int popup( char* menu[], char* keys, int count, int x, int y, int border ) /*弹出式菜单的显示*/ { register int i, len; int endx, endy, choice; unsigned int *p; if((x>24)||(x<0)||(y>79)||(y<0)) { printf("范围错"); return -2; } len = 0; for( i = 0; i < count; i++ ) if( strlen( menu[i]) > len ) len = strlen( menu[i] ); endy = len + 2 + y; endx = count + 1 + x; if((endx+1>24)||(endy+1>79)) { printf("菜单不匹配"); return -2; } p = (unsigned int *) malloc((endx-x+1)*(endy-y+1)); if( !p ) exit(1); save_video( x, endx + 1, y, endy+1, p ); if( border ) disp_box( y, x, endy, endx, YELLOW ); display_menu( menu, x + 1, y + 1, count ); choice = get_resp( x + 1, y, count, menu, keys ); restore_video( x, endx + 1, y, endy + 2, (unsigned char* ) p); free( p ); return choice; }
static int get_resp_value(int ret) { int value = -1; get_resp(&value, 1); if (ret == -1) printf_die(stdout, "Server dead or you have been killed\n", 1); return value; }
static void receive_config(void) { int config[4], count; count = get_resp(config, 4); if (count >= 1) game_type = config[0]; if (count >= 2) shot_speed = config[1]; if (count >= 3) max_cycles = config[2]; }
void get_all(int *_loc_x, int *_loc_y, int *_damage, int *_speed, int *_elapsed) { int ret, count; int values[5]; ret = sockwrite(serverfd, GET_ALL, NULL); count = get_resp(values, 5); if (ret == -1 || count != 5) printf_die(stdout, "Server dead or you have been killed\n", 1); if (_loc_x) *_loc_x = values[0]; if (_loc_y) *_loc_y = values[1]; if (_damage) *_damage = values[2]; if (_speed) *_speed = values[3]; if (_elapsed) *_elapsed= values[4]; }
void send_commands() { kvstore_cmd_t cmd; kvstore_ack_t ack; char buf[100]; const char *delims = " "; char * parsed; int len; /* FIXME for now. Improve this by using a more * appropriate parser */ char *op, *kv_key, *kv_val; //int ret; memset(&cmd, 0, sizeof(kvstore_cmd_t)); memset(&ack, 0, sizeof(kvstore_ack_t)); do { memset(buf, 0, sizeof(buf)); printf("\n(kv) "); fflush(stdout); fgets(buf, sizeof(buf), stdin); parsed = strdup(buf); str_trim(&parsed); len = strlen(parsed); if (len == 0) { continue; } op = strtok(parsed, delims); // get the op kvstore_type_t kv_type = get_type(op); if (kv_type == KVSTORE_NONE) { printf("ERROR: Invalid Operation"); continue; } switch (kv_type) { case KVSTORE_EXIT: return; default: break; } // get the key and message kv_key = strtok(NULL, delims); if (kv_key == NULL) { printf("ERROR: Invalid Operation"); continue; } // if we're just using get if (kv_type == KVSTORE_GET) { kv_val = ""; } else { kv_val = strtok(NULL, "\0"); } // set the code and message then encrypt memset(&cmd, 0, sizeof(cmd)); cmd.type = kv_type; strncpy((char *)&cmd.payload.key, kv_key, KVSTORE_KEY_LEN); strncpy((char *)&cmd.payload.val, kv_val, KVSTORE_VAL_LEN); cmd.payload.key[strlen(kv_key)] = '\0'; // copy the IV memcpy(cmd.iv, iv, KVSTORE_AESIV_LEN); aes_setkey_enc(&aes, enckey, KVSTORE_AESKEY_BITS); aes_crypt_cbc(&aes, AES_ENCRYPT, sizeof(cmd.payload), iv, (const unsigned char *)&cmd.payload, (unsigned char *)&cmd.payload); if (send_data(&pfd, &cmd, sizeof(cmd))) { goto exit; } if (kv_type == KVSTORE_SET) { // just get the acknowledgement // TODO check content if (get_ack(&pfd, &ack)) { goto exit; } printf("OK"); } else if (kv_type == KVSTORE_GET) { // get the data if(get_resp(&pfd, &cmd)) { goto exit; } aes_setkey_dec(&aes, enckey, KVSTORE_AESKEY_BITS); // now decrypt aes_crypt_cbc(&aes, AES_DECRYPT, sizeof(cmd.payload), cmd.iv, (const unsigned char *)&cmd.payload, (unsigned char *)&cmd.payload); printf("%s", cmd.payload.val); } // printf("op: %s, title: %s, data: %s\n", op, kv_key, kv_msg); } while(1); exit: printf("error\n"); }
