton::button_function_t::k_mode_poshold: set_mode(POSHOLD, MODE_REASON_TX_COMMAND); break; case JSButton::button_function_t::k_mount_center: cam_tilt = g.cam_tilt_center; break; case JSButton::button_function_t::k_mount_tilt_up: { uint8_t i; // Find the first aux channel configured as mount tilt, if any if (SRV_Channels::find_channel(SRV_Channel::k_mount_tilt, i)) { // Get the channel output limits SRV_Channel *ch = SRV_Channels::srv_channel(i); uint16_t min = ch->get_output_min(); uint16_t max = ch->get_output_max(); cam_tilt = constrain_int16(cam_tilt-g.cam_tilt_step,min,max); } } break; case JSButton::button_function_t::k_mount_tilt_down: { uint8_t i; // Find the first aux channel configured as mount tilt, if any if (SRV_Channels::find_channel(SRV_Channel::k_mount_tilt, i)) { // Get the channel output limits SRV_Channel *ch = SRV_Channels::srv_channel(i); uint16_t min = ch->get_output_min(); uint16_t max = ch->get_output_max(); cam_tilt = constrain_int16(cam_tilt+g.cam_tilt_step,min,max); } } break; case JSButton::button_function_t::k_camera_trigger: break; case JSButton::button_function_t::k_camera_source_toggle: if (!held) { static bool video_toggle = false; video_toggle = !video_toggle; if (video_toggle) { video_switch = 1900; gcs().send_text(MAV_SEVERITY_INFO,"Video Toggle: Source 2"); } else { video_switch = 1100; gcs().send_text(MAV_SEVERITY_INFO,"Video Toggle: Source 1"); } } break; case JSButton::button_function_t::k_mount_pan_right: // Not implemented break; case JSButton::button_function_t::k_mount_pan_left: // Not implemented break; case JSButton::button_function_t::k_lights1_cycle: if (!held) { static bool increasing = true; if (increasing) { lights1 = constrain_float(lights1+g.lights_step,1100,1900); } else { lights1 = constrain_float(lights1-g.lights_step,1100,1900); } if (lights1 >= 1900 || lights1 <= 1100) { increasing = !increasing; } } break; case JSButton::button_function_t::k_lights1_brighter: if (!held) { lights1 = constrain_float(lights1+g.lights_step,1100,1900); } break; case JSButton::button_function_t::k_lights1_dimmer: if (!held) { lights1 = constrain_float(lights1-g.lights_step,1100,1900); } break; case JSButton::button_function_t::k_lights2_cycle: if (!held) { static bool increasing = true; if (increasing) { lights2 = constrain_float(lights2+g.lights_step,1100,1900); } else { lights2 = constrain_float(lights2-g.lights_step,1100,1900); } if (lights2 >= 1900 || lights2 <= 1100) { increasing = !increasing; } } break; case JSButton::button_function_t::k_lights2_brighter: if (!held) { lights2 = constrain_float(lights2+g.lights_step,1100,1900); } break; case JSButton::button_function_t::k_lights2_dimmer: if (!held) { lights2 = constrain_float(lights2-g.lights_step,1100,1900); } break; case JSButton::button_function_t::k_gain_toggle: if (!held) { static bool lowGain = false; lowGain = !lowGain; if (lowGain) { gain = 0.5f; } else { gain = 1.0f; } gcs().send_text(MAV_SEVERITY_INFO,"#Gain: %2.0f%%",(double)gain*100); } break; case JSButton::button_function_t::k_gain_inc: if (!held) { // check that our gain parameters are in correct range, update in eeprom and notify gcs if needed g.minGain.set_and_save(constrain_float(g.minGain, 0.10, 0.80)); g.maxGain.set_and_save(constrain_float(g.maxGain, g.minGain, 1.0)); g.numGainSettings.set_and_save(constrain_int16(g.numGainSettings, 1, 10)); if (g.numGainSettings == 1) { gain = constrain_float(g.gain_default, g.minGain, g.maxGain); } else { gain = constrain_float(gain + (g.maxGain-g.minGain)/(g.numGainSettings-1), g.minGain, g.maxGain); } gcs().send_text(MAV_SEVERITY_INFO,"#Gain is %2.0f%%",(double)gain*100); } break; case JSButton::button_function_t::k_gain_dec: if (!held) { // check that our gain parameters are in correct range, update in eeprom and notify gcs if needed g.minGain.set_and_save(constrain_float(g.minGain, 0.10, 0.80)); g.maxGain.set_and_save(constrain_float(g.maxGain, g.minGain, 1.0)); g.numGainSettings.set_and_save(constrain_int16(g.numGainSettings, 1, 10)); if (g.numGainSettings == 1) { gain = constrain_float(g.gain_default, g.minGain, g.maxGain); } else { gain = constrain_float(gain - (g.maxGain-g.minGain)/(g.numGainSettings-1), g.minGain, g.maxGain); } gcs().send_text(MAV_SEVERITY_INFO,"#Gain is %2.0f%%",(double)gain*100); } break; case JSButton::button_function_t::k_trim_roll_inc: rollTrim = constrain_float(rollTrim+10,-200,200); break; case JSButton::button_function_t::k_trim_roll_dec: rollTrim = constrain_float(rollTrim-10,-200,200); break; case JSButton::button_function_t::k_trim_pitch_inc: pitchTrim = constrain_float(pitchTrim+10,-200,200); break; case JSButton::button_function_t::k_trim_pitch_dec: pitchTrim = constrain_float(pitchTrim-10,-200,200); break; case JSButton::button_function_t::k_input_hold_set: if (!held) { zTrim = z_last-500; xTrim = x_last; yTrim = y_last; input_hold_engaged = abs(zTrim) > 20 || abs(xTrim) > 20 || abs(yTrim) > 20; gcs().send_text(MAV_SEVERITY_INFO,"#Input Hold Set"); } break; case JSButton::button_function_t::k_relay_1_on: relay.on(0); break; case JSButton::button_function_t::k_relay_1_off: relay.off(0); break; case JSButton::button_function_t::k_relay_1_toggle: if (!held) { relay.toggle(0); } break; case JSButton::button_function_t::k_relay_2_on: relay.on(1); break; case JSButton::button_function_t::k_relay_2_off: relay.off(1); break; case JSButton::button_function_t::k_relay_2_toggle: if (!held) { relay.toggle(1); } break; //////////////////////////////////////////////// // Servo functions // TODO: initialize case JSButton::button_function_t::k_servo_1_inc: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_1 - 1); // 0-indexed uint16_t pwm_out = hal.rcout->read(SERVO_CHAN_1 - 1); // 0-indexed pwm_out = constrain_int16(pwm_out + 50, chan->get_output_min(), chan->get_output_max()); ServoRelayEvents.do_set_servo(SERVO_CHAN_1, pwm_out); // 1-indexed } break; case JSButton::button_function_t::k_servo_1_dec: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_1 - 1); // 0-indexed uint16_t pwm_out = hal.rcout->read(SERVO_CHAN_1 - 1); // 0-indexed pwm_out = constrain_int16(pwm_out - 50, chan->get_output_min(), chan->get_output_max()); ServoRelayEvents.do_set_servo(SERVO_CHAN_1, pwm_out); // 1-indexed } break; case JSButton::button_function_t::k_servo_1_min: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_1 - 1); // 0-indexed ServoRelayEvents.do_set_servo(SERVO_CHAN_1, chan->get_output_min()); // 1-indexed } break; case JSButton::button_function_t::k_servo_1_max: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_1 - 1); // 0-indexed ServoRelayEvents.do_set_servo(SERVO_CHAN_1, chan->get_output_max()); // 1-indexed } break; case JSButton::button_function_t::k_servo_1_center: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_1 - 1); // 0-indexed ServoRelayEvents.do_set_servo(SERVO_CHAN_1, chan->get_trim()); // 1-indexed } break; case JSButton::button_function_t::k_servo_2_inc: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_2 - 1); // 0-indexed uint16_t pwm_out = hal.rcout->read(SERVO_CHAN_2 - 1); // 0-indexed pwm_out = constrain_int16(pwm_out + 50, chan->get_output_min(), chan->get_output_max()); ServoRelayEvents.do_set_servo(SERVO_CHAN_2, pwm_out); // 1-indexed } break; case JSButton::button_function_t::k_servo_2_dec: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_2 - 1); // 0-indexed uint16_t pwm_out = hal.rcout->read(SERVO_CHAN_2 - 1); // 0-indexed pwm_out = constrain_int16(pwm_out - 50, chan->get_output_min(), chan->get_output_max()); ServoRelayEvents.do_set_servo(SERVO_CHAN_2, pwm_out); // 1-indexed } break; case JSButton::button_function_t::k_servo_2_min: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_2 - 1); // 0-indexed ServoRelayEvents.do_set_servo(SERVO_CHAN_2, chan->get_output_min()); // 1-indexed } break; case JSButton::button_function_t::k_servo_2_max: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_2 - 1); // 0-indexed ServoRelayEvents.do_set_servo(SERVO_CHAN_2, chan->get_output_max()); // 1-indexed } break; case JSButton::button_function_t::k_servo_2_center: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_2 - 1); // 0-indexed