reformat gimbal, uavstate, fc cmd and add warning for ros rate and enhance gps prec.
This commit is contained in:
commit
527569fe71
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@ -567,7 +567,6 @@ function set_rc_goto() {
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m_cMeToPred.Bearing=m_MessageBearing[IDofPred]
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var S2Pred=math.vec2.newp(m_cMeToPred.Range,m_cMeToPred.Bearing)
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var S2Target=math.vec2.add(S2Pred,P2Target)
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gps_from_vec(math.vec2.newp(math.vec2.length(S2Target)/100.0, math.atan(S2Target.y,S2Target.x)))
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@ -5,7 +5,7 @@
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########################################
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TARGET_ALTITUDE = 5.0 # m.
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UAVSTATE = "TURNEDOFF"
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PICTURE_WAIT = 40 # steps
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PICTURE_WAIT = 20 # steps
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GOTO_MAXVEL = 2 # m/steps
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GOTO_MAXDIST = 150 # m.
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GOTODIST_TOL = 0.5 # m.
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@ -35,7 +35,7 @@ function takeoff() {
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barrier_set(ROBOTS, action, land, -1)
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barrier_ready()
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} else {
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log("Altitude: ", TARGET_ALTITUDE)
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log("Altitude: ", position.altitude)
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neighbors.broadcast("cmd", 22)
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uav_takeoff(TARGET_ALTITUDE)
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}
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@ -75,10 +75,10 @@ ptime=0
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function picture() {
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statef=picture
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UAVSTATE="PICTURE"
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#TODO: change gimbal orientation
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if(ptime==PICTURE_WAIT/2)
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uav_setgimbal(0.0, 0.0, -90.0, 20.0)
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if(ptime==PICTURE_WAIT/2) { # wait for the drone to stabilize
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uav_takepicture()
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else if(ptime>=PICTURE_WAIT) {
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} else if(ptime>=PICTURE_WAIT) { # wait for the picture
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statef=action
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ptime=0
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}
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@ -86,9 +86,8 @@ function picture() {
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}
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function gotoWP(transf) {
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print(rc_goto.id, " is going alone to lat=", rc_goto.latitude)
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rb_from_gps(rc_goto.latitude, rc_goto.longitude)
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print(" has to move ", goal.range)
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print(" has to move ", goal.range, goal.bearing)
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m_navigation = math.vec2.newp(goal.range, goal.bearing)
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if(math.vec2.length(m_navigation)>GOTO_MAXDIST)
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@ -183,7 +182,6 @@ function LimitAngle(angle){
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}
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function rb_from_gps(lat, lon) {
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# print("gps2rb d: ",lat,lon)
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# print("gps2rb h: ",position.latitude,position.longitude)
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d_lon = lon - position.longitude
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@ -10,7 +10,8 @@
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#include "buzz_utility.h"
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#define EARTH_RADIUS (double) 6371000.0
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#define DEG2RAD(DEG) ((DEG)*((M_PI)/(180.0)))
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#define DEG2RAD(DEG) (double) ((DEG)*((M_PI)/(180.0)))
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#define RAD2DEG(RAD) (double) ((RAD)*((180.0)/(M_PI)))
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namespace buzzuav_closures{
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typedef enum {
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@ -23,6 +24,7 @@ namespace buzzuav_closures{
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COMMAND_GOTO,
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COMMAND_MOVETO,
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COMMAND_PICTURE,
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COMMAND_GIMBAL,
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} Custom_CommandCode;
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/*
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@ -38,6 +40,7 @@ void setWPlist(std::string path);
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*/
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int buzzuav_moveto(buzzvm_t vm);
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int buzzuav_storegoal(buzzvm_t vm);
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int buzzuav_setgimbal(buzzvm_t vm);
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void parse_gpslist();
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int buzzuav_takepicture(buzzvm_t vm);
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/* Returns the current command from local variable*/
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@ -47,7 +50,7 @@ void set_goto(double pos[]);
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/*Sets goto position from rc client*/
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void rc_set_goto(int id, double latitude, double longitude, double altitude);
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/*Sets gimbal orientation from rc client*/
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void rc_set_gimbal(int id, float yaw, float pitch);
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void rc_set_gimbal(int id, float yaw, float roll, float pitch, float t);
