184ff8c8bSHong Zhang /* 284ff8c8bSHong Zhang Note: 384ff8c8bSHong Zhang -hratio is the ratio between mesh size of corse grids and fine grids 484ff8c8bSHong Zhang */ 584ff8c8bSHong Zhang 684ff8c8bSHong Zhang static const char help[] = "1D periodic Finite Volume solver in slope-limiter form with semidiscrete time stepping.\n" 784ff8c8bSHong Zhang " advect - Constant coefficient scalar advection\n" 884ff8c8bSHong Zhang " u_t + (a*u)_x = 0\n" 984ff8c8bSHong Zhang " shallow - 1D Shallow water equations (Saint Venant System)\n" 1084ff8c8bSHong Zhang " h_t + (q)_x = 0 \n" 1184ff8c8bSHong Zhang " q_t + (\frac{q^2}{h} + g/2*h^2)_x = 0 \n" 1284ff8c8bSHong Zhang " where, h(x,t) denotes the height of the water and q(x,t) the momentum.\n" 1384ff8c8bSHong Zhang " for this toy problem, we choose different meshsizes for different sub-domains (slow-fast-slow), say\n" 1484ff8c8bSHong Zhang " hxs = hratio*hxf \n" 1584ff8c8bSHong Zhang " where hxs and hxf are the grid spacings for coarse and fine grids respectively.\n" 1684ff8c8bSHong Zhang " exact - Exact Riemann solver which usually needs to perform a Newton iteration to connect\n" 1784ff8c8bSHong Zhang " the states across shocks and rarefactions\n" 1884ff8c8bSHong Zhang " simulation - use reference solution which is generated by smaller time step size to be true solution,\n" 1984ff8c8bSHong Zhang " also the reference solution should be generated by user and stored in a binary file.\n" 2084ff8c8bSHong Zhang " characteristic - Limit the characteristic variables, this is usually preferred (default)\n" 2184ff8c8bSHong Zhang " bc_type - Boundary condition for the problem, options are: periodic, outflow, inflow " 2284ff8c8bSHong Zhang "Several problem descriptions (initial data, physics specific features, boundary data) can be chosen with -initial N\n\n" 2384ff8c8bSHong Zhang "The problem size should be set with -da_grid_x M\n\n"; 2484ff8c8bSHong Zhang 2584ff8c8bSHong Zhang /* 2684ff8c8bSHong Zhang Example: 2784ff8c8bSHong Zhang ./ex4 -da_grid_x 40 -initial 1 -hratio 1 -limit mc -ts_dt 0.01 -ts_max_time 7.0 -ts_type mprk -ts_mprk_type 2a22 -ts_monitor_draw_solution -physics shallow -bc_type outflow -xmin 0 -xmax 50 -ts_use_splitrhsfunction 0 2884ff8c8bSHong Zhang ./ex4 -da_grid_x 40 -initial 2 -hratio 1 -limit mc -ts_dt 0.01 -ts_max_time 2.5 -ts_type mprk -ts_mprk_type 2a22 -ts_monitor_draw_solution -physics shallow -bc_type outflow -xmin 0 -xmax 50 -ts_use_splitrhsfunction 0 2984ff8c8bSHong Zhang ./ex4 -da_grid_x 40 -initial 3 -hratio 1 -limit mc -ts_dt 0.01 -ts_max_time 4.0 -ts_type mprk -ts_mprk_type 2a22 -ts_monitor_draw_solution -physics shallow -bc_type outflow -xmin 0 -xmax 50 -ts_use_splitrhsfunction 0 3084ff8c8bSHong Zhang ./ex4 -da_grid_x 40 -initial 4 -hratio 1 -limit koren3 -ts_dt 0.01 -ts_max_time 4.0 -ts_type mprk -ts_mprk_type 2a22 -ts_monitor_draw_solution -physics shallow -bc_type outflow -xmin 0 -xmax 50 -ts_use_splitrhsfunction 0 3184ff8c8bSHong Zhang ./ex4 -da_grid_x 40 -initial 5 -hratio 1 -limit mc -ts_dt 0.01 -ts_max_time 5.0 -ts_type mprk -ts_mprk_type 2a22 -ts_monitor_draw_solution -physics shallow -bc_type outflow -xmin 0 -xmax 50 -ts_use_splitrhsfunction 0 3284ff8c8bSHong Zhang 3384ff8c8bSHong Zhang Contributed by: Aidan Hamilton <aidan@udel.edu> 3484ff8c8bSHong Zhang */ 3584ff8c8bSHong Zhang 3684ff8c8bSHong Zhang #include <petscts.h> 3784ff8c8bSHong Zhang #include <petscdm.h> 3884ff8c8bSHong Zhang #include <petscdmda.h> 3984ff8c8bSHong Zhang #include <petscdraw.h> 4084ff8c8bSHong Zhang #include "finitevolume1d.h" 4184ff8c8bSHong Zhang #include <petsc/private/kernels/blockinvert.h> 4284ff8c8bSHong Zhang 43*9fbee547SJacob Faibussowitsch static inline PetscReal RangeMod(PetscReal a,PetscReal xmin,PetscReal xmax) { PetscReal range = xmax-xmin; return xmin +PetscFmodReal(range+PetscFmodReal(a,range),range); } 44*9fbee547SJacob Faibussowitsch static inline PetscReal MaxAbs(PetscReal a,PetscReal b) { return (PetscAbs(a) > PetscAbs(b)) ? a : b; } 4584ff8c8bSHong Zhang /* --------------------------------- Advection ----------------------------------- */ 4684ff8c8bSHong Zhang typedef struct { 4784ff8c8bSHong Zhang PetscReal a; /* advective velocity */ 4884ff8c8bSHong Zhang } AdvectCtx; 4984ff8c8bSHong Zhang 5084ff8c8bSHong Zhang static PetscErrorCode PhysicsRiemann_Advect(void *vctx,PetscInt m,const PetscScalar *uL,const PetscScalar *uR,PetscScalar *flux,PetscReal *maxspeed) 5184ff8c8bSHong Zhang { 5284ff8c8bSHong Zhang AdvectCtx *ctx = (AdvectCtx*)vctx; 5384ff8c8bSHong Zhang PetscReal speed; 5484ff8c8bSHong Zhang 5584ff8c8bSHong Zhang PetscFunctionBeginUser; 5684ff8c8bSHong Zhang speed = ctx->a; 5784ff8c8bSHong Zhang flux[0] = PetscMax(0,speed)*uL[0] + PetscMin(0,speed)*uR[0]; 5884ff8c8bSHong Zhang *maxspeed = speed; 5984ff8c8bSHong Zhang PetscFunctionReturn(0); 6084ff8c8bSHong Zhang } 6184ff8c8bSHong Zhang 6284ff8c8bSHong Zhang static PetscErrorCode PhysicsCharacteristic_Advect(void *vctx,PetscInt m,const PetscScalar *u,PetscScalar *X,PetscScalar *Xi,PetscReal *speeds) 6384ff8c8bSHong Zhang { 6484ff8c8bSHong Zhang AdvectCtx *ctx = (AdvectCtx*)vctx; 6584ff8c8bSHong Zhang 6684ff8c8bSHong Zhang PetscFunctionBeginUser; 6784ff8c8bSHong Zhang X[0] = 1.; 6884ff8c8bSHong Zhang Xi[0] = 1.; 6984ff8c8bSHong Zhang speeds[0] = ctx->a; 7084ff8c8bSHong Zhang PetscFunctionReturn(0); 7184ff8c8bSHong Zhang } 7284ff8c8bSHong Zhang 7384ff8c8bSHong Zhang static PetscErrorCode PhysicsSample_Advect(void *vctx,PetscInt initial,FVBCType bctype,PetscReal xmin,PetscReal xmax,PetscReal t,PetscReal x,PetscReal *u) 7484ff8c8bSHong Zhang { 7584ff8c8bSHong Zhang AdvectCtx *ctx = (AdvectCtx*)vctx; 7684ff8c8bSHong Zhang PetscReal a = ctx->a,x0; 7784ff8c8bSHong Zhang 7884ff8c8bSHong Zhang PetscFunctionBeginUser; 7984ff8c8bSHong Zhang switch (bctype) { 8084ff8c8bSHong Zhang case FVBC_OUTFLOW: x0 = x-a*t; break; 8184ff8c8bSHong Zhang case FVBC_PERIODIC: x0 = RangeMod(x-a*t,xmin,xmax); break; 8284ff8c8bSHong Zhang default: SETERRQ(PETSC_COMM_SELF,PETSC_ERR_ARG_UNKNOWN_TYPE,"unknown BCType"); 8384ff8c8bSHong Zhang } 8484ff8c8bSHong Zhang switch (initial) { 8584ff8c8bSHong Zhang case 0: u[0] = (x0 < 0) ? 1 : -1; break; 8684ff8c8bSHong Zhang case 1: u[0] = (x0 < 0) ? -1 : 1; break; 8784ff8c8bSHong Zhang case 2: u[0] = (0 < x0 && x0 < 1) ? 1 : 0; break; 8884ff8c8bSHong Zhang case 3: u[0] = PetscSinReal(2*PETSC_PI*x0); break; 8984ff8c8bSHong Zhang case 4: u[0] = PetscAbs(x0); break; 9084ff8c8bSHong Zhang case 5: u[0] = (x0 < 0 || x0 > 0.5) ? 0 : PetscSqr(PetscSinReal(2*PETSC_PI*x0)); break; 9184ff8c8bSHong Zhang case 6: u[0] = (x0 < 0) ? 0 : ((x0 < 1) ? x0 : ((x0 < 2) ? 2-x0 : 0)); break; 9284ff8c8bSHong Zhang case 7: u[0] = PetscPowReal(PetscSinReal(PETSC_PI*x0),10.0);break; 9384ff8c8bSHong Zhang default: SETERRQ(PETSC_COMM_SELF,PETSC_ERR_ARG_UNKNOWN_TYPE,"unknown initial condition"); 9484ff8c8bSHong Zhang } 9584ff8c8bSHong Zhang PetscFunctionReturn(0); 9684ff8c8bSHong Zhang } 9784ff8c8bSHong Zhang 9884ff8c8bSHong Zhang static PetscErrorCode PhysicsCreate_Advect(FVCtx *ctx) 9984ff8c8bSHong Zhang { 10084ff8c8bSHong Zhang PetscErrorCode ierr; 10184ff8c8bSHong Zhang AdvectCtx *user; 10284ff8c8bSHong Zhang 10384ff8c8bSHong Zhang PetscFunctionBeginUser; 10484ff8c8bSHong Zhang ierr = PetscNew(&user);CHKERRQ(ierr); 10584ff8c8bSHong Zhang ctx->physics2.sample2 = PhysicsSample_Advect; 10684ff8c8bSHong Zhang ctx->physics2.riemann2 = PhysicsRiemann_Advect; 10784ff8c8bSHong Zhang ctx->physics2.characteristic2 = PhysicsCharacteristic_Advect; 10884ff8c8bSHong Zhang ctx->physics2.destroy = PhysicsDestroy_SimpleFree; 10984ff8c8bSHong Zhang ctx->physics2.user = user; 11084ff8c8bSHong Zhang ctx->physics2.dof = 1; 11184ff8c8bSHong Zhang 11284ff8c8bSHong Zhang ierr = PetscStrallocpy("u",&ctx->physics2.fieldname[0]);CHKERRQ(ierr); 11384ff8c8bSHong Zhang user->a = 1; 11484ff8c8bSHong Zhang ierr = PetscOptionsBegin(ctx->comm,ctx->prefix,"Options for advection","");CHKERRQ(ierr); 11584ff8c8bSHong Zhang ierr = PetscOptionsReal("-physics_advect_a","Speed","",user->a,&user->a,NULL);CHKERRQ(ierr); 11684ff8c8bSHong Zhang ierr = PetscOptionsEnd();CHKERRQ(ierr); 11784ff8c8bSHong Zhang PetscFunctionReturn(0); 11884ff8c8bSHong Zhang } 11984ff8c8bSHong Zhang /* --------------------------------- Shallow Water ----------------------------------- */ 12084ff8c8bSHong Zhang 12184ff8c8bSHong Zhang typedef struct { 12284ff8c8bSHong Zhang PetscReal gravity; 12384ff8c8bSHong Zhang } ShallowCtx; 12484ff8c8bSHong Zhang 125*9fbee547SJacob Faibussowitsch static inline void ShallowFlux(ShallowCtx *phys,const PetscScalar *u,PetscScalar *f) 12684ff8c8bSHong Zhang { 12784ff8c8bSHong Zhang f[0] = u[1]; 12884ff8c8bSHong Zhang f[1] = PetscSqr(u[1])/u[0] + 0.5*phys->gravity*PetscSqr(u[0]); 12984ff8c8bSHong Zhang } 13084ff8c8bSHong Zhang 13184ff8c8bSHong Zhang static PetscErrorCode PhysicsRiemann_Shallow_Exact(void *vctx,PetscInt m,const PetscScalar *uL,const PetscScalar *uR,PetscScalar *flux,PetscReal *maxspeed) 13284ff8c8bSHong Zhang { 13384ff8c8bSHong Zhang ShallowCtx *phys = (ShallowCtx*)vctx; 13484ff8c8bSHong Zhang PetscScalar g = phys->gravity,ustar[2],cL,cR,c,cstar; 13584ff8c8bSHong Zhang struct {PetscScalar h,u;} L = {uL[0],uL[1]/uL[0]},R = {uR[0],uR[1]/uR[0]},star; 13684ff8c8bSHong Zhang PetscInt i; 13784ff8c8bSHong Zhang 13884ff8c8bSHong Zhang PetscFunctionBeginUser; 1399ace16cdSJacob Faibussowitsch PetscAssertFalse(!(L.h > 0 && R.h > 0),PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Reconstructed thickness is negative"); 14084ff8c8bSHong Zhang cL = PetscSqrtScalar(g*L.h); 14184ff8c8bSHong Zhang cR = PetscSqrtScalar(g*R.h); 14284ff8c8bSHong Zhang c = PetscMax(cL,cR); 14384ff8c8bSHong Zhang { 14484ff8c8bSHong Zhang /* Solve for star state */ 14584ff8c8bSHong Zhang const PetscInt maxits = 50; 14684ff8c8bSHong Zhang PetscScalar tmp,res,res0=0,h0,h = 0.5*(L.h + R.h); /* initial guess */ 14784ff8c8bSHong Zhang h0 = h; 14884ff8c8bSHong Zhang for (i=0; i<maxits; i++) { 14984ff8c8bSHong Zhang PetscScalar fr,fl,dfr,dfl; 15084ff8c8bSHong Zhang fl = (L.h < h) 15184ff8c8bSHong Zhang ? PetscSqrtScalar(0.5*g*(h*h - L.h*L.h)*(1/L.h - 1/h)) /* shock */ 15284ff8c8bSHong Zhang : 2*PetscSqrtScalar(g*h) - 2*PetscSqrtScalar(g*L.h); /* rarefaction */ 15384ff8c8bSHong Zhang fr = (R.h < h) 15484ff8c8bSHong Zhang ? PetscSqrtScalar(0.5*g*(h*h - R.h*R.h)*(1/R.h - 1/h)) /* shock */ 15584ff8c8bSHong Zhang : 2*PetscSqrtScalar(g*h) - 2*PetscSqrtScalar(g*R.h); /* rarefaction */ 15684ff8c8bSHong Zhang res = R.u - L.u + fr + fl; 1579ace16cdSJacob Faibussowitsch PetscAssertFalse(PetscIsInfOrNanScalar(res),PETSC_COMM_SELF,PETSC_ERR_FP,"Infinity or Not-a-Number generated in computation"); 15884ff8c8bSHong Zhang if (PetscAbsScalar(res) < PETSC_SQRT_MACHINE_EPSILON || (i > 0 && PetscAbsScalar(h-h0) < PETSC_SQRT_MACHINE_EPSILON)) { 15984ff8c8bSHong Zhang star.h = h; 16084ff8c8bSHong Zhang star.u = L.u - fl; 16184ff8c8bSHong Zhang goto converged; 16284ff8c8bSHong Zhang } else if (i > 0 && PetscAbsScalar(res) >= PetscAbsScalar(res0)) { /* Line search */ 16384ff8c8bSHong Zhang h = 0.8*h0 + 0.2*h; 16484ff8c8bSHong Zhang continue; 16584ff8c8bSHong Zhang } 16684ff8c8bSHong Zhang /* Accept the last step and take another */ 16784ff8c8bSHong Zhang res0 = res; 16884ff8c8bSHong Zhang h0 = h; 16984ff8c8bSHong Zhang dfl = (L.h < h) ? 