int main(int argc, char *argv[])
{
clock_t tstart, tend;
double duration;
int numprocs, rank;
float *sendbuf, *recvbuf;
MPI_Comm Comm=MPI_COMM_WORLD;
bool verb, wantrecord, wantwf, onlyrecord;
sf_file Ffvel, Ffden, Fbvel, Fbden;
sf_file Fsrc, Frcd, Fimg1, Fimg2;
sf_file FGx, FGz, Fsxx, Fsxz, Fszx, Fszz;
sf_file Ftmpfwf, Ftmpbwf;
sf_axis at, ax, az, atau;
int shtbgn, shtinv, shtnmb, shtpad, shtnmb0;
int snapturn, tmpint;
float **fvel, **bvel;
float ***fwf, ***record, **localrec;
float ***img1, **img2, ***mig1, **mig2;
float *tmpsxx, *tmpsxz, *tmpszx, *tmpszz;
sf_init(argc, argv);
MPI_Init(&argc, &argv);
MPI_Comm_size(Comm, &numprocs);
MPI_Comm_rank(Comm, &rank);
tstart=clock();
if(rank==0) sf_warning("numprocs=%d", numprocs);
if(!sf_getbool("verb", &verb)) verb=true;
if(!sf_getbool("wantrecord", &wantrecord)) wantrecord=false;
if(!sf_getbool("wantwf", &wantwf)) wantwf=false;
if(!sf_getbool("onlyrecord", &onlyrecord)) onlyrecord=false;
Fsrc=sf_input("-input");
Fimg1=sf_output("-output");
Fimg2=sf_output("img2");
Ffvel=sf_input("fvel");
Ffden=sf_input("fden");
Fbvel=sf_input("bvel");
Fbden=sf_input("bden");
if(wantrecord)
Frcd=sf_input("record");
else
Frcd=sf_output("record");
if(wantwf){
Ftmpfwf=sf_output("tmpfwf");
Ftmpbwf=sf_output("tmpbwf");
}
FGx=sf_input("Gx");
FGz=sf_input("Gz");
Fsxx=sf_input("sxx");
Fsxz=sf_input("sxz");
Fszx=sf_input("szx");
Fszz=sf_input("szz");
at=sf_iaxa(Fsrc, 1); nt=sf_n(at); dt=sf_d(at);
if(!sf_getbool("srcdecay", &srcdecay)) srcdecay=true;
if(!sf_getint("srcrange", &srcrange)) srcrange=3;
if(!sf_getfloat("srctrunc", &srctrunc)) srctrunc=0.2;
if(!sf_getfloat("srcalpha", &srcalpha)) srcalpha=0.5;
wavelet=sf_floatalloc(nt);
sf_floatread(wavelet, nt, Fsrc);
if(!sf_getint("pmlsize", &pmlsize)) pmlsize=30;
if(!sf_getint("nfd", &nfd)) sf_error("Need half of the FD order!");
if(!sf_getfloat("pmld0", &pmld0)) pmld0=200;
if(!sf_getint("shtnmb", &shtnmb)) sf_error("Need shot number!");
if(!sf_getint("shtinv", &shtinv)) sf_error("Need shot interval!");
if(!sf_getint("shtbgn", &shtbgn)) shtbgn=0;
shtpad=numprocs-shtnmb%numprocs;
shtnmb0=shtnmb+shtpad;
az=sf_iaxa(Ffvel, 1); nzb=sf_n(az);
ax=sf_iaxa(Ffvel, 2); nxb=sf_n(ax);
nxzb=nxb*nzb;
nz=nzb-2*nfd-2*pmlsize;
nx=nxb-2*nfd-2*pmlsize;
if(!sf_getint("snapturn", &snapturn)) snapturn=1;
if(!sf_getint("ginv", &ginv)) ginv=1;
if(!sf_getint("wfinv", &wfinv)) wfinv=1;
if(!sf_getint("spz", &spz)) spz=6;
if(!sf_getint("gp", &gp)) gp=0;
ng=(nx-1)/ginv+1;
wfnt=(nt-1)/wfinv+1;
wfdt=dt*wfinv;
if(!sf_getint("ntau", &ntau)) ntau=1;
if(!sf_getfloat("dtau", &dtau)) dtau=wfdt;
if(!sf_getfloat("tau0", &tau0)) tau0=0;
