CRAC Team
Programme carte strategie (disco)
Dependencies: mbed SerialHalfDuplex SDFileSystem DISCO-F469NI_portrait liaison_Bluetooth ident_crac
Robots/Strategie_big.cpp
- Committer:
- kyxstark
- Date:
- 2019-05-23
- Revision:
- 56:95c329e42200
- Parent:
- 41:b029ddc4d60e
File content as of revision 56:95c329e42200:
#include "global.h"
#ifdef ROBOT_BIG
unsigned char isStopEnable = 1;//Permet de savoir si il faut autoriser le stop via les balises
/****************************************************************************************/
/* FUNCTION NAME: doFunnyAction */
/* DESCRIPTION : Permet de faire la funny action en fin de partie */
/****************************************************************************************/
void doFunnyAction(void) {
//envoie de la funny action
// 0x007, 01, 01
CANMessage msgTx=CANMessage();
msgTx.id=GLOBAL_FUNNY_ACTION;
msgTx.format=CANStandard;
msgTx.type=CANData;
msgTx.len=2;
msgTx.data[0]=0x01;
msgTx.data[1]=0x01;
can1.write(msgTx);
}
/****************************************************************************************/
/* FUNCTION NAME: doAction */
/* DESCRIPTION : Effectuer une action specifique */
/****************************************************************************************/
unsigned char doAction(unsigned char id, unsigned short var1, short var2) {
CANMessage msgTx=CANMessage();
msgTx.format=CANStandard;
msgTx.type=CANData;
//affichage_debug(id);
switch(id) {
/////////////////////////////////////////////////////////100 à 108 : ACTIONS HERKULEX/////////////////////////////////////////////
/*case 100: //Monte l'immeuble selon le code couleur
msgTx.id=MONTER_IMMEUBLE_DOUBLE;
msgTx.len=3;
msgTx.data[0]=couleur1;
msgTx.data[1]=couleur2;
msgTx.data[2]=couleur3;
can2.write(msgTx);
break;
case 101: //baisser l'attrape bloc arrière
//SendRawId(BAISSER_ATTRAPE_BLOC);
break;
case 102: //Relever l'attrape bloc arrière
//SendRawId(RELEVER_ATTRAPE_BLOC);
break;
case 103: //
//SendRawId(BAISSER_ATTRAPE_BLOC_AvG);
break;
case 104:
//SendRawId(RELEVER_ATTRAPE_BLOC_AvG);
break;
case 105:
//SendRawId(BAISSER_ATTRAPE_BLOC_AvD);
break;
case 106:
//SendRawId(RELEVER_ATTRAPE_BLOC_AvD);
break;
case 107:
msgTx.id=MONTER_IMMEUBLE;
msgTx.len=4;
msgTx.data[0]=couleur1;
msgTx.data[1]=couleur2;
msgTx.data[2]=couleur3;
msgTx.data[3]=var1;
msgTx.data[4]=var2;
can2.write(msgTx);
break;
case 108:
SendRawId(INTER_BAISSER_ATTRAPE_BLOC_AvG);
break;
case 109:
SendRawId(INTER_BAISSER_ATTRAPE_BLOC_AvD);
break;
case 111:
SendRawId(RANGER_ATTRAPE_BLOC_AvD);
break;
case 112:
SendRawId(RANGER_ATTRAPE_BLOC_AvG);
break;
case 113:
msgTx.id=LIRE_PANNEAU;
msgTx.len=1;
msgTx.data[0]=var1;
can2.write(msgTx);
break;
case 150:
SCORE_GR+=var1;
SCORE_GLOBAL=SCORE_GR+SCORE_PR;
//liaison_Tx.envoyer_short(0x30,SCORE_GLOBAL);
waitingAckFrom = 0;
waitingAckID = 0;
break;
case 10://Désactiver le stop
isStopEnable = 0;
break;
case 11://Activer le stop
isStopEnable = 1;
break;
case 20://Désactiver l'asservissement
setAsservissementEtat(0);
break;
case 21://Activer l'asservissement
setAsservissementEtat(1);
break;
case 22://Changer la vitesse du robot
SendSpeed(var1,(unsigned short)var2);
waitingAckFrom = 0;
waitingAckID = 0;
wait(0.2);
break;
case 30://Action tempo
wait_ms(var1);
waitingAckFrom = 0;
waitingAckID = 0;
break;
*/
/*case 40: // demande au telemetre la position d'un objet
//SendRawId(TELEMETRE_RECHERCHE_OBJET);
modeTelemetre = 1;
//angle = angle /10;
msgTx.id=TELEMETRE_OBJET;
msgTx.format=CANStandard;
msgTx.type=CANData;
msgTx.len=1;
// indice du module sur le terrain
msgTx.data[0] = (unsigned char)speed;
// x sur 2 octets
msgTx.data[0]=(unsigned char)speed;
msgTx.data[1]=(unsigned char)(speed>>8);
// y sur 2 octets
msgTx.data[2]=(unsigned char)angle;
msgTx.data[3]=(unsigned char)(angle>>8);
// theta signé sur 2 octets
//msgTx.data[4]=(unsigned char)theta;
//msgTx.data[5]=(unsigned char)(theta>>8);
msgTx.data[4]=0;
msgTx.data[5]=0;
can1.write(msgTx);
break;*/
/* case 130://Lancer mouvement de sortie de la zone de départ
msgTx.id=ACTION_BIG_DEMARRAGE;
msgTx.format=CANStandard;
msgTx.type=CANData;
msgTx.len=1;
msgTx.data[0] = (unsigned char)speed;
can1.write(msgTx);
break;*/
default:
return 0;//L'action n'existe pas, il faut utiliser le CAN
}
return 1;//L'action est spécifique.