struct response *evresp_itp(char *stalst, char *chalst, char *net_code, char *locidlst, char *date_time, char *units, char *file, double *freqs, int nfreqs, char *rtype, char *verbose, int start_stage, int stop_stage, int stdio_flag, int listinterp_out_flag, int listinterp_in_flag, double listinterp_tension, int useTotalSensitivityFlag) { struct channel this_channel; struct scn *scn; struct string_array *sta_list, *chan_list; struct string_array *locid_list; int i, j, k, count = 0, which_matched, test = 1, mode, new_file; int locid_pos; int err_type; char out_name[MAXLINELEN], locid[LOCIDLEN+1]; char *locid_ptr, *end_locid_ptr; struct matched_files *flst_head = (struct matched_files *)NULL; struct matched_files *flst_ptr = NULL, *output_files = NULL; struct file_list *lst_ptr = NULL, *tmp_ptr = NULL, *out_file = NULL, *tmp_file = NULL; struct response *resp = NULL, *next_ptr = NULL; struct response *prev_ptr = (struct response *)NULL; struct response *first_resp = (struct response *)NULL; struct complex *output = NULL; struct scn_list *scns = NULL; FILE *fptr = NULL; double *freqs_orig = NULL; /* for saving the original frequencies */ int nfreqs_orig; /* Let's save the original frequencies requested by a user since they can be overwritten */ /* if we process blockette 55 IGD for version 3.2.17 of evalresp*/ nfreqs_orig = nfreqs; freqs_orig = (double *) malloc(sizeof(double) * nfreqs_orig); memcpy (freqs_orig, freqs, sizeof(double) * nfreqs_orig); /* set 'GblChanPtr' to point to 'this_channel' */ GblChanPtr = &this_channel; /* clear out the FirstLine buffer */ memset(FirstLine, 0, sizeof(FirstLine)); /* if the verbose flag is set, then print some diagnostic output (other than errors) */ if(verbose && !strcmp(verbose,"-v")) { fprintf(stderr, "<< EVALRESP RESPONSE OUTPUT V%s >>\n", REVNUM); fflush(stderr); } /* first, determine the values of Pi and twoPi for use in evaluating the instrument responses later */ Pi = acos(-1.0); twoPi = 2.0 * Pi; /* set the values of first_units and last_units to null strings */ strncpy(this_channel.staname,"",STALEN); strncpy(this_channel.network,"",NETLEN); strncpy(this_channel.locid,"",LOCIDLEN); strncpy(this_channel.chaname,"",CHALEN); strncpy(this_channel.beg_t,"",DATIMLEN); strncpy(this_channel.end_t,"",DATIMLEN); strncpy(this_channel.first_units,"",MAXLINELEN); strncpy(this_channel.last_units,"",MAXLINELEN); /* and initialize the linked list of pointers to filters */ this_channel.first_stage = (struct stage *)NULL; /* parse the "stalst" string to form a list of stations */ for(i = 0; i < (int)strlen(stalst); i++) { if(stalst[i] == ',') stalst[i] = ' '; } sta_list = ev_parse_line(stalst); /* remove any blank spaces from the beginning and end of the string */ locid_ptr = locidlst; locid_pos = 0; strncpy(locid, "", LOCIDLEN); while(*locid_ptr && *locid_ptr == ' ') locid_ptr++; end_locid_ptr = locid_ptr + strlen(locid_ptr) - 1; while(end_locid_ptr > locid_ptr && *end_locid_ptr == ' ') end_locid_ptr--; strncpy(locid, locid_ptr, (end_locid_ptr - locid_ptr + 1)); /* parse the "locidlst" string to form a list of channels */ locid_list = parse_delim_line(locid,","); /* parse the "chalst" string to form a list of channels */ for(i = 0; i < (int)strlen(chalst); i++) { if(chalst[i] == ',') chalst[i] = ' '; } chan_list = ev_parse_line(chalst); /* then form a set of network-station-locid-channel tuples to search for */ scns = alloc_scn_list(chan_list->nstrings*sta_list->nstrings*locid_list->nstrings); for(i = 0; i < sta_list->nstrings; i++) { for(j = 0; j < locid_list->nstrings; j++) { for(k = 0; k < chan_list->nstrings; k++, count++) { scn = scns->scn_vec[count]; strncpy(scn->station, sta_list->strings[i], STALEN); if(strlen(locid_list->strings[j]) == strspn(locid_list->strings[j], " ")) memset(scn->locid, 0, LOCIDLEN); else strncpy(scn->locid, locid_list->strings[j], LOCIDLEN); strncpy(scn->channel, chan_list->strings[k], CHALEN); strncpy(scn->network, net_code, NETLEN); } } } #ifdef LOG_LABEL sprintf(myLabel, "[%s.%s.%s.