Rupture Variation Generator v5.4.2 code changes

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This page documents the code changes required to turn the stand-alone version, genslip-v5.4.2, into an API callable by the CyberShake post-processing.

In this document, $ROOT_DIR is taken to be the <CyberShake home>/software/RuptureCodes/RupGen-api-5.4.2 directory. GenRandV5.0 is the code as received from Rob Graves.

Installing files

  1. Create src, include, lib, and bin directories inside $ROOT_DIR .
  2. Inside src, create GenRandV5.0.
  3. Copy rupgen_api.c from a previous API version into src.
  4. Copy rupgen_defs.h from a previous API version into src.
  5. Create a symlink to rupgen_defs.h in src/GenRand5.0.
  6. Copy rupgen_api.h from a previous API version into src.
  7. Create a symlink to rupgen_api.h in src/GenRand5.0.
  8. Confusingly, there are two files named structure.h. One is in StandRupFormat and contains the structures needed for an SRF. The other is in GenRandV5.0 and contains the definition for complex, along with a few other supporting structures.
    1. Copy the StandRupFormat/structure.h into src/srf_structure.h .
    2. Copy the GenRandV5.0/structure.h into src/structure.h .
    3. Create a symlink to both files in src/GenRandV5.0.
  9. There are also two files named defs.h.
    1. Copy GenRandV5.0/StandRupFormat/defs.h into src/GenRandV5.0/srf_defs.h .
    2. Copy GenRandV5.0/defs.h into src/GenRandV5.0/defs.h .
  10. From the code provided by Rob, copy the following files into src/GenRandV5.0:
    • defs.h
    • function.h
    • include.h
    • genslip-v5.4.2.c
    • iofunc.c
    • misc.c
    • ruptime.c
    • slip.c
    • srf_subs.c (from StandRupFormat)
    • makefile
  11. Copy Makefile from a previous API version into src.

Editing files

In $ROOT_DIR/src

structure.h

  1. At the top of the file, change '#include "StandRupFormat/structure.h"' to '#include srf_structure.h'
  2. Above that line, add:
    #ifndef STRUCT_H
    #define STRUCT_H
    
  3. At the end of the file, add:
    #endif
    

srf_structure.h

  1. At the top of the file, add:
    #ifndef SRF_STRUCT_H
    #define SRF_STRUCT_H
    
  2. At the end of the file, add:
    #endif
    

Makefile

  1. Edit the GETPAR values to point to the getpar install.
  2. Edit GENSLIP to have the same name as the GenRandV5.0 directory.
  3. Edit the library creation line (under the librupgen.a target, starts with $(AR)) to point to the correct version of genslip.

In GenRandV5.0

defs.h

  1. At the top of the file, add:
    #ifndef DEFS_H
    #define DEFS_H
    
    #include "srf_defs.h"
    
  2. Delete DEFAULT_SHAL_VRUP_FRAC, as it is not used anymore.
  3. At the end of the file, add:
    #endif
    

srf_defs.h

  1. At the top of the file, add:
    #ifndef SRF_DEFS_H
    #define SRF_DEFS_H
    
  2. Delete DEFAULT_SHAL_VRUP_FRAC, as it is not used anymore.
  3. Delete the lines corresponding to RDONLY_FLAGS, RDWR_FLAGS, CROPTR_FLAGS, and the _FILE_OFFSET_BITS if statement, as this already exists in defs.h.
  4. At the end of the file, add:
    #endif
    

include.h

  1. At the top of the file, add:
    #ifndef RUPGEN_INCLUDE_H
    #define RUPGEN_INCLUDE_H
    
  2. At the end of the file, add:
    #include <string.h>
    #include "fftw3.h"
    
    #include "rupgen_api.h"
    #include "rupgen_defs.h"
    
    #ifdef _USE_MEMCACHED
    #include <libmemcached/memcached.h>
    #endif
    
    #endif
    

function.h

  1. At the top of the file, add:
    #ifndef RUPGEN_FUNC_H
    #define RUPGEN_FUNC_H
    
    #include "structure.h"
    
  2. Change the entry for read_ruppars to _read_ruppars, like:
    struct pointsource *_read_ruppars(char *,struct pointsource *,float *,int *,int *,float *,float *,float *,float *,float *,float *,float *);
  3. Add an entry for get_rupt:
    void get_rupt(struct velmodel* vm, float* h, float* srcd, float* recd, float* srcr, float* recr, double* p, double* rad, float* tt);
  4. At the end of the file, add:
    void write_srf1(struct standrupformat *srf,char *file,int bflag);
    void write_srf2(struct standrupformat *srf,char *file,int bflag);
    