0.5/fl*0.5*g*(-L.h*L.h/(h*h) - 1 + 2*h/L.h) : PetscSqrtScalar(g/h); 17084ff8c8bSHong Zhang dfr = (R.h < h) ? 0.5/fr*0.5*g*(-R.h*R.h/(h*h) - 1 + 2*h/R.h) : PetscSqrtScalar(g/h); 17184ff8c8bSHong Zhang tmp = h - res/(dfr+dfl); 17284ff8c8bSHong Zhang if (tmp <= 0) h /= 2; /* Guard against Newton shooting off to a negative thickness */ 17384ff8c8bSHong Zhang else h = tmp; 1749ace16cdSJacob Faibussowitsch PetscAssertFalse(!((h > 0) && PetscIsNormalScalar(h)),PETSC_COMM_SELF,PETSC_ERR_FP,"non-normal iterate h=%g",(double)h); 17584ff8c8bSHong Zhang } 17698921bdaSJacob Faibussowitsch SETERRQ(PETSC_COMM_SELF,1,"Newton iteration for star.h diverged after %D iterations",i); 17784ff8c8bSHong Zhang } 17884ff8c8bSHong Zhang converged: 17984ff8c8bSHong Zhang cstar = PetscSqrtScalar(g*star.h); 18084ff8c8bSHong Zhang if (L.u-cL < 0 && 0 < star.u-cstar) { /* 1-wave is sonic rarefaction */ 18184ff8c8bSHong Zhang PetscScalar ufan[2]; 18284ff8c8bSHong Zhang ufan[0] = 1/g*PetscSqr(L.u/3 + 2./3*cL); 18384ff8c8bSHong Zhang ufan[1] = PetscSqrtScalar(g*ufan[0])*ufan[0]; 18484ff8c8bSHong Zhang ShallowFlux(phys,ufan,flux); 18584ff8c8bSHong Zhang } else if (star.u+cstar < 0 && 0 < R.u+cR) { /* 2-wave is sonic rarefaction */ 18684ff8c8bSHong Zhang PetscScalar ufan[2]; 18784ff8c8bSHong Zhang ufan[0] = 1/g*PetscSqr(R.u/3 - 2./3*cR); 18884ff8c8bSHong Zhang ufan[1] = -PetscSqrtScalar(g*ufan[0])*ufan[0]; 18984ff8c8bSHong Zhang ShallowFlux(phys,ufan,flux); 19084ff8c8bSHong Zhang } else if ((L.h >= star.h && L.u-c >= 0) || (L.h<star.h && (star.h*star.u-L.h*L.u)/(star.h-L.h) > 0)) { 19184ff8c8bSHong Zhang /* 1-wave is right-travelling shock (supersonic) */ 19284ff8c8bSHong Zhang ShallowFlux(phys,uL,flux); 19384ff8c8bSHong Zhang } else if ((star.h <= R.h && R.u+c <= 0) || (star.h>R.h && (R.h*R.u-star.h*star.h)/(R.h-star.h) < 0)) { 19484ff8c8bSHong Zhang /* 2-wave is left-travelling shock (supersonic) */ 19584ff8c8bSHong Zhang ShallowFlux(phys,uR,flux); 19684ff8c8bSHong Zhang } else { 19784ff8c8bSHong Zhang ustar[0] = star.h; 19884ff8c8bSHong Zhang ustar[1] = star.h*star.u; 19984ff8c8bSHong Zhang ShallowFlux(phys,ustar,flux); 20084ff8c8bSHong Zhang } 20184ff8c8bSHong Zhang *maxspeed = MaxAbs(MaxAbs(star.u-cstar,star.u+cstar),MaxAbs(L.u-cL,R.u+cR)); 20284ff8c8bSHong Zhang PetscFunctionReturn(0); 20384ff8c8bSHong Zhang } 20484ff8c8bSHong Zhang 20584ff8c8bSHong Zhang static PetscErrorCode PhysicsRiemann_Shallow_Rusanov(void *vctx,PetscInt m,const PetscScalar *uL,const PetscScalar *uR,PetscScalar *flux,PetscReal *maxspeed) 20684ff8c8bSHong Zhang { 20784ff8c8bSHong Zhang ShallowCtx *phys = (ShallowCtx*)vctx; 20884ff8c8bSHong Zhang PetscScalar g = phys->gravity,fL[2],fR[2],s; 20984ff8c8bSHong Zhang struct {PetscScalar h,u;} L = {uL[0],uL[1]/uL[0]},R = {uR[0],uR[1]/uR[0]}; 21084ff8c8bSHong Zhang PetscReal tol = 1e-6; 21184ff8c8bSHong Zhang 21284ff8c8bSHong Zhang PetscFunctionBeginUser; 21384ff8c8bSHong Zhang /* Positivity preserving modification*/ 21484ff8c8bSHong Zhang if (L.h < tol) L.u = 0.0; 21584ff8c8bSHong Zhang if (R.h < tol) R.u = 0.0; 21684ff8c8bSHong Zhang 21784ff8c8bSHong Zhang /*simple pos preserve limiter*/ 21884ff8c8bSHong Zhang if (L.h < 0) L.h = 0; 21984ff8c8bSHong Zhang if (R.h < 0) R.h = 0; 22084ff8c8bSHong Zhang 22184ff8c8bSHong Zhang ShallowFlux(phys,uL,fL); 22284ff8c8bSHong Zhang ShallowFlux(phys,uR,fR); 22384ff8c8bSHong Zhang 22484ff8c8bSHong Zhang s = PetscMax(PetscAbs(L.u)+PetscSqrtScalar(g*L.h),PetscAbs(R.u)+PetscSqrtScalar(g*R.h)); 22584ff8c8bSHong Zhang flux[0] = 0.5*(fL[0] + fR[0]) + 0.5*s*(L.h - R.h); 22684ff8c8bSHong Zhang flux[1] = 0.5*(fL[1] + fR[1]) + 0.5*s*(uL[1] - uR[1]); 22784ff8c8bSHong Zhang *maxspeed = s; 22884ff8c8bSHong Zhang PetscFunctionReturn(0); 22984ff8c8bSHong Zhang } 23084ff8c8bSHong Zhang 23184ff8c8bSHong Zhang static PetscErrorCode PhysicsCharacteristic_Conservative(void *vctx,PetscInt m,const PetscScalar *u,PetscScalar *X,PetscScalar *Xi,PetscReal *speeds) 23284ff8c8bSHong Zhang { 23384ff8c8bSHong Zhang PetscInt i,j; 23484ff8c8bSHong Zhang 23584ff8c8bSHong Zhang PetscFunctionBeginUser; 23684ff8c8bSHong Zhang for (i=0; i<m; i++) { 23784ff8c8bSHong Zhang for (j=0; j<m; j++) Xi[i*m+j] = X[i*m+j] = (PetscScalar)(i==j); 23884ff8c8bSHong Zhang speeds[i] = PETSC_MAX_REAL; /* Indicates invalid */ 23984ff8c8bSHong Zhang } 24084ff8c8bSHong Zhang PetscFunctionReturn(0); 24184ff8c8bSHong Zhang } 24284ff8c8bSHong Zhang 24384ff8c8bSHong Zhang static PetscErrorCode PhysicsCharacteristic_Shallow(void *vctx,PetscInt m,const PetscScalar *u,PetscScalar *X,PetscScalar *Xi,PetscReal *speeds) 24484ff8c8bSHong Zhang { 24584ff8c8bSHong Zhang ShallowCtx *phys = (ShallowCtx*)vctx; 24684ff8c8bSHong Zhang PetscReal c; 24784ff8c8bSHong Zhang PetscErrorCode ierr; 24884ff8c8bSHong Zhang PetscReal tol = 1e-6; 24984ff8c8bSHong Zhang 25084ff8c8bSHong Zhang PetscFunctionBeginUser; 25184ff8c8bSHong Zhang c = PetscSqrtScalar(u[0]*phys->gravity); 25284ff8c8bSHong Zhang 25384ff8c8bSHong Zhang if (u[0] < tol) { /*Use conservative variables*/ 25484ff8c8bSHong Zhang X[0*2+0] = 1; 25584ff8c8bSHong Zhang X[0*2+1] = 0; 25684ff8c8bSHong Zhang X[1*2+0] = 0; 25784ff8c8bSHong Zhang X[1*2+1] = 1; 25884ff8c8bSHong Zhang } else { 25984ff8c8bSHong Zhang speeds[0] = u[1]/u[0] - c; 26084ff8c8bSHong Zhang speeds[1] = u[1]/u[0] + c; 26184ff8c8bSHong Zhang X[0*2+0] = 1; 26284ff8c8bSHong Zhang X[0*2+1] = speeds[0]; 26384ff8c8bSHong Zhang X[1*2+0] = 1; 26484ff8c8bSHong Zhang X[1*2+1] = speeds[1]; 26584ff8c8bSHong Zhang } 26684ff8c8bSHong Zhang 26784ff8c8bSHong Zhang ierr = PetscArraycpy(Xi,X,4);CHKERRQ(ierr); 26884ff8c8bSHong Zhang ierr = PetscKernel_A_gets_inverse_A_2(Xi,0,PETSC_FALSE,NULL);CHKERRQ(ierr); 26984ff8c8bSHong Zhang PetscFunctionReturn(0); 27084ff8c8bSHong Zhang } 27184ff8c8bSHong Zhang 27284ff8c8bSHong Zhang static PetscErrorCode PhysicsSample_Shallow(void *vctx,PetscInt initial,FVBCType bctype,PetscReal xmin,PetscReal xmax,PetscReal t,PetscReal x,PetscReal *u) 27384ff8c8bSHong Zhang { 27484ff8c8bSHong Zhang PetscFunctionBeginUser; 2759ace16cdSJacob Faibussowitsch PetscAssertFalse(t > 0,PETSC_COMM_SELF,PETSC_ERR_SUP,"Exact solutions not implemented for t > 0"); 27684ff8c8bSHong Zhang switch (initial) { 27784ff8c8bSHong Zhang case 0: 27884ff8c8bSHong Zhang u[0] = (x < 0) ? 2 : 1; /* Standard Dam Break Problem */ 27984ff8c8bSHong Zhang u[1] = (x < 0) ? 0 : 0; 28084ff8c8bSHong Zhang break; 28184ff8c8bSHong Zhang case 1: 28284ff8c8bSHong Zhang u[0] = (x < 10) ? 1 : 0.1; /*The Next 5 problems are standard Riemann problem tests */ 28384ff8c8bSHong Zhang u[1] = (x < 10) ? 2.5 : 0; 28484ff8c8bSHong Zhang break; 28584ff8c8bSHong Zhang case 2: 28684ff8c8bSHong Zhang u[0] = (x < 25) ? 1 : 1; 28784ff8c8bSHong Zhang u[1] = (x < 25) ? -5 : 5; 28884ff8c8bSHong Zhang break; 28984ff8c8bSHong Zhang case 3: 29084ff8c8bSHong Zhang u[0] = (x < 20) ? 1 : 1e-12; 29184ff8c8bSHong Zhang u[1] = (x < 20) ? 0 : 0; 29284ff8c8bSHong Zhang break; 29384ff8c8bSHong Zhang case 4: 29484ff8c8bSHong Zhang u[0] = (x < 30) ? 1e-12 : 1; 29584ff8c8bSHong Zhang u[1] = (x < 30) ? 0 : 0; 29684ff8c8bSHong Zhang break; 29784ff8c8bSHong Zhang case 5: 29884ff8c8bSHong Zhang u[0] = (x < 25) ? 0.1 : 0.1; 29984ff8c8bSHong Zhang u[1] = (x < 25) ? -0.3 : 0.3; 30084ff8c8bSHong Zhang break; 30184ff8c8bSHong Zhang case 6: 30284ff8c8bSHong Zhang u[0] = 1+0.5*PetscSinReal(2*PETSC_PI*x); 30384ff8c8bSHong Zhang u[1] = 1*u[0]; 30484ff8c8bSHong Zhang break; 30584ff8c8bSHong Zhang case 7: 30684ff8c8bSHong Zhang if (x < -0.1) { 30784ff8c8bSHong Zhang u[0] = 1e-9; 30884ff8c8bSHong Zhang u[1] = 0.0; 30984ff8c8bSHong Zhang } else if (x < 0.1) { 31084ff8c8bSHong Zhang u[0] = 1.0; 31184ff8c8bSHong Zhang u[1] = 0.0; 31284ff8c8bSHong Zhang } else { 31384ff8c8bSHong Zhang u[0] = 1e-9; 31484ff8c8bSHong Zhang u[1] = 0.0; 31584ff8c8bSHong Zhang } 31684ff8c8bSHong Zhang break; 31784ff8c8bSHong Zhang case 8: 31884ff8c8bSHong Zhang if (x < -0.1) { 31984ff8c8bSHong Zhang u[0] = 2; 32084ff8c8bSHong Zhang u[1] = 0.0; 32184ff8c8bSHong Zhang } else if (x < 0.1) { 32284ff8c8bSHong Zhang u[0] = 3.0; 32384ff8c8bSHong Zhang u[1] = 0.0; 32484ff8c8bSHong Zhang } else { 32584ff8c8bSHong Zhang u[0] = 2; 32684ff8c8bSHong Zhang u[1] = 0.0; 32784ff8c8bSHong Zhang } 32884ff8c8bSHong Zhang break; 32984ff8c8bSHong Zhang default: SETERRQ(PETSC_COMM_SELF,PETSC_ERR_ARG_UNKNOWN_TYPE,"unknown initial condition"); 33084ff8c8bSHong Zhang } 33184ff8c8bSHong Zhang PetscFunctionReturn(0); 33284ff8c8bSHong Zhang } 33384ff8c8bSHong Zhang 33484ff8c8bSHong Zhang /* Implements inflow conditions for the given initial conditions. Which conditions are actually enforced depends on 33584ff8c8bSHong Zhang on the results of PhysicsSetInflowType_Shallow. */ 33684ff8c8bSHong Zhang static PetscErrorCode PhysicsInflow_Shallow(void *vctx,PetscReal t,PetscReal x,PetscReal *u) 33784ff8c8bSHong Zhang { 33884ff8c8bSHong Zhang FVCtx *ctx = (FVCtx*)vctx; 33984ff8c8bSHong Zhang 34084ff8c8bSHong Zhang PetscFunctionBeginUser; 34184ff8c8bSHong Zhang if (ctx->bctype == FVBC_INFLOW) { 34284ff8c8bSHong Zhang switch (ctx->initial) { 34384ff8c8bSHong Zhang case 0: 34484ff8c8bSHong Zhang case 1: 34584ff8c8bSHong Zhang case 2: 34684ff8c8bSHong Zhang case 3: 34784ff8c8bSHong Zhang case 4: 34884ff8c8bSHong Zhang case 5: 34984ff8c8bSHong Zhang u[0] = 0; u[1] = 0.0; /* Left boundary conditions */ 35084ff8c8bSHong Zhang u[2] = 0; u[3] = 0.0; /* Right boundary conditions */ 35184ff8c8bSHong Zhang break; 35284ff8c8bSHong Zhang case 6: 35384ff8c8bSHong Zhang u[0] = 0; u[1] = 0.0; /* Left boundary conditions */ 35484ff8c8bSHong Zhang u[2] = 0; u[3] = 0.0; /* Right boundary conditions */ 35584ff8c8bSHong Zhang break; 35684ff8c8bSHong Zhang case 7: 35784ff8c8bSHong Zhang u[0] = 0; u[1] = 0.0; /* Left boundary conditions */ 35884ff8c8bSHong Zhang u[2] = 0; u[3] = 0.0; /* Right boundary conditions */ 35984ff8c8bSHong Zhang break; 36084ff8c8bSHong Zhang case 8: 36184ff8c8bSHong Zhang u[0] = 0; u[1] = 1.0; /* Left boundary conditions */ 36284ff8c8bSHong Zhang u[2] = 0; u[3] = -1.0;/* Right boundary conditions */ 36384ff8c8bSHong Zhang break; 36484ff8c8bSHong Zhang default: SETERRQ(PETSC_COMM_SELF,PETSC_ERR_ARG_UNKNOWN_TYPE,"unknown initial condition"); 36584ff8c8bSHong Zhang } 36684ff8c8bSHong Zhang } 36784ff8c8bSHong Zhang PetscFunctionReturn(0); 36884ff8c8bSHong Zhang } 36984ff8c8bSHong Zhang 37084ff8c8bSHong Zhang /* Selects which boundary