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/*sets rc requested command */
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void rc_call(int rc_cmd);
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/* sets the battery state */
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@ -61,6 +64,8 @@ void set_api_rssi(float value);
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void set_currentpos(double latitude, double longitude, double altitude);
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/*retuns the current go to position */
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double* getgoto();
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std::string getuavstate();
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float* getgimbal();
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/* updates flight status*/
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void flight_status_update(uint8_t state);
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/* Update neighbors table */
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@ -71,7 +71,7 @@ private:
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double longitude=0.0;
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double latitude=0.0;
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float altitude=0.0;
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}; typedef struct gps GPS ; // not useful in cpp
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}; typedef struct gps GPS ;
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GPS target, home, cur_pos;
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double cur_rel_altitude;
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@ -307,6 +307,9 @@ void in_message_process(){
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buzzvm_pushs(VM, buzzvm_string_register(VM, "uav_storegoal", 1));
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buzzvm_pushcc(VM, buzzvm_function_register(VM, buzzuav_closures::buzzuav_storegoal));
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buzzvm_gstore(VM);
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buzzvm_pushs(VM, buzzvm_string_register(VM, "uav_setgimbal", 1));
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buzzvm_pushcc(VM, buzzvm_function_register(VM, buzzuav_closures::buzzuav_setgimbal));
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buzzvm_gstore(VM);
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buzzvm_pushs(VM, buzzvm_string_register(VM, "uav_takepicture", 1));
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buzzvm_pushcc(VM, buzzvm_function_register(VM, buzzuav_closures::buzzuav_takepicture));
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buzzvm_gstore(VM);
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@ -352,6 +355,12 @@ void in_message_process(){
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buzzvm_pushs(VM, buzzvm_string_register(VM, "uav_moveto", 1));
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buzzvm_pushcc(VM, buzzvm_function_register(VM, buzzuav_closures::dummy_closure));
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buzzvm_gstore(VM);
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buzzvm_pushs(VM, buzzvm_string_register(VM, "uav_storegoal", 1));
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buzzvm_pushcc(VM, buzzvm_function_register(VM, buzzuav_closures::dummy_closure));
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buzzvm_gstore(VM);
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buzzvm_pushs(VM, buzzvm_string_register(VM, "uav_setgimbal", 1));
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buzzvm_pushcc(VM, buzzvm_function_register(VM, buzzuav_closures::dummy_closure));
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buzzvm_gstore(VM);
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buzzvm_pushs(VM, buzzvm_string_register(VM, "uav_takepicture", 1));
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buzzvm_pushcc(VM, buzzvm_function_register(VM, buzzuav_closures::dummy_closure));
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buzzvm_gstore(VM);
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@ -16,7 +16,7 @@ namespace buzzuav_closures{
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//void set_ros_controller_ptr(const rosbzz_node::roscontroller* roscontroller_ptrin);
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static double goto_pos[3];
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static double rc_goto_pos[3];
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static float rc_gimbal[2];
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static float rc_gimbal[4];
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static float batt[3];
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static float obst[5]={0,0,0,0,0};
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static double cur_pos[3];
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@ -28,7 +28,6 @@ namespace buzzuav_closures{
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static float height=0;
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static bool deque_full = false;
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static int rssi = 0;
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static int message_number = 0;
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static float raw_packet_loss = 0.0;
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static int filtered_packet_loss = 0;
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static float api_rssi = 0.0;
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@ -94,12 +93,12 @@ namespace buzzuav_closures{
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/----------------------------------------*/
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void gps_from_rb(double range, double bearing, double out[3]) {
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double lat = cur_pos[0]*M_PI/180.0;
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double lon = cur_pos[1]*M_PI/180.0;
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double lat = RAD2DEG(cur_pos[0]);
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double lon = RAD2DEG(cur_pos[1]);
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out[0] = asin(sin(lat) * cos(range/EARTH_RADIUS) + cos(lat) * sin(range/EARTH_RADIUS) * cos(bearing));
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out[1] = lon + atan2(sin(bearing) * sin(range/EARTH_RADIUS) * cos(lat), cos(range/EARTH_RADIUS) - sin(lat)*sin(out[0]));
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out[0] = out[0]*180.0/M_PI;
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out[1] = out[1]*180.0/M_PI;
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out[0] = RAD2DEG(out[0]);
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out[1] = RAD2DEG(out[1]);
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out[2] = height; //constant height.