}
/****************************************************************************************/
/* FUNCTION NAME: initRobot */
/* DESCRIPTION : initialiser le robot */
/****************************************************************************************/
void initRobot(void)
{
//Enregistrement de tous les AX12 présent sur la carte
/*AX12_register(5, AX12_SERIAL2);
AX12_register(18, AX12_SERIAL2);
AX12_register(13, AX12_SERIAL2);
AX12_register(1, AX12_SERIAL1);
AX12_register(11, AX12_SERIAL1);
AX12_register(8, AX12_SERIAL1);
AX12_register(7, AX12_SERIAL2);*/
//AX12_setGoal(AX12_ID_FUNNY_ACTION, AX12_ANGLE_FUNNY_ACTION_CLOSE,AX12_SPEED_FUNNY_ACTION);
//AX12_processChange();
//runRobotTest();
}
/****************************************************************************************/
/* FUNCTION NAME: initRobotActionneur */
/* DESCRIPTION : Initialiser la position des actionneurs du robot */
/****************************************************************************************/
void initRobotActionneur(void)
{
/*doAction(100,1,0);
doAction(100,2,0);
doAction(110,0,0);
doAction(120,0,0);
doAction(131,0,0);*/
}
/****************************************************************************************/
/* FUNCTION NAME: runTest */
/* DESCRIPTION : tester l'ensemble des actionneurs du robot */
/****************************************************************************************/
void runRobotTest(void)
{
/*
int waitTime = 500;
//Test des AX12 dans l'ordre
doAction(111,0,0);//Fermeture pince arrière haute
wait_ms(waitTime);
doAction(110,0,0);//Ouverture pince arrière haute
wait_ms(waitTime);
doAction(113,0,0);//Fermeture pince arrière basse
wait_ms(waitTime);
doAction(112,0,0);//Ouverture pince arrière basse
wait_ms(waitTime);
doAction(115,0,0);//Fermeture porte arrière
wait_ms(waitTime);
doAction(114,0,0);//Ouverture porte arrière
wait_ms(waitTime);
doAction(101,0,0);//Fermer les portes avant
wait_ms(waitTime);
doAction(100,0,0);//Ouvrir les portes avant
wait_ms(waitTime);
doAction(103,0,0);//Descendre le peigne
wait_ms(waitTime);
doAction(102,0,0);//Remonter le peigne*/
}
/****************************************************************************************/
/* FUNCTION NAME: SelectStrategy */
/* DESCRIPTION : Charger le fichier de stratégie correspondante à un id */
/* RETURN : 0=> Erreur, 1=> OK si le fichier existe */
/****************************************************************************************/
/*int SelectStrategy(unsigned char id)
{
switch(id)
{
// strat de match
case 1:
strcpy(cheminFileStart,"/local/strat1.txt");
return FileExists(cheminFileStart);
case 2:
strcpy(cheminFileStart,"/local/strat2.txt");
return FileExists(cheminFileStart);
case 3:
strcpy(cheminFileStart,"/local/strat3.txt");
return FileExists(cheminFileStart);
case 4:
strcpy(cheminFileStart,"/local/strat4.txt");
return FileExists(cheminFileStart);
case 5:
strcpy(cheminFileStart,"/local/strat5.txt");
return FileExists(cheminFileStart);
case 6:
strcpy(cheminFileStart,"/local/strat6.txt");
return FileExists(cheminFileStart);
case 7:
strcpy(cheminFileStart,"/local/strat7.txt");
return FileExists(cheminFileStart);
case 8:
strcpy(cheminFileStart,"/local/strat8.txt");
return FileExists(cheminFileStart);
case 9:
strcpy(cheminFileStart,"/local/strat9.txt");
return FileExists(cheminFileStart);
case 10:
strcpy(cheminFileStart,"/local/strat10.txt");
return FileExists(cheminFileStart);
// strat de demo
case 0x10:
strcpy(cheminFileStart,"/local/moteur.txt");
return FileExists(cheminFileStart);
case 0x11:
#ifdef ROBOT_BIG
strcpy(cheminFileStart,"/local/bras.txt");
#else
strcpy(cheminFileStart,"/local/porteAvant.txt");
#endif
return FileExists(cheminFileStart);
case 0x12:
#ifdef ROBOT_BIG
strcpy(cheminFileStart,"/local/balancier.txt");
#else
strcpy(cheminFileStart,"/local/mainTourneuse.txt");
#endif
return FileExists(cheminFileStart);
default:
strcpy(cheminFileStart,"/local/strat1.txt");
return 0;
}
}*/
/****************************************************************************************/
/* FUNCTION NAME: needToStop */
/* DESCRIPTION : Savoir si il faut autoriser le stop du robot via balise */
/****************************************************************************************/
unsigned char needToStop(void)
{
return isStopEnable;
}
/****************************************************************************************/
/* FUNCTION NAME: doBeforeEndAction */
/* DESCRIPTION : Terminer les actions du robot 1s avant la fin du match */
/****************************************************************************************/
void doBeforeEndAction(void)
{
doAction(110,0,0);//Ouverture pince arrière haute
doAction(112,0,0);//Ouverture pince arrière basse
doAction(114,0,0);//Ouverture porte arrière
doAction(100,0,0);//Ouvrir les portes avant
doAction(102,0,0);//Remonter le peigne
}
#endif