conditions are marked as inflow and which as outflow when FVBC_INFLOW is selected. */ 37184ff8c8bSHong Zhang static PetscErrorCode PhysicsSetInflowType_Shallow(FVCtx *ctx) 37284ff8c8bSHong Zhang { 37384ff8c8bSHong Zhang PetscFunctionBeginUser; 37484ff8c8bSHong Zhang switch (ctx->initial) { 37584ff8c8bSHong Zhang case 0: 37684ff8c8bSHong Zhang case 1: 37784ff8c8bSHong Zhang case 2: 37884ff8c8bSHong Zhang case 3: 37984ff8c8bSHong Zhang case 4: 38084ff8c8bSHong Zhang case 5: 38184ff8c8bSHong Zhang case 6: 38284ff8c8bSHong Zhang case 7: 38384ff8c8bSHong Zhang case 8: /* Fix left and right momentum, height is outflow */ 38484ff8c8bSHong Zhang ctx->physics2.bcinflowindex[0] = PETSC_FALSE; 38584ff8c8bSHong Zhang ctx->physics2.bcinflowindex[1] = PETSC_TRUE; 38684ff8c8bSHong Zhang ctx->physics2.bcinflowindex[2] = PETSC_FALSE; 38784ff8c8bSHong Zhang ctx->physics2.bcinflowindex[3] = PETSC_TRUE; 38884ff8c8bSHong Zhang break; 38984ff8c8bSHong Zhang default: SETERRQ(PETSC_COMM_SELF,PETSC_ERR_ARG_UNKNOWN_TYPE,"unknown initial condition"); 39084ff8c8bSHong Zhang } 39184ff8c8bSHong Zhang PetscFunctionReturn(0); 39284ff8c8bSHong Zhang } 39384ff8c8bSHong Zhang 39484ff8c8bSHong Zhang static PetscErrorCode PhysicsCreate_Shallow(FVCtx *ctx) 39584ff8c8bSHong Zhang { 39684ff8c8bSHong Zhang PetscErrorCode ierr; 39784ff8c8bSHong Zhang ShallowCtx *user; 39884ff8c8bSHong Zhang PetscFunctionList rlist = 0,rclist = 0; 39984ff8c8bSHong Zhang char rname[256] = "rusanov",rcname[256] = "characteristic"; 40084ff8c8bSHong Zhang 40184ff8c8bSHong Zhang PetscFunctionBeginUser; 40284ff8c8bSHong Zhang ierr = PetscNew(&user);CHKERRQ(ierr); 40384ff8c8bSHong Zhang ctx->physics2.sample2 = PhysicsSample_Shallow; 40484ff8c8bSHong Zhang ctx->physics2.inflow = PhysicsInflow_Shallow; 40584ff8c8bSHong Zhang ctx->physics2.destroy = PhysicsDestroy_SimpleFree; 40684ff8c8bSHong Zhang ctx->physics2.riemann2 = PhysicsRiemann_Shallow_Rusanov; 40784ff8c8bSHong Zhang ctx->physics2.characteristic2 = PhysicsCharacteristic_Shallow; 40884ff8c8bSHong Zhang ctx->physics2.user = user; 40984ff8c8bSHong Zhang ctx->physics2.dof = 2; 41084ff8c8bSHong Zhang 41184ff8c8bSHong Zhang PetscMalloc1(2*(ctx->physics2.dof),&ctx->physics2.bcinflowindex); 41284ff8c8bSHong Zhang PhysicsSetInflowType_Shallow(ctx); 41384ff8c8bSHong Zhang 41484ff8c8bSHong Zhang ierr = PetscStrallocpy("height",&ctx->physics2.fieldname[0]);CHKERRQ(ierr); 41584ff8c8bSHong Zhang ierr = PetscStrallocpy("momentum",&ctx->physics2.fieldname[1]);CHKERRQ(ierr); 41684ff8c8bSHong Zhang 41784ff8c8bSHong Zhang user->gravity = 9.81; 41884ff8c8bSHong Zhang 41984ff8c8bSHong Zhang ierr = RiemannListAdd_2WaySplit(&rlist,"exact", PhysicsRiemann_Shallow_Exact);CHKERRQ(ierr); 42084ff8c8bSHong Zhang ierr = RiemannListAdd_2WaySplit(&rlist,"rusanov",PhysicsRiemann_Shallow_Rusanov);CHKERRQ(ierr); 42184ff8c8bSHong Zhang ierr = ReconstructListAdd_2WaySplit(&rclist,"characteristic",PhysicsCharacteristic_Shallow);CHKERRQ(ierr); 42284ff8c8bSHong Zhang ierr = ReconstructListAdd_2WaySplit(&rclist,"conservative",PhysicsCharacteristic_Conservative);CHKERRQ(ierr); 42384ff8c8bSHong Zhang ierr = PetscOptionsBegin(ctx->comm,ctx->prefix,"Options for Shallow","");CHKERRQ(ierr); 42484ff8c8bSHong Zhang ierr = PetscOptionsReal("-physics_shallow_gravity","Gravity","",user->gravity,&user->gravity,NULL);CHKERRQ(ierr); 42584ff8c8bSHong Zhang ierr = PetscOptionsFList("-physics_shallow_riemann","Riemann solver","",rlist,rname,rname,sizeof(rname),NULL);CHKERRQ(ierr); 42684ff8c8bSHong Zhang ierr = PetscOptionsFList("-physics_shallow_reconstruct","Reconstruction","",rclist,rcname,rcname,sizeof(rcname),NULL);CHKERRQ(ierr); 42784ff8c8bSHong Zhang ierr = PetscOptionsEnd();CHKERRQ(ierr); 42884ff8c8bSHong Zhang ierr = RiemannListFind_2WaySplit(rlist,rname,&ctx->physics2.riemann2);CHKERRQ(ierr); 42984ff8c8bSHong Zhang ierr = ReconstructListFind_2WaySplit(rclist,rcname,&ctx->physics2.characteristic2);CHKERRQ(ierr); 43084ff8c8bSHong Zhang ierr = PetscFunctionListDestroy(&rlist);CHKERRQ(ierr); 43184ff8c8bSHong Zhang ierr = PetscFunctionListDestroy(&rclist);CHKERRQ(ierr); 43284ff8c8bSHong Zhang PetscFunctionReturn(0); 43384ff8c8bSHong Zhang } 43484ff8c8bSHong Zhang 43584ff8c8bSHong Zhang PetscErrorCode FVSample_2WaySplit(FVCtx *ctx,DM da,PetscReal time,Vec U) 43684ff8c8bSHong Zhang { 43784ff8c8bSHong Zhang PetscErrorCode ierr; 43884ff8c8bSHong Zhang PetscScalar *u,*uj,xj,xi; 43984ff8c8bSHong Zhang PetscInt i,j,k,dof,xs,xm,Mx; 44084ff8c8bSHong Zhang const PetscInt N = 200; 44184ff8c8bSHong Zhang PetscReal hs,hf; 44284ff8c8bSHong Zhang 44384ff8c8bSHong Zhang PetscFunctionBeginUser; 4449ace16cdSJacob Faibussowitsch PetscAssertFalse(!ctx->physics2.sample2,PETSC_COMM_SELF,PETSC_ERR_SUP,"Physics has not provided a sampling function"); 44584ff8c8bSHong Zhang ierr = DMDAGetInfo(da,0, &Mx,0,0, 0,0,0, &dof,0,0,0,0,0);CHKERRQ(ierr); 44684ff8c8bSHong Zhang ierr = DMDAGetCorners(da,&xs,0,0,&xm,0,0);CHKERRQ(ierr); 44784ff8c8bSHong Zhang ierr = DMDAVecGetArray(da,U,&u);CHKERRQ(ierr); 44884ff8c8bSHong Zhang ierr = PetscMalloc1(dof,&uj);CHKERRQ(ierr); 44984ff8c8bSHong Zhang hs = (ctx->xmax-ctx->xmin)*3.0/8.0/ctx->sf; 45084ff8c8bSHong Zhang hf = (ctx->xmax-ctx->xmin)/4.0/(ctx->fs-ctx->sf); 45184ff8c8bSHong Zhang for (i=xs; i<xs+xm; i++) { 45284ff8c8bSHong Zhang if (i < ctx->sf) { 45384ff8c8bSHong Zhang xi = ctx->xmin+0.5*hs+i*hs; 45484ff8c8bSHong Zhang /* Integrate over cell i using trapezoid rule with N points. */ 45584ff8c8bSHong Zhang for (k=0; k<dof; k++) u[i*dof+k] = 0; 45684ff8c8bSHong Zhang for (j=0; j<N+1; j++) { 45784ff8c8bSHong Zhang xj = xi+hs*(j-N/2)/(PetscReal)N; 45884ff8c8bSHong Zhang ierr = (*ctx->physics2.sample2)(ctx->physics2.user,ctx->initial,ctx->bctype,ctx->xmin,ctx->xmax,time,xj,uj);CHKERRQ(ierr); 45984ff8c8bSHong Zhang for (k=0; k<dof; k++) u[i*dof+k] += ((j==0 || j==N) ? 0.5 : 1.0)*uj[k]/N; 46084ff8c8bSHong Zhang } 46184ff8c8bSHong Zhang } else if (i < ctx->fs) { 46284ff8c8bSHong Zhang xi = ctx->xmin+ctx->sf*hs+0.5*hf+(i-ctx->sf)*hf; 46384ff8c8bSHong Zhang /* Integrate over cell i using trapezoid rule with N points. */ 46484ff8c8bSHong Zhang for (k=0; k<dof; k++) u[i*dof+k] = 0; 46584ff8c8bSHong Zhang for (j=0; j<N+1; j++) { 46684ff8c8bSHong Zhang xj = xi+hf*(j-N/2)/(PetscReal)N; 46784ff8c8bSHong Zhang ierr = (*ctx->physics2.sample2)(ctx->physics2.user,ctx->initial,ctx->bctype,ctx->xmin,ctx->xmax,time,xj,uj);CHKERRQ(ierr); 46884ff8c8bSHong Zhang for (k=0; k<dof; k++) u[i*dof+k] += ((j==0 || j==N) ? 0.5 : 1.0)*uj[k]/N; 46984ff8c8bSHong Zhang } 47084ff8c8bSHong Zhang } else { 47184ff8c8bSHong Zhang xi = ctx->xmin+ctx->sf*hs+(ctx->fs-ctx->sf)*hf+0.5*hs+(i-ctx->fs)*hs; 47284ff8c8bSHong Zhang /* Integrate over cell i using trapezoid rule with N points. */ 47384ff8c8bSHong Zhang for (k=0; k<dof; k++) u[i*dof+k] = 0; 47484ff8c8bSHong Zhang for (j=0; j<N+1; j++) { 47584ff8c8bSHong Zhang xj = xi+hs*(j-N/2)/(PetscReal)N; 47684ff8c8bSHong Zhang ierr = (*ctx->physics2.sample2)(ctx->physics2.user,ctx->initial,ctx->bctype,ctx->xmin,ctx->xmax,time,xj,uj);CHKERRQ(ierr); 47784ff8c8bSHong Zhang for (k=0; k<dof; k++) u[i*dof+k] += ((j==0 || j==N) ? 0.5 : 1.0)*uj[k]/N; 47884ff8c8bSHong Zhang } 47984ff8c8bSHong Zhang } 48084ff8c8bSHong Zhang } 48184ff8c8bSHong Zhang ierr = DMDAVecRestoreArray(da,U,&u);CHKERRQ(ierr); 48284ff8c8bSHong Zhang ierr = PetscFree(uj);CHKERRQ(ierr); 48384ff8c8bSHong Zhang PetscFunctionReturn(0); 48484ff8c8bSHong Zhang } 48584ff8c8bSHong Zhang 48684ff8c8bSHong Zhang static PetscErrorCode SolutionErrorNorms_2WaySplit(FVCtx *ctx,DM da,PetscReal t,Vec X,PetscReal *nrm1) 48784ff8c8bSHong Zhang { 48884ff8c8bSHong Zhang PetscErrorCode ierr; 48984ff8c8bSHong Zhang Vec Y; 49084ff8c8bSHong Zhang PetscInt i,Mx; 49184ff8c8bSHong Zhang const PetscScalar *ptr_X,*ptr_Y; 49284ff8c8bSHong Zhang PetscReal hs,hf; 49384ff8c8bSHong Zhang 49484ff8c8bSHong Zhang PetscFunctionBeginUser; 49584ff8c8bSHong Zhang ierr = VecGetSize(X,&Mx);CHKERRQ(ierr); 49684ff8c8bSHong Zhang ierr = VecDuplicate(X,&Y);CHKERRQ(ierr); 49784ff8c8bSHong Zhang ierr = FVSample_2WaySplit(ctx,da,t,Y);CHKERRQ(ierr); 49884ff8c8bSHong Zhang hs = (ctx->xmax-ctx->xmin)*3.0/8.0/ctx->sf; 49984ff8c8bSHong Zhang hf = (ctx->xmax-ctx->xmin)/4.0/(ctx->fs-ctx->sf); 50084ff8c8bSHong Zhang ierr = VecGetArrayRead(X,&ptr_X);CHKERRQ(ierr); 50184ff8c8bSHong Zhang ierr = VecGetArrayRead(Y,&ptr_Y);CHKERRQ(ierr); 50284ff8c8bSHong Zhang for (i=0; i<Mx; i++) { 50384ff8c8bSHong Zhang if (i < ctx->sf || i > ctx->fs -1) *nrm1 += hs*PetscAbs(ptr_X[i]-ptr_Y[i]); 50484ff8c8bSHong Zhang else *nrm1 += hf*PetscAbs(ptr_X[i]-ptr_Y[i]); 50584ff8c8bSHong Zhang } 50684ff8c8bSHong Zhang ierr = VecRestoreArrayRead(X,&ptr_X);CHKERRQ(ierr); 50784ff8c8bSHong Zhang ierr = VecRestoreArrayRead(Y,&ptr_Y);CHKERRQ(ierr); 50884ff8c8bSHong Zhang ierr = VecDestroy(&Y);CHKERRQ(ierr); 50984ff8c8bSHong Zhang PetscFunctionReturn(0); 51084ff8c8bSHong Zhang } 51184ff8c8bSHong Zhang 51284ff8c8bSHong Zhang PetscErrorCode FVRHSFunction_2WaySplit(TS ts,PetscReal time,Vec X,Vec F,void *vctx) 51384ff8c8bSHong Zhang { 51484ff8c8bSHong Zhang FVCtx *ctx = (FVCtx*)vctx; 51584ff8c8bSHong Zhang PetscErrorCode ierr; 51684ff8c8bSHong Zhang PetscInt i,j,k,Mx,dof,xs,xm,sf = ctx->sf,fs = ctx->fs; 51784ff8c8bSHong Zhang PetscReal hxf,hxs,cfl_idt = 0; 51884ff8c8bSHong Zhang PetscScalar *x,*f,*slope; 51984ff8c8bSHong Zhang Vec Xloc; 52084ff8c8bSHong Zhang DM da; 52184ff8c8bSHong Zhang 52284ff8c8bSHong Zhang PetscFunctionBeginUser; 52384ff8c8bSHong Zhang ierr = TSGetDM(ts,&da);CHKERRQ(ierr); 52484ff8c8bSHong Zhang ierr = DMGetLocalVector(da,&Xloc);CHKERRQ(ierr); /* Xloc contains ghost points */ 52584ff8c8bSHong Zhang ierr = DMDAGetInfo(da,0, &Mx,0,0, 0,0,0, &dof,0,0,0,0,0);CHKERRQ(ierr); /* Mx is the number of center points */ 52684ff8c8bSHong Zhang hxs = (ctx->xmax-ctx->xmin)*3.0/8.0/ctx->sf; 52784ff8c8bSHong Zhang hxf = (ctx->xmax-ctx->xmin)/4.0/(ctx->fs-ctx->sf); 52884ff8c8bSHong Zhang ierr = DMGlobalToLocalBegin(da,X,INSERT_VALUES,Xloc);CHKERRQ(ierr); /* X is solution vector which does not contain ghost points */ 52984ff8c8bSHong Zhang ierr = DMGlobalToLocalEnd(da,X,INSERT_VALUES,Xloc);CHKERRQ(ierr); 53084ff8c8bSHong Zhang 53184ff8c8bSHong Zhang ierr = VecZeroEntries(F);CHKERRQ(ierr); /* F is the right hand side function corresponds to center points */ 53284ff8c8bSHong Zhang 53384ff8c8bSHong Zhang ierr = DMDAVecGetArray(da,Xloc,&x);CHKERRQ(ierr); 53484ff8c8bSHong Zhang ierr = DMDAVecGetArray(da,F,&f);CHKERRQ(ierr); 53584ff8c8bSHong Zhang ierr = DMDAGetArray(da,PETSC_TRUE,&slope);CHKERRQ(ierr); /* contains ghost points */ 53684ff8c8bSHong Zhang ierr = DMDAGetCorners(da,&xs,0,0,&xm,0,0);CHKERRQ(ierr); 53784ff8c8bSHong Zhang 53884ff8c8bSHong Zhang if (ctx->bctype == FVBC_OUTFLOW) { 53984ff8c8bSHong Zhang for (i=xs-2; i<0; i++) { 54084ff8c8bSHong Zhang for (j=0; j<dof; j++) x[i*dof+j] = x[j]; 