    #ifdef _USE_MEMCACHED
    int mc_genslip(int ac,char **av, rg_stats_t *stats, struct standrupformat* srf, int state, char* mc_server);
    struct pointsource* _mc_read_ruppars(char *file,struct pointsource *psrc,float *mag,int *nx,int *ny,float *dx,float *dy,float *dtop,float *stk,float *dip,float *elon,float *elat, char* mc_server);
    #else
    int genslip(int ac,char **av, rg_stats_t *stats, struct standrupformat* srf, int state);
    #endif
    
    #endif
    

makefile

  1. Edit the 2nd line that begins with OBJS so it contains
    OBJS = iofunc.o misc.o slip.o ruptime.o srf_subs.o
    
  2. Delete the SRF_OBJS and FDRT_OBJS lines, 3-5.
  3. Edit GETPARLIB and GETPARINC so it correctly points to the Getpar install in <CyberShake home>/software/Getpar .
  4. Change CFLAGS to:
    CFLAGS = ${UFLAGS} ${LF_FLAGS} 
  5. Add:
    # Uncomment for memcached support
    MEMC = ../../../../../utils/libmemcached_1.0.18
    CFLAGS := $(CFLAGS) -I${MEMC}/include -D_USE_MEMCACHED
    LDLIBS := ${LDLIBS} -L${MEMC}/lib -lmemcached -L${OLCF_FFTW_ROOT}/lib
    
  6. Delete all targets except genslip-v5.4.2, ${OBJS}, and clean.
  7. Modify the genslip-v5.4.2 target. We need to remove unnecessary objects, and compile it to an object rather than an executable for inclusion in the genslip library. It should look like:
  8. genslip-v5.4.2.o : genslip-v5.4.2.c ${OBJS}
            ${CC} ${CFLAGS} -c -o genslip-v5.4.2.o genslip-v5.4.2.c ${LDLIBS}
    Note that if you copy/paste the line above, make will probably give you a whitespace error. Remember to replace the whitespace in front of ${CC} with a tab.

iofunc.c

  1. In line 179, change the function name read_ruppars to _read_ruppars:
    struct pointsource *_read_ruppars(char *file,struct pointsource *psrc,float *mag,int *nx,int *ny,float *dx,float *dy,float *dtop,float *stk,float *dip,float *elon,float *elat)
  2. Add the function _mc_add_file to the end of the file:
    #ifdef _USE_MEMCACHED
    void _mc_add_file(char* filename, char** file_buffer, memcached_st* mst) {
            memcached_return ret;
            uint32_t flags = 0;
    
            FILE* fpr = fopfile(filename, "rb");
            //Get file size so we know how big to make the file buffer
            fseek(fpr, 0, SEEK_END);
            long file_length = ftell(fpr);
            fseek(fpr, 0, SEEK_SET);
            *file_buffer = check_malloc(sizeof(char) * (file_length+1));
            memset(*file_buffer, '\0', file_length+1);
            int part_id = 0;
            long read = fread(*file_buffer, 1, file_length, fpr);
            if (read!=file_length) {
                    fprintf(stderr, "READ ERROR - %ld attempted %ld read.\n", file_length, read);
                    exit(1);
            }
            char* file_key = check_malloc(sizeof(char) * (strlen(filename) + 4));
            char buffer[1000*1000];
            //Memcached thinks this is 1 MB
            int ONE_MB = 1000*1000;
            int i=0;
            while (i*ONE_MB < file_length) {
                    int to_copy = ONE_MB;
                    if (file_length - i*ONE_MB < ONE_MB) {
                            to_copy = file_length - i*ONE_MB;
                    }
                    sprintf(file_key, "%s.%d", filename, i);
                    memcpy(buffer, (*file_buffer)+i*ONE_MB, to_copy);
    