%s]", scn->network, scn->station, scn->locid, scn->channel); #else myLabel[0] = '\0'; #endif /* if input is from stdin, set fptr to stdin, else find whatever matching files there are */ if(stdio_flag) { fptr = stdin; mode = 0; } else { flst_head = find_files(file, scns, &mode); flst_ptr = flst_head; } /* find the responses for each of the station channel pairs as they occur in the file */ if(!mode && !stdio_flag) { curr_file = file; if((fptr = fopen(file,"r")) == (FILE *)NULL) { #ifdef LIB_MODE fprintf(stderr, "%s failed to open file %s\n", myLabel, file); return NULL; #else error_exit(OPEN_FILE_ERROR,"failed to open file %s", file); #endif } } /* allocate space for the first response */ resp = alloc_response(nfreqs); for(i = 0; i < scns->nscn && (mode || test); i++) { /* allocate space for 'matched_files' pointer used to determine if a file has already been read */ if(!stdio_flag) output_files = alloc_matched_files(); /* then check the mode to determine if are parsing one file or a list of files (note: if input is from stdin, is one file) */ if(!mode) { which_matched = 0; while(test && which_matched >= 0) { if(!(err_type = setjmp(jump_buffer))) { new_file = 0; which_matched = find_resp(fptr, scns, date_time, &this_channel); #ifdef LIB_MODE /* IGD 25-Sep-2007 Looks like we do not need this: function returns anyway */ // if(which_matched < 0) { // if(!stdio_flag) /* if not input from console then */ // fclose(fptr); /* close input file // return NULL; // } #endif /* found a station-channel-network that matched. First construct an output filename and compare to other output files. If this filename doesn't match any of them, (or if it is the first file found) parse the channel's response information. Otherwise skip it (since a match has already been found) */ sprintf(out_name,"%s.%s.%s.%s",this_channel.network, this_channel.staname,this_channel.locid, this_channel.chaname); #ifdef LOG_LABEL sprintf(myLabel, "[%s]", out_name); #else myLabel[0] = '\0'; #endif if(!stdio_flag) { tmp_file = output_files->first_list; for(k = 0; k < output_files->nfiles; k++) { out_file = tmp_file; if(!strcmp(out_file->name,out_name)) break; tmp_file = out_file->next_file; } } if((stdio_flag && !new_file) || !output_files->nfiles) { if(!stdio_flag) { output_files->nfiles++; out_file = alloc_file_list(); output_files->first_list = out_file; out_file->name = alloc_char(strlen(out_name)+1); strcpy(out_file->name,out_name); } new_file = 1; } else if((stdio_flag && !new_file) || k == output_files->nfiles) { if(!stdio_flag) { output_files->nfiles++; out_file->next_file = alloc_file_list(); tmp_file = out_file->next_file; out_file = tmp_file; out_file->name = alloc_char(strlen(out_name)+1); strcpy(out_file->name,out_name); } new_file = 1; } else new_file = 0; if(new_file && which_matched >= 0) { /* fill in station-channel-net information for the response */ strncpy(resp->station,this_channel.staname,STALEN); strncpy(resp->locid,this_channel.locid,LOCIDLEN); strncpy(resp->channel,this_channel.chaname,CHALEN); strncpy(resp->network,this_channel.network,NETLEN); output = resp->rvec; /* found a station channel pair that matched a response, so parse the response into a channel/filter list */ test = parse_channel(fptr, &this_channel); if(listinterp_in_flag && this_channel.first_stage->first_blkt->type == LIST) { /* flag set for interpolation and stage type is "List" */ interpolate_list_blockette( &(this_channel.first_stage->first_blkt->blkt_info.list.freq), &(this_channel.first_stage->first_blkt->blkt_info.list.amp), &(this_channel.first_stage->first_blkt->blkt_info.list.phase), &(this_channel.first_stage->first_blkt->blkt_info.list.nresp), freqs,nfreqs,listinterp_tension); } /* check the filter sequence that was just read */ check_channel(&this_channel); /* If we process blockette 55, we should recompute resp->rvec */ /* because the number of output