54184ff8c8bSHong Zhang } 54284ff8c8bSHong Zhang for (i=Mx; i<xs+xm+2; i++) { 54384ff8c8bSHong Zhang for (j=0; j<dof; j++) x[i*dof+j] = x[(xs+xm-1)*dof+j]; 54484ff8c8bSHong Zhang } 54584ff8c8bSHong Zhang } 54684ff8c8bSHong Zhang 54784ff8c8bSHong Zhang if (ctx->bctype == FVBC_INFLOW) { 54884ff8c8bSHong Zhang /* See LeVeque, R. (2002). Finite Volume Methods for Hyperbolic Problems. doi:10.1017/CBO9780511791253 54984ff8c8bSHong Zhang pages 137-138 for the scheme. */ 55084ff8c8bSHong Zhang if (xs==0) { /* Left Boundary */ 55184ff8c8bSHong Zhang ctx->physics2.inflow(ctx,time,ctx->xmin,ctx->ub); 55284ff8c8bSHong Zhang for (j=0; j<dof; j++) { 55384ff8c8bSHong Zhang if (ctx->physics2.bcinflowindex[j]) { 55484ff8c8bSHong Zhang for (i=-2; i<0; i++) x[i*dof+j] = 2.0*ctx->ub[j]-x[-(i+1)*dof+j]; 55584ff8c8bSHong Zhang } else { 55684ff8c8bSHong Zhang for (i=-2; i<0; i++) x[i*dof+j] = x[j]; /* Outflow */ 55784ff8c8bSHong Zhang } 55884ff8c8bSHong Zhang } 55984ff8c8bSHong Zhang } 56084ff8c8bSHong Zhang if (xs+xm==Mx) { /* Right Boundary */ 56184ff8c8bSHong Zhang ctx->physics2.inflow(ctx,time,ctx->xmax,ctx->ub); 56284ff8c8bSHong Zhang for (j=0; j<dof; j++) { 56384ff8c8bSHong Zhang if (ctx->physics2.bcinflowindex[dof+j]) { 56484ff8c8bSHong Zhang for (i=Mx; i<Mx+2; i++) x[i*dof+j] = 2.0*ctx->ub[dof+j]-x[(2*Mx-(i+1))*dof+j]; 56584ff8c8bSHong Zhang } else { 56684ff8c8bSHong Zhang for (i=Mx; i<Mx+2; i++) x[i*dof+j] = x[(Mx-1)*dof+j]; /* Outflow */ 56784ff8c8bSHong Zhang } 56884ff8c8bSHong Zhang } 56984ff8c8bSHong Zhang } 57084ff8c8bSHong Zhang } 57184ff8c8bSHong Zhang 57284ff8c8bSHong Zhang for (i=xs-1; i<xs+xm+1; i++) { 57384ff8c8bSHong Zhang struct _LimitInfo info; 57484ff8c8bSHong Zhang PetscScalar *cjmpL,*cjmpR; 57584ff8c8bSHong Zhang /* Determine the right eigenvectors R, where A = R \Lambda R^{-1} */ 57684ff8c8bSHong Zhang ierr = (*ctx->physics2.characteristic2)(ctx->physics2.user,dof,&x[i*dof],ctx->R,ctx->Rinv,ctx->speeds);CHKERRQ(ierr); 57784ff8c8bSHong Zhang /* Evaluate jumps across interfaces (i-1, i) and (i, i+1), put in characteristic basis */ 57884ff8c8bSHong Zhang ierr = PetscArrayzero(ctx->cjmpLR,2*dof);CHKERRQ(ierr); 57984ff8c8bSHong Zhang cjmpL = &ctx->cjmpLR[0]; 58084ff8c8bSHong Zhang cjmpR = &ctx->cjmpLR[dof]; 58184ff8c8bSHong Zhang for (j=0; j<dof; j++) { 58284ff8c8bSHong Zhang PetscScalar jmpL,jmpR; 58384ff8c8bSHong Zhang jmpL = x[(i+0)*dof+j]-x[(i-1)*dof+j]; 58484ff8c8bSHong Zhang jmpR = x[(i+1)*dof+j]-x[(i+0)*dof+j]; 58584ff8c8bSHong Zhang for (k=0; k<dof; k++) { 58684ff8c8bSHong Zhang cjmpL[k] += ctx->Rinv[k+j*dof]*jmpL; 58784ff8c8bSHong Zhang cjmpR[k] += ctx->Rinv[k+j*dof]*jmpR; 58884ff8c8bSHong Zhang } 58984ff8c8bSHong Zhang } 59084ff8c8bSHong Zhang /* Apply limiter to the left and right characteristic jumps */ 59184ff8c8bSHong Zhang info.m = dof; 59284ff8c8bSHong Zhang info.hxs = hxs; 59384ff8c8bSHong Zhang info.hxf = hxf; 59484ff8c8bSHong Zhang (*ctx->limit2)(&info,cjmpL,cjmpR,ctx->sf,ctx->fs,i,ctx->cslope); 59584ff8c8bSHong Zhang for (j=0; j<dof; j++) { 59684ff8c8bSHong Zhang PetscScalar tmp = 0; 59784ff8c8bSHong Zhang for (k=0; k<dof; k++) tmp += ctx->R[j+k*dof]*ctx->cslope[k]; 59884ff8c8bSHong Zhang slope[i*dof+j] = tmp; 59984ff8c8bSHong Zhang } 60084ff8c8bSHong Zhang } 60184ff8c8bSHong Zhang 60284ff8c8bSHong Zhang for (i=xs; i<xs+xm+1; i++) { 60384ff8c8bSHong Zhang PetscReal maxspeed; 60484ff8c8bSHong Zhang PetscScalar *uL,*uR; 60584ff8c8bSHong Zhang uL = &ctx->uLR[0]; 60684ff8c8bSHong Zhang uR = &ctx->uLR[dof]; 60784ff8c8bSHong Zhang if (i < sf) { /* slow region */ 60884ff8c8bSHong Zhang for (j=0; j<dof; j++) { 60984ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 61084ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 61184ff8c8bSHong Zhang } 61284ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 61384ff8c8bSHong Zhang if (i > xs) { 61484ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(i-1)*dof+j] -= ctx->flux[j]/hxs; 61584ff8c8bSHong Zhang } 61684ff8c8bSHong Zhang if (i < xs+xm) { 61784ff8c8bSHong Zhang for (j=0; j<dof; j++) f[i*dof+j] += ctx->flux[j]/hxs; 61884ff8c8bSHong Zhang } 61984ff8c8bSHong Zhang } else if (i == sf) { /* interface between the slow region and the fast region */ 62084ff8c8bSHong Zhang for (j=0; j<dof; j++) { 62184ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 62284ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxf/2; 62384ff8c8bSHong Zhang } 62484ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 62584ff8c8bSHong Zhang if (i > xs) { 62684ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(i-1)*dof+j] -= ctx->flux[j]/hxs; 62784ff8c8bSHong Zhang } 62884ff8c8bSHong Zhang if (i < xs+xm) { 62984ff8c8bSHong Zhang for (j=0; j<dof; j++) f[i*dof+j] += ctx->flux[j]/hxf; 63084ff8c8bSHong Zhang } 63184ff8c8bSHong Zhang } else if (i > sf && i < fs) { /* fast region */ 63284ff8c8bSHong Zhang for (j=0; j<dof; j++) { 63384ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxf/2; 63484ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxf/2; 63584ff8c8bSHong Zhang } 63684ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 63784ff8c8bSHong Zhang if (i > xs) { 63884ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(i-1)*dof+j] -= ctx->flux[j]/hxf; 63984ff8c8bSHong Zhang } 64084ff8c8bSHong Zhang if (i < xs+xm) { 64184ff8c8bSHong Zhang for (j=0; j<dof; j++) f[i*dof+j] += ctx->flux[j]/hxf; 64284ff8c8bSHong Zhang } 64384ff8c8bSHong Zhang } else if (i == fs) { /* interface between the fast region and the slow region */ 64484ff8c8bSHong Zhang for (j=0; j<dof; j++) { 64584ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxf/2; 64684ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 64784ff8c8bSHong Zhang } 64884ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 64984ff8c8bSHong Zhang if (i > xs) { 65084ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(i-1)*dof+j] -= ctx->flux[j]/hxf; 65184ff8c8bSHong Zhang } 65284ff8c8bSHong Zhang if (i < xs+xm) { 65384ff8c8bSHong Zhang for (j=0; j<dof; j++) f[i*dof+j] += ctx->flux[j]/hxs; 65484ff8c8bSHong Zhang } 65584ff8c8bSHong Zhang } else { /* slow region */ 65684ff8c8bSHong Zhang for (j=0; j<dof; j++) { 65784ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 65884ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 65984ff8c8bSHong Zhang } 66084ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 66184ff8c8bSHong Zhang cfl_idt = PetscMax(cfl_idt,PetscAbsScalar(maxspeed/hxs)); /* Max allowable value of 1/Delta t */ 66284ff8c8bSHong Zhang if (i > xs) { 66384ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(i-1)*dof+j] -= ctx->flux[j]/hxs; 66484ff8c8bSHong Zhang } 66584ff8c8bSHong Zhang if (i < xs+xm) { 66684ff8c8bSHong Zhang for (j=0; j<dof; j++) f[i*dof+j] += ctx->flux[j]/hxs; 66784ff8c8bSHong Zhang } 66884ff8c8bSHong Zhang } 66984ff8c8bSHong Zhang } 67084ff8c8bSHong Zhang ierr = DMDAVecRestoreArray(da,Xloc,&x);CHKERRQ(ierr); 67184ff8c8bSHong Zhang ierr = DMDAVecRestoreArray(da,F,&f);CHKERRQ(ierr); 67284ff8c8bSHong Zhang ierr = DMDARestoreArray(da,PETSC_TRUE,&slope);CHKERRQ(ierr); 67384ff8c8bSHong Zhang ierr = DMRestoreLocalVector(da,&Xloc);CHKERRQ(ierr); 67484ff8c8bSHong Zhang ierr = MPI_Allreduce(&cfl_idt,&ctx->cfl_idt,1,MPIU_SCALAR,MPIU_MAX,PetscObjectComm((PetscObject)da));CHKERRMPI(ierr); 67584ff8c8bSHong Zhang if (0) { 67684ff8c8bSHong Zhang /* We need to a way to inform the TS of a CFL constraint, this is a debugging fragment */ 67784ff8c8bSHong Zhang PetscReal dt,tnow; 67884ff8c8bSHong Zhang ierr = TSGetTimeStep(ts,&dt);CHKERRQ(ierr); 67984ff8c8bSHong Zhang ierr = TSGetTime(ts,&tnow);CHKERRQ(ierr); 68084ff8c8bSHong Zhang if (dt > 0.5/ctx->cfl_idt) { 68184ff8c8bSHong Zhang if (1) { 68284ff8c8bSHong Zhang ierr = PetscPrintf(ctx->comm,"Stability constraint exceeded at t=%g, dt %g > %g\n",(double)tnow,(double)dt,(double)(0.5/ctx->cfl_idt));CHKERRQ(ierr); 68398921bdaSJacob Faibussowitsch } else SETERRQ(PETSC_COMM_SELF,1,"Stability constraint exceeded, %g > %g",(double)dt,(double)(ctx->cfl/ctx->cfl_idt)); 68484ff8c8bSHong Zhang } 68584ff8c8bSHong Zhang } 68684ff8c8bSHong Zhang PetscFunctionReturn(0); 68784ff8c8bSHong Zhang } 68884ff8c8bSHong Zhang 68984ff8c8bSHong Zhang /* --------------------------------- Finite Volume Solver for slow components ----------------------------------- */ 69084ff8c8bSHong Zhang PetscErrorCode FVRHSFunctionslow_2WaySplit(TS ts,PetscReal time,Vec X,Vec F,void *vctx) 69184ff8c8bSHong Zhang { 69284ff8c8bSHong Zhang FVCtx *ctx = (FVCtx*)vctx; 69384ff8c8bSHong Zhang PetscErrorCode ierr; 69484ff8c8bSHong Zhang PetscInt i,j,k,Mx,dof,xs,xm,islow = 0,sf = ctx->sf,fs = ctx->fs,lsbwidth = ctx->lsbwidth,rsbwidth = ctx->rsbwidth; 69584ff8c8bSHong Zhang PetscReal hxs,hxf,cfl_idt = 0; 69684ff8c8bSHong Zhang PetscScalar *x,*f,*slope; 69784ff8c8bSHong Zhang Vec Xloc; 69884ff8c8bSHong Zhang DM da; 69984ff8c8bSHong Zhang 70084ff8c8bSHong Zhang PetscFunctionBeginUser; 70184ff8c8bSHong Zhang ierr = TSGetDM(ts,&da);CHKERRQ(ierr); 70284ff8c8bSHong Zhang ierr = DMGetLocalVector(da,&Xloc);CHKERRQ(ierr); 70384ff8c8bSHong Zhang ierr = DMDAGetInfo(da,0, &Mx,0,0, 0,0,0, &dof,0,0,0,0,0);CHKERRQ(ierr); 70484ff8c8bSHong Zhang hxs = (ctx->xmax-ctx->xmin)*3.0/8.0/ctx->sf; 70584ff8c8bSHong Zhang hxf = (ctx->xmax-ctx->xmin)/4.0/(ctx->fs-ctx->sf); 70684ff8c8bSHong Zhang ierr = DMGlobalToLocalBegin(da,X,INSERT_VALUES,Xloc);CHKERRQ(ierr); 70784ff8c8bSHong Zhang ierr = DMGlobalToLocalEnd(da,X,INSERT_VALUES,Xloc);CHKERRQ(ierr); 70884ff8c8bSHong Zhang ierr = VecZeroEntries(F);CHKERRQ(ierr); 70984ff8c8bSHong Zhang ierr = DMDAVecGetArray(da,Xloc,&x);CHKERRQ(ierr); 71084ff8c8bSHong Zhang ierr = VecGetArray(F,&f);CHKERRQ(ierr); 71184ff8c8bSHong Zhang ierr = DMDAGetArray(da,PETSC_TRUE,&slope);CHKERRQ(ierr); 71284ff8c8bSHong Zhang ierr = DMDAGetCorners(da,&xs,0,0,&xm,0,0);CHKERRQ(ierr); 71384ff8c8bSHong Zhang 71484ff8c8bSHong Zhang if (ctx->bctype == FVBC_OUTFLOW) { 71584ff8c8bSHong Zhang for (i=xs-2; i<0; i++) { 71684ff8c8bSHong Zhang for (j=0; j<dof; j++) x[i*dof+j] = x[j]; 71784ff8c8bSHong Zhang } 71884ff8c8bSHong Zhang for (i=Mx; i<xs+xm+2; i++) { 71984ff8c8bSHong Zhang for (j=0; j<dof; j++) x[i*dof+j] = x[(xs+xm-1)*dof+j]; 72084ff8c8bSHong Zhang } 72184ff8c8bSHong Zhang } 72284ff8c8bSHong Zhang if (ctx->bctype == FVBC_INFLOW) { 72384ff8c8bSHong Zhang /* See LeVeque, R. (2002). Finite Volume Methods for Hyperbolic Problems. doi:10.1017/CBO9780511791253 72484ff8c8bSHong Zhang pages 137-138 for the scheme. */ 72584ff8c8bSHong Zhang if (xs==0) { /* Left Boundary */ 72684ff8c8bSHong Zhang ctx->physics2.inflow(ctx,time,ctx->xmin,ctx->ub); 72784ff8c8bSHong Zhang for (j=0; j<dof; j++) { 72884ff8c8bSHong Zhang if (ctx->physics2.bcinflowindex[j]==PETSC_TRUE) { 72984ff8c8bSHong Zhang for (i=-2; i<0; i++) x[i*dof+j] = 2.0*ctx->ub[j]-x[-(i+1)*dof+j]; 73084ff8c8bSHong Zhang } else { 73184ff8c8bSHong Zhang