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Error reading genotype data for %d in ped %d at %s Usage: prest pedfile chromfiles 1 (or 2) use 1, if you only want to apply EIBD, AIBS, IBS use 2, if you also want to apply MLRT Unable to open output file: prest_errors Unable to open output file: prest_out3 Unable to open output file: prest_out2 Unable to open output file: prest_out1 Unable to open chromfiles: %s Usage: prest pedfile chromfiles 1 (or 2) use 1 if apply only EIBD, AIBS, IBS test statistics use 2 if further apply MLRT test example: prest pedfile chromfiles 1 Warning: The length of the lines in file %s Invalid %d_th line in pedfile: %s Correct format is: pedid id f_id m_id sex affect_status pedigree id = %d being used twice Check file prest_errors file, and re-run the program Unable to open genotype_file %s Unable to open marker_file %s Invalid line in chromfiles: %s %s Correct format is: marker_file genotype_file Error of allele freq. in %d_th marker in file %s: Error reading num_mark from file %s %s Error of marker spacing in file %s: %d markers, should be (%d - 1) spacings Spacing between adjacent markers should be in recombination fraction (theta), not in centi-Morgan Spacing cannot be negative value Check prest_errors file, and re-run the program Error of allele freq. in %d_th marker in file %s (<=0 or > 1): Prest has detected Mendelian errors which are reported in the file prest_errors. In the current implementation of prest, the presence of Mendelian errors is not taken into account in the hypothesis testing.%%%dd %%%dd %%%dd %%2d %%%dd NA %6.4f %6.4f %6.4f NA %7.5f %7.5f # Total number of individuals: # Number of markers on each chromosome %6.4f %6.4f %6.4f %6.4f %7.5f %7.5f %7.5f %6.4f %6.4f %6.4f %6.4f %6.4f %6.4f NA %6.4f %6.4f %6.4f NA NA %7.5f # Number of genotyped pairs found in each of the # relationship categories analyzed by PREST: # (Note that unrelated pairs are checked within each pedigree.) %7d grandparent-grandchild pairs %7d half-first-cousin pairs %7d half-sib-plus-first-cousin pairs %7d parent-offspring pairs # Summary of genotyped pairs found in each pedigree pedid size f.sib h.sib g.p.c avun. f.cous. unrel. h.avun h.f.cous. h.sib+f.cous. p.o. Total # Assuming that there are not many misclassified relative pairs in the # data set and assuming that all the pairs are typed on roughly the # same markers (because which markers are typed affects the null means # of the AIBS and IBS statistics and affects the null variances of the # EIBD, AIBS and IBS statistics), then the sample averaged observed # statistics for each relationship type should not be significantly # different from what is expected. If they are significantly # different, if may indicate that the allele frequencies are not # accurately estimated, or that the assumptions of population # homogeneity and Hardy-Weinberg equilibrium are not appropriate. # It could also indicate a problem with the way the data are coded # (see item #7 in 'Tips' file). The following output contains # the information of sample summary of the statistics # obs = sample averaged observed statistic # mu(std) = sample