atau=sf_iaxa(Fsrc, 1);
sf_setn(atau, ntau);
sf_setd(atau, dtau);
sf_seto(atau, tau0);
if(!sf_histint(FGx, "n1", &nxz)) sf_error("No n1= in FGx!");
if(nxz != nxzb) sf_error("Dimension error!");
if(!sf_histint(FGx, "n2", &lenx)) sf_error("No n2= in FGx!");
if(!sf_histint(FGz, "n2", &lenz)) sf_error("No n2= in FGz!");
Gx=sf_floatalloc3(nzb, nxb, lenx);
Gz=sf_floatalloc3(nzb, nxb, lenz);
sxx=sf_intalloc(lenx);
sxz=sf_intalloc(lenx);
szx=sf_intalloc(lenz);
szz=sf_intalloc(lenz);
tmpsxx=sf_floatalloc(lenx);
tmpsxz=sf_floatalloc(lenx);
tmpszx=sf_floatalloc(lenz);
tmpszz=sf_floatalloc(lenz);
sf_floatread(Gx[0][0], nxzb*lenx, FGx);
sf_floatread(Gz[0][0], nxzb*lenz, FGz);
sf_floatread(tmpsxx, lenx, Fsxx);
sf_floatread(tmpsxz, lenx, Fsxz);
sf_floatread(tmpszx, lenz, Fszx);
sf_floatread(tmpszz, lenz, Fszz);
for (ix=0; ix<lenx; ix++){
sxx[ix]=(int)tmpsxx[ix];
sxz[ix]=(int)tmpsxz[ix];
}
for (iz=0; iz<lenz; iz++){
szx[iz]=(int)tmpszx[iz];
szz[iz]=(int)tmpszz[iz];
}
fvel=sf_floatalloc2(nzb, nxb);
fden=sf_floatalloc2(nzb, nxb);
fc11=sf_floatalloc2(nzb, nxb);
bvel=sf_floatalloc2(nzb, nxb);
bden=sf_floatalloc2(nzb, nxb);
bc11=sf_floatalloc2(nzb, nxb);
sf_floatread(fvel[0], nxzb, Ffvel);
sf_floatread(fden[0], nxzb, Ffden);
sf_floatread(bvel[0], nxzb, Fbvel);
sf_floatread(bden[0], nxzb, Fbden);
for (ix=0; ix<nxb; ix++){
for (iz=0; iz<nzb; iz++){
fc11[ix][iz]=fden[ix][iz]*fvel[ix][iz]*fvel[ix][iz];
bc11[ix][iz]=bden[ix][iz]*bvel[ix][iz]*bvel[ix][iz];
}
}
if(wantrecord){
/* check record data */
sf_histint(Frcd, "n1", &tmpint);
if(tmpint != nt) sf_error("Not matched dimensions!");
sf_histint(Frcd, "n2", &tmpint);
if(tmpint != ng) sf_error("Not matched dimensions!");
sf_histint(Frcd, "n3", &tmpint);
if(tmpint != shtnmb) sf_error("Not matched dimensions!");
}
if(rank==0){
record=sf_floatalloc3(nt, ng, shtnmb0);
if(wantrecord){
sf_floatread(record[0][0], nt*ng*shtnmb, Frcd);
for(is=shtnmb; is<shtnmb0; is++)
for(ix=0; ix<ng; ix++)
for(it=0; it<nt; it++)
record[is][ix][it]=0.0;
}
}
img1=sf_floatalloc3(nz, nx, ntau);
mig1=sf_floatalloc3(nz, nx, ntau);
img2=sf_floatalloc2(nz, nx);
mig2=sf_floatalloc2(nz, nx);
zero3(img1, nz, nx, ntau);
zero2(img2, nz, nx);
sf_setn(az, nz);
sf_setn(ax, ng);
if(!wantrecord){
sf_oaxa(Frcd, at, 1);
sf_oaxa(Frcd, ax, 2);
sf_putint(Frcd, "n3", shtnmb);
sf_putint(Frcd, "d3", shtinv);
sf_putint(Frcd, "o3", shtbgn);
}
sf_setn(ax, nx);
if(wantwf){
sf_setn(at, wfnt);
sf_setd(at, wfdt);
sf_oaxa(Ftmpfwf, az, 1);
sf_oaxa(Ftmpfwf, ax, 2);
sf_oaxa(Ftmpfwf, at, 3);
sf_oaxa(Ftmpbwf, az, 1);
sf_oaxa(Ftmpbwf, ax, 2);
sf_oaxa(Ftmpbwf, at, 3);
}
sf_oaxa(Fimg1, az, 1);
