MAX no of Columns in Oracle
What is the maximum number of columns allowed in a table in Oracle?
Test by yourself.
DECLARE
BEGIN
Execute Immediate('CREATE TABLE TEST (A NUMBER)');
FOR i In 1..1000 LOOP
Execute Immediate('ALTER TABLE TEST ADD A'||i||' NUMBER');
END LOOP;
END;
ERROR at line 1:
ORA-01792: maximum number of columns in a table or view is 1000
ORA-06512: at line 5
Similar Messages
-
Max number of columns in Oracle 10g Express?
Hi, I have read that Oracle has 250-1600 columns "depending on the column type". Could someone please explain this more fully? I tried just having VARCHAR2(10) fields but still it was stopping at 250 fields.
Thanks!
-MaryI'm still having the problem, I get it upon attempting to load the data from SAS into Oracle Express- I can execute the create statement just fine.
I need it because this is genetics data that I ALWAYS use in wide rather than narrow form, to do statistical analysis on the data, so it is organized with one row per subject, and I want to be able to merge that data with many other tables that are also wide without having to transform it first with other data, like patient history. My other tables also will have many columns, for instance patient history has indicator fields of whether a person has had heart disease (yes/no) and so forth for hundreds of variables, but other variables that are demographic, like DOB, and so forth- I want to do one-to-one merges with my genetics data files with my patient history files, so one of the reasons I'm going with Oracle is because it has 1000 columns per table.
My error is not on the create, but on the load. I'm loading from SAS, with this code:
filename workbook "C:\Work_Activities\Production_Source\SQL_Server_Raw_Data\paul_baird_data.xlsx";
filename txtout "C:\Work_Activities\Production_Source\SQL_Server_Raw_Data\paul_baird_data";
%include 'C:\Work_Activities\Production_Source\SAS_Programs\save_as_tab_delimited.sas';
options nocenter pagesize=30000;
data WORK.PAUL_BAIRD_DATA ;
infile 'C:\Work_Activities\Production_Source\SQL_Server_Raw_Data\paul_baird_data\merge data_smoking.txt' delimiter='09'x MISSOVER DSD lrecl=32767 firstobs=2 ;
informat idno $50. ;
informat Diseasesubtype $50. ;
informat Gender $50. ;
informat AgeOfDiagnosisAscertainment $50. ;
informat smoking $50. ;
informat disbin $50. ;
informat diseas4 $50. ;
informat diseas3 $50. ;
informat Rs1047286 $3. ;
informat Rs11085197 $3. ;
informat Rs2230199 $3. ;
informat Rs2230204 $3. ;
informat Rs2547438 $3. ;
informat Rs432823 $3. ;
informat Rs3783550 $3. ;
informat Rs2856838 $3. ;
informat Rs1878320 $3. ;
informat Rs2734335 $3. ;
informat Rs3020644 $3. ;
informat Rs7746553 $3. ;
informat Rs1048709 $3. ;
informat Rs537160 $3. ;
informat Rs2072633 $3. ;
informat Rs9332739 $3. ;
informat Rs547154 $3. ;
informat Rs4151667 $3. ;
informat Rs641153 $3. ;
informat Rs4151659 $3. ;
informat Rs1061170 $3. ;
informat Rs800292 $3. ;
informat Rs2274700 $3. ;
informat Rs393955 $3. ;
informat Rs7084349 $3. ;
informat Rs10082476 $3. ;
