#include #include #include #include "protos.h" #include "registry.h" #include "data.h" int contains_str( char *s1, char *s2 ) { int i ; char *p, *q, *r ; if ( s2 == NULL || s1 == NULL ) return ( 0 ) ; if ( *s2 == '\0' || *s1 == '\0' ) return ( 0 ) ; p = s1 ; while ( *p ) { if ((r = (char *)index( p , *s2 )) == NULL ) { return( 0 ) ; } for ( q = s2 ; *q && *r == *q ; r++ , q++ ) ; if ( *q == '\0' ) return (1) ; p++ ; } return( 0 ) ; } int contains_tok( char *s1, char *s2, char *delims ) { char *p ; char tempstr[8092] ; strcpy( tempstr , s1 ) ; p = strtok ( tempstr, delims ) ; while ( p != NULL ) { if ( !strcmp ( p , s2 ) ) { return(1) ;} p = strtok( NULL, delims ) ; } return(0) ; } char halo_define[4*4096], halo_use[NAMELEN], halo_id[NAMELEN], upper_case_corename[NAMELEN], x[NAMELEN] ; int gen_nest_interp ( char * dirname ) { char * corename ; char * fnlst[] = { "nest_forcedown_interp.inc" , "nest_interpdown_interp.inc" , "nest_feedbackup_interp.inc", "nest_feedbackup_smooth.inc", 0L } ; int down_path[] = { FORCE_DOWN , INTERP_DOWN , INTERP_UP, SMOOTH_UP } ; int ipath ; char ** fnp ; char * fn ; char fname[NAMELEN] ; FILE * fp ; int i ; for ( fnp = fnlst , ipath = 0 ; *fnp ; fnp++ , ipath++ ) { fn = *fnp ; for ( i = 0 ; i < get_num_cores() ; i++ ) { corename = get_corename_i(i) ; if ( dirname == NULL || corename == NULL ) return(1) ; if ( strlen(dirname) > 0 ) { sprintf(fname,"%s/%s_%s",dirname,corename,fn) ; } else { sprintf(fname,"%s_%s",corename,fn) ; } if ((fp = fopen( fname , "w" )) == NULL ) return(1) ; print_warning(fp,fname) ; strcpy( upper_case_corename , corename ) ; make_upper_case( upper_case_corename ) ; if ( down_path[ipath] == INTERP_DOWN ) { sprintf(halo_id,"HALO_%s_INTERP_DOWN",upper_case_corename) ; } else if ( down_path[ipath] == FORCE_DOWN ) { sprintf(halo_id,"HALO_%s_FORCE_DOWN",upper_case_corename) ; } else if ( down_path[ipath] == INTERP_UP ) { sprintf(halo_id,"HALO_%s_INTERP_UP",upper_case_corename) ; } else if ( down_path[ipath] == SMOOTH_UP ) { sprintf(halo_id,"HALO_%s_INTERP_SMOOTH",upper_case_corename) ; } sprintf(halo_define,"80:") ; sprintf(halo_use,"dyn_%s",corename) ; #if 0 gen_nest_interp1 ( fp , Domain.fields, corename, NULL, down_path[ipath], (down_path[ipath]==FORCE_DOWN)?1:2 ) ; #else gen_nest_interp1 ( fp , Domain.fields, corename, NULL, down_path[ipath], (down_path[ipath]==FORCE_DOWN)?2:2 ) ; #endif { node_t * comm_struct ; comm_struct = new_node( HALO ) ; strcpy( comm_struct->name , halo_id ) ; strcpy( comm_struct->use , halo_use ) ; strcpy( comm_struct->comm_define , halo_define ) ; add_node_to_end( comm_struct , &Halos ) ; } close_the_file(fp) ; } } return(0) ; } int gen_nest_interp1 ( FILE * fp , node_t * node, char * corename , char * fourdname, int down_path , int use_nest_time_level ) { int i, ii ; char * fn = "nest_interp.inc" ; char fname[NAMELEN] ; node_t *p, *p1, *dim ; int d2, d3, xdex, ydex, zdex, io_mask ; char ddim[3][2][NAMELEN] ; char mdim[3][2][NAMELEN] ; char pdim[3][2][NAMELEN] ; char ddim2[3][2][NAMELEN] ; char mdim2[3][2][NAMELEN] ; char pdim2[3][2][NAMELEN] ; char nddim[3][2][NAMELEN] ; char nmdim[3][2][NAMELEN] ; char npdim[3][2][NAMELEN] ; char nddim2[3][2][NAMELEN] ; char nmdim2[3][2][NAMELEN] ; char npdim2[3][2][NAMELEN] ; char vname[NAMELEN] ; char vname2[NAMELEN] ; char tag[NAMELEN], tag2[NAMELEN] ; char core[NAMELEN], core2[NAMELEN] ; char fcn_name[NAMELEN] ; char xstag[NAMELEN], ystag[NAMELEN] ; char dexes[NAMELEN] ; char ndexes[NAMELEN] ; char *maskstr ; char *grid ; for ( p1 = node ; p1 != NULL ; p1 = p1->next ) { if ( p1->node_kind & FOURD ) { if ( p1->members->next ) { io_mask = p1->members->next->io_mask ; } else { continue ; } } else { io_mask = p1->io_mask ; } p = p1 ; if ( io_mask & down_path ) { if ((!strncmp( p->use, "dyn_", 4) && !strcmp(p->use+4,corename)) || strncmp( p->use, "dyn_", 4)) { if (!strncmp( p->use, "dyn_", 4)) sprintf(core,"%s_",corename,vname) ; else sprintf(core,"") ; if ( p->ntl > 1 ) { sprintf(tag,"_2") ; sprintf(tag2,"_%d", use_nest_time_level) ; } else { sprintf(tag,"") ; sprintf(tag2,"") ; } /* construct variable name */ if ( p->node_kind & FOURD ) { sprintf(x, "%s%s", p->name, tag ) ; if ( ! contains_tok ( halo_define , x , ":," ) ) { if ( halo_define[strlen(halo_define)-1] == ':' ) { strcat(halo_define,p->name) ; strcat(halo_define,tag) ; } else { strcat(halo_define,",") ; strcat(halo_define,p->name) ; strcat(halo_define,tag) ; } } strcpy(dexes,"grid%sm31,grid%sm32,grid%sm33") ; sprintf(vname,"%s%s(%s,itrace)",p->name,tag,dexes) ; strcpy(ndexes,"ngrid%sm31,ngrid%sm32,ngrid%sm33") ; sprintf(vname2,"%s%s%s(%s,itrace)",core,p->name,tag2,ndexes) ; if ( down_path & SMOOTH_UP ) { strcpy( fcn_name , p->members->next->smoothu_fcn_name ) ; } else { strcpy( fcn_name , (down_path & INTERP_UP)?p->members->next->interpu_fcn_name:((down_path & FORCE_DOWN)?p->members->next->force_fcn_name:p->members->next->interpd_fcn_name) ) ; } } else { sprintf(vname,"%s%s",p->name,tag) ; if ( ! contains_tok ( halo_define , vname , ":," ) ) { if ( halo_define[strlen(halo_define)-1] == ':' ) { strcat(halo_define,vname) ; } else { strcat(halo_define,",") ; strcat(halo_define,vname) ; } } sprintf(vname2,"%s%s%s",core,p->name,tag2) ; if ( down_path & SMOOTH_UP ) { strcpy( fcn_name , p->smoothu_fcn_name ) ; } else { strcpy( fcn_name , (down_path & INTERP_UP)?p->interpu_fcn_name:((down_path & FORCE_DOWN)?p->force_fcn_name:p->interpd_fcn_name) ) ; } } if ( p1->node_kind & FOURD ) { grid = "" ; set_dim_strs ( p->members->next , ddim , mdim , pdim , "c", 1 ) ; set_dim_strs ( p->members->next , ddim2 , mdim2 , pdim2 , "c", 