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}
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@ -321,11 +320,34 @@ namespace buzzuav_closures{
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/ Buzz closure to take a picture here.
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/----------------------------------------*/
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int buzzuav_takepicture(buzzvm_t vm) {
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cur_cmd = mavros_msgs::CommandCode::CMD_DO_SET_CAM_TRIGG_DIST;
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//cur_cmd = mavros_msgs::CommandCode::CMD_DO_SET_CAM_TRIGG_DIST;
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buzz_cmd = COMMAND_PICTURE;
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return buzzvm_ret0(vm);
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}
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/*----------------------------------------/
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/ Buzz closure to change locally the gimbal orientation
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/----------------------------------------*/
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int buzzuav_setgimbal(buzzvm_t vm) {
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buzzvm_lnum_assert(vm, 4);
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buzzvm_lload(vm, 1); // time
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buzzvm_lload(vm, 2); // pitch
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buzzvm_lload(vm, 3); // roll
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buzzvm_lload(vm, 4); // yaw
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buzzvm_type_assert(vm, 4, BUZZTYPE_FLOAT);
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buzzvm_type_assert(vm, 3, BUZZTYPE_FLOAT);
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buzzvm_type_assert(vm, 2, BUZZTYPE_FLOAT);
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buzzvm_type_assert(vm, 1, BUZZTYPE_FLOAT);
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rc_gimbal[0] = buzzvm_stack_at(vm, 4)->f.value;
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rc_gimbal[1] = buzzvm_stack_at(vm, 3)->f.value;
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rc_gimbal[2] = buzzvm_stack_at(vm, 2)->f.value;
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rc_gimbal[3] = buzzvm_stack_at(vm, 1)->f.value;
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ROS_WARN("Set RC_GIMBAL ---- %f %f %f (%f)",rc_gimbal[0],rc_gimbal[1],rc_gimbal[2],rc_gimbal[3]);
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buzz_cmd = COMMAND_GIMBAL;
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return buzzvm_ret0(vm);
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}
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/*----------------------------------------/
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/ Buzz closure to store locally a GPS destination from the fleet
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/----------------------------------------*/
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@ -413,6 +435,20 @@ namespace buzzuav_closures{
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return goto_pos;
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}
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float* getgimbal() {
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return rc_gimbal;
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}
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string getuavstate() {
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static buzzvm_t VM = buzz_utility::get_vm();
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std::stringstream state_buff;
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buzzvm_pushs(VM, buzzvm_string_register(VM, "UAVSTATE",1));
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buzzvm_gload(VM);
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buzzobj_t uav_state = buzzvm_stack_at(VM, 1);
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buzzvm_pop(VM);
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return uav_state->s.value.str;
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}
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int getcmd() {
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return cur_cmd;
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}
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@ -438,11 +474,13 @@ namespace buzzuav_closures{
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}
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void rc_set_gimbal(int id, float yaw, float pitch) {
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void rc_set_gimbal(int id, float yaw, float roll, float pitch, float t) {
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rc_id = id;
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rc_gimbal[0] = yaw;
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rc_gimbal[1] = pitch;
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rc_gimbal[1] = roll;
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rc_gimbal[2] = pitch;
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rc_gimbal[3] = t;
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}
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@ -195,7 +195,9 @@ void roscontroller::RosControllerRun()
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robot_id)) {
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ROS_INFO("[%i] Bytecode file found and set", robot_id);
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std::string standby_bo = Compile_bzz(stand_by) + ".bo";
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init_update_monitor(bcfname.c_str(), standby_bo.c_str());
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//init_update_monitor(bcfname.c_str(), standby_bo.c_str());
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/*loop rate of ros*/
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ros::Rate loop_rate(BUZZRATE);
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///////////////////////////////////////////////////////
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// MAIN LOOP
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//////////////////////////////////////////////////////