sf_oaxa(Fimg1, ax, 2);
sf_oaxa(Fimg1, atau, 3);
sf_oaxa(Fimg2, az, 1);
sf_oaxa(Fimg2, ax, 2);
fwf=sf_floatalloc3(nz, nx, wfnt);
localrec=sf_floatalloc2(nt, ng);
if(verb){
sf_warning("==================================");
sf_warning("nx=%d nz=%d nt=%d", nx, nz, nt);
sf_warning("wfnt=%d wfdt=%f wfinv=%d dt=%f", wfnt, wfdt, wfinv, dt);
sf_warning("nxb=%d nzb=%d pmlsize=%d nfd=%d", nxb, nzb, pmlsize, nfd);
sf_warning("ntau=%d dtau=%f tau0=%f", ntau, dtau, tau0);
sf_warning("shtnmb=%d shtbgn=%d shtinv=%d", shtnmb, shtbgn, shtinv);
sf_warning("lenx=%d lenz=%d spz=%d gp=%d", lenx, lenz, spz, gp);
sf_warning("==================================");
}
init();
for(iturn=0; iturn*numprocs<shtnmb; iturn++){
is=iturn*numprocs+rank;
if(is<shtnmb){
sf_warning("ishot/nshot: %d/%d", is+1, shtnmb);
spx=is*shtinv+shtbgn;
sglfdfor2(fwf, localrec, verb);
}
if(wantrecord){
recvbuf=localrec[0];
if(rank==0) sendbuf=record[iturn*numprocs][0];
else sendbuf=NULL;
MPI_Scatter(sendbuf, ng*nt, MPI_FLOAT, recvbuf, ng*nt, MPI_FLOAT, 0, Comm);
}else{
sendbuf=localrec[0];
if(rank==0) recvbuf=record[iturn*numprocs][0];
else recvbuf=NULL;
MPI_Gather(sendbuf, ng*nt, MPI_FLOAT, recvbuf, ng*nt, MPI_FLOAT, 0, Comm);
}
if(wantwf && rank==0 && iturn==snapturn-1) wantwf=true;
else wantwf=false;
if(wantwf) sf_floatwrite(fwf[0][0], wfnt*nx*nz, Ftmpfwf);
if(!onlyrecord && is<shtnmb){
sglfdback2(mig1, mig2, fwf, localrec, verb, wantwf, Ftmpbwf);
for(itau=0; itau<ntau; itau++){
for(ix=0; ix<nx; ix++){
for(iz=0; iz<nz; iz++){
img1[itau][ix][iz]+=mig1[itau][ix][iz];
}
}
}
for(ix=0; ix<nx; ix++){
for(iz=0; iz<nz; iz++){
img2[ix][iz]+=mig2[ix][iz];
}
}
}
MPI_Barrier(Comm);
} //end of iturn
if(!onlyrecord){
if(rank==0){
sendbuf=(float *)MPI_IN_PLACE;
recvbuf=img1[0][0];
}else{
sendbuf=img1[0][0];
recvbuf=NULL;
}
MPI_Reduce(sendbuf, recvbuf, ntau*nx*nz, MPI_FLOAT, MPI_SUM, 0, Comm);
if(rank==0){
sendbuf=MPI_IN_PLACE;
recvbuf=img2[0];
}else{
sendbuf=img2[0];
recvbuf=NULL;
}
MPI_Reduce(sendbuf, recvbuf, nx*nz, MPI_FLOAT, MPI_SUM, 0, Comm);
}
if(rank==0){
if(!wantrecord){
sf_floatwrite(record[0][0], shtnmb*ng*nt, Frcd);
}
sf_floatwrite(img1[0][0], ntau*nx*nz, Fimg1);
sf_floatwrite(img2[0], nx*nz, Fimg2);
}
tend=clock();
duration=(double)(tend-tstart)/CLOCKS_PER_SEC;
sf_warning(">>The CPU time of sfmpilfdrtm2 is: %f seconds<<", duration);
MPI_Finalize();
exit(0);
}
int main(int argc, char* argv[])
{
clock_t tstart,tend;
double duration;
/*flag*/
bool verb;
bool wantwf;
bool wantrecord;
/*I/O*/
sf_file Ffvel, Ffden, Fbvel, Fbden;
sf_file Fsrc,/*wave field*/ Frcd/*record*/;
sf_file Ftmpwf, Ftmpbwf;
sf_file Fimg1, Fimg2;