for (i=-2; i<0; i++) x[i*dof+j] = x[j]; /* Outflow */ 73284ff8c8bSHong Zhang } 73384ff8c8bSHong Zhang } 73484ff8c8bSHong Zhang } 73584ff8c8bSHong Zhang if (xs+xm==Mx) { /* Right Boundary */ 73684ff8c8bSHong Zhang ctx->physics2.inflow(ctx,time,ctx->xmax,ctx->ub); 73784ff8c8bSHong Zhang for (j=0; j<dof; j++) { 73884ff8c8bSHong Zhang if (ctx->physics2.bcinflowindex[dof+j]==PETSC_TRUE) { 73984ff8c8bSHong Zhang for (i=Mx; i<Mx+2; i++) x[i*dof+j] = 2.0*ctx->ub[dof+j]-x[(2*Mx-(i+1))*dof+j]; 74084ff8c8bSHong Zhang } else { 74184ff8c8bSHong Zhang for (i=Mx; i<Mx+2; i++) x[i*dof+j] = x[(Mx-1)*dof+j]; /* Outflow */ 74284ff8c8bSHong Zhang } 74384ff8c8bSHong Zhang } 74484ff8c8bSHong Zhang } 74584ff8c8bSHong Zhang } 74684ff8c8bSHong Zhang for (i=xs-1; i<xs+xm+1; i++) { 74784ff8c8bSHong Zhang struct _LimitInfo info; 74884ff8c8bSHong Zhang PetscScalar *cjmpL,*cjmpR; 74984ff8c8bSHong Zhang if (i < sf-lsbwidth+1 || i > fs+rsbwidth-2) { /* slow components and the first and last fast components */ 75084ff8c8bSHong Zhang /* Determine the right eigenvectors R, where A = R \Lambda R^{-1} */ 75184ff8c8bSHong Zhang ierr = (*ctx->physics2.characteristic2)(ctx->physics2.user,dof,&x[i*dof],ctx->R,ctx->Rinv,ctx->speeds);CHKERRQ(ierr); 75284ff8c8bSHong Zhang /* Evaluate jumps across interfaces (i-1, i) and (i, i+1), put in characteristic basis */ 75384ff8c8bSHong Zhang ierr = PetscArrayzero(ctx->cjmpLR,2*dof);CHKERRQ(ierr); 75484ff8c8bSHong Zhang cjmpL = &ctx->cjmpLR[0]; 75584ff8c8bSHong Zhang cjmpR = &ctx->cjmpLR[dof]; 75684ff8c8bSHong Zhang for (j=0; j<dof; j++) { 75784ff8c8bSHong Zhang PetscScalar jmpL,jmpR; 75884ff8c8bSHong Zhang jmpL = x[(i+0)*dof+j]-x[(i-1)*dof+j]; 75984ff8c8bSHong Zhang jmpR = x[(i+1)*dof+j]-x[(i+0)*dof+j]; 76084ff8c8bSHong Zhang for (k=0; k<dof; k++) { 76184ff8c8bSHong Zhang cjmpL[k] += ctx->Rinv[k+j*dof]*jmpL; 76284ff8c8bSHong Zhang cjmpR[k] += ctx->Rinv[k+j*dof]*jmpR; 76384ff8c8bSHong Zhang } 76484ff8c8bSHong Zhang } 76584ff8c8bSHong Zhang /* Apply limiter to the left and right characteristic jumps */ 76684ff8c8bSHong Zhang info.m = dof; 76784ff8c8bSHong Zhang info.hxs = hxs; 76884ff8c8bSHong Zhang info.hxf = hxf; 76984ff8c8bSHong Zhang (*ctx->limit2)(&info,cjmpL,cjmpR,ctx->sf,ctx->fs,i,ctx->cslope); 77084ff8c8bSHong Zhang for (j=0; j<dof; j++) { 77184ff8c8bSHong Zhang PetscScalar tmp = 0; 77284ff8c8bSHong Zhang for (k=0; k<dof; k++) tmp += ctx->R[j+k*dof]*ctx->cslope[k]; 77384ff8c8bSHong Zhang slope[i*dof+j] = tmp; 77484ff8c8bSHong Zhang } 77584ff8c8bSHong Zhang } 77684ff8c8bSHong Zhang } 77784ff8c8bSHong Zhang 77884ff8c8bSHong Zhang for (i=xs; i<xs+xm+1; i++) { 77984ff8c8bSHong Zhang PetscReal maxspeed; 78084ff8c8bSHong Zhang PetscScalar *uL,*uR; 78184ff8c8bSHong Zhang uL = &ctx->uLR[0]; 78284ff8c8bSHong Zhang uR = &ctx->uLR[dof]; 78384ff8c8bSHong Zhang if (i < sf-lsbwidth) { /* slow region */ 78484ff8c8bSHong Zhang for (j=0; j<dof; j++) { 78584ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 78684ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 78784ff8c8bSHong Zhang } 78884ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 78984ff8c8bSHong Zhang cfl_idt = PetscMax(cfl_idt,PetscAbsScalar(maxspeed/hxs)); /* Max allowable value of 1/Delta t */ 79084ff8c8bSHong Zhang if (i > xs) { 79184ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(islow-1)*dof+j] -= ctx->flux[j]/hxs; 79284ff8c8bSHong Zhang } 79384ff8c8bSHong Zhang if (i < xs+xm) { 79484ff8c8bSHong Zhang for (j=0; j<dof; j++) f[islow*dof+j] += ctx->flux[j]/hxs; 79584ff8c8bSHong Zhang islow++; 79684ff8c8bSHong Zhang } 79784ff8c8bSHong Zhang } 79884ff8c8bSHong Zhang if (i == sf-lsbwidth) { /* interface between the slow region and the fast region */ 79984ff8c8bSHong Zhang for (j=0; j<dof; j++) { 80084ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 80184ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 80284ff8c8bSHong Zhang } 80384ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 80484ff8c8bSHong Zhang if (i > xs) { 80584ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(islow-1)*dof+j] -= ctx->flux[j]/hxs; 80684ff8c8bSHong Zhang } 80784ff8c8bSHong Zhang } 80884ff8c8bSHong Zhang if (i == fs+rsbwidth) { /* slow region */ 80984ff8c8bSHong Zhang for (j=0; j<dof; j++) { 81084ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 81184ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 81284ff8c8bSHong Zhang } 81384ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 81484ff8c8bSHong Zhang if (i < xs+xm) { 81584ff8c8bSHong Zhang for (j=0; j<dof; j++) f[islow*dof+j] += ctx->flux[j]/hxs; 81684ff8c8bSHong Zhang islow++; 81784ff8c8bSHong Zhang } 81884ff8c8bSHong Zhang } 81984ff8c8bSHong Zhang if (i > fs+rsbwidth) { /* slow region */ 82084ff8c8bSHong Zhang for (j=0; j<dof; j++) { 82184ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 82284ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 82384ff8c8bSHong Zhang } 82484ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 82584ff8c8bSHong Zhang if (i > xs) { 82684ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(islow-1)*dof+j] -= ctx->flux[j]/hxs; 82784ff8c8bSHong Zhang } 82884ff8c8bSHong Zhang if (i < xs+xm) { 82984ff8c8bSHong Zhang for (j=0; j<dof; j++) f[islow*dof+j] += ctx->flux[j]/hxs; 83084ff8c8bSHong Zhang islow++; 83184ff8c8bSHong Zhang } 83284ff8c8bSHong Zhang } 83384ff8c8bSHong Zhang } 83484ff8c8bSHong Zhang ierr = DMDAVecRestoreArray(da,Xloc,&x);CHKERRQ(ierr); 83584ff8c8bSHong Zhang ierr = VecRestoreArray(F,&f);CHKERRQ(ierr); 83684ff8c8bSHong Zhang ierr = DMDARestoreArray(da,PETSC_TRUE,&slope);CHKERRQ(ierr); 83784ff8c8bSHong Zhang ierr = DMRestoreLocalVector(da,&Xloc);CHKERRQ(ierr); 83884ff8c8bSHong Zhang ierr = MPI_Allreduce(&cfl_idt,&ctx->cfl_idt,1,MPIU_SCALAR,MPIU_MAX,PetscObjectComm((PetscObject)da));CHKERRMPI(ierr); 83984ff8c8bSHong Zhang PetscFunctionReturn(0); 84084ff8c8bSHong Zhang } 84184ff8c8bSHong Zhang 84284ff8c8bSHong Zhang PetscErrorCode FVRHSFunctionslowbuffer_2WaySplit(TS ts,PetscReal time,Vec X,Vec F,void *vctx) 84384ff8c8bSHong Zhang { 84484ff8c8bSHong Zhang FVCtx *ctx = (FVCtx*)vctx; 84584ff8c8bSHong Zhang PetscErrorCode ierr; 84684ff8c8bSHong Zhang PetscInt i,j,k,Mx,dof,xs,xm,islow = 0,sf = ctx->sf,fs = ctx->fs,lsbwidth = ctx->lsbwidth,rsbwidth = ctx->rsbwidth; 84784ff8c8bSHong Zhang PetscReal hxs,hxf; 84884ff8c8bSHong Zhang PetscScalar *x,*f,*slope; 84984ff8c8bSHong Zhang Vec Xloc; 85084ff8c8bSHong Zhang DM da; 85184ff8c8bSHong Zhang 85284ff8c8bSHong Zhang PetscFunctionBeginUser; 85384ff8c8bSHong Zhang ierr = TSGetDM(ts,&da);CHKERRQ(ierr); 85484ff8c8bSHong Zhang ierr = DMGetLocalVector(da,&Xloc);CHKERRQ(ierr); 85584ff8c8bSHong Zhang ierr = DMDAGetInfo(da,0, &Mx,0,0, 0,0,0, &dof,0,0,0,0,0);CHKERRQ(ierr); 85684ff8c8bSHong Zhang hxs = (ctx->xmax-ctx->xmin)*3.0/8.0/ctx->sf; 85784ff8c8bSHong Zhang hxf = (ctx->xmax-ctx->xmin)/4.0/(ctx->fs-ctx->sf); 85884ff8c8bSHong Zhang ierr = DMGlobalToLocalBegin(da,X,INSERT_VALUES,Xloc);CHKERRQ(ierr); 85984ff8c8bSHong Zhang ierr = DMGlobalToLocalEnd(da,X,INSERT_VALUES,Xloc);CHKERRQ(ierr); 86084ff8c8bSHong Zhang ierr = VecZeroEntries(F);CHKERRQ(ierr); 86184ff8c8bSHong Zhang ierr = DMDAVecGetArray(da,Xloc,&x);CHKERRQ(ierr); 86284ff8c8bSHong Zhang ierr = VecGetArray(F,&f);CHKERRQ(ierr); 86384ff8c8bSHong Zhang ierr = DMDAGetArray(da,PETSC_TRUE,&slope);CHKERRQ(ierr); 86484ff8c8bSHong Zhang ierr = DMDAGetCorners(da,&xs,0,0,&xm,0,0);CHKERRQ(ierr); 86584ff8c8bSHong Zhang 86684ff8c8bSHong Zhang if (ctx->bctype == FVBC_OUTFLOW) { 86784ff8c8bSHong Zhang for (i=xs-2; i<0; i++) { 86884ff8c8bSHong Zhang for (j=0; j<dof; j++) x[i*dof+j] = x[j]; 86984ff8c8bSHong Zhang } 87084ff8c8bSHong Zhang for (i=Mx; i<xs+xm+2; i++) { 87184ff8c8bSHong Zhang for (j=0; j<dof; j++) x[i*dof+j] = x[(xs+xm-1)*dof+j]; 87284ff8c8bSHong Zhang } 87384ff8c8bSHong Zhang } 87484ff8c8bSHong Zhang if (ctx->bctype == FVBC_INFLOW) { 87584ff8c8bSHong Zhang /* See LeVeque, R. (2002). Finite Volume Methods for Hyperbolic Problems. doi:10.1017/CBO9780511791253 87684ff8c8bSHong Zhang pages 137-138 for the scheme. */ 87784ff8c8bSHong Zhang if (xs==0) { /* Left Boundary */ 87884ff8c8bSHong Zhang ctx->physics2.inflow(ctx,time,ctx->xmin,ctx->ub); 87984ff8c8bSHong Zhang for (j=0; j<dof; j++) { 88084ff8c8bSHong Zhang if (ctx->physics2.bcinflowindex[j]==PETSC_TRUE) { 88184ff8c8bSHong Zhang for (i=-2; i<0; i++) x[i*dof+j] = 2.0*ctx->ub[j]-x[-(i+1)*dof+j]; 88284ff8c8bSHong Zhang } else { 88384ff8c8bSHong Zhang for (i=-2; i<0; i++) x[i*dof+j] = x[j]; /* Outflow */ 88484ff8c8bSHong Zhang } 88584ff8c8bSHong Zhang } 88684ff8c8bSHong Zhang } 88784ff8c8bSHong Zhang if (xs+xm==Mx) { /* Right Boundary */ 88884ff8c8bSHong Zhang ctx->physics2.inflow(ctx,time,ctx->xmax,ctx->ub); 88984ff8c8bSHong Zhang for (j=0; j<dof; j++) { 89084ff8c8bSHong Zhang if (ctx->physics2.bcinflowindex[dof+j]==PETSC_TRUE) { 89184ff8c8bSHong Zhang for (i=Mx; i<Mx+2; i++) x[i*dof+j] = 2.0*ctx->ub[dof+j]-x[(2*Mx-(i+1))*dof+j]; 89284ff8c8bSHong Zhang } else { 89384ff8c8bSHong Zhang for (i=Mx; i<Mx+2; i++) x[i*dof+j] = x[(Mx-1)*dof+j]; /* Outflow */ 89484ff8c8bSHong Zhang } 89584ff8c8bSHong Zhang } 89684ff8c8bSHong Zhang } 89784ff8c8bSHong Zhang } 89884ff8c8bSHong Zhang for (i=xs-1; i<xs+xm+1; i++) { 89984ff8c8bSHong Zhang struct _LimitInfo info; 90084ff8c8bSHong Zhang PetscScalar *cjmpL,*cjmpR; 90184ff8c8bSHong Zhang if ((i > sf-lsbwidth-2 && i < sf+1) || (i > fs-2 && i < fs+rsbwidth+1)) { 90284ff8c8bSHong Zhang /* Determine the right eigenvectors R, where A = R \Lambda R^{-1} */ 90384ff8c8bSHong Zhang ierr = (*ctx->physics2.characteristic2)(ctx->physics2.user,dof,&x[i*dof],ctx->R,ctx->Rinv,ctx->speeds);CHKERRQ(ierr); 90484ff8c8bSHong Zhang /* Evaluate jumps across interfaces (i-1, i) and (i, i+1), put in characteristic basis */ 90584ff8c8bSHong Zhang ierr = PetscArrayzero(ctx->cjmpLR,2*dof);CHKERRQ(ierr); 90684ff8c8bSHong Zhang cjmpL = &ctx->cjmpLR[0]; 90784ff8c8bSHong Zhang cjmpR = &ctx->cjmpLR[dof]; 90884ff8c8bSHong Zhang for (j=0; j<dof; j++) { 90984ff8c8bSHong Zhang PetscScalar jmpL,jmpR; 91084ff8c8bSHong Zhang jmpL = x[(i+0)*dof+j]-x[(i-1)*dof+j]; 91184ff8c8bSHong Zhang jmpR = x[(i+1)*dof+j]-x[(i+0)*dof+j]; 91284ff8c8bSHong Zhang for (k=0; k<dof; k++) { 91384ff8c8bSHong Zhang cjmpL[k] += ctx->Rinv[k+j*dof]*jmpL; 91484ff8c8bSHong Zhang cjmpR[k] += ctx->Rinv[k+j*dof]*jmpR; 91584ff8c8bSHong Zhang } 91684ff8c8bSHong Zhang } 91784ff8c8bSHong Zhang /* Apply limiter to the left and right characteristic jumps */ 91884ff8c8bSHong Zhang info.m = dof; 91984ff8c8bSHong Zhang info.hxs = hxs; 92084ff8c8bSHong Zhang info.hxf = hxf; 92184ff8c8bSHong Zhang (*ctx->limit2)(&info,cjmpL,cjmpR,ctx->sf,ctx->fs,i,ctx->cslope); 92284ff8c8bSHong Zhang for (j=0; j<dof; j++) { 92384ff8c8bSHong Zhang PetscScalar tmp = 0; 92484ff8c8bSHong Zhang for (k=0; k<dof; k++) tmp += ctx->R[j+k*dof]*ctx->cslope[k]; 92584ff8c8bSHong