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@ -220,14 +222,7 @@ void roscontroller::RosControllerRun()
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}
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const uint8_t shrt_id= 0xFF;
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float result;
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if ( GetAPIRssi(shrt_id, result) )
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log<<result<<",";
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else
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log<<"0,";
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if ( GetRawPacketLoss(shrt_id, result) )
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log<<result<<",";
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else
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log<<"0,";
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if ( GetFilteredPacketLoss(shrt_id, result) )
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log<<result<<",";
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else
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@ -236,7 +231,7 @@ void roscontroller::RosControllerRun()
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neighbours_pos_publisher();
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send_MPpayload();
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/*Check updater state and step code*/
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update_routine(bcfname.c_str(), dbgfname.c_str());
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// update_routine(bcfname.c_str(), dbgfname.c_str());
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/*Log In Msg queue size*/
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log<<(int)buzz_utility::get_inmsg_size()<<",";
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/*Step buzz script */
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@ -246,8 +241,8 @@ void roscontroller::RosControllerRun()
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/*call flight controler service to set command long*/
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flight_controller_service_call();
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/*Set multi message available after update*/
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if (get_update_status())
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{
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//if (get_update_status())
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//{
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/* set_read_update_status();
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multi_msg = true;
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log << cur_pos.latitude << "," << cur_pos.longitude << ","
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@ -262,40 +257,28 @@ void roscontroller::RosControllerRun()
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<< "," << (double)it->second.z;
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}
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log << std::endl;*/
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}
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//}
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/*Set ROBOTS variable for barrier in .bzz from neighbours count*/
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// no_of_robots=get_number_of_robots();
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get_number_of_robots();
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buzz_utility::set_robot_var(no_of_robots);
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/*Retrive the state of the graph and uav and log TODO WARNING :PLEASE REMOVE IF
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SCRIPT IS NOT graphform.bzz*/
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static buzzvm_t VM = buzz_utility::get_vm();
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/*Retrive the state of the graph and uav and log*/
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std::stringstream state_buff;
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//buzzvm_pushs(VM, buzzvm_string_register(VM, "m_eState",1));
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// buzzvm_gload(VM);
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// buzzobj_t graph_state = buzzvm_stack_at(VM, 1);
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// buzzvm_pop(VM);
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// state_buff<< graph_state->s.value.str<<",";
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buzzvm_pushs(VM, buzzvm_string_register(VM, "UAVSTATE",1));
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buzzvm_gload(VM);
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buzzobj_t uav_state = buzzvm_stack_at(VM, 1);
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buzzvm_pop(VM);
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state_buff<< uav_state->s.value.str;
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state_buff << buzzuav_closures::getuavstate();
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log<<state_buff.str()<<std::endl;
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// if(neighbours_pos_map.size() >0) no_of_robots
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// =neighbours_pos_map.size()+1;
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// buzz_utility::set_robot_var(no_of_robots);
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/*Set no of robots for updates TODO only when not updating*/
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// if(multi_msg)
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updates_set_robots(no_of_robots);
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// ROS_INFO("ROBOTS: %i , acutal :
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// %i",(int)no_of_robots,(int)buzzdict_size(buzz_utility::get_vm()->swarmmembers)+1);
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get_xbee_status();
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//updates_set_robots(no_of_robots);
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//get_xbee_status(); // commented out because it may slow down the node too much, to be tested
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/*run once*/
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ros::spinOnce();