informat Rs10887148 $3. ;
informat Rs10887149 $3. ;
informat rs2292626 $3. ;
informat Rs7918867 $3. ;
informat Rs182907 $3. ;
informat Rs2014307 $3. ;
informat Rs3793917 $3. ;
informat rs10490924 $3. ;
informat rs11200638 $3. ;
informat Rs2736914 $3. ;
informat Rs2672591 $3. ;
informat Rs7093894 $3. ;
informat Rs4752699 $3. ;
informat Rs2672590 $3. ;
informat Rs2672588 $3. ;
informat Rs2672587 $3. ;
informat Rs4237540 $3. ;
informat Rs2736917 $3. ;
informat Rs2300431 $3. ;
informat Rs2736919 $3. ;
informat Rs11200651 $3. ;
informat Rs763720 $3. ;
informat Rs876790 $3. ;
informat Rs2250804 $3. ;
informat Rs2268356 $3. ;
informat Rs833061 $3. ;
informat Rs25648 $3. ;
informat Rs3024997 $3. ;
informat Rs2146323 $3. ;
informat Rs3025030 $3. ;
informat Rs3025035 $3. ;
informat Rs10434 $3. ;
informat Rs385390 $3. ;
informat Rs370789 $3. ;
informat Rs438781 $3. ;
informat Rs16840639 $3. ;
informat Rs16840658 $3. ;
informat Rs10922146 $3. ;
informat Rs6428365 $3. ;
informat Rs12240143 $3. ;
informat Rs11811456 $3. ;
informat Rs1853883 $3. ;
informat Rs1971579 $3. ;
informat rs436719 $3. ;
informat Rs1853881 $3. ;
informat Rs9427938 $3. ;
informat Rs6669207 $3. ;
informat Rs6667243 $3. ;
informat Rs9427657 $3. ;
informat Rs3748557 $3. ;
informat Rs12755054 $3. ;
informat Rs12116643 $3. ;
informat Rs10922153 $3. ;
informat Rs17610618 $3. ;
informat Rs1326270 $3. ;
informat Rs1326272 $3. ;
informat Rs10922468 $3. ;
informat Rs3767736 $3. ;
informat Rs1326274 $3. ;
informat Rs1052238 $3. ;
informat Rs3767742 $3. ;
informat Rs3767747 $3. ;
informat Rs12406698 $3. ;
informat Rs16843742 $3. ;
informat Rs10800584 $3. ;
informat Rs10919560 $3. ;
informat Rs10919563 $3. ;
informat Rs1932433 $3. ;
informat Rs17670373 $3. ;
informat Rs12258692 $3. ;
informat Rs4405249 $3. ;
informat Rs1045216 $3. ;
informat Rs4146894 $3. ;
informat Rs10490923 $3. ;
informat Rs3750848 $4. ;
informat Rs2736911 $3. ;
informat Rs3750846 $3. ;
informat Rs760336 $3. ;
informat Rs1803403 $3. ;
informat Rs1061147 $3. ;
informat Rs1065489 $3. ;
informat Rs10801561 $3. ;
informat Rs10967213 $3. ;
informat Rs12314259 $3. ;
informat Rs1329421 $3. ;
informat Rs1329423 $3. ;
informat Rs16840419 $3. ;
informat Rs2010963 $3. ;
informat Rs2019727 $3. ;
informat Rs203674 $3. ;
informat Rs2284396 $3. ;
informat Rs2290465 $3. ;
informat Rs3753394 $3. ;
informat Rs3753396 $3. ;
informat Rs3766404 $3. ;
informat Rs3811040 $3. ;
informat Rs3812153 $3. ;
informat Rs419137 $3. ;
informat Rs4230 $3. ;
informat Rs4477532 $3. ;
informat Rs4848298 $3. ;
informat Rs529825 $3. ;
informat Rs6428379 $3. ;
informat Rs70620 $3. ;
informat Rs7294695 $3. ;
informat Rs7551203 $3. ;
informat Rs908551 $3. ;
informat Rs1805287 $3. ;
informat Rs388862 $3. ;
format idno $50. ;
format Diseasesubtype $8. ;
format Gender $6. ;
format AgeOfDiagnosisAscertainment $50. ;
format smoking $50. ;
format disbin $50. ;
format diseas4 $50. ;
format diseas3 $50. ;
format Rs1047286 $3. ;
format Rs11085197 $3. ;
format Rs2230199 $3. ;