sf_file FGx, FGz, Fsxx, Fsxz, Fszx, Fszz;
sf_axis at, ax, az;
/*grid index variables*/
int nx, nz, nxz, nt, wfnt;
int ix, iz, it;
int nxb, nzb;
float dt, dx, dz, wfdt;
float ox, oz;
/*source/geophone location*/
float slx, slz;
int spx, spz;
float gdep;
int gp;
int ginter, gn;
/*SG LFD coefficient*/
int lenx, lenz;
int marg;
/*Modle*/
float **fvel, **fden, **fc11;
float **bvel, **bden, **bc11;
float ***wavefld, **record;
float **img1, **img2;
int snpint;
/*source*/
bool srcdecay;
int srcrange;
float srctrunc;
/*pml boundary*/
int pmlout, pmld0, decaybegin;
bool decay, freesurface;
/*memoray*/
//float memneed;
int tmpint;
//float tmpfloat;
tstart = clock();
sf_init(argc, argv);
if (!sf_getbool("verb", &verb)) verb=false; /*verbosity*/
if (!sf_getbool("wantwf", &wantwf)) wantwf=false; /*output forward and backward wavefield*/
if (!sf_getbool("wantrecord", &wantrecord)) wantrecord=true; /*if n, using record data generated by this program */
/*Set I/O file*/
Fsrc = sf_input("in"); /*source wavelet*/
Ffvel = sf_input("fvel"); /*forward velocity*/
Ffden = sf_input("fden"); /*forward density*/
Fbvel = sf_input("bvel"); /*backward velocity*/
Fbden = sf_input("bden"); /*backward velocity*/
if (wantrecord) {
Frcd = sf_input("rec"); /*record*/
} else {
Frcd = sf_output("rec"); /*record*/
}
Fimg1 = sf_output("out"); /*Imaging*/
Fimg2 = sf_output("img2"); /*Imaging*/
if (wantwf) {
Ftmpwf = sf_output("tmpwf");/*wavefield snap*/
Ftmpbwf = sf_output("tmpbwf");
}
FGx = sf_input("Gx");
FGz = sf_input("Gz");
Fsxx = sf_input("sxx");
Fsxz = sf_input("sxz");
Fszx = sf_input("szx");
Fszz = sf_input("szz");
if (SF_FLOAT != sf_gettype(Ffvel)) sf_error("Need float input");
if (SF_FLOAT != sf_gettype(Ffden)) sf_error("Need float input");
if (SF_FLOAT != sf_gettype(Fbvel)) sf_error("Need float input");
if (SF_FLOAT != sf_gettype(Fbden)) sf_error("Need float input");
if (SF_FLOAT != sf_gettype(Fsrc)) sf_error("Need float input");
/*--- parameters of source ---*/
srcpar srcp;
srcp = createsrc();
at = sf_iaxa(Fsrc, 1); nt = sf_n(at); dt = sf_d(at);
if (!sf_getbool("srcdecay", &srcdecay)) srcdecay=SRCDECAY;
/*source decay*/
if (!sf_getint("srcrange", &srcrange)) srcrange=SRCRANGE;
/*source decay range*/
if (!sf_getfloat("srctrunc", &srctrunc)) srctrunc=SRCTRUNC;
/*trunc source after srctrunc time (s)*/
srcp->nt = nt; srcp->dt = dt;
srcp->decay = srcdecay; srcp->range=srcrange; srcp->trunc=srctrunc;
loadsrc(srcp, Fsrc);
/*--- parameters of SG LFD Coefficient ---*/
ax = sf_iaxa(Ffvel, 2); nxb = sf_n(ax); dx = sf_d(ax); ox = sf_o(ax);
az = sf_iaxa(Ffvel, 1); nzb = sf_n(az); dz = sf_d(az); oz = sf_o(az);