averaged null mean (sample std. dev. of null mean) # (Note that the null mean of EIBD depends only on the null relationship, not on the data, so for EIBD # we give the null mean in place of the sample averaged null mean # std(std) = sample averaged standard deviation # (sample std. dev. of null standard deviation) # no.mark = sample averaged number of typed markers for a pair # (sample std. dev.) no.pairs no.mark(std) full-sib %7d NA( NA) half-sib %7d NA( NA) grandp-c %7d NA( NA) avuncular %7d NA( NA) f-cousin %7d NA( NA) unrelated %7d NA( NA) h-avuncular %7d NA( NA) h-f-cousin %7d NA( NA) h-sib+f-cous %7d NA( NA) pa-offspring %7d NA( NA) obs mu std( std) full-sib %6.4f %6.4f %6.4f(%8.6f) half-sib %6.4f %6.4f %6.4f(%8.6f) grandp-c %6.4f %6.4f %6.4f(%8.6f) avuncular %6.4f %6.4f %6.4f(%8.6f) f-cousin %6.4f %6.4f %6.4f(%8.6f) unrelated NA NA NA( NA) h-avuncular %6.4f %6.4f %6.4f(%8.6f) h-f-cousin %6.4f %6.4f %6.4f(%8.6f) h-sib+f-cousin %6.4f %6.4f %6.4f(%8.6f) pa-offspring NA NA NA( NA) obs mu( std) std( std) full-sib %6.4f %6.4f(%8.6f) %6.4f(%8.6f) half-sib %6.4f %6.4f(%8.6f) %6.4f(%8.6f) grandp-c %6.4f %6.4f(%8.6f) %6.4f(%8.6f) avuncular %6.4f %6.4f(%8.6f) %6.4f(%8.6f) f-cousin %6.4f %6.4f(%8.6f) %6.4f(%8.6f) unrelated NA NA( NA) NA( NA) h-avuncular %6.4f %6.4f(%8.6f) %6.4f(%8.6f) h-f-cousin %6.4f %6.4f(%8.6f) %6.4f(%8.6f) h-sib+f-cousin %6.4f %6.4f(%8.6f) %6.4f(%8.6f) pa-offspring %6.4f %6.4f(%8.6f) %6.4f(%8.6f) unrelated %6.4f %6.4f(%8.6f) %6.4f(%8.6f) h-avuncular %6.4f %6.4f(%8.6f) %6.4f(%8.6f) pa-offspring %6.4f %6.4f(%8.6f) %6.4f(%8.6f) pa-offspring %6.4f %6.4f( NA) %6.4f( NA) pa-offsprin NA NA( NA) NA( NA) h-sib+f-cousin %6.4f %6.4f( NA) %6.4f( NA) h-sib+f-cousin NA NA( NA) NA( NA) h-f-cousin %6.4f %6.4f( NA) %6.4f( NA) h-f-cousin NA NA( NA) NA( NA) h-avuncular %6.4f %6.4f( NA) %6.4f( NA) h-avuncular NA NA( NA) NA( NA) unrelated %6.4f %6.4f( NA) %6.4f( NA) f -cousin %6.4f %6.4f( NA) %6.4f( NA) f-cousin NA NA( NA) NA( NA) avuncular %6.4f %6.4f( NA) %6.4f( NA) avuncular NA NA( NA) NA( NA) grandp-c %6.4f %6.4f( NA) %6.4f( NA) grandp-c NA NA( NA) NA( NA) half-sib %6.4f %6.4f( NA) %6.4f( NA) half-sib NA NA( NA) NA( NA) full-sib %6.4f %6.4f( NA) %6.4f( NA) full-sib NA NA( NA) NA( NA) pa-offspring %6.4f %6.4f( NA) %6.4f( NA) pa-offsprin NA NA NA( NA) NA( NA) h-avuncular %6.4f %6.4f( NA) %6.4f( NA) f-cousin %6.4f %6.4f( NA) %6.4f( NA) h-sib+f-cousin %6.4f %6.4f %6.4f( NA) h-sib+f-cousin NA NA NA( NA) h-f-cousin %6.4f %6.4f %6.4f( NA) h-f-cousin NA NA NA( NA) h-avuncular %6.4f %6.4f %6.4f( NA) h-avuncular NA NA NA( NA) f-cousin %6.4f %6.4f %6.4f( NA) f-cousin NA NA NA( NA) avuncular %6.4f %6.4f %6.4f( NA) avuncular NA NA NA( NA) grandp-c %6.4f %6.4f %6.4f( NA) grandp-c NA NA NA( NA) half-sib %6.4f %6.4f %6.4f( NA) half-sib NA NA NA( NA) full-sib %6.4f %6.4f %6.4f( NA) full-sib NA NA NA( NA) pa-offspring %7d %6.1f(%6.1f) h-sib+f-cous %7d %6.1f(%6.1f) h-f-cousin %7d %6.1f(%6.1f) h-avuncular %7d %6.1f(%6.1f) unrelated %7d %6.1f(%6.1f) f-cousin %7d %6.1f(%6.1f) avuncular %7d %6.1f(%6.1f) grandp-c %7d %6.1f(%6.1f) half-sib %7d %6.1f(%6.1f) full-sib %7d %6.1f(%6.1f) # Number of pairs checked by MLRT # Number of pairs that have p-value of either EIBD or AIBS less than 0.2 # (for unrelated, p-value of IBS less than 0.2). # This is the number of pairs for which PREST would perform the MLRT. # (The MLRT will actually be performed only if option 2 is chosen.) # For each pair, performance of the MLRT, including 100,000 # simulated realizations takes approximately 5 minutes on # a Sun Ultra II with 360-MHz processor. @A@?