Zhang slope[i*dof+j] = tmp; 92684ff8c8bSHong Zhang } 92784ff8c8bSHong Zhang } 92884ff8c8bSHong Zhang } 92984ff8c8bSHong Zhang 93084ff8c8bSHong Zhang for (i=xs; i<xs+xm+1; i++) { 93184ff8c8bSHong Zhang PetscReal maxspeed; 93284ff8c8bSHong Zhang PetscScalar *uL,*uR; 93384ff8c8bSHong Zhang uL = &ctx->uLR[0]; 93484ff8c8bSHong Zhang uR = &ctx->uLR[dof]; 93584ff8c8bSHong Zhang if (i == sf-lsbwidth) { 93684ff8c8bSHong Zhang for (j=0; j<dof; j++) { 93784ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 93884ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 93984ff8c8bSHong Zhang } 94084ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 94184ff8c8bSHong Zhang if (i < xs+xm) { 94284ff8c8bSHong Zhang for (j=0; j<dof; j++) f[islow*dof+j] += ctx->flux[j]/hxs; 94384ff8c8bSHong Zhang islow++; 94484ff8c8bSHong Zhang } 94584ff8c8bSHong Zhang } 94684ff8c8bSHong Zhang if (i > sf-lsbwidth && i < sf) { 94784ff8c8bSHong Zhang for (j=0; j<dof; j++) { 94884ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 94984ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 95084ff8c8bSHong Zhang } 95184ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 95284ff8c8bSHong Zhang if (i > xs) { 95384ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(islow-1)*dof+j] -= ctx->flux[j]/hxs; 95484ff8c8bSHong Zhang } 95584ff8c8bSHong Zhang if (i < xs+xm) { 95684ff8c8bSHong Zhang for (j=0; j<dof; j++) f[islow*dof+j] += ctx->flux[j]/hxs; 95784ff8c8bSHong Zhang islow++; 95884ff8c8bSHong Zhang } 95984ff8c8bSHong Zhang } 96084ff8c8bSHong Zhang if (i == sf) { /* interface between the slow region and the fast region */ 96184ff8c8bSHong Zhang for (j=0; j<dof; j++) { 96284ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 96384ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxf/2; 96484ff8c8bSHong Zhang } 96584ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 96684ff8c8bSHong Zhang if (i > xs) { 96784ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(islow-1)*dof+j] -= ctx->flux[j]/hxs; 96884ff8c8bSHong Zhang } 96984ff8c8bSHong Zhang } 97084ff8c8bSHong Zhang if (i == fs) { /* interface between the fast region and the slow region */ 97184ff8c8bSHong Zhang for (j=0; j<dof; j++) { 97284ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxf/2; 97384ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 97484ff8c8bSHong Zhang } 97584ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 97684ff8c8bSHong Zhang if (i < xs+xm) { 97784ff8c8bSHong Zhang for (j=0; j<dof; j++) f[islow*dof+j] += ctx->flux[j]/hxs; 97884ff8c8bSHong Zhang islow++; 97984ff8c8bSHong Zhang } 98084ff8c8bSHong Zhang } 98184ff8c8bSHong Zhang if (i > fs && i < fs+rsbwidth) { 98284ff8c8bSHong Zhang for (j=0; j<dof; j++) { 98384ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 98484ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 98584ff8c8bSHong Zhang } 98684ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 98784ff8c8bSHong Zhang if (i > xs) { 98884ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(islow-1)*dof+j] -= ctx->flux[j]/hxs; 98984ff8c8bSHong Zhang } 99084ff8c8bSHong Zhang if (i < xs+xm) { 99184ff8c8bSHong Zhang for (j=0; j<dof; j++) f[islow*dof+j] += ctx->flux[j]/hxs; 99284ff8c8bSHong Zhang islow++; 99384ff8c8bSHong Zhang } 99484ff8c8bSHong Zhang } 99584ff8c8bSHong Zhang if (i == fs+rsbwidth) { 99684ff8c8bSHong Zhang for (j=0; j<dof; j++) { 99784ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 99884ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 99984ff8c8bSHong Zhang } 100084ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 100184ff8c8bSHong Zhang if (i > xs) { 100284ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(islow-1)*dof+j] -= ctx->flux[j]/hxs; 100384ff8c8bSHong Zhang } 100484ff8c8bSHong Zhang } 100584ff8c8bSHong Zhang } 100684ff8c8bSHong Zhang ierr = DMDAVecRestoreArray(da,Xloc,&x);CHKERRQ(ierr); 100784ff8c8bSHong Zhang ierr = VecRestoreArray(F,&f);CHKERRQ(ierr); 100884ff8c8bSHong Zhang ierr = DMDARestoreArray(da,PETSC_TRUE,&slope);CHKERRQ(ierr); 100984ff8c8bSHong Zhang ierr = DMRestoreLocalVector(da,&Xloc);CHKERRQ(ierr); 101084ff8c8bSHong Zhang PetscFunctionReturn(0); 101184ff8c8bSHong Zhang } 101284ff8c8bSHong Zhang 101384ff8c8bSHong Zhang /* --------------------------------- Finite Volume Solver for fast parts ----------------------------------- */ 101484ff8c8bSHong Zhang PetscErrorCode FVRHSFunctionfast_2WaySplit(TS ts,PetscReal time,Vec X,Vec F,void *vctx) 101584ff8c8bSHong Zhang { 101684ff8c8bSHong Zhang FVCtx *ctx = (FVCtx*)vctx; 101784ff8c8bSHong Zhang PetscErrorCode ierr; 101884ff8c8bSHong Zhang PetscInt i,j,k,Mx,dof,xs,xm,ifast = 0,sf = ctx->sf,fs = ctx->fs; 101984ff8c8bSHong Zhang PetscReal hxs,hxf; 102084ff8c8bSHong Zhang PetscScalar *x,*f,*slope; 102184ff8c8bSHong Zhang Vec Xloc; 102284ff8c8bSHong Zhang DM da; 102384ff8c8bSHong Zhang 102484ff8c8bSHong Zhang PetscFunctionBeginUser; 102584ff8c8bSHong Zhang ierr = TSGetDM(ts,&da);CHKERRQ(ierr); 102684ff8c8bSHong Zhang ierr = DMGetLocalVector(da,&Xloc);CHKERRQ(ierr); 102784ff8c8bSHong Zhang ierr = DMDAGetInfo(da,0, &Mx,0,0, 0,0,0, &dof,0,0,0,0,0);CHKERRQ(ierr); 102884ff8c8bSHong Zhang hxs = (ctx->xmax-ctx->xmin)*3.0/8.0/ctx->sf; 102984ff8c8bSHong Zhang hxf = (ctx->xmax-ctx->xmin)/4.0/(ctx->fs-ctx->sf); 103084ff8c8bSHong Zhang ierr = DMGlobalToLocalBegin(da,X,INSERT_VALUES,Xloc);CHKERRQ(ierr); 103184ff8c8bSHong Zhang ierr = DMGlobalToLocalEnd(da,X,INSERT_VALUES,Xloc);CHKERRQ(ierr); 103284ff8c8bSHong Zhang ierr = VecZeroEntries(F);CHKERRQ(ierr); 103384ff8c8bSHong Zhang ierr = DMDAVecGetArray(da,Xloc,&x);CHKERRQ(ierr); 103484ff8c8bSHong Zhang ierr = VecGetArray(F,&f);CHKERRQ(ierr); 103584ff8c8bSHong Zhang ierr = DMDAGetArray(da,PETSC_TRUE,&slope);CHKERRQ(ierr); 103684ff8c8bSHong Zhang ierr = DMDAGetCorners(da,&xs,0,0,&xm,0,0);CHKERRQ(ierr); 103784ff8c8bSHong Zhang 103884ff8c8bSHong Zhang if (ctx->bctype == FVBC_OUTFLOW) { 103984ff8c8bSHong Zhang for (i=xs-2; i<0; i++) { 104084ff8c8bSHong Zhang for (j=0; j<dof; j++) x[i*dof+j] = x[j]; 104184ff8c8bSHong Zhang } 104284ff8c8bSHong Zhang for (i=Mx; i<xs+xm+2; i++) { 104384ff8c8bSHong Zhang for (j=0; j<dof; j++) x[i*dof+j] = x[(xs+xm-1)*dof+j]; 104484ff8c8bSHong Zhang } 104584ff8c8bSHong Zhang } 104684ff8c8bSHong Zhang if (ctx->bctype == FVBC_INFLOW) { 104784ff8c8bSHong Zhang /* See LeVeque, R. (2002). Finite Volume Methods for Hyperbolic Problems. doi:10.1017/CBO9780511791253 104884ff8c8bSHong Zhang pages 137-138 for the scheme. */ 104984ff8c8bSHong Zhang if (xs==0) { /* Left Boundary */ 105084ff8c8bSHong Zhang ctx->physics2.inflow(ctx,time,ctx->xmin,ctx->ub); 105184ff8c8bSHong Zhang for (j=0; j<dof; j++) { 105284ff8c8bSHong Zhang if (ctx->physics2.bcinflowindex[j]==PETSC_TRUE) { 105384ff8c8bSHong Zhang for (i=-2; i<0; i++) x[i*dof+j] = 2.0*ctx->ub[j]-x[-(i+1)*dof+j]; 105484ff8c8bSHong Zhang } else { 105584ff8c8bSHong Zhang for (i=-2; i<0; i++) x[i*dof+j] = x[j]; /* Outflow */ 105684ff8c8bSHong Zhang } 105784ff8c8bSHong Zhang } 105884ff8c8bSHong Zhang } 105984ff8c8bSHong Zhang if (xs+xm==Mx) { /* Right Boundary */ 106084ff8c8bSHong Zhang ctx->physics2.inflow(ctx,time,ctx->xmax,ctx->ub); 106184ff8c8bSHong Zhang for (j=0; j<dof; j++) { 106284ff8c8bSHong Zhang if (ctx->physics2.bcinflowindex[dof+j]==PETSC_TRUE) { 106384ff8c8bSHong Zhang for (i=Mx; i<Mx+2; i++) x[i*dof+j] = 2.0*ctx->ub[dof+j]-x[(2*Mx-(i+1))*dof+j]; 106484ff8c8bSHong Zhang } else { 106584ff8c8bSHong Zhang for (i=Mx; i<Mx+2; i++) x[i*dof+j] = x[(Mx-1)*dof+j]; /* Outflow */ 106684ff8c8bSHong Zhang } 106784ff8c8bSHong Zhang } 106884ff8c8bSHong Zhang } 106984ff8c8bSHong Zhang } 107084ff8c8bSHong Zhang for (i=xs-1; i<xs+xm+1; i++) { 107184ff8c8bSHong Zhang struct _LimitInfo info; 107284ff8c8bSHong Zhang PetscScalar *cjmpL,*cjmpR; 107384ff8c8bSHong Zhang if (i > sf-2 && i < fs+1) { 107484ff8c8bSHong Zhang ierr = (*ctx->physics2.characteristic2)(ctx->physics2.user,dof,&x[i*dof],ctx->R,ctx->Rinv,ctx->speeds);CHKERRQ(ierr); 107584ff8c8bSHong Zhang ierr = PetscArrayzero(ctx->cjmpLR,2*dof);CHKERRQ(ierr); 107684ff8c8bSHong Zhang cjmpL = &ctx->cjmpLR[0]; 107784ff8c8bSHong Zhang cjmpR = &ctx->cjmpLR[dof]; 107884ff8c8bSHong Zhang for (j=0; j<dof; j++) { 107984ff8c8bSHong Zhang PetscScalar jmpL,jmpR; 108084ff8c8bSHong Zhang jmpL = x[(i+0)*dof+j]-x[(i-1)*dof+j]; 108184ff8c8bSHong Zhang jmpR = x[(i+1)*dof+j]-x[(i+0)*dof+j]; 108284ff8c8bSHong Zhang for (k=0; k<dof; k++) { 108384ff8c8bSHong Zhang cjmpL[k] += ctx->Rinv[k+j*dof]*jmpL; 108484ff8c8bSHong Zhang cjmpR[k] += ctx->Rinv[k+j*dof]*jmpR; 108584ff8c8bSHong Zhang } 108684ff8c8bSHong Zhang } 108784ff8c8bSHong Zhang /* Apply limiter to the left and right characteristic jumps */ 108884ff8c8bSHong Zhang info.m = dof; 108984ff8c8bSHong Zhang info.hxs = hxs; 109084ff8c8bSHong Zhang info.hxf = hxf; 109184ff8c8bSHong Zhang (*ctx->limit2)(&info,cjmpL,cjmpR,ctx->sf,ctx->fs,i,ctx->cslope); 109284ff8c8bSHong Zhang for (j=0; j<dof; j++) { 109384ff8c8bSHong Zhang PetscScalar tmp = 0; 109484ff8c8bSHong Zhang for (k=0; k<dof; k++) tmp += ctx->R[j+k*dof]*ctx->cslope[k]; 109584ff8c8bSHong Zhang slope[i*dof+j] = tmp; 109684ff8c8bSHong Zhang } 109784ff8c8bSHong Zhang } 109884ff8c8bSHong Zhang } 109984ff8c8bSHong Zhang 110084ff8c8bSHong Zhang for (i=xs; i<xs+xm+1; i++) { 110184ff8c8bSHong Zhang PetscReal maxspeed; 110284ff8c8bSHong Zhang PetscScalar *uL,*uR; 110384ff8c8bSHong Zhang uL = &ctx->uLR[0]; 110484ff8c8bSHong Zhang uR = &ctx->uLR[dof]; 110584ff8c8bSHong Zhang if (i == sf) { /* interface between the slow region and the fast region */ 110684ff8c8bSHong Zhang for (j=0; j<dof; j++) { 110784ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxs/2; 110884ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxf/2; 110984ff8c8bSHong Zhang } 111084ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 111184ff8c8bSHong Zhang if (i < xs+xm) { 111284ff8c8bSHong Zhang for (j=0; j<dof; j++) f[ifast*dof+j] += ctx->flux[j]/hxf; 111384ff8c8bSHong Zhang ifast++; 111484ff8c8bSHong Zhang } 111584ff8c8bSHong Zhang } 111684ff8c8bSHong Zhang if (i > sf && i < fs) { /* fast region */ 111784ff8c8bSHong Zhang for (j=0; j<dof; j++) { 111884ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxf/2; 111984ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxf/2; 112084ff8c8bSHong Zhang } 112184ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 112284ff8c8bSHong Zhang if (i > xs) { 112384ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(ifast-1)*dof+j] -= ctx->flux[j]/hxf; 112484ff8c8bSHong Zhang } 112584ff8c8bSHong Zhang if (i < xs+xm) { 112684ff8c8bSHong Zhang for (j=0; j<dof; j++) f[ifast*dof+j] += ctx->flux[j]/hxf; 112784ff8c8bSHong Zhang ifast++; 112884ff8c8bSHong Zhang } 112984ff8c8bSHong Zhang } 113084ff8c8bSHong Zhang if (i == fs) { /* interface between the fast region and the slow region */ 113184ff8c8bSHong Zhang for (j=0; j<dof; j++) { 