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/*loop rate of ros*/
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ros::Rate loop_rate(BUZZRATE);
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loop_rate.sleep();
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// make sure to sleep for the remainder of our cycle time
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if (loop_rate.cycleTime() > ros::Duration(1.0 / (float)BUZZRATE))
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ROS_WARN("ROSBuzz loop missed its desired rate of %iHz... the loop actually took %.4f seconds", BUZZRATE, loop_rate.cycleTime().toSec());
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if (fcu_timeout <= 0)
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buzzuav_closures::rc_call(mavros_msgs::CommandCode::NAV_LAND);
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else
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@ -633,7 +616,7 @@ void roscontroller::prepare_msg_and_publish()
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delete[] out;
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delete[] payload_out_ptr;
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/*Check for updater message if present send*/
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if ((int)get_update_mode() != CODE_RUNNING && is_msg_present() == 1 &&
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/* if ((int)get_update_mode() != CODE_RUNNING && is_msg_present() == 1 &&
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multi_msg)
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{
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uint8_t *buff_send = 0;
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@ -675,7 +658,7 @@ void roscontroller::prepare_msg_and_publish()
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payload_pub.publish(update_packets);
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multi_msg = false;
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delete[] payload_64;
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}
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}*/
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}
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/*---------------------------------------------------------------------------------
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/Flight controller service call every step if there is a command set from bzz
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@ -685,34 +668,15 @@ script
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void roscontroller::flight_controller_service_call()
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{
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/* flight controller client call if requested from Buzz*/
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/*FC call for takeoff,land, gohome and arm/disarm*/
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int tmp = buzzuav_closures::bzz_cmd();
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double *goto_pos = buzzuav_closures::getgoto();
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if (tmp == buzzuav_closures::COMMAND_TAKEOFF ||
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tmp == buzzuav_closures::COMMAND_LAND ||
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tmp == buzzuav_closures::COMMAND_GOHOME) {
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double *goto_pos;
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float *gimbal;
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switch (buzzuav_closures::bzz_cmd()) {
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case buzzuav_closures::COMMAND_TAKEOFF:
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goto_pos = buzzuav_closures::getgoto();
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cmd_srv.request.param7 = goto_pos[2];
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cmd_srv.request.command = buzzuav_closures::getcmd();
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// std::cout << " CMD: " << buzzuav_closures::getcmd() << std::endl;
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// SOLO SPECIFIC: SITL DOES NOT USE 21 TO LAND -- workaround: set to LAND
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// mode
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switch (buzzuav_closures::getcmd()) {
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case mavros_msgs::CommandCode::NAV_LAND:
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if (current_mode != "LAND") {
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SetMode("LAND", 0);
|
||||
armstate = 0;
|
||||
Arm();
|
||||
}
|
||||
if (mav_client.call(cmd_srv)) {
|
||||
ROS_INFO("Reply: %ld", (long int)cmd_srv.response.success);
|
||||
} else {
|
||||
ROS_ERROR("Failed to call service from flight controller");
|
||||
}
|
||||
armstate = 0;
|
||||
break;
|
||||
case mavros_msgs::CommandCode::NAV_TAKEOFF:
|
||||
if (!armstate) {
|
||||
|
||||
SetMode("LOITER", 0);
|
||||
armstate = 1;
|
||||
Arm();
|
||||
|
@ -728,10 +692,35 @@ void roscontroller::flight_controller_service_call()
|
|||
} else
|
||||
ROS_ERROR("Failed to call service from flight controller");
|
||||
break;
|
||||
}
|
||||
|
||||
} else if (tmp == buzzuav_closures::COMMAND_GOTO) { /*FC call for goto*/
|
||||
/*prepare the goto publish message */
|
||||
case buzzuav_closures::COMMAND_LAND:
|
||||
cmd_srv.request.command = buzzuav_closures::getcmd();
|
||||
if (current_mode != "LAND") {
|
||||
SetMode("LAND", 0);
|
||||
armstate = 0;
|
||||
Arm();
|
||||
}
|
||||
if (mav_client.call(cmd_srv)) {
|
||||
ROS_INFO("Reply: %ld", (long int)cmd_srv.response.success);
|
||||
} else {
|
||||
ROS_ERROR("Failed to call service from flight controller");
|
||||
}
|
||||
armstate = 0;
|
||||
break;
|
||||
|
||||
case buzzuav_closures::COMMAND_GOHOME: // NOT FULLY IMPLEMENTED/TESTED !!!
|
||||
cmd_srv.request.param5 = home.latitude;
|
||||
cmd_srv.request.param6 = home.longitude;
|
||||
cmd_srv.request.param7 = home.altitude;
|
||||
cmd_srv.request.command = buzzuav_closures::getcmd();
|
||||
if (mav_client.call(cmd_srv)) {
|
||||
ROS_INFO("Reply: %ld", (long int)cmd_srv.response.success);
|
||||
} else
|
||||
ROS_ERROR("Failed to call service from flight controller");
|
||||
break;
|
||||
|
||||
case buzzuav_closures::COMMAND_GOTO: // NOT FULLY IMPLEMENTED/TESTED !!!
