unit pryam_r13; //вариант относительно 50-симметричный// interface{-------------------------------------------------------------} const Nx=50; Ny=50; Nz=100; Mx=Nx; My=Ny; Mz=Nz; rlc=12; STau=0.9; gamma1=2e-12; gamma2=100; type U_Matrix = array[1..Mx,1..My,1..Mz] of single; GammaArray = array[1..Mx,1..My,1..Mz] of single; var tau : double; num : integer; u, u1 : U_Matrix; upredict: double; gamma : GammaArray; sd, sad, sadMax: double; procedure SetParameters; procedure Compute; implementation{--------------------------------------------------------} procedure SetParameters; var i, j, k : word; begin {----------------------Set parameters----------------------} tau:=STau; sd:=0; sadMax:=Mx*My*Mz; for i:=1 to Mx do for j:=1 to My do for k:=1 to Mz do gamma[i,j,k]:=gamma1; for k:=1 to Mz do for j:=1 to My do for i:=1 to Mx do begin {gamma[i,j,k]:=gamma1;} if ((i-26)*(i-26)+(j-26)*(j-26)<=20*20)and(k>=7)and(k<=94) then gamma[i,j,k]:=gamma2 end; end;{----------------------Set parameters----------------------} procedure FreeBoundary; var i, j, k : integer; delta:single; begin {-----------------------FreeBoundary----------------------} for i:=1 to Mx do for j:=1 to My do for k:=1 to Mz do begin u1[1,j,k]:=0; u1[Mx,j,k]:=0; u1[i,1,k]:=0; u1[i,My,k]:=0; u1[i,j,Mz]:=0; u1[i,j,1]:=0; if((i-26)*(i-26)+(j-26)*(j-26)<=20*20) then begin U1[i,j,7]:=0; U1[i,j,94]:=0; end; end; end;{------------------------FreeBoundary----------------------} procedure Compute; var IterNum, i, j, k : integer; begin IterNum:=0; {---------------------computation itself---------------------} while IterNum<700 do begin {-----main loop-----} sad:=0; for i:=2 to Mx do {-----inner points scanning-----} for j:=2 to My do for k:=2 to Mz do begin if gamma[i,j,k]<>gamma[i-1,j,k] then upredict:=( gamma[i-1,j,k] * U[i-1,j,k] + gamma[i,j,k] * U[i+1,j,k] ) / ( gamma[i-1,j,k] + gamma[i,j,k] ) else if gamma[i+1,j,k]<>gamma[i,j,k] then upredict:=( gamma[i,j,k] * U[i-1,j,k] + gamma[i+1,j,k] * U[i+1,j,k] ) / ( gamma[i+1,j,k] + gamma[i,j,k] ) else if gamma[i,j,k]<>gamma[i,j-1,k] then upredict:=( gamma[i,j-1,k] * U[i,j-1,k] + gamma[i,j,k] * U[i,j+1,k] ) / ( gamma[i,j-1,k] + gamma[i,j,k] ) else if gamma[i,j+1,k]<>gamma[i,j,k] then upredict:=( gamma[i,j,k] * U[i,j-1,k] + gamma[i,j+1,k] * U[i,j+1,k] ) / ( gamma[i,j+1,k] + gamma[i,j,k] ) else if gamma[i,j,k]<>gamma[i,j,k-1] then upredict:=( gamma[i,j,k-1] * U[i,j,k-1] + gamma[i,j,k] * U[i,j,k+1] ) / ( gamma[i,j,k-1] + gamma[i,j,k] ) else if gamma[i,j,k+1]<>gamma[i,j,k] then upredict:=( gamma[i,j,k] * U[i,j,k-1] + gamma[i,j,k+1] * U[i,j,k+1] ) / ( gamma[i,j,k+1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i-1,j,k])and(gamma[i,j,k]<>gamma[i,j-1,k]) then upredict:=( gamma[i-1,j-1,k] * U[i-1,j-1,k] + gamma[i,j,k] * U[i+1,j+1,k] ) / ( gamma[i-1,j-1,k] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i-1,j,k])and(gamma[i,j,k]<>gamma[i,j+1,k]) then upredict:=( gamma[i-1,j+1,k] * U[i-1,j+1,k] + gamma[i,j,k] * U[i+1,j-1,k] ) / ( gamma[i-1,j+1,k] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i+1,j,k])and(gamma[i,j,k]<>gamma[i,j+1,k]) then upredict:=( gamma[i+1,j+1,k] * U[i+1,j+1,k] + gamma[i,j,k] * U[i-1,j-1,k] ) / ( gamma[i+1,j+1,k] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i+1,j,k])and(gamma[i,j,k]<>gamma[i,j-1,k]) then upredict:=( gamma[i+1,j-1,k] * U[i+1,j-1,k] + gamma[i,j,k] * U[i-1,j+1,k] ) / ( gamma[i+1,j-1,k] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i-1,j,k])and(gamma[i,j,k]<>gamma[i,j,k-1]) then upredict:=( gamma[i-1,j,k-1] * U[i-1,j,k-1] + gamma[i,j,k] * U[i+1,j,k+1] ) / ( gamma[i-1,j,k-1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i-1,j,k])and(gamma[i,j,k]<>gamma[i,j,k+1]) then