ServoRelayEvents.do_set_servo(SERVO_CHAN_2, chan->get_trim()); // 1-indexed } break; case JSButton::button_function_t::k_servo_3_inc: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_3 - 1); // 0-indexed uint16_t pwm_out = hal.rcout->read(SERVO_CHAN_3 - 1); // 0-indexed pwm_out = constrain_int16(pwm_out + 50, chan->get_output_min(), chan->get_output_max()); ServoRelayEvents.do_set_servo(SERVO_CHAN_3, pwm_out); // 1-indexed } break; case JSButton::button_function_t::k_servo_3_dec: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_3 - 1); // 0-indexed uint16_t pwm_out = hal.rcout->read(SERVO_CHAN_3 - 1); // 0-indexed pwm_out = constrain_int16(pwm_out - 50, chan->get_output_min(), chan->get_output_max()); ServoRelayEvents.do_set_servo(SERVO_CHAN_3, pwm_out); // 1-indexed } break; case JSButton::button_function_t::k_servo_3_min: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_3 - 1); // 0-indexed ServoRelayEvents.do_set_servo(SERVO_CHAN_3, chan->get_output_min()); // 1-indexed } break; case JSButton::button_function_t::k_servo_3_max: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_3 - 1); // 0-indexed ServoRelayEvents.do_set_servo(SERVO_CHAN_3, chan->get_output_max()); // 1-indexed } break; case JSButton::button_function_t::k_servo_3_center: { SRV_Channel* chan = SRV_Channels::srv_channel(SERVO_CHAN_3 - 1); // 0-indexed ServoRelayEvents.do_set_servo(SERVO_CHAN_3, chan->get_trim()); // 1-indexed } break; case JSButton::button_function_t::k_roll_pitch_toggle: if (!held) { roll_pitch_flag = !roll_pitch_flag; } break; case JSButton::button_function_t::k_custom_1: // Not implemented break; case JSButton::button_function_t::k_custom_2: // Not implemented break; case JSButton::button_function_t::k_custom_3: // Not implemented break; case JSButton::button_function_t::k_custom_4: // Not implemented break; case JSButton::button_function_t::k_custom_5: // Not implemented break; case JSButton::button_function_t::k_custom_6: // Not implemented break; } } JSButton* Sub::get_button(uint8_t index) { // Help to access appropriate parameter switch (index) { case 0: return &g.jbtn_0; case 1: return &g.jbtn_1; case 2: return &g.jbtn_2; case 3: return &g.jbtn_3; case 4: return &g.jbtn_4; case 5: return &g.jbtn_5; case 6: return &g.jbtn_6; case 7: return &g.jbtn_7; case 8: return &g.jbtn_8; case 9: return &g.jbtn_9; case 10: return &g.jbtn_10; case 11: return &g.jbtn_11; case 12: return &g.jbtn_12; case 13: return &g.jbtn_13; case 14: return &g.jbtn_14; case 15: return &g.jbtn_15; default: return &g.jbtn_0; } } void Sub::default_js_buttons() { JSButton::button_function_t defaults[16][2] = { {JSButton::button_function_t::k_none, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_mode_manual, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_mode_depth_hold, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_mode_stabilize, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_disarm, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_shift, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_arm, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_mount_center, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_input_hold_set, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_mount_tilt_down, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_mount_tilt_up, JSButton::button_function_t::k_none}, {JSButton::button_function_t::k_gain_inc, JSButton::button_function_t::k_trim_pitch_dec}, {JSButton::button_function_t::k_gain_dec, JSButton::button_function_t::k_trim_pitch_inc}, {JSButton::button_function_t::k_lights1_dimmer, JSButton::button_function_t::k_trim_roll_dec}, {JSButton::button_function_t::k_lights1_brighter, JSButton::button_function_t::k_trim_roll_inc}, {JSButton::button_function_t::k_none, JSButton::button_function_t::k_none}, }; for (int i = 0; i < 16; i++) { get_button(i)->set_default(defaults[i][0], defaults[i][1]); } } void Sub::set_neutral_controls() { int16_t channels[11]; for (uint8_t i = 0; i < 6; i++) { channels[i] = 1500; } for (uint8_t i = 6; i < 11; i++) { channels[i] = 0xffff; } hal.rcin->set_overrides(channels, 10); }