format Rs2230204 $3. ;
format Rs2547438 $3. ;
format Rs432823 $3. ;
format Rs3783550 $3. ;
format Rs2856838 $3. ;
format Rs1878320 $3. ;
format Rs2734335 $3. ;
format Rs3020644 $3. ;
format Rs7746553 $3. ;
format Rs1048709 $3. ;
format Rs537160 $3. ;
format Rs2072633 $3. ;
format Rs9332739 $3. ;
format Rs547154 $3. ;
format Rs4151667 $3. ;
format Rs641153 $3. ;
format Rs4151659 $3. ;
format Rs1061170 $3. ;
format Rs800292 $3. ;
format Rs2274700 $3. ;
format Rs393955 $3. ;
format Rs7084349 $3. ;
format Rs10082476 $3. ;
format Rs10887148 $3. ;
format Rs10887149 $3. ;
format rs2292626 $3. ;
format Rs7918867 $3. ;
format Rs182907 $3. ;
format Rs2014307 $3. ;
format Rs3793917 $3. ;
format rs10490924 $3. ;
format rs11200638 $3. ;
format Rs2736914 $3. ;
format Rs2672591 $3. ;
format Rs7093894 $3. ;
format Rs4752699 $3. ;
format Rs2672590 $3. ;
format Rs2672588 $3. ;
format Rs2672587 $3. ;
format Rs4237540 $3. ;
format Rs2736917 $3. ;
format Rs2300431 $3. ;
format Rs2736919 $3. ;
format Rs11200651 $3. ;
format Rs763720 $3. ;
format Rs876790 $3. ;
format Rs2250804 $3. ;
format Rs2268356 $3. ;
format Rs833061 $3. ;
format Rs25648 $3. ;
format Rs3024997 $3. ;
format Rs2146323 $3. ;
format Rs3025030 $3. ;
format Rs3025035 $3. ;
format Rs10434 $3. ;
format Rs385390 $3. ;
format Rs370789 $3. ;
format Rs438781 $3. ;
format Rs16840639 $3. ;
format Rs16840658 $3. ;
format Rs10922146 $3. ;
format Rs6428365 $3. ;
format Rs12240143 $3. ;
format Rs11811456 $3. ;
format Rs1853883 $3. ;
format Rs1971579 $3. ;
format rs436719 $3. ;
format Rs1853881 $3. ;
format Rs9427938 $3. ;
format Rs6669207 $3. ;
format Rs6667243 $3. ;
format Rs9427657 $3. ;
format Rs3748557 $3. ;
format Rs12755054 $3. ;
format Rs12116643 $3. ;
format Rs10922153 $3. ;
format Rs17610618 $3. ;
format Rs1326270 $3. ;
format Rs1326272 $3. ;
format Rs10922468 $3. ;
format Rs3767736 $3. ;
format Rs1326274 $3. ;
format Rs1052238 $3. ;
format Rs3767742 $3. ;
format Rs3767747 $3. ;
format Rs12406698 $3. ;
format Rs16843742 $3. ;
format Rs10800584 $3. ;
format Rs10919560 $3. ;
format Rs10919563 $3. ;
format Rs1932433 $3. ;
format Rs17670373 $3. ;
format Rs12258692 $3. ;
format Rs4405249 $3. ;
format Rs1045216 $3. ;
format Rs4146894 $3. ;
format Rs10490923 $3. ;
format Rs3750848 $4. ;
format Rs2736911 $3. ;
format Rs3750846 $3. ;
format Rs760336 $3. ;
format Rs1803403 $3. ;
format Rs1061147 $3. ;
format Rs1065489 $3. ;
format Rs10801561 $3. ;
format Rs10967213 $3. ;
format Rs12314259 $3. ;
format Rs1329421 $3. ;
format Rs1329423 $3. ;
format Rs16840419 $3. ;
format Rs2010963 $3. ;
format Rs2019727 $3. ;
format Rs203674 $3. ;
format Rs2284396 $3. ;
format Rs2290465 $3. ;
format Rs3753394 $3. ;
format Rs3753396 $3. ;
format Rs3766404 $3. ;
format Rs3811040 $3. ;
format Rs3812153 $3. ;
format Rs419137 $3. ;
format Rs4230 $3. ;
format Rs4477532 $3. ;
format Rs4848298 $3. ;
format Rs529825 $3. ;
format Rs6428379 $3. ;
format Rs70620 $3. ;
format Rs7294695 $3. ;
format Rs7551203 $3. ;
format Rs908551 $3. ;
format Rs1805287 $3. ;