@@B> @@@@@?`?>>PG APCG?333333?Ơ>>٬\?@d`?Ͼ%:\ ?!Q?qOOKu?Y/?fTրcJ.F?(V?7 J?VD$`?0z?]p $ > 4: ; I?  &I%%S/ ../sysdeps/i386/elfstart.SP.01:"VWYX   init.cN /home/gb/rpm/BUILD/glibc-2.3.3/build-i586-linux/csucrti.Sl3,Wdx#,:t ,Wdd,,-vN /home/gb/rpm/BUILD/glibc-2.3.3/build-i586-linux/csucrtn.Sl init.cshort intGNU C 3.4.1 (Mandrakelinux (Cooker) 3.4.1-1mdk)long long intunsigned charlong long unsigned intshort unsigned int/home/gb/rpm/BUILD/glibc-2.3.3/csu_IO_stdin_used.symtab.strtab.shstrtab.interp.note.ABI-tag.hash.dynsym.dynstr.gnu.version.gnu.version_r.rel.dyn.rel.plt.init.text.fini.rodata.eh_frame.data.dynamic.ctors.dtors.jcr.got.bss.comment.debug_aranges.debug_pubnames.debug_info.debug_abbrev.debug_line.debug_str#(( 1HH7 ?Go>ToHHPc l  uxxp{PPdll(( ppxx|g >@x%vV0% h 0f(HH x  P l lpx ,ep,,ep  [,eft vpx Ј vt|l &  [&,e&ai u@]  @@0 a  Жc W  l 2 ;M^ ke  zPl> @ #u 0  ox  w %7m D@1 N0 [  aqP xGv D lP pS , 4CБ Q e@ s ~+l q y @ `T VЋ: 1 )&;BXhmp {@ $ l&p@  )  >M W ./../include/libc-symbols.h/home/gb/rpm/BUILD/glibc-2.3.3/build-i586-linux/config.h/home/gb/rpm/BUILD/glibc-2.3.3/csu//abi-note.S/home/gb/rpm/BUILD/glibc-2.3.3/build-i586-linux/csu/abi-tag.hinit.c/home/gb/rpm/BUILD/glibc-2.3.3/build-i586-linux/csu/crti.S/home/gb/rpm/BUILD/glibc-2.3.3/build-i586-linux/csu/defs.hinitfini.ccall_gmon_startcrtstuff.c__CTOR_LIST____DTOR_LIST____JCR_LIST__p.0completed.1__do_global_dtors_auxframe_dummy__CTOR_END____DTOR_END____FRAME_END____JCR_END____do_global_ctors_aux/home/gb/rpm/BUILD/glibc-2.3.3/build-i586-linux/csu/crtn.Sprest.cnuminlist.1anclist.0p012.2countmlrt.3checkmarker.4checkallefreq.5cp0feof@@GLIBC_2.0findpedgeno_DYNAMICgetibd2inbred_checkcrossover_newlog10@@GLIBC_2.0_fp_hwforEIBDvarfprintf@@GLIBC_2.0get3statfflush@@GLIBC_2.0__fini_array_endtransproballsimugeno1geno2__dso_handle__libc_csu_finipnormpow@@GLIBC_2.0rewind@@GLIBC_2.0check_avuncularcheck_halfsibcombineputs@@GLIBC_2.0_initgetibd1malloc@@GLIBC_2.0get3statandmustdfscanf@@GLIBC_2.0mapthetatocmtransprobfindrelationchecktime@@GLIBC_2.0_startfgets@@GLIBC_2.0EMforp012__strtol_internal@@GLIBC_2.0recoding__fini_array_startfputc@@GLIBC_2.0__libc_csu_init__bss_startmain__libc_start_main@@GLIBC_2.0__init_array_endgetibd0exp@@GLIBC_2.0build_anclistcheck_halfavuncularcheck_anclistdata_startprintf@@GLIBC_2.0_finicp2sqrt@@GLIBC_2.0fclose@@GLIBC_2.1check1_anclistcheck_halfpluscousincheck_halfcousinsrand@@GLIBC_2.0forIBSvarexit@@GLIBC_2.0check_cousinsscanf@@GLIBC_2.0_edata_GLOBAL_OFFSET_TABLE_free@@GLIBC_2.0_endcheck_grandpccp1fopen@@GLIBC_2.1__init_array_startforAIBSvar_IO_stdin_usedfp_errorsprintf@@GLIBC_2.0fwrite@@GLIBC_2.0mapcmtotheta__data_start_Jv_RegisterClassesrand@@GLIBC_2.0getapprloglikelihoodlog@@GLIBC_2.0checkMend__gmon_start__