0 ) ; set_dim_strs ( p->members->next , nddim , nmdim , npdim , "n", 1 ) ; set_dim_strs ( p->members->next , nddim2 , nmdim2 , npdim2 , "n", 0 ) ; zdex = get_index_for_coord( p->members->next , COORD_Z ) ; xdex = get_index_for_coord( p->members->next , COORD_X ) ; ydex = get_index_for_coord( p->members->next , COORD_Y ) ; if ( p->members->next->stag_x ) strcpy( xstag, ".TRUE." ) ; else strcpy( xstag, ".FALSE." ) ; if ( p->members->next->stag_y ) strcpy( ystag, ".TRUE." ) ; else strcpy( ystag, ".FALSE." ) ; if ( p->members->next->stag_x && p->members->next->stag_y ) { maskstr = "_xystag" ; } else if ( p->stag_x ) { maskstr = "_xstag" ; } else if ( p->stag_y ) { maskstr = "_ystag" ; } else { maskstr = "_nostag" ; } } else { grid = "grid%" ; set_dim_strs ( p , ddim , mdim , pdim , "c", 1 ) ; set_dim_strs ( p , ddim2 , mdim2 , pdim2 , "c", 0 ) ; set_dim_strs ( p , nddim , nmdim , npdim , "n", 1 ) ; set_dim_strs ( p , nddim2 , nmdim2 , npdim2 , "n", 0 ) ; zdex = get_index_for_coord( p , COORD_Z ) ; xdex = get_index_for_coord( p , COORD_X ) ; ydex = get_index_for_coord( p , COORD_Y ) ; if ( p->stag_x ) strcpy( xstag, ".TRUE." ) ; else strcpy( xstag, ".FALSE." ) ; if ( p->stag_y ) strcpy( ystag, ".TRUE." ) ; else strcpy( ystag, ".FALSE." ) ; if ( p->stag_x && p->stag_y ) { maskstr = "_xystag" ; } else if ( p->stag_x ) { maskstr = "_xstag" ; } else if ( p->stag_y ) { maskstr = "_ystag" ; } else { maskstr = "_nostag" ; } } if ( p->node_kind & FOURD ) { fprintf(fp,"DO itrace = PARAM_FIRST_SCALAR, num_%s\n",p->name ) ; } fprintf(fp,"CALL %s ( & \n", fcn_name ) ; if ( zdex >= 0 ) { /* note this is only good for IKJ */ fprintf(fp," %s%s, & ! CD field\n", grid, (p->node_kind & FOURD)?vname:vname2) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! CD dims\n", ddim[0][0], ddim[0][1], ddim[1][0], ddim[1][1], ddim[2][0], ddim[2][1] ) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! CD dims\n", mdim[0][0], mdim[0][1], mdim[1][0], mdim[1][1], mdim[2][0], mdim[2][1] ) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! CD dims\n", pdim[0][0], pdim[0][1], pdim2[1][0], pdim2[1][1], pdim[2][0], pdim[2][1] ) ; if ( ! (down_path & SMOOTH_UP) ) { fprintf(fp," ngrid%%%s, & ! ND field\n", vname2) ; } fprintf(fp," %s, %s, %s, %s, %s, %s, & ! ND dims\n", nddim[0][0], nddim[0][1], nddim[1][0], nddim[1][1], nddim[2][0], nddim[2][1] ) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! ND dims\n", nmdim[0][0], nmdim[0][1], nmdim[1][0], nmdim[1][1], nmdim[2][0], nmdim[2][1] ) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! ND dims\n", npdim[0][0], npdim[0][1], npdim2[1][0], npdim2[1][1], npdim[2][0], npdim[2][1] ) ; } else { /* note this is only good for IKJ */ fprintf(fp," %s%s, & ! CD field\n", grid, (p->node_kind & FOURD)?vname:vname2) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! CD