upredict:=( gamma[i-1,j,k+1] * U[i-1,j+1,k+1] + gamma[i,j,k] * U[i+1,j,k-1] ) / ( gamma[i-1,j,k+1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i+1,j,k])and(gamma[i,j,k]<>gamma[i,j,k+1]) then upredict:=( gamma[i+1,j,k+1] * U[i+1,j,k+1] + gamma[i,j,k] * U[i-1,j,k-1] ) / ( gamma[i+1,j,k+1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i+1,j,k])and(gamma[i,j,k]<>gamma[i,j,k-1]) then upredict:=( gamma[i+1,j,k-1] * U[i+1,j,k-1] + gamma[i,j,k] * U[i-1,j,k+1] ) / ( gamma[i+1,j,k-1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i,j,k-1])and(gamma[i,j,k]<>gamma[i,j-1,k]) then upredict:=( gamma[i,j-1,k-1] * U[i,j-1,k-1] + gamma[i,j,k] * U[i,j+1,k+1] ) / ( gamma[i,j-1,k-1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i,j,k-1])and(gamma[i,j,k]<>gamma[i,j+1,k]) then upredict:=( gamma[i,j+1,k-1] * U[i,j+1,k-1] + gamma[i,j,k] * U[i,j-1,k+1] ) / ( gamma[i,j+1,k-1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i,j,k+1])and(gamma[i,j,k]<>gamma[i,j+1,k]) then upredict:=( gamma[i,j,k] * U[i,j-1,k-1] + gamma[i,j+1,k+1] * U[i,j+1,k+1] ) / ( gamma[i,j+1,k+1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i,j,k+1])and(gamma[i,j,k]<>gamma[i,j-1,k]) then upredict:=( gamma[i,j,k] * U[i,j+1,k-1] + gamma[i,j-1,k+1] * U[i,j-1,k+1] ) / ( gamma[i,j-1,k+1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i-1,j,k])and(gamma[i,j,k]<>gamma[i,j-1,k])and(gamma[i,j,k]<>gamma[i,j,k-1]) then upredict:=( gamma[i-1,j-1,k-1] * U[i-1,j-1,k-1] + gamma[i,j,k] * U[i+1,j+1,k+1] ) / ( gamma[i-1,j-1,k-1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i+1,j,k])and(gamma[i,j,k]<>gamma[i,j+1,k])and(gamma[i,j,k]<>gamma[i,j,k+1]) then upredict:=( gamma[i,j,k] * U[i-1,j-1,k-1] + gamma[i+1,j+1,k+1] * U[i+1,j+1,k+1] ) / ( gamma[i+1,j+1,k+1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i-1,j,k])and(gamma[i,j,k]<>gamma[i,j-1,k])and(gamma[i,j,k]<>gamma[i,j,k+1]) then upredict:=( gamma[i-1,j-1,k+1] * U[i-1,j-1,k+1] + gamma[i,j,k] * U[i+1,j+1,k-1] ) / ( gamma[i-1,j-1,k+1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i+1,j,k])and(gamma[i,j,k]<>gamma[i,j-1,k])and(gamma[i,j,k]<>gamma[i,j,k+1]) then upredict:=( gamma[i,j,k] * U[i-1,j+1,k-1] + gamma[i+1,j-1,k+1] * U[i+1,j-1,k+1] ) / ( gamma[i+1,j-1,k+1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i+1,j,k])and(gamma[i,j,k]<>gamma[i,j-1,k])and(gamma[i,j,k]<>gamma[i,j,k-1]) then upredict:=( gamma[i+1,j-1,k-1] * U[i+1,j-1,k-1] + gamma[i,j,k] * U[i-1,j+1,k+1] ) / ( gamma[i+1,j-1,k-1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i-1,j,k])and(gamma[i,j,k]<>gamma[i,j+1,k])and(gamma[i,j,k]<>gamma[i,j,k-1]) then upredict:=( gamma[i,j,k] * U[i+1,j-1,k+1] + gamma[i-1,j+1,k-1] * U[i-1,j+1,k-1] ) / ( gamma[i-1,j+1,k-1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i-1,j,k])and(gamma[i,j,k]<>gamma[i,j+1,k])and(gamma[i,j,k]<>gamma[i,j,k+1]) then upredict:=( gamma[i-1,j+1,k+1] * U[i-1,j+1,k+1] + gamma[i,j,k] * U[i+1,j-1,k-1] ) / ( gamma[i-1,j+1,k+1] + gamma[i,j,k] ) else if (gamma[i,j,k]<>gamma[i+1,j,k])and(gamma[i,j,k]<>gamma[i,j+1,k])and(gamma[i,j,k]<>gamma[i,j,k-1]) then upredict:=( gamma[i,j,k] * U[i-1,j-1,k+1] + gamma[i+1,j+1,k-1] * U[i+1,j-1,k+1] ) / ( gamma[i+1,j+1,k-1] + gamma[i,j,k] ) else upredict:= ( U[i+1,j,k] + U[i-1,j,k] + U[i,j+1,k] + U[i,j-1,k] + U[i,j,k+1] + U[i,j,k-1] ) / 6; u1[i,j,k]:=tau*upredict+(1-tau)*u[i,j,k]; sad:=sad+abs(upredict-u[i,j,k]); end; FreeBoundary; sd:=sad/sadMax; IterNum:=IterNum+1; u:=u1; writeln('sd=',sd:rlc,' iter=',iternum); end; {-----main loop-----} readln; end;{---------------------------Compute--------------------------- } Begin End.