if (!sf_histint(FGx, "n1", &nxz)) sf_error("No n1= in input");
if (nxz != nxb*nzb) sf_error (" Need nxz = nxb*nzb");
if (!sf_histint(FGx,"n2", &lenx)) sf_error("No n2= in input");
if (!sf_histint(FGz,"n2", &lenz)) sf_error("No n2= in input");
initsglfdcoe(nxb, nzb, lenx, lenz);
loadcoe(nzb, nxb, FGx, FGz);
loadschm(Fsxx, Fsxz, Fszx, Fszz);
marg = getmarg();
/* pml parameters */
pmlpar pmlp;
pmlp = creatpmlpar();
if (!sf_getint("pmlsize", &pmlout)) pmlout=PMLOUT;
/* size of PML layer */
if (!sf_getint("pmld0", &pmld0)) pmld0=PMLD0;
/* PML parameter */
if (!sf_getbool("decay",&decay)) decay=DECAY_FLAG;
/* Flag of decay boundary condtion: 1 = use ; 0 = not use */
if (!sf_getint("decaybegin",&decaybegin)) decaybegin=DECAY_BEGIN;
/* Begin time of using decay boundary condition */
if (!sf_getbool("freesurface", &freesurface)) freesurface=false;
/*free surface*/
nx = nxb - 2*pmlout - 2*marg;
nz = nzb - 2*pmlout - 2*marg;
pmlp->pmlout = pmlout;
pmlp->pmld0 = pmld0;
pmlp->decay = decay;
pmlp->decaybegin = decaybegin;
pmlp->freesurface = freesurface;
/*Geometry parameters*/
geopar geop;
geop = creategeo();
/*source loaction parameters*/
slx = -1.0; spx = -1;
slz = -1.0; spz = -1;
gdep = -1.0; gp = 0;
if (!sf_getfloat("slx", &slx)) ;
/*source location x */
if (!sf_getint("spx", &spx));
/*source location x (index)*/
if((slx<0 && spx <0) || (slx>=0 && spx >=0 )) sf_error("Need src location");
if (slx >= 0 ) spx = (int)((slx-ox)/dx+0.5);
if (!sf_getfloat("slz", &slz)) ;
/* source location z */
if (!sf_getint("spz", &spz)) ;
/*source location z (index)*/
if((slz<0 && spz <0) || (slz>=0 && spz >=0 )) sf_error("Need src location");
if (slz >= 0 ) spz = (int)((slz-ox)/dz+0.5);
if (!sf_getfloat("gdep", &gdep)) ;
/* recorder depth on grid*/
if (!sf_getint("gp", &gp)) ;
/* recorder depth on index*/
if ( gdep>=oz) { gp = (int)((gdep-oz)/dz+0.5);}
if (gp < 0.0) sf_error("gdep need to be >=oz");
/*source and receiver location*/
if (!sf_getint("ginter", &ginter)) ginter = 1;
/*geophone interval*/
gn = (nx-1)/ginter+1; /*ceil*/
if (!sf_getint("snapinter", &snpint)) snpint=10;
/* snap interval */
/*check record data*/
if (wantrecord){
sf_histint(Frcd,"n1", &tmpint);
if (tmpint != nt ) sf_error("Error parameter n1 in record!");
sf_histint(Frcd,"n2", &tmpint);
if (tmpint != gn ) sf_error("Error parameter n2 in record!");
}
geop->nx = nx;
geop->nz = nz;
geop->nxb = nxb;
geop->nzb = nzb;
geop->dx = dx;
geop->dz = dz;
geop->ox = ox;
geop->oz = oz;
geop->snpint = snpint;
geop->spx = spx;
geop->spz = spz;
geop->gp = gp;
geop->gn = gn;
geop->ginter = ginter;
/* wavefield and record */