dims\n", ddim[0][0], ddim[0][1], "1", "1", ddim[1][0], ddim[1][1] ) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! CD dims\n", mdim[0][0], mdim[0][1], "1", "1", mdim[1][0], mdim[1][1] ) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! CD dims\n", pdim[0][0], pdim[0][1], "1", "1", pdim[1][0], pdim[1][1] ) ; if ( ! (down_path & SMOOTH_UP) ) { fprintf(fp," ngrid%%%s, & ! ND field\n", vname2) ; } fprintf(fp," %s, %s, %s, %s, %s, %s, & ! ND dims\n", nddim[0][0], nddim[0][1], "1", "1", nddim[1][0], nddim[1][1] ) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! ND dims\n", nmdim[0][0], nmdim[0][1], "1", "1", nmdim[1][0], nmdim[1][1] ) ; fprintf(fp," %s, %s, %s, %s, %s, %s, & ! ND dims\n", npdim[0][0], npdim[0][1], "1", "1", npdim[1][0], npdim[1][1] ) ; } if ( ! (down_path & SMOOTH_UP) ) { if ( sw_deref_kludge == 1 ) { fprintf(fp," config_flags%%shw, ngrid%%imask%s(nims,njms), & ! stencil half width\n",maskstr) ; } else { fprintf(fp," config_flags%%shw, ngrid%%imask%s, & ! stencil half width\n",maskstr) ; } } fprintf(fp," %s, %s, & ! xstag, ystag\n", xstag, ystag ) ; fprintf(fp," ngrid%%i_parent_start, ngrid%%j_parent_start, &\n") ; fprintf(fp," ngrid%%parent_grid_ratio, ngrid%%parent_grid_ratio &\n") ; { char tmpstr[NAMELEN], *p1 ; node_t * nd, * pp ; pp = NULL ; if ( p->node_kind & FOURD ) { if ( p->members->next ) { pp = p->members->next ; } } else { pp = p ; } if ( pp ) { strcpy( tmpstr , "" ) ; if ( down_path & SMOOTH_UP ) { strcpy( tmpstr , pp->smoothu_aux_fields ) ; } else if ( down_path & INTERP_UP ) { strcpy( tmpstr , pp->interpu_aux_fields ) ; } else if ( down_path & FORCE_DOWN ) { /* by default, add the boundary and boundary tendency fields to the arg list */ if ( ! p->node_kind & FOURD ) { sprintf( tmpstr , "%s_b,%s_bt,", pp->name, pp->name ) ; } else { sprintf( tmpstr , "%s_b,%s_bt,", p->name, p->name ) ; } strcat( tmpstr , pp->force_aux_fields ) ; } else if ( down_path & INTERP_DOWN ) { strcpy( tmpstr , pp->interpd_aux_fields ) ; } for ( p1 = strtok(tmpstr,",") ; p1 != NULL ; p1 = strtok(NULL,",") ) { if (( nd = get_entry ( p1 , Domain.fields )) != NULL ) { if (!strncmp( nd->use, "dyn_", 4)) sprintf(core2,"%s_",corename,vname) ; else sprintf(core2,"") ; if ( nd->boundary_array ) { if ( strcmp( nd->use , "_4d_bdy_array_" ) ) { fprintf(fp,",%s,ngrid%%%s%s &\n", nd->name, core2, nd->name ) ; } else { fprintf(fp,",%s%s(1,1,1,1,itrace),ngrid%%%s%s(1,1,1,1,itrace) &\n", core2, nd->name, core2, nd->name ) ; } } else { fprintf(fp,",grid%%%s%s,ngrid%%%s%s &\n", core2, nd->name, core2, nd->name ) ; } } else { fprintf(stderr,"REGISTRY WARNING: Don't know about %s in definition of %s\n",p1,vname) ; } } } } fprintf(fp," ) \n") ; if ( p->node_kind & FOURD ) { fprintf(fp,"ENDDO\n") ; } } } } return(0) ; }