|
||||
goto_pos = buzzuav_closures::getgoto();
|
||||
cmd_srv.request.param5 = goto_pos[0];
|
||||
cmd_srv.request.param6 = goto_pos[1];
|
||||
cmd_srv.request.param7 = goto_pos[2];
|
||||
|
@ -745,35 +734,53 @@ void roscontroller::flight_controller_service_call()
|
|||
ROS_INFO("Reply: %ld", (long int)cmd_srv.response.success);
|
||||
} else
|
||||
ROS_ERROR("Failed to call service from flight controller");
|
||||
} else if (tmp == buzzuav_closures::COMMAND_ARM) { /*FC call for arm*/
|
||||
break;
|
||||
|
||||
case buzzuav_closures::COMMAND_ARM:
|
||||
if (!armstate) {
|
||||
SetMode("LOITER", 0);
|
||||
armstate = 1;
|
||||
Arm();
|
||||
}
|
||||
} else if (tmp == buzzuav_closures::COMMAND_DISARM) {
|
||||
break;
|
||||
|
||||
case buzzuav_closures::COMMAND_DISARM:
|
||||
if (armstate) {
|
||||
armstate = 0;
|
||||
SetMode("LOITER", 0);
|
||||
Arm();
|
||||
}
|
||||
} else if (tmp == buzzuav_closures::COMMAND_MOVETO) { /*Buzz call for moveto*/
|
||||
break;
|
||||
|
||||
case buzzuav_closures::COMMAND_MOVETO:
|
||||
goto_pos = buzzuav_closures::getgoto();
|
||||
roscontroller::SetLocalPosition(goto_pos[0], goto_pos[1], goto_pos[2], 0);
|
||||
} else if (tmp == buzzuav_closures::COMMAND_PICTURE) { /* TODO: Buzz call to take a picture*/
|
||||
ROS_INFO("TAKING A PICTURE HERE!! --------------");
|
||||
cmd_srv.request.param1 = 90;
|
||||
cmd_srv.request.param2 = 0;
|
||||
cmd_srv.request.param3 = 0;
|
||||
cmd_srv.request.param4 = 0;
|
||||
break;
|
||||
|
||||
case buzzuav_closures::COMMAND_GIMBAL:
|
||||
gimbal = buzzuav_closures::getgimbal();
|
||||
cmd_srv.request.param1 = gimbal[0];
|
||||
cmd_srv.request.param2 = gimbal[1];
|
||||
cmd_srv.request.param3 = gimbal[2];
|
||||
cmd_srv.request.param4 = gimbal[3];
|
||||
cmd_srv.request.command = mavros_msgs::CommandCode::CMD_DO_MOUNT_CONTROL;
|
||||
if (mav_client.call(cmd_srv)) {
|
||||
ROS_INFO("Reply: %ld", (long int)cmd_srv.response.success);
|
||||
} else
|
||||
ROS_ERROR("Failed to call service from flight controller");
|
||||
break;
|
||||
|
||||
case buzzuav_closures::COMMAND_PICTURE:
|
||||
ROS_INFO("TAKING A PICTURE HERE!! --------------");
|
||||
mavros_msgs::CommandBool capture_command;
|
||||
capture_srv.call(capture_command);
|
||||
if (capture_srv.call(capture_command)) {
|
||||
ROS_INFO("Reply: %ld", (long int)capture_command.response.success);
|
||||
} else
|
||||
ROS_ERROR("Failed to call service from camera streamer");
|
||||
break;
|
||||
}
|
||||
}
|
||||
|
||||
/*----------------------------------------------
|
||||
/Refresh neighbours Position for every ten step
|
||||
/---------------------------------------------*/
|
||||
|
@ -823,39 +830,6 @@ void roscontroller::set_cur_pos(double latitude, double longitude,
|
|||
/ Compute Range and Bearing of a neighbor in a local reference frame
|
||||
/ from GPS coordinates
|
||||
----------------------------------------------------------- */
|
||||
void ecef2ned_matrix(const double ref_ecef[3], double M[3][3]) {
|
||||
double hyp_az, hyp_el;
|
||||
double sin_el, cos_el, sin_az, cos_az;
|
||||
|
||||
/* Convert reference point to spherical earth centered coordinates. */
|
||||
hyp_az = sqrt(ref_ecef[0] * ref_ecef[0] + ref_ecef[1] * ref_ecef[1]);
|
||||