                    ret = memcached_set(mst, file_key, strlen(file_key), buffer, strlen(buffer), 0, flags);
                    if (ret!=MEMCACHED_SUCCESS) {
                            printf("Caching of %s failed.\n", file_key);
                            printf("%s\n", memcached_strerror(mst, ret));
                            printf("value length: %d bytes\n", strlen(buffer));
                    }
                    i++;
                    memset(buffer, '\0', ONE_MB);
            }
            //Commit number of parts
            int num_parts = i;
            char* parts_key = check_malloc(sizeof(char) * (strlen(filename) + 1));
            strcpy(parts_key, filename);
            ret = memcached_set(mst, parts_key, strlen(parts_key), (char*)(&num_parts), sizeof(int), 0, flags);
            if (ret!=MEMCACHED_SUCCESS) {
                    printf("Caching of %s failed.\n", parts_key);
                    printf("%s\n", memcached_strerror(mst, ret));
            }
            free(file_key);
            free(parts_key);
            fclose(fpr);
    }
  3. Add the definition of _mc_read_ruppars:
    struct pointsource* _mc_read_ruppars(char *file,struct pointsource *psrc,float *mag,int *nx,int *ny,float *dx,float *dy,float *dtop,float *stk,float *dip,float *elon,float *elat, char* mc_server)
    {
           FILE *fpr, *fopfile();
           float area;
           int i, nn;
           char str[1024];
    
           double rperd = 0.017453293;
           int ONE_MB = 1000*1000; //This is what memcached thinks 1 MB is
           *dtop = 1.0e+15;
           *stk = 0.0;
           *dip = 0.0;
           *elon = 0.0;
           *elat = 0.0;
    
           char* buffer;
           char* file_data;
           int* num_parts;
    
            printf("Using %s as memcached server.\n", mc_server);
    
            memcached_return ret;
            memcached_st* mst;
    
            mst = memcached_create(NULL);
            memcached_server_st *server = memcached_server_list_append(NULL, mc_server, 11211, &ret);
    
            ret = memcached_server_push(mst, server);
            memcached_server_free(server);
    
            uint32_t flags = 0;
    
            //See if file parts is in cache
            //key is filename + "_" + part
            char* parts_key = check_malloc(sizeof(char) * (strlen(file) + 1));
            strcpy(parts_key, file);
    
            size_t incoming_size;
            num_parts = (int*) memcached_get(mst, parts_key, strlen(parts_key), &incoming_size, &flags, &ret);
            if (num_parts==NULL) {
                    printf("Key %s hasn't been cached, adding.\n", parts_key);
                    _mc_add_file(file, &file_data, mst);
            } else {
                    printf("Found key %s, num parts is %d.\n", parts_key, *num_parts);
                    printf("Looking for parts.\n");
                    //See if all the parts are actually around
                    file_data = check_malloc(sizeof(char) * (ONE_MB * *num_parts + 1));
                    memset(file_data, '\0', ONE_MB* *num_parts + 1);
                    char* file_key = check_malloc(sizeof(char) * (strlen(file) + 4));
                    size_t incoming;
                    for (i=0; i<*num_parts; i++) {
                            sprintf(file_key, "%s.%d", file, i);
                            buffer = (char*) memcached_get(mst, file_key, strlen(file_key), &incoming, &flags, &ret);
                            if (buffer==NULL) {
                                    printf("Piece %s was missing, adding file %s.\n", file_key, file);
                                    //This piece is missing
                                    //Easiest to add the whole file
                                    free(file_data);
                                    _mc_add_file(file, &file_data, mst);
                                    break;
                            } else {
                                    memcpy(file_data+i*ONE_MB, buffer, incoming);
                            }
                    }
                    free(file_key);
            }
    
            free(parts_key);
            memcached_free(mst);
    
            char* tok;
            tok = strtok(file_data, "\n"); /* Probability = <float> */
    
            tok = strtok(NULL, "\n"); /* Magnitude = <float> */
            sscanf(tok,"%*s %*s %f",mag);
    
            tok = strtok(NULL, "\n");   /* GridSpacing = <float> */
            sscanf(tok,"%*s %*s %f",dx);
    
            if(*dx == (float)(0.0))
               {
               fprintf(stderr,"***** input error\n");
               fprintf(stderr,"      GridSpacing = 0.0, exiting...\n");
               exit(-1);
               }
    
            *dy = *dx;
    
            tok = strtok(NULL, "\n");   /* NumRows = <int> */
            sscanf(tok,"%*s %*s %d",ny);
    
            tok = strtok(NULL, "\n");   /* NumCols = <int> */
            sscanf(tok,"%*s %*s %d",nx);
    
            tok = strtok(NULL, "\n");/* header comment */
            psrc = (struct pointsource *)check_realloc(psrc,(*nx)*(*ny)*sizeof(struct pointsource));
    
            area = (*dx)*(*dy)*1.0e+10;  /* km -> cm */
    
            for(i=0;i<(*nx)*(*ny);i++)
               {
               tok = strtok(NULL, "\n");   /* Lat , Lon , Depth , Rake , Dip , Strike */
               sscanf(tok,"%f %f %f %f %f %f",&psrc[i].lat,
                                              &psrc[i].lon,
                                              &psrc[i].dep,
                                              &psrc[i].rak,
                                              &psrc[i].dip,
                                              &psrc[i].stk);
    
               psrc[i].area = area;
    
               if(psrc[i].dep < *dtop)
                  *dtop = psrc[i].dep;
    