113284ff8c8bSHong Zhang uL[j] = x[(i-1)*dof+j]+slope[(i-1)*dof+j]*hxf/2; 113384ff8c8bSHong Zhang uR[j] = x[(i-0)*dof+j]-slope[(i-0)*dof+j]*hxs/2; 113484ff8c8bSHong Zhang } 113584ff8c8bSHong Zhang ierr = (*ctx->physics2.riemann2)(ctx->physics2.user,dof,uL,uR,ctx->flux,&maxspeed);CHKERRQ(ierr); 113684ff8c8bSHong Zhang if (i > xs) { 113784ff8c8bSHong Zhang for (j=0; j<dof; j++) f[(ifast-1)*dof+j] -= ctx->flux[j]/hxf; 113884ff8c8bSHong Zhang } 113984ff8c8bSHong Zhang } 114084ff8c8bSHong Zhang } 114184ff8c8bSHong Zhang ierr = DMDAVecRestoreArray(da,Xloc,&x);CHKERRQ(ierr); 114284ff8c8bSHong Zhang ierr = VecRestoreArray(F,&f);CHKERRQ(ierr); 114384ff8c8bSHong Zhang ierr = DMDARestoreArray(da,PETSC_TRUE,&slope);CHKERRQ(ierr); 114484ff8c8bSHong Zhang ierr = DMRestoreLocalVector(da,&Xloc);CHKERRQ(ierr); 114584ff8c8bSHong Zhang PetscFunctionReturn(0); 114684ff8c8bSHong Zhang } 114784ff8c8bSHong Zhang 114884ff8c8bSHong Zhang int main(int argc,char *argv[]) 114984ff8c8bSHong Zhang { 115084ff8c8bSHong Zhang char lname[256] = "mc",physname[256] = "advect",final_fname[256] = "solution.m"; 115184ff8c8bSHong Zhang PetscFunctionList limiters = 0,physics = 0; 115284ff8c8bSHong Zhang MPI_Comm comm; 115384ff8c8bSHong Zhang TS ts; 115484ff8c8bSHong Zhang DM da; 115584ff8c8bSHong Zhang Vec X,X0,R; 115684ff8c8bSHong Zhang FVCtx ctx; 115784ff8c8bSHong Zhang PetscInt i,k,dof,xs,xm,Mx,draw = 0,count_slow,count_fast,islow = 0,ifast =0,islowbuffer = 0,*index_slow,*index_fast,*index_slowbuffer; 115884ff8c8bSHong Zhang PetscBool view_final = PETSC_FALSE; 115984ff8c8bSHong Zhang PetscReal ptime,maxtime; 116084ff8c8bSHong Zhang PetscErrorCode ierr; 116184ff8c8bSHong Zhang 116284ff8c8bSHong Zhang ierr = PetscInitialize(&argc,&argv,0,help);if (ierr) return ierr; 116384ff8c8bSHong Zhang comm = PETSC_COMM_WORLD; 116484ff8c8bSHong Zhang ierr = PetscMemzero(&ctx,sizeof(ctx));CHKERRQ(ierr); 116584ff8c8bSHong Zhang 116684ff8c8bSHong Zhang /* Register limiters to be available on the command line */ 116784ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&limiters,"upwind" ,Limit2_Upwind);CHKERRQ(ierr); 116884ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&limiters,"lax-wendroff" ,Limit2_LaxWendroff);CHKERRQ(ierr); 116984ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&limiters,"beam-warming" ,Limit2_BeamWarming);CHKERRQ(ierr); 117084ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&limiters,"fromm" ,Limit2_Fromm);CHKERRQ(ierr); 117184ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&limiters,"minmod" ,Limit2_Minmod);CHKERRQ(ierr); 117284ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&limiters,"superbee" ,Limit2_Superbee);CHKERRQ(ierr); 117384ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&limiters,"mc" ,Limit2_MC);CHKERRQ(ierr); 117484ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&limiters,"koren3" ,Limit2_Koren3);CHKERRQ(ierr); 117584ff8c8bSHong Zhang 117684ff8c8bSHong Zhang /* Register physical models to be available on the command line */ 117784ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&physics,"shallow" ,PhysicsCreate_Shallow);CHKERRQ(ierr); 117884ff8c8bSHong Zhang ierr = PetscFunctionListAdd(&physics,"advect" ,PhysicsCreate_Advect);CHKERRQ(ierr); 117984ff8c8bSHong Zhang 118084ff8c8bSHong Zhang ctx.comm = comm; 118184ff8c8bSHong Zhang ctx.cfl = 0.9; 118284ff8c8bSHong Zhang ctx.bctype = FVBC_PERIODIC; 118384ff8c8bSHong Zhang ctx.xmin = -1.0; 118484ff8c8bSHong Zhang ctx.xmax = 1.0; 118584ff8c8bSHong Zhang ctx.initial = 1; 118684ff8c8bSHong Zhang ctx.hratio = 2; 118784ff8c8bSHong Zhang maxtime = 10.0; 118884ff8c8bSHong Zhang ctx.simulation = PETSC_FALSE; 118984ff8c8bSHong Zhang ierr = PetscOptionsBegin(comm,NULL,"Finite Volume solver options","");CHKERRQ(ierr); 119084ff8c8bSHong Zhang ierr = PetscOptionsReal("-xmin","X min","",ctx.xmin,&ctx.xmin,NULL);CHKERRQ(ierr); 119184ff8c8bSHong Zhang ierr = PetscOptionsReal("-xmax","X max","",ctx.xmax,&ctx.xmax,NULL);CHKERRQ(ierr); 119284ff8c8bSHong Zhang ierr = PetscOptionsFList("-limit","Name of flux imiter to use","",limiters,lname,lname,sizeof(lname),NULL);CHKERRQ(ierr); 119384ff8c8bSHong Zhang ierr = PetscOptionsFList("-physics","Name of physics model to use","",physics,physname,physname,sizeof(physname),NULL);CHKERRQ(ierr); 119484ff8c8bSHong Zhang ierr = PetscOptionsInt("-draw","Draw solution vector, bitwise OR of (1=initial,2=final,4=final error)","",draw,&draw,NULL);CHKERRQ(ierr); 119584ff8c8bSHong Zhang ierr = PetscOptionsString("-view_final","Write final solution in ASCII MATLAB format to given file name","",final_fname,final_fname,sizeof(final_fname),&view_final);CHKERRQ(ierr); 119684ff8c8bSHong Zhang ierr = PetscOptionsInt("-initial","Initial condition (depends on the physics)","",ctx.initial,&ctx.initial,NULL);CHKERRQ(ierr); 119784ff8c8bSHong Zhang ierr = PetscOptionsBool("-exact","Compare errors with exact solution","",ctx.exact,&ctx.exact,NULL);CHKERRQ(ierr); 119884ff8c8bSHong Zhang ierr = PetscOptionsBool("-simulation","Compare errors with reference solution","",ctx.simulation,&ctx.simulation,NULL);CHKERRQ(ierr); 119984ff8c8bSHong Zhang ierr = PetscOptionsReal("-cfl","CFL number to time step at","",ctx.cfl,&ctx.cfl,NULL);CHKERRQ(ierr); 120084ff8c8bSHong Zhang ierr = PetscOptionsEnum("-bc_type","Boundary condition","",FVBCTypes,(PetscEnum)ctx.bctype,(PetscEnum*)&ctx.bctype,NULL);CHKERRQ(ierr); 120184ff8c8bSHong Zhang ierr = PetscOptionsInt("-hratio","Spacing ratio","",ctx.hratio,&ctx.hratio,NULL);CHKERRQ(ierr); 120284ff8c8bSHong Zhang ierr = PetscOptionsEnd();CHKERRQ(ierr); 120384ff8c8bSHong Zhang 120484ff8c8bSHong Zhang /* Choose the limiter from the list of registered limiters */ 120584ff8c8bSHong Zhang ierr = PetscFunctionListFind(limiters,lname,&ctx.limit2);CHKERRQ(ierr); 12069ace16cdSJacob Faibussowitsch PetscAssertFalse(!ctx.limit2,PETSC_COMM_SELF,PETSC_ERR_ARG_UNKNOWN_TYPE,"Limiter '%s' not found",lname); 120784ff8c8bSHong Zhang 120884ff8c8bSHong Zhang /* Choose the physics from the list of registered models */ 120984ff8c8bSHong Zhang { 121084ff8c8bSHong Zhang PetscErrorCode (*r)(FVCtx*); 121184ff8c8bSHong Zhang ierr = PetscFunctionListFind(physics,physname,&r);CHKERRQ(ierr); 12129ace16cdSJacob Faibussowitsch PetscAssertFalse(!r,PETSC_COMM_SELF,PETSC_ERR_ARG_UNKNOWN_TYPE,"Physics '%s' not found",physname); 121384ff8c8bSHong Zhang /* Create the physics, will set the number of fields and their names */ 121484ff8c8bSHong Zhang ierr = (*r)(&ctx);CHKERRQ(ierr); 121584ff8c8bSHong Zhang } 121684ff8c8bSHong Zhang 121784ff8c8bSHong Zhang /* Create a DMDA to manage the parallel grid */ 121884ff8c8bSHong Zhang ierr = DMDACreate1d(comm,DM_BOUNDARY_PERIODIC,50,ctx.physics2.dof,2,NULL,&da);CHKERRQ(ierr); 121984ff8c8bSHong Zhang ierr = DMSetFromOptions(da);CHKERRQ(ierr); 122084ff8c8bSHong Zhang ierr = DMSetUp(da);CHKERRQ(ierr); 122184ff8c8bSHong Zhang /* Inform the DMDA of the field names provided by the physics. */ 122284ff8c8bSHong Zhang /* The names will be shown in the title bars when run with -ts_monitor_draw_solution */ 122384ff8c8bSHong Zhang for (i=0; i<ctx.physics2.dof; i++) { 122484ff8c8bSHong Zhang ierr = DMDASetFieldName(da,i,ctx.physics2.fieldname[i]);CHKERRQ(ierr); 122584ff8c8bSHong Zhang } 122684ff8c8bSHong Zhang ierr = DMDAGetInfo(da,0, &Mx,0,0, 0,0,0, &dof,0,0,0,0,0);CHKERRQ(ierr); 122784ff8c8bSHong Zhang ierr = DMDAGetCorners(da,&xs,0,0,&xm,0,0);CHKERRQ(ierr); 122884ff8c8bSHong Zhang 122984ff8c8bSHong Zhang /* Set coordinates of cell centers */ 123084ff8c8bSHong Zhang ierr = DMDASetUniformCoordinates(da,ctx.xmin+0.5*(ctx.xmax-ctx.xmin)/Mx,ctx.xmax+0.5*(ctx.xmax-ctx.xmin)/Mx,0,0,0,0);CHKERRQ(ierr); 123184ff8c8bSHong Zhang 123284ff8c8bSHong Zhang /* Allocate work space for the Finite Volume solver (so it doesn't have to be reallocated on each function evaluation) */ 123384ff8c8bSHong Zhang ierr = PetscMalloc4(dof*dof,&ctx.R,dof*dof,&ctx.Rinv,2*dof,&ctx.cjmpLR,1*dof,&ctx.cslope);CHKERRQ(ierr); 123484ff8c8bSHong Zhang ierr = PetscMalloc3(2*dof,&ctx.uLR,dof,&ctx.flux,dof,&ctx.speeds);CHKERRQ(ierr); 123584ff8c8bSHong Zhang ierr = PetscMalloc1(2*dof,&ctx.ub);CHKERRQ(ierr); 123684ff8c8bSHong Zhang 123784ff8c8bSHong Zhang /* Create a vector to store the solution and to save the initial state */ 123884ff8c8bSHong Zhang ierr = DMCreateGlobalVector(da,&X);CHKERRQ(ierr); 123984ff8c8bSHong Zhang ierr = VecDuplicate(X,&X0);CHKERRQ(ierr); 124084ff8c8bSHong Zhang ierr = VecDuplicate(X,&R);CHKERRQ(ierr); 124184ff8c8bSHong Zhang 124284ff8c8bSHong Zhang /* create index for slow parts and fast parts, 124384ff8c8bSHong Zhang count_slow + count_fast = Mx, counts_slow*hs = 0.5, counts_fast*hf = 0.5 */ 124484ff8c8bSHong Zhang count_slow = Mx/(1.0+ctx.hratio/3.0); 12459ace16cdSJacob Faibussowitsch PetscAssertFalse(count_slow%2,PETSC_COMM_WORLD,PETSC_ERR_USER,"Please adjust grid size Mx (-da_grid_x) and hratio (-hratio) so that Mx/(1+hratio/3) is even"); 124684ff8c8bSHong Zhang count_fast = Mx-count_slow; 124784ff8c8bSHong Zhang ctx.sf = count_slow/2; 124884ff8c8bSHong Zhang ctx.fs = ctx.sf+count_fast; 124984ff8c8bSHong Zhang ierr = PetscMalloc1(xm*dof,&index_slow);CHKERRQ(ierr); 125084ff8c8bSHong Zhang ierr = PetscMalloc1(xm*dof,&index_fast);CHKERRQ(ierr); 125184ff8c8bSHong Zhang ierr = PetscMalloc1(8*dof,&index_slowbuffer);CHKERRQ(ierr); 125284ff8c8bSHong Zhang ctx.lsbwidth = 4; 125384ff8c8bSHong Zhang ctx.rsbwidth = 4; 125484ff8c8bSHong Zhang 125584ff8c8bSHong Zhang for (i=xs; i<xs+xm; i++) { 125684ff8c8bSHong Zhang if (i < ctx.sf-ctx.lsbwidth || i > ctx.fs+ctx.rsbwidth-1) 125784ff8c8bSHong Zhang for (k=0; k<dof; k++) index_slow[islow++] = i*dof+k; 125884ff8c8bSHong Zhang else if ((i >= ctx.sf-ctx.lsbwidth && i < ctx.sf) || (i > ctx.fs-1 && i <= ctx.fs+ctx.rsbwidth-1)) 125984ff8c8bSHong Zhang for (k=0; k<dof; k++) index_slowbuffer[islowbuffer++] = i*dof+k; 126084ff8c8bSHong Zhang else 126184ff8c8bSHong Zhang for (k=0; k<dof; k++) index_fast[ifast++] = i*dof+k; 126284ff8c8bSHong Zhang } 126384ff8c8bSHong Zhang ierr = ISCreateGeneral(PETSC_COMM_WORLD,islow,index_slow,PETSC_COPY_VALUES,&ctx.iss);CHKERRQ(ierr); 126484ff8c8bSHong Zhang ierr = ISCreateGeneral(PETSC_COMM_WORLD,ifast,index_fast,PETSC_COPY_VALUES,&ctx.isf);CHKERRQ(ierr); 126584ff8c8bSHong Zhang ierr = ISCreateGeneral(PETSC_COMM_WORLD,islowbuffer,index_slowbuffer,PETSC_COPY_VALUES,&ctx.issb);CHKERRQ(ierr); 126684ff8c8bSHong Zhang 126784ff8c8bSHong Zhang /* Create a time-stepping object */ 126884ff8c8bSHong Zhang ierr = TSCreate(comm,&ts);CHKERRQ(ierr); 126984ff8c8bSHong Zhang ierr = TSSetDM(ts,da);CHKERRQ(ierr); 127084ff8c8bSHong Zhang ierr = TSSetRHSFunction(ts,R,FVRHSFunction_2WaySplit,&ctx);CHKERRQ(ierr); 127184ff8c8bSHong Zhang ierr = TSRHSSplitSetIS(ts,"slow",ctx.iss);CHKERRQ(ierr); 127284ff8c8bSHong Zhang ierr = TSRHSSplitSetIS(ts,"slowbuffer",ctx.issb);CHKERRQ(ierr); 127384ff8c8bSHong