hyp_el = sqrt(hyp_az * hyp_az + ref_ecef[2] * ref_ecef[2]);
|
||||
sin_el = ref_ecef[2] / hyp_el;
|
||||
cos_el = hyp_az / hyp_el;
|
||||
sin_az = ref_ecef[1] / hyp_az;
|
||||
cos_az = ref_ecef[0] / hyp_az;
|
||||
|
||||
M[0][0] = -sin_el * cos_az;
|
||||
M[0][1] = -sin_el * sin_az;
|
||||
M[0][2] = cos_el;
|
||||
M[1][0] = -sin_az;
|
||||
M[1][1] = cos_az;
|
||||
M[1][2] = 0.0;
|
||||
M[2][0] = -cos_el * cos_az;
|
||||
M[2][1] = -cos_el * sin_az;
|
||||
M[2][2] = -sin_el;
|
||||
}
|
||||
void matrix_multiply(uint32_t n, uint32_t m, uint32_t p, const double *a,
|
||||
const double *b, double *c) {
|
||||
uint32_t i, j, k;
|
||||
for (i = 0; i < n; i++)
|
||||
for (j = 0; j < p; j++) {
|
||||
c[p * i + j] = 0;
|
||||
for (k = 0; k < m; k++)
|
||||
c[p * i + j] += a[m * i + k] * b[p * k + j];
|
||||
}
|
||||
}
|
||||
|
||||
float roscontroller::constrainAngle(float x) {
|
||||
x = fmod(x,2*M_PI);
|
||||
if (x < 0.0)
|
||||
|
@ -989,18 +963,10 @@ void roscontroller::SetLocalPosition(float x, float y, float z, float yaw) {
|
|||
moveMsg.header.stamp = ros::Time::now();
|
||||
moveMsg.header.seq = setpoint_counter++;
|
||||
moveMsg.header.frame_id = 1;
|
||||
// float ned_x, ned_y;
|
||||
// gps_ned_home(ned_x, ned_y);
|
||||
// ROS_INFO("[%i] ROSBuzz Home: %.7f, %.7f", robot_id, home[0],
|
||||
// home[1]);
|
||||
// ROS_INFO("[%i] ROSBuzz LocalPos: %.7f, %.7f", robot_id,
|
||||
// local_pos[0], local_pos[1]);
|
||||
|
||||
/*prepare the goto publish message ATTENTION: ENU FRAME FOR MAVROS STANDARD
|
||||
* (then converted to NED)*/
|
||||
// target[0]+=y; target[1]+=x;
|
||||
moveMsg.pose.position.x = local_pos_new[0] + y; // ned_y+y;
|
||||
moveMsg.pose.position.y = local_pos_new[1] + x; // ned_x+x;
|
||||
//ROS_INFO("Lp: %.3f, %.3f - Del: %.3f, %.3f", local_pos_new[0], local_pos_new[1], x, y);
|
||||
moveMsg.pose.position.x = local_pos_new[0] + y;
|
||||
moveMsg.pose.position.y = local_pos_new[1] + x;
|
||||
moveMsg.pose.position.z = z;
|
||||
|
||||
moveMsg.pose.orientation.x = 0;
|
||||
|
@ -1111,7 +1077,7 @@ void roscontroller::payload_obt(const mavros_msgs::Mavlink::ConstPtr &msg) {
|
|||
gps_rb(nei_pos, cvt_neighbours_pos_payload);
|
||||
/*Extract robot id of the neighbour*/
|
||||
uint16_t *out = buzz_utility::u64_cvt_u16((uint64_t) * (message_obt + 3));
|
||||
// ROS_WARN("RAB of %i: %f, %f", (int)out[1], cvt_neighbours_pos_payload[0], cvt_neighbours_pos_payload[1]);
|
||||
ROS_WARN("RAB of %i: %f, %f", (int)out[1], cvt_neighbours_pos_payload[0], cvt_neighbours_pos_payload[1]);
|
||||
/*pass neighbour position to local maintaner*/
|
||||
buzz_utility::Pos_struct n_pos(cvt_neighbours_pos_payload[0],
|
||||
cvt_neighbours_pos_payload[1],
|
||||
|
@ -1175,7 +1141,7 @@ bool roscontroller::rc_callback(mavros_msgs::CommandLong::Request &req,
|
|||
break;
|
||||
case mavros_msgs::CommandCode::CMD_DO_MOUNT_CONTROL:
|
||||
ROS_INFO("RC_Call: Gimbal!!!! ");
|
||||
buzzuav_closures::rc_set_gimbal(req.param1,req.param2,req.param3);
|
||||
buzzuav_closures::rc_set_gimbal(req.param1,req.param2,req.param3,req.param4,req.param5);
|
||||
rc_cmd = mavros_msgs::CommandCode::CMD_DO_MOUNT_CONTROL;
|
||||
buzzuav_closures::rc_call(rc_cmd);
|
||||
res.success = true;
|
||||
|
|
Loading…
Reference in New Issue