               *stk = *stk + psrc[i].stk;
               *dip = *dip + psrc[i].dip;
               }
            *stk = *stk/((*nx)*(*ny));
            *dip = *dip/((*nx)*(*ny));
    
            nn = 0;
            for(i=0;i<(*nx)*(*ny);i++)
               {
               if(psrc[i].dep < (*dtop + 0.01))
                  {
                  *elon = *elon + psrc[i].lon;
                  *elat = *elat + psrc[i].lat;
                  nn++;
                  }
               }
    
            /* adjust for half subfault width */
            *dtop = (*dtop) - 0.5*(*dx)*sin((*dip)*rperd);
    
            if(nn == 0)
               nn++;
    
            *elon = *elon/nn;
            *elat = *elat/nn;
    
            free(file_data);
    
            return(psrc);
    }
    #endif
    

misc.c

  1. In line 68, modify zapit to use a for-loop and specify a return type. The function should become:
    void zapit(float* s,int n)
    {
    int i;
    for (i=0; i<n; i++) {
            s[i] = 0.0;
    }
    

genslip-v5.4.2.c

This is where the majority of changes are made to turn this into an API. I recommend having an original copy for reference.

Note that line numbers are approximate.

  1. In line 352, change from
    int main(int ac,char **av)
    

    to

    #ifdef _USE_MEMCACHED
    int mc_genslip(int ac, char** av, rg_stats_t *stats, struct standrupformat* srf, int state, char* memcached_server)
    #else
    int genslip(int ac,char **av, rg_stats_t *stats, struct standrupformat* srf, int state)
    #endif
    
  2. Change target_hypo_spacing to 4.5:
    float target_hypo_spacing = 4.5;
  3. Delete SRF definition in line 584:
    struct standrupformat srf;
  4. After line 601:
    int outbin = 0;

    Add

    int doslip = -1;
    int dohypo = -1;
    
  5. Change 'srf.version' to 'srf->version' in line 631.
  6. In line 699, after 'getpar("outbin","d",&outbin);', add:
    getpar("doslip","d",&doslip);
    getpar("dohypo","d",&dohypo);
    
  7. In line 707-9, change all the 'srf.version' to 'srf->version'.
  8. In line 959, change
     psrc_orig = read_ruppars(infile,psrc_orig,&mag,&nstk,&ndip,&dstk,&ddip,&dtop,&avgstk,&avgdip,&elon,&elat);

    to

    #ifdef _USE_MEMCACHED
       psrc_orig = _mc_read_ruppars(infile,psrc_orig,&mag,&nstk,&ndip,&dstk,&ddip,&dtop,&avgstk,&avgdip,&elon,&elat,memcached_server);
    #else
       psrc_orig = _read_ruppars(infile,psrc_orig,&mag,&nstk,&ndip,&dstk,&ddip,&dtop,&avgstk,&avgdip,&elon,&elat);
    #endif
    
  9. In line 1012, change '&srf' to 'srf'.
  10. In line 1016, change '&srf' to 'srf'.
  11. In line 1315, after 'dhypo = dhypo_frac*fwid;', add:
    stats->numslip = ns;
    stats->numhypo = nh;
    
    if (state==GET_STATS) {
       free(rvfac_seg);
       free(gbnd);
       free(gwid);
       free(psrc);
       free(psrc_orig);
       free(slip_c);
       free(rake_c);
       free(tsfac1_c);
       free(rtime1_c);
       free(rough_c);
       free(tsfac2_c);
       free(rtime2_c);
       free(slip_r);
       free(rake_r);
       free(tsfac1_r);
       free(rtime1_r);
       free(rough_r);
       free(tsfac2_r);
       free(rtime2_r);
       free(stk_r);
       free(dip_r);
       free(psrc_rake);
       return 0;
    }
    
    if (dohypo>=nh) {
            fprintf(stderr,"Error:  You requested hypocenter ID %d but from infile %s genslip calculates %d hypocenters.\n", dohypo, infile, nh);
            exit(1);
    }
    
    if (doslip>=ns) {
            fprintf(stderr,"Error:  You requested slip ID %d but from infile %s genslip calculates %d slips.\n", doslip, infile, ns);
            exit(2);
    }
    
    if (ns<-1 || nh<-1) {
            fprintf(stderr, "Error: hypocenter and slip ID need to be >= -1.");
            exit(3);
    }
    