wfnt = (int)(nt-1)/snpint+1;
wfdt = dt*snpint;
record = sf_floatalloc2(nt, gn);
wavefld = sf_floatalloc3(nz, nx, wfnt);
/* read model */
fvel = sf_floatalloc2(nzb, nxb);
fden = sf_floatalloc2(nzb, nxb);
fc11 = sf_floatalloc2(nzb, nxb);
/*image*/
img1 = sf_floatalloc2(nz, nx);
img2 = sf_floatalloc2(nz, nx);
sf_floatread(fvel[0], nxz, Ffvel);
sf_floatread(fden[0], nxz, Ffden);
for (ix = 0; ix < nxb; ix++) {
for ( iz= 0; iz < nzb; iz++) {
fc11[ix][iz] = fden[ix][iz]*fvel[ix][iz]*fvel[ix][iz];
if(fc11[ix][iz] == 0.0) sf_warning("c11=0: ix=%d iz%d", ix, iz);
}
}
bvel = sf_floatalloc2(nzb, nxb);
bden = sf_floatalloc2(nzb, nxb);
bc11 = sf_floatalloc2(nzb, nxb);
sf_floatread(bvel[0], nxz, Fbvel);
sf_floatread(bden[0], nxz, Fbden);
for (ix = 0; ix < nxb; ix++) {
for ( iz= 0; iz < nzb; iz++) {
bc11[ix][iz] = bden[ix][iz]*bvel[ix][iz]*bvel[ix][iz];
if(bc11[ix][iz] == 0.0) sf_warning("c11=0: ix=%d iz%d", ix, iz);
}
}
if (verb) {
sf_warning("============================");
sf_warning("nx=%d nz=%d nt=%d", geop->nx, geop->nz, srcp->nt);
sf_warning("dx=%f dz=%f dt=%f", geop->dx, geop->dz, srcp->dt);
sf_warning("lenx=%d lenz=%d marg=%d pmlout=%d", lenx, lenz, marg, pmlout);
sf_warning("srcdecay=%d srcrange=%d",srcp->decay,srcp->range);
sf_warning("spx=%d spz=%d gp=%d snpint=%d", spx, spz, gp, snpint);
sf_warning("wfdt=%f wfnt=%d ", wfdt, wfnt);
sf_warning("============================");
}
/* write record */
sf_setn(ax, gn);
sf_setn(az, nz);
if(!wantrecord) {
sf_oaxa(Frcd, at, 1);
sf_oaxa(Frcd, ax, 2);
}
/*wavefiel and image*/
sf_setn(ax,nx);
if (wantwf) {
/*write temp wavefield */
sf_setn(ax, nx);
sf_setn(at, wfnt);
sf_setd(at, wfdt);
sf_oaxa(Ftmpwf, az, 1);
sf_oaxa(Ftmpwf, ax, 2);
sf_oaxa(Ftmpwf, at, 3);
/*write temp wavefield */
sf_oaxa(Ftmpbwf, az, 1);
sf_oaxa(Ftmpbwf, ax, 2);
sf_oaxa(Ftmpbwf, at, 3);
}
/*write image*/
sf_oaxa(Fimg1, az, 1);
sf_oaxa(Fimg1, ax, 2);
sf_oaxa(Fimg2, az, 1);
sf_oaxa(Fimg2, ax, 2);
sglfdfor2(wavefld, record, verb, fden, fc11, geop, srcp, pmlp);
if(wantrecord) {
sf_floatread(record[0], gn*nt, Frcd);
}
sglfdback2(img1, img2, wavefld, record, verb, wantwf, bden, bc11, geop, srcp, pmlp, Ftmpbwf);
if (!wantrecord) {
for (ix=0; ix<gn; ix++)
sf_floatwrite(record[ix], nt, Frcd);
}
if (wantwf) {
for (it=0; it<wfnt; it++)
for ( ix=0; ix<nx; ix++)
sf_floatwrite(wavefld[it][ix], nz, Ftmpwf);
}
for (ix=0; ix<nx; ix++)
sf_floatwrite(img1[ix], nz, Fimg1);
for (ix=0; ix<nx; ix++)
sf_floatwrite(img2[ix], nz, Fimg2);
freertm();
tend = clock();
duration=(double)(tend-tstart)/CLOCKS_PER_SEC;
sf_warning(">> The CPU time of sfsglfd2 is: %f seconds << ", duration);
exit(0);
}
