k
Dependents: 3rdcompfixstart 2ndcomp 4thcomp 6th33222_copy
Fork of Move by
Diff: move.cpp
- Revision:
- 5:0e18cf25291a
- Parent:
- 4:4c574be6325c
- Child:
- 6:0aa97a99c9cb
--- a/move.cpp Tue Sep 06 06:47:25 2016 +0000 +++ b/move.cpp Tue Sep 06 09:31:07 2016 +0000 @@ -17,7 +17,7 @@ //const int allowlength=5; //const float allowdegree=0.02; -const int rightspeed=120; +const int rightspeed=70; const int leftspeed=rightspeed + 2; const int turnspeed=30*2; const float k = 0.9;//P制御の係数。大きくすれば動きが大きくなる、小さくするとあまり変化しない。要はkはP制御の感度を表す係数です。 @@ -122,86 +122,85 @@ wait(0.5); } - -void pmove_to_dir(int direction, int x, int y) -{ - float k = 0.9; - int k_theta = 2; - +void pmove(int x, int y) +{ + float k = 0.9;//ズレ(mm)を回転数に反映させる比例定数 + + int k_theta = 2;//ズレ(rad)を回転数に反映させる比例定数 + int length, dx, dy; int *d_length, *disorder; + int absd_length; float dtheta, ptheta; float daikei; - update(); + char direction; + if(abs(x - coordinateX()) > abs(y - coordinateY())) { + y = coordinateY(); + direction = X_PLUS; + length = abs(x - coordinateX()); + d_length = &dx; + disorder = &dy; + } + else { + x = coordinateX(); + direction = Y_PLUS; + length = abs(y - coordinateY()); + d_length = &dy; + disorder = &dx; + } + + if(*d_length < 0) + direction *= -1; switch(direction) { case X_PLUS: - length = x - coordinateX(); - y = coordinateY(); - d_length = &dx; - disorder = &dy; - turn_abs_rad(0); - ptheta = 0; break; case Y_PLUS: - length = y - coordinateY(); - x = coordinateX(); - d_length = &dy; - disorder = &dx; k *= -1; - turn_abs_rad(PI/2); ptheta = PI/2; break; case X_MINUS: - length = x - coordinateX(); - y = coordinateY(); - d_length = &dx; - disorder = &dy; k *= -1; - turn_abs_rad(PI); - //pc.printf("finish_turn"); ptheta = PI; break; case Y_MINUS: - length = y - coordinateY(); - x = coordinateX(); - d_length = &dy; - disorder = &dx; - turn_abs_rad(PI*3/2); ptheta = PI*3/2; break; default: return; } + turn_abs_rad(ptheta); + if(length == 0) return; while(1) { update(); - dx = coordinateX() - x; - dy = coordinateY() - y; + dx = x - coordinateX(); + dy = y - coordinateY(); dtheta = coordinateTheta() - ptheta; - if(*disorder>1) { *disorder = 1; } else if(*disorder<-1) { *disorder = -1; } + absd_length = abs(*d_length); - if(abs(*d_length) > abs(length) -200) { - daikei = (float)(abs(length)-abs(*d_length)) / 200; - } else if(abs(*d_length) < 150) { - daikei = (float)(abs(*d_length)) / 150; + if(absd_length > length - 30) { + daikei = (length - absd_length) / 30.0; + } else if(absd_length < 150) { + daikei = absd_length / 150.0; } else daikei = 1; - move(daikei * (rightspeed*7/8.0 - k*(*disorder) - k_theta*dtheta) + rightspeed/8.0, daikei * (leftspeed*7/8.0 + k*(*disorder) + k_theta*dtheta) + leftspeed/8.0); + move(daikei * (rightspeed*6/7.0 + k*(*disorder) - k_theta*dtheta) + rightspeed/7.0, + daikei * (leftspeed*6/7.0 - k*(*disorder) + k_theta*dtheta) + leftspeed/7.0); - if((direction > 0 && *d_length >= 0) || (direction < 0 && *d_length <= 0)) { + if((direction > 0 && *d_length <= 0) || (direction < 0 && *d_length >= 0)) { move(0, 0); break; } @@ -212,6 +211,7 @@ wait(0.5); } + void back(int x, int y) { float k = 0.9; @@ -239,23 +239,23 @@ disorder = &dx; } - if(d_length < 0) + if(*d_length < 0) direction *= -1; switch(direction) { case X_PLUS: - ptheta = PI; + ptheta = 0; break; case Y_PLUS: k *= -1; - ptheta = PI*3/2; + ptheta = PI/2; break; case X_MINUS: k *= -1; - ptheta = 0; + ptheta = PI; break; case Y_MINUS: - ptheta = PI/2; + ptheta = PI*3/2; break; default: return;