  12. In line 1363, after:
    for(js=0;js<ns;js++)    /* loop over slip/rupture realizations */
       {
    

    add

       if (doslip!=-1 && js>doslip) {
            //We've already done the slip we need, break out of the loop
            break;
       }
    
       if (doslip!=-1 && js<doslip) {
            //Haven't gotten to the right slip yet, continue
            continue;
       }
    
  13. In lines 1394-1403, change iterative calculation of shypo and dhypo to explicit. Delete
    if(ih_scnt == nhypo_s)
             {
             ih_scnt = 0;
             ih_dcnt++;
             }
    
          shypo = hypo_s0 + ih_scnt*hypo_ds;
          dhypo = hypo_d0 + ih_dcnt*hypo_dd;
    
          ih_scnt++;
    

    and replace with

          shypo = hypo_s0 + (js%nhypo_s)*hypo_ds;
          dhypo = hypo_d0 + (js/nhypo_s)*hypo_dd;
    
  14. In line 2394, change '&srf' to 'srf'.
  15. In the for loop starting in line 2452, we replace some of these calculations with refactored ones to pull out constants and take advantage of FMA. Specifically, make the following changes:
    1. Before the for loop, define the following variables:
      float half_ddip = 0.5*ddip;
      float half_dstk_minus_half_flen = 0.5*dstk - 0.5*flen;
      float half_flen_plus_shypo = 0.5*flen + shypo;
      y0 = (deep_vrdep1-dtop)/sin(avgdip*rperd);
      float deep_alpha = 1.0 + (deep_vrdep1-deep_rup*deep_vrdep1)/(deep_vrdep2-deep_vrdep1);
      float deep_const = (deep_rup - 1.0)/(deep_vrdep2-deep_vrdep1);
      
    2. Replace
      yy = (j + 0.5)*ddip;

      with

      yy = j*ddip + half_ddip;
    3. Replace
      xx = (i+0.5)*dstk - 0.5*flen;

      with

      xx = i*dstk + half_dstk_minus_half_flen;
    4. Replace
      hg = (gbnd[ig]-0.5*flen)-shypo;

      with

      hg = gbnd[ig] - half_flen_plus_shypo;
    5. Replace
      vrfac = 1.0 + (deep_vrup - 1.0)*((psrc[ip].dep)-deep_vrdep1)/(deep_vrdep2-deep_vrdep1);

      with

      vrfac = deep_alpha + deep_const*psrc[ip].dep;
  16. In line 2573, after 'psrc[j].rupt = psrc[j].rupt - tsmin + rupture_delay;', add:
    if (dohypo!=ih || doslip!=js) {
        continue;
    }
    
  17. In line 2601, change '&srf' to 'srf'.
  18. In line 2611, remove
    free_srf_stf(&srf);
  19. In line 2618, change '&srf' to 'srf'.
  20. At the very end of the function, we want to free everything not needed by the SRF object. Add:
    free(rvfac_seg);
    free(gbnd);
    free(gwid);
    free(psrc);
    free(psrc_orig);
    free(slip_c);
    free(rake_c);
    free(tsfac1_c);
    free(rtime1_c);
    free(rough_c);
    free(tsfac2_c);
    free(rtime2_c);
    free(slip_r);
    free(rake_r);
    free(tsfac1_r);
    free(rtime1_r);
    free(rough_r);
    free(tsfac2_r);
    free(rtime2_r);
    free(stk_r);
    free(dip_r);
    free(psrc_rake);
    free(rspd);
    free(vmod.vp);
    free(vmod.vs);
    free(vmod.den);
    free(vmod.th);
    free(vmod.dep);
    free(vmod.mu);
    free(vmod.invb2);
    free(rvmod.vs);
    free(rvmod.th);
    free(rvmod.invb2);
    
    return 0;
    
  21. Once verification is complete, you may wish to comment out some of the print statements.

Compiling

Go back into the src directory and try to compile it with 'make'.

With v5.4.2, we are not including the -fno-expensive-optimizations flag, since backwards compatibility with Blue Waters and Titan isn't an issue.