Zhang ierr = TSRHSSplitSetIS(ts,"fast",ctx.isf);CHKERRQ(ierr); 127484ff8c8bSHong Zhang ierr = TSRHSSplitSetRHSFunction(ts,"slow",NULL,FVRHSFunctionslow_2WaySplit,&ctx);CHKERRQ(ierr); 127584ff8c8bSHong Zhang ierr = TSRHSSplitSetRHSFunction(ts,"fast",NULL,FVRHSFunctionfast_2WaySplit,&ctx);CHKERRQ(ierr); 127684ff8c8bSHong Zhang ierr = TSRHSSplitSetRHSFunction(ts,"slowbuffer",NULL,FVRHSFunctionslowbuffer_2WaySplit,&ctx);CHKERRQ(ierr); 127784ff8c8bSHong Zhang 127884ff8c8bSHong Zhang ierr = TSSetType(ts,TSMPRK);CHKERRQ(ierr); 127984ff8c8bSHong Zhang ierr = TSSetMaxTime(ts,maxtime);CHKERRQ(ierr); 128084ff8c8bSHong Zhang ierr = TSSetExactFinalTime(ts,TS_EXACTFINALTIME_STEPOVER);CHKERRQ(ierr); 128184ff8c8bSHong Zhang 128284ff8c8bSHong Zhang /* Compute initial conditions and starting time step */ 128384ff8c8bSHong Zhang ierr = FVSample_2WaySplit(&ctx,da,0,X0);CHKERRQ(ierr); 128484ff8c8bSHong Zhang ierr = FVRHSFunction_2WaySplit(ts,0,X0,X,(void*)&ctx);CHKERRQ(ierr); /* Initial function evaluation, only used to determine max speed */ 128584ff8c8bSHong Zhang ierr = VecCopy(X0,X);CHKERRQ(ierr); /* The function value was not used so we set X=X0 again */ 128684ff8c8bSHong Zhang ierr = TSSetTimeStep(ts,ctx.cfl/ctx.cfl_idt);CHKERRQ(ierr); 128784ff8c8bSHong Zhang ierr = TSSetFromOptions(ts);CHKERRQ(ierr); /* Take runtime options */ 128884ff8c8bSHong Zhang ierr = SolutionStatsView(da,X,PETSC_VIEWER_STDOUT_WORLD);CHKERRQ(ierr); 128984ff8c8bSHong Zhang { 129084ff8c8bSHong Zhang PetscInt steps; 129184ff8c8bSHong Zhang PetscScalar mass_initial,mass_final,mass_difference,mass_differenceg; 129284ff8c8bSHong Zhang const PetscScalar *ptr_X,*ptr_X0; 129384ff8c8bSHong Zhang const PetscReal hs = (ctx.xmax-ctx.xmin)*3.0/4.0/count_slow; 129484ff8c8bSHong Zhang const PetscReal hf = (ctx.xmax-ctx.xmin)/4.0/count_fast; 129584ff8c8bSHong Zhang 129684ff8c8bSHong Zhang ierr = TSSolve(ts,X);CHKERRQ(ierr); 129784ff8c8bSHong Zhang ierr = TSGetSolveTime(ts,&ptime);CHKERRQ(ierr); 129884ff8c8bSHong Zhang ierr = TSGetStepNumber(ts,&steps);CHKERRQ(ierr); 129984ff8c8bSHong Zhang /* calculate the total mass at initial time and final time */ 130084ff8c8bSHong Zhang mass_initial = 0.0; 130184ff8c8bSHong Zhang mass_final = 0.0; 130284ff8c8bSHong Zhang ierr = DMDAVecGetArrayRead(da,X0,(void*)&ptr_X0);CHKERRQ(ierr); 130384ff8c8bSHong Zhang ierr = DMDAVecGetArrayRead(da,X,(void*)&ptr_X);CHKERRQ(ierr); 130484ff8c8bSHong Zhang for (i=xs;i<xs+xm;i++) { 130584ff8c8bSHong Zhang if (i < ctx.sf || i > ctx.fs-1) { 130684ff8c8bSHong Zhang for (k=0; k<dof; k++) { 130784ff8c8bSHong Zhang mass_initial = mass_initial + hs*ptr_X0[i*dof+k]; 130884ff8c8bSHong Zhang mass_final = mass_final + hs*ptr_X[i*dof+k]; 130984ff8c8bSHong Zhang } 131084ff8c8bSHong Zhang } else { 131184ff8c8bSHong Zhang for (k=0; k<dof; k++) { 131284ff8c8bSHong Zhang mass_initial = mass_initial + hf*ptr_X0[i*dof+k]; 131384ff8c8bSHong Zhang mass_final = mass_final + hf*ptr_X[i*dof+k]; 131484ff8c8bSHong Zhang } 131584ff8c8bSHong Zhang } 131684ff8c8bSHong Zhang } 131784ff8c8bSHong Zhang ierr = DMDAVecRestoreArrayRead(da,X0,(void*)&ptr_X0);CHKERRQ(ierr); 131884ff8c8bSHong Zhang ierr = DMDAVecRestoreArrayRead(da,X,(void*)&ptr_X);CHKERRQ(ierr); 131984ff8c8bSHong Zhang mass_difference = mass_final - mass_initial; 132084ff8c8bSHong Zhang ierr = MPI_Allreduce(&mass_difference,&mass_differenceg,1,MPIU_SCALAR,MPIU_SUM,comm);CHKERRMPI(ierr); 132184ff8c8bSHong Zhang ierr = PetscPrintf(comm,"Mass difference %g\n",(double)mass_differenceg);CHKERRQ(ierr); 132284ff8c8bSHong Zhang ierr = PetscPrintf(comm,"Final time %g, steps %D\n",(double)ptime,steps);CHKERRQ(ierr); 132384ff8c8bSHong Zhang ierr = PetscPrintf(comm,"Maximum allowable stepsize according to CFL %g\n",(double)(1.0/ctx.cfl_idt));CHKERRQ(ierr); 132484ff8c8bSHong Zhang if (ctx.exact) { 132584ff8c8bSHong Zhang PetscReal nrm1=0; 132684ff8c8bSHong Zhang ierr = SolutionErrorNorms_2WaySplit(&ctx,da,ptime,X,&nrm1);CHKERRQ(ierr); 132784ff8c8bSHong Zhang ierr = PetscPrintf(comm,"Error ||x-x_e||_1 %g\n",(double)nrm1);CHKERRQ(ierr); 132884ff8c8bSHong Zhang } 132984ff8c8bSHong Zhang if (ctx.simulation) { 133084ff8c8bSHong Zhang PetscReal nrm1=0; 133184ff8c8bSHong Zhang PetscViewer fd; 133284ff8c8bSHong Zhang char filename[PETSC_MAX_PATH_LEN] = "binaryoutput"; 133384ff8c8bSHong Zhang Vec XR; 133484ff8c8bSHong Zhang PetscBool flg; 133584ff8c8bSHong Zhang const PetscScalar *ptr_XR; 133684ff8c8bSHong Zhang ierr = PetscOptionsGetString(NULL,NULL,"-f",filename,sizeof(filename),&flg);CHKERRQ(ierr); 13379ace16cdSJacob Faibussowitsch PetscAssertFalse(!flg,PETSC_COMM_WORLD,PETSC_ERR_USER,"Must indicate binary file with the -f option"); 133884ff8c8bSHong Zhang ierr = PetscViewerBinaryOpen(PETSC_COMM_WORLD,filename,FILE_MODE_READ,&fd);CHKERRQ(ierr); 133984ff8c8bSHong Zhang ierr = VecDuplicate(X0,&XR);CHKERRQ(ierr); 134084ff8c8bSHong Zhang ierr = VecLoad(XR,fd);CHKERRQ(ierr); 134184ff8c8bSHong Zhang ierr = PetscViewerDestroy(&fd);CHKERRQ(ierr); 134284ff8c8bSHong Zhang ierr = VecGetArrayRead(X,&ptr_X);CHKERRQ(ierr); 134384ff8c8bSHong Zhang ierr = VecGetArrayRead(XR,&ptr_XR);CHKERRQ(ierr); 134484ff8c8bSHong Zhang for (i=xs;i<xs+xm;i++) { 134584ff8c8bSHong Zhang if (i < ctx.sf || i > ctx.fs-1) 134684ff8c8bSHong Zhang for (k=0; k<dof; k++) nrm1 = nrm1 + hs*PetscAbs(ptr_X[i*dof+k]-ptr_XR[i*dof+k]); 134784ff8c8bSHong Zhang else 134884ff8c8bSHong Zhang for (k=0; k<dof; k++) nrm1 = nrm1 + hf*PetscAbs(ptr_X[i*dof+k]-ptr_XR[i*dof+k]); 134984ff8c8bSHong Zhang } 135084ff8c8bSHong Zhang ierr = VecRestoreArrayRead(X,&ptr_X);CHKERRQ(ierr); 135184ff8c8bSHong Zhang ierr = VecRestoreArrayRead(XR,&ptr_XR);CHKERRQ(ierr); 135284ff8c8bSHong Zhang ierr = PetscPrintf(comm,"Error ||x-x_e||_1 %g\n",(double)nrm1);CHKERRQ(ierr); 135384ff8c8bSHong Zhang ierr = VecDestroy(&XR);CHKERRQ(ierr); 135484ff8c8bSHong Zhang } 135584ff8c8bSHong Zhang } 135684ff8c8bSHong Zhang 135784ff8c8bSHong Zhang ierr = SolutionStatsView(da,X,PETSC_VIEWER_STDOUT_WORLD);CHKERRQ(ierr); 135884ff8c8bSHong Zhang if (draw & 0x1) {ierr = VecView(X0,PETSC_VIEWER_DRAW_WORLD);CHKERRQ(ierr);} 135984ff8c8bSHong Zhang if (draw & 0x2) {ierr = VecView(X,PETSC_VIEWER_DRAW_WORLD);CHKERRQ(ierr);} 136084ff8c8bSHong Zhang if (draw & 0x4) { 136184ff8c8bSHong Zhang Vec Y; 136284ff8c8bSHong Zhang ierr = VecDuplicate(X,&Y);CHKERRQ(ierr); 136384ff8c8bSHong Zhang ierr = FVSample_2WaySplit(&ctx,da,ptime,Y);CHKERRQ(ierr); 136484ff8c8bSHong Zhang ierr = VecAYPX(Y,-1,X);CHKERRQ(ierr); 136584ff8c8bSHong Zhang ierr = VecView(Y,PETSC_VIEWER_DRAW_WORLD);CHKERRQ(ierr); 136684ff8c8bSHong Zhang ierr = VecDestroy(&Y);CHKERRQ(ierr); 136784ff8c8bSHong Zhang } 136884ff8c8bSHong Zhang 136984ff8c8bSHong Zhang if (view_final) { 137084ff8c8bSHong Zhang PetscViewer viewer; 137184ff8c8bSHong Zhang ierr = PetscViewerASCIIOpen(PETSC_COMM_WORLD,final_fname,&viewer);CHKERRQ(ierr); 137284ff8c8bSHong Zhang ierr = PetscViewerPushFormat(viewer,PETSC_VIEWER_ASCII_MATLAB);CHKERRQ(ierr); 137384ff8c8bSHong Zhang ierr = VecView(X,viewer);CHKERRQ(ierr); 137484ff8c8bSHong Zhang ierr = PetscViewerPopFormat(viewer);CHKERRQ(ierr); 137584ff8c8bSHong Zhang ierr = PetscViewerDestroy(&viewer);CHKERRQ(ierr); 137684ff8c8bSHong Zhang } 137784ff8c8bSHong Zhang 137884ff8c8bSHong Zhang /* Clean up */ 137984ff8c8bSHong Zhang ierr = (*ctx.physics2.destroy)(ctx.physics2.user);CHKERRQ(ierr); 138084ff8c8bSHong Zhang for (i=0; i<ctx.physics2.dof; i++) {ierr = PetscFree(ctx.physics2.fieldname[i]);CHKERRQ(ierr);} 138184ff8c8bSHong Zhang ierr = PetscFree(ctx.physics2.bcinflowindex);CHKERRQ(ierr); 138284ff8c8bSHong Zhang ierr = PetscFree(ctx.ub); 138384ff8c8bSHong Zhang ierr = PetscFree4(ctx.R,ctx.Rinv,ctx.cjmpLR,ctx.cslope);CHKERRQ(ierr); 138484ff8c8bSHong Zhang ierr = PetscFree3(ctx.uLR,ctx.flux,ctx.speeds);CHKERRQ(ierr); 138584ff8c8bSHong Zhang ierr = VecDestroy(&X);CHKERRQ(ierr); 138684ff8c8bSHong Zhang ierr = VecDestroy(&X0);CHKERRQ(ierr); 138784ff8c8bSHong Zhang ierr = VecDestroy(&R);CHKERRQ(ierr); 138884ff8c8bSHong Zhang ierr = DMDestroy(&da);CHKERRQ(ierr); 138984ff8c8bSHong Zhang ierr = TSDestroy(&ts);CHKERRQ(ierr); 139084ff8c8bSHong Zhang ierr = ISDestroy(&ctx.iss);CHKERRQ(ierr); 139184ff8c8bSHong Zhang ierr = ISDestroy(&ctx.isf);CHKERRQ(ierr); 139284ff8c8bSHong Zhang ierr = ISDestroy(&ctx.issb);CHKERRQ(ierr); 139384ff8c8bSHong Zhang ierr = PetscFree(index_slow);CHKERRQ(ierr); 139484ff8c8bSHong Zhang ierr = PetscFree(index_fast);CHKERRQ(ierr); 139584ff8c8bSHong Zhang ierr = PetscFree(index_slowbuffer);CHKERRQ(ierr); 139684ff8c8bSHong Zhang ierr = PetscFunctionListDestroy(&limiters);CHKERRQ(ierr); 139784ff8c8bSHong Zhang ierr = PetscFunctionListDestroy(&physics);CHKERRQ(ierr); 139884ff8c8bSHong Zhang ierr = PetscFinalize(); 139984ff8c8bSHong Zhang return ierr; 140084ff8c8bSHong Zhang } 140184ff8c8bSHong Zhang 140284ff8c8bSHong Zhang /*TEST 140384ff8c8bSHong Zhang 140484ff8c8bSHong Zhang build: 140584ff8c8bSHong Zhang requires: !complex !single 140684ff8c8bSHong Zhang depends: finitevolume1d.c 140784ff8c8bSHong Zhang 140884ff8c8bSHong Zhang test: 140984ff8c8bSHong Zhang suffix: 1 141084ff8c8bSHong Zhang args: -da_grid_x 60 -initial 7 -xmin -1 -xmax 1 -hratio 2 -limit mc -ts_dt 0.025 -ts_max_steps 24 -ts_type mprk -ts_mprk_type 2a22 141184ff8c8bSHong Zhang output_file: output/ex4_1.out 141284ff8c8bSHong Zhang 141384ff8c8bSHong Zhang test: 141484ff8c8bSHong Zhang suffix: 2 141584ff8c8bSHong Zhang args: -da_grid_x 60 -initial 7 -xmin -1 -xmax 1 -hratio 2 -limit mc -ts_dt 0.025 -ts_max_steps 24 -ts_type mprk -ts_mprk_type 2a22 -ts_use_splitrhsfunction 1 141684ff8c8bSHong Zhang output_file: output/ex4_1.out 141784ff8c8bSHong Zhang 141884ff8c8bSHong Zhang test: 141984ff8c8bSHong Zhang suffix: 3 142084ff8c8bSHong Zhang args: -da_grid_x 40 -initial 1 -hratio 2 -limit mc -ts_dt 0.1 -ts_max_steps 24 -ts_max_time 7.0 -ts_type mprk -ts_mprk_type 2a22 -physics shallow -bc_type outflow -xmin 0 -xmax 50 -ts_use_splitrhsfunction 0 142184ff8c8bSHong Zhang output_file: output/ex4_3.out 142284ff8c8bSHong Zhang 142384ff8c8bSHong Zhang test: 142484ff8c8bSHong Zhang suffix: 4 142584ff8c8bSHong Zhang nsize: 2 142684ff8c8bSHong Zhang args: -da_grid_x 40 -initial 1 -hratio 2 -limit mc -ts_dt 0.1 -ts_max_steps 24 -ts_max_time 7.0 -ts_type mprk -ts_mprk_type 2a22 -physics shallow -bc_type outflow -xmin 0 -xmax 50 -ts_use_splitrhsfunction 1 142784ff8c8bSHong Zhang output_file: output/ex4_3.out 142884ff8c8bSHong Zhang 142984ff8c8bSHong Zhang test: 143084ff8c8bSHong Zhang suffix: 5 143184ff8c8bSHong Zhang nsize: 4 143284ff8c8bSHong Zhang args: args: -da_grid_x 40 -initial 1 -hratio 2 -limit mc -ts_dt 0.1 -ts_max_steps 24 -ts_max_time 7.0 -ts_type mprk -ts_mprk_type 2a22 -physics shallow -bc_type outflow -xmin 0 -xmax 50 -ts_use_splitrhsfunction 1 143384ff8c8bSHong Zhang output_file: output/ex4_3.out 143484ff8c8bSHong Zhang TEST*/ 1435