responses is generally different from */ /* what is the user requested */ /*if we don't use blockette 55, we should set the frequencies to the original */ /* user defined position if we did mess up with frequencies in -possible - blockette 55*/ /* containing previous file. Modifications by I.Dricker IGD*/ free(resp->rvec); /* 'freqs' array is passed in and should not be freed -- 10/18/2005 -- [ET] */ /* free(freqs); */ if (this_channel.first_stage->first_blkt != NULL && this_channel.first_stage->first_blkt->type == LIST) { /*to prevent segmentation in case of bogus input files */ nfreqs = this_channel.first_stage->first_blkt->blkt_info.list.nresp; freqs = (double *) malloc(sizeof(double) * nfreqs); /* malloc a new vector */ memcpy (freqs, this_channel.first_stage->first_blkt->blkt_info.list.freq, sizeof(double) * nfreqs); /*cp*/ resp->rvec = alloc_complex(nfreqs); output=resp->rvec; resp->nfreqs = nfreqs; resp->freqs = (double *) malloc(sizeof(double) * nfreqs); /* malloc a new vector */ memcpy (resp->freqs, this_channel.first_stage->first_blkt->blkt_info.list.freq, sizeof(double) * nfreqs); /*cp*/ } else { nfreqs = nfreqs_orig; freqs = (double *) malloc(sizeof(double) * nfreqs); /* malloc a new vector */ memcpy (freqs, freqs_orig, sizeof(double) * nfreqs); /*cp*/ resp->rvec = alloc_complex(nfreqs); output=resp->rvec; resp->nfreqs = nfreqs; resp->freqs = (double *) malloc(sizeof(double) * nfreqs); /* malloc a new vector */ memcpy (resp->freqs, freqs_orig, sizeof(double) * nfreqs); /*cp*/ } /* normalize the response of the filter sequence */ norm_resp(&this_channel, start_stage, stop_stage); /* calculate the response at the requested frequencies */ calc_resp(&this_channel, freqs, nfreqs, output, units, start_stage, stop_stage, useTotalSensitivityFlag); /* diagnostic output, if the user requested it */ if(verbose && !strcmp(verbose,"-v")) { print_chan(&this_channel, start_stage, stop_stage, stdio_flag, listinterp_out_flag, listinterp_in_flag, useTotalSensitivityFlag); } free(freqs); /* free array that was allocated above */ /* and, finally, free the memory associated with this channel/filter list and continue searching for the next match */ free_channel(&this_channel); if(first_resp == (struct response *)NULL) { first_resp = resp; } next_ptr = alloc_response(nfreqs); resp->next = next_ptr; prev_ptr = resp; resp = next_ptr; } else { strncpy(FirstLine,"",MAXLINELEN); test = next_resp(fptr); } } else { if(new_file) output_files->nfiles--; free_channel(&this_channel); /* catch errors that cause parsing to fail midstream */ if(err_type == PARSE_ERROR || err_type == UNRECOG_FILTYPE || err_type == UNDEF_SEPSTR || err_type == IMPROP_DATA_TYPE || err_type == RE_COMP_FAILED || err_type == UNRECOG_UNITS) { strncpy(FirstLine,"",MAXLINELEN); test = next_resp(fptr); } else if(err_type == UNDEF_PREFIX) { test = 0; } } } if(!stdio_flag) free_matched_files(output_files); /* added 3/28/2006 -- [ET] */ /* allocated one too many responses */ free_response(resp); if(prev_ptr != (struct response *)NULL) prev_ptr->next = (struct response *)NULL; break; } else if(mode) { lst_ptr = flst_ptr->first_list; scn = scns->scn_vec[i]; next_scn: for(j = 0; j < flst_ptr->nfiles; j++) { if(!stdio_flag) { fptr = fopen(lst_ptr->name,"r"); } if(fptr != (FILE *)NULL) { curr_file = lst_ptr->name; look_again: if(!(err_type = setjmp(jump_buffer))) { new_file = 0; which_matched = get_resp(fptr, scn, date_time, &this_channel); #ifdef LIB_MODE /* IGD 25-Sep-2007 Looks like we do not need this: function returns anyway */ // if(which_matched < 1) { // if(!stdio_flag) /* if not input from console then */ // fclose(fptr); /* close input file */ // return NULL; // } #endif if(which_matched >= 0) { /* found a station-channel-network that matched. First construct an output filename and compare to other output files. If this filename doesn't match any of them, (or if it is the first file found) parse the channel's response information. Otherwise skip it (since a match has already been found) */ sprintf(out_name,"%s.