program force parameter( nmax=1000 ) real t(nmax+1), x(nmax+1), y(nmax+1) real u(nmax+1), v(nmax+1) real dt, ug, vg real k1, k2, k3, k4 real j1, j2, j3, j4 real l1, l2, l3, l4 real m1, m2, m3, m4 real tmin, tmax real x_0, y_0, u_0, v_0 real f integer IW pi=3.14159 *-- 出力ファイルをダンプ (保存) するための命令 --- * CALL SWpSET( 'LDUMP', .TRUE. ) * CALL SWpSET( 'LWAIT', .FALSE. ) * CALL SWpSET( 'LWAIT1', .FALSE. ) *-- 係数の入力方式についての指定 --- write(*,*) "Which do you select?" write(*,*) "0: type, 1: pretype" read(*,*) IW *-- 係数の決定 --- if(IW.eq.0)then write(*,*) "input the parameters" write(*,*) "ug=, vg=, f=" read(*,*) ug, vg, f else ug=10.0 vg=1.0 f=5.0 end if *-- 時間ステップの設定 --- dt=0.01 *-- 初期条件の設定 --- t(1)=0.0 if(IW.eq.0)then write(*,*) "input the initialized numbers" write(*,*) "x_0, y_0(init position)=, u_0, v_0(init velocity)=" read(*,*) x_0, y_0, u_0, v_0 x(1)=x_0 y(1)=y_0 u(1)=u_0 v(1)=v_0 else x(1)=0.0 y(1)=0.0 u(1)=1.0 v(1)=1.0 end if *-- 実際の計算ここから --- do 10 i=1,nmax *-- k の計算 (dx/dt=y で計算) --- t(i+1)=t(i)+dt k1=u(i)*dt j1=v(i)*dt l1=-f*(vg-v(i))*dt m1=f*(ug-u(i))*dt k2=(u(i)+0.5*l1)*dt j2=(v(i)+0.5*m1)*dt l2=-f*(vg-(v(i)+0.5*m1))*dt m3=f*(ug-(u(i)+0.5*l1))*dt k3=(u(i)+0.5*l2)*dt j3=(v(i)+0.5*m2)*dt l3=-f*(vg-(v(i)+0.5*m2))*dt m3=f*(ug-(u(i)+0.5*l2))*dt k4=(u(i)+l3)*dt j4=(v(i)+m3)*dt l4=-f*(vg-(v(i)+m3))*dt m4=f*(ug-(u(i)+l3))*dt *-- 時間ステップの計算 --- x(i+1)=x(i)+(1.0/6.0)*(k1+2.0*k2+2.0*k3+k4) y(i+1)=y(i)+(1.0/6.0)*(j1+2.0*j2+2.0*j3+j4) u(i+1)=u(i)+(1.0/6.0)*(l1+2.0*l2+2.0*l3+l4) v(i+1)=v(i)+(1.0/6.0)*(m1+2.0*m2+2.0*m3+m4) 10 continue *-- グラフの出力装置の指定 (IWS=4 は GTK 指定) ---- WRITE(*,*) ' WORKSTATION ID (I) ? ;' CALL SGPWSN * IWS=4 READ (*,*) IWS *-- 出力装置の呼び出し CALL GROPN( IWS ) CALL GRFRM CALL USSPNT( nmax+1, x, y ) CALL GRSWND( 0.0, 100.0, -2.0, 18.0 ) CALL GRSVPT( 0.2, 0.8, 0.2, 0.8 ) CALL USPFIT CALL GRSTRF CALL USSTTL( 'X-AXIS', '', 'Y-AXIS', '' ) CALL USDAXS CALL UULIN( nmax+1, x, y ) CALL GRCLS stop end