%s.%s.%s",this_channel.network, this_channel.staname,this_channel.locid, this_channel.chaname); #ifdef LOG_LABEL sprintf (myLabel, "[%s]", out_name); #else myLabel[0] = '\0'; #endif tmp_file = output_files->first_list; for(k = 0; k < output_files->nfiles; k++) { out_file = tmp_file; if(!strcmp(out_file->name,out_name)) break; tmp_file = out_file->next_file; } if(!output_files->nfiles) { output_files->nfiles++; out_file = alloc_file_list(); output_files->first_list = out_file; out_file->name = alloc_char(strlen(out_name)+1); strcpy(out_file->name,out_name); new_file = 1; } else if(k == output_files->nfiles) { output_files->nfiles++; out_file->next_file = alloc_file_list(); tmp_file = out_file->next_file; out_file = tmp_file; out_file->name = alloc_char(strlen(out_name)+1); strcpy(out_file->name,out_name); new_file = 1; } else new_file = 0; if(new_file) { /* fill in station-channel-net information for the response */ strncpy(resp->station,this_channel.staname,STALEN); strncpy(resp->locid,this_channel.locid,LOCIDLEN); strncpy(resp->channel,this_channel.chaname,CHALEN); strncpy(resp->network,this_channel.network,NETLEN); output = resp->rvec; /* parse the response into a channel/filter list */ test = parse_channel(fptr, &this_channel); /* IGD 01/04/01 Add code preventing a user from defining output units as DIS and ACC if the input units are PRESSURE after */ if (strncmp (this_channel.first_units, "PA -",4) == 0) { if (strcmp(units, "VEL") != 0) { if(strcmp(units, "DEF") != 0) { fprintf(stderr, "%s WARNING: OUTPUT %s does not make sense if INPUT is PRESSURE\n", myLabel, units); strcpy (units, "VEL"); fprintf(stderr, "%s OUTPUT units are reset and interpreted as PRESSURE\n", myLabel); } } } /* IGD 08/21/06 Add code preventing a user from defining output units as DIS and ACC if the input units are TESLA */ if (strncmp (this_channel.first_units, "T -", 3) == 0) { if (strcmp(units, "VEL") != 0) { if(strcmp(units, "DEF") != 0) { fprintf(stderr, "%s WARNING: OUTPUT %s does not make sense if INPUT is MAGNETIC FLUX\n", myLabel, units); strcpy (units, "VEL"); fprintf(stderr, "%s OUTPUT units are reset and interpreted as TESLA\n", myLabel); } } } if(listinterp_in_flag && this_channel.first_stage->first_blkt->type == LIST) { /* flag set for interpolation and stage type is "List" */ interpolate_list_blockette( &(this_channel.first_stage->first_blkt->blkt_info.list.freq), &(this_channel.first_stage->first_blkt->blkt_info.list.amp), &(this_channel.first_stage->first_blkt->blkt_info.list.phase), &(this_channel.first_stage->first_blkt->blkt_info.list.nresp), freqs,nfreqs,listinterp_tension); } /* check the filter sequence that was just read */ check_channel(&this_channel); /* If we process blockette 55, we should recompute resp->rvec */ /* because the number of output responses is generally different from */ /* what is the user requested */ /*if we don't use blockette 55, we should set the frequencies to the original */ /* user defined position if we did mess up with frequencies in -possible - blockette 55*/ /* containing previous file. Modifications by I.Dricker / IGD */ free(resp->rvec); /* 'freqs' array is passed in and should not be freed -- 10/18/2005 -- [ET] */ /* free(freqs); */ if (this_channel.first_stage->first_blkt != NULL && this_channel.first_stage->first_blkt->type == LIST) { /* This is to prevent segmentation if the response input is bogus responses */ nfreqs = this_channel.first_stage->first_blkt->blkt_info.list.nresp; freqs = (double *) malloc(sizeof(double) * nfreqs); /* malloc a new vector */ memcpy (freqs, this_channel.first_stage->first_blkt->blkt_info.list.freq, sizeof(double) * nfreqs); /*cp*/ resp->rvec = alloc_complex(nfreqs); output=resp->rvec; resp->nfreqs = nfreqs; resp->freqs = (double *) malloc(sizeof(double) * nfreqs); /* malloc a new vector */ memcpy (resp->freqs, this_channel.first_stage->first_blkt->blkt_info.list.freq, sizeof(double) * nfreqs); /*cp*/ } else { nfreqs = nfreqs_orig; freqs = (double *) malloc(sizeof(double) * nfreqs); /* malloc a new vector */ memcpy (freqs, freqs_orig, sizeof(double) * nfreqs); /*cp*/ resp->rvec = alloc_complex(nfreqs); output=resp->rvec; resp->nfreqs = nfreqs; resp->freqs = (double *) malloc(sizeof(double) * nfreqs); /* malloc a new vector */ memcpy (resp->freqs, freqs_orig, sizeof(double) * nfreqs); /*cp*/ } /* normalize the response of the filter sequence */ norm_resp(&this_channel, start_stage, stop_stage); /* calculate the response at the requested frequencies */ calc_resp(&this_channel, freqs, nfreqs, output, units, start_stage, stop_stage, useTotalSensitivityFlag); /* diagnostic output, if the user requested it */ if(verbose && !strcmp(verbose,"-v")) { print_chan(&this_channel, start_stage, stop_stage, stdio_flag, listinterp_out_flag, listinterp_in_flag, useTotalSensitivityFlag); } free(freqs); /* free array that was allocated above */ /* and, finally, free the memory associated with this channel/filter list and continue searching for the next match */ free_channel(&this_channel); if(first_resp == (struct response *)NULL) { first_resp = resp; } next_ptr = alloc_response(nfreqs); resp->next = next_ptr; prev_ptr = resp; resp = next_ptr; } FirstField = 0; strncpy(FirstLine,"",MAXLINELEN); if(!stdio_flag) { fclose(fptr); } } else { strncpy(FirstLine,"",MAXLINELEN); test = next_resp(fptr); if (!test) { if(!stdio_flag) { fclose(fptr); } } } /* if not the last file in the list, move on to the next one */ if(lst_ptr->next_file != (struct file_list *)NULL) { tmp_ptr = lst_ptr->next_file; lst_ptr = tmp_ptr; } } else { if (new_file) output_files->nfiles--; /* catch errors that cause parsing to fail midstream */ if(err_type == PARSE_ERROR || err_type == UNRECOG_FILTYPE || err_type == UNDEF_SEPSTR || err_type == IMPROP_DATA_TYPE || err_type == RE_COMP_FAILED || err_type == UNRECOG_UNITS) { strncpy(FirstLine,"",MAXLINELEN); test = next_resp(fptr); } else if(err_type == UNDEF_PREFIX) { test = 0; } free_channel(&this_channel); if (!test) { FirstField = 0; strncpy(FirstLine,"",MAXLINELEN); if(!stdio_flag) { fclose(fptr); } } else goto look_again; /* if not the last file in the list, move on to the next one */ if(lst_ptr->next_file != (struct file_list *)NULL) { tmp_ptr = lst_ptr->next_file; lst_ptr = tmp_ptr; } } } } /* if not the last station-channel-network in the list, move on to the next one */ if(i < (scns->nscn-1)) { flst_ptr = flst_ptr->ptr_next; lst_ptr = flst_ptr->first_list; i++; scn = scns->scn_vec[i]; goto next_scn; } if(!stdio_flag) free_matched_files(output_files); /* allocated one too many responses */ free_response(resp); if(prev_ptr != (struct response *)NULL) prev_ptr->next = (struct response *)NULL; } /* end else if mode */ } /* end for loop */ /* added file close if single input file -- 2/13/2006 -- [ET]: */ if(!mode && !stdio_flag) /* if single file was opened then */ fclose(fptr); /* close input file */ /* and print a list of WARNINGS about the station-channel pairs that were not found in the input RESP files */ for(i = 0; i < scns->nscn; i++) { scn = scns->scn_vec[i]; if(!scn->found) { fprintf(stderr,"%s WARNING: no response found for NET=%s,STA=%s,LOCID=%s,CHAN=%s,DATE=%s\n", myLabel, scn->network, scn->station, scn->locid, scn->channel, date_time); fflush(stderr); } } free_scn_list(scns); if(flst_head != (struct matched_files *)NULL) free_matched_files(flst_head); free_string_array(chan_list); free_string_array(locid_list); free_string_array(sta_list); free(freqs_orig); /* added 3/28/2006 -- [ET] */ return(first_resp); }