format Rs388862 $3. ;
input
idno $
Diseasesubtype $
Gender $
AgeOfDiagnosisAscertainment
smoking
disbin
diseas4
diseas3
Rs1047286 $
Rs11085197 $
Rs2230199 $
Rs2230204 $
Rs2547438 $
Rs432823 $
Rs3783550 $
Rs2856838 $
Rs1878320 $
Rs2734335 $
Rs3020644 $
Rs7746553 $
Rs1048709 $
Rs537160 $
Rs2072633 $
Rs9332739 $
Rs547154 $
Rs4151667 $
Rs641153 $
Rs4151659 $
Rs1061170 $
Rs800292 $
Rs2274700 $
Rs393955 $
Rs7084349 $
Rs10082476 $
Rs10887148 $
Rs10887149 $
rs2292626 $
Rs7918867 $
Rs182907 $
Rs2014307 $
Rs3793917 $
rs10490924 $
rs11200638 $
Rs2736914 $
Rs2672591 $
Rs7093894 $
Rs4752699 $
Rs2672590 $
Rs2672588 $
Rs2672587 $
Rs4237540 $
Rs2736917 $
Rs2300431 $
Rs2736919 $
Rs11200651 $
Rs763720 $
Rs876790 $
Rs2250804 $
Rs2268356 $
Rs833061 $
Rs25648 $
Rs3024997 $
Rs2146323 $
Rs3025030 $
Rs3025035 $
Rs10434 $
Rs385390 $
Rs370789 $
Rs438781 $
Rs16840639 $
Rs16840658 $
Rs10922146 $
Rs6428365 $
Rs12240143 $
Rs11811456 $
Rs1853883 $
Rs1971579 $
rs436719 $
Rs1853881 $
Rs9427938 $
Rs6669207 $
Rs6667243 $
Rs9427657 $
Rs3748557 $
Rs12755054 $
Rs12116643 $
Rs10922153 $
Rs17610618 $
Rs1326270 $
Rs1326272 $
Rs10922468 $
Rs3767736 $
Rs1326274 $
Rs1052238 $
Rs3767742 $
Rs3767747 $
Rs12406698 $
Rs16843742 $
Rs10800584 $
Rs10919560 $
Rs10919563 $
Rs1932433 $
Rs17670373 $
Rs12258692 $
Rs4405249 $
Rs1045216 $
Rs4146894 $
Rs10490923 $
Rs3750848 $
Rs2736911 $
Rs3750846 $
Rs760336 $
Rs1803403 $
Rs1061147 $
Rs1065489 $
Rs10801561 $
Rs10967213 $
Rs12314259 $
Rs1329421 $
Rs1329423 $
Rs16840419 $
Rs2010963 $
Rs2019727 $
Rs203674 $
Rs2284396 $
Rs2290465 $
Rs3753394 $
Rs3753396 $
Rs3766404 $
Rs3811040 $
Rs3812153 $
Rs419137 $
Rs4230 $
Rs4477532 $
Rs4848298 $
Rs529825 $
Rs6428379 $
Rs70620 $
Rs7294695 $
Rs7551203 $
Rs908551 $
Rs1805287 $
Rs388862 $
run;
proc datasets library=work;
modify paul_baird_data;
rename
rs10082476=rs10082476_allele
rs10434=rs10434_allele
rs1045216=rs1045216_allele
rs1047286=rs1047286_allele
rs1048709=rs1048709_allele
rs10490923=rs10490923_allele
rs1052238=rs1052238_allele
rs1061147=rs1061147_allele
rs1061170=rs1061170_allele
rs1065489=rs1065489_allele
rs10800584=rs10800584_allele
rs10801561=rs10801561_allele
rs10887148=rs10887148_allele
rs10887149=rs10887149_allele
rs10919560=rs10919560_allele
rs10919563=rs10919563_allele
rs10922146=rs10922146_allele
rs10922153=rs10922153_allele
rs10922468=rs10922468_allele
rs10967213=rs10967213_allele
rs11085197=rs11085197_allele
rs11200651=rs11200651_allele
rs11811456=rs11811456_allele
rs12116643=rs12116643_allele
rs12240143=rs12240143_allele
rs12258692=rs12258692_allele
rs12314259=rs12314259_allele
rs12406698=rs12406698_allele
rs12755054=rs12755054_allele
rs1326270=rs1326270_allele
rs1326272=rs1326272_allele
rs1326274=rs1326274_allele
rs1329421=rs1329421_allele
rs1329423=rs1329423_allele
rs16840419=rs16840419_allele
rs16840639=rs16840639_allele
rs16840658=rs16840658_allele
rs16843742=rs16843742_allele
rs17610618=rs17610618_allele
rs17670373=rs17670373_allele
rs1803403=rs1803403_allele
rs1805287=rs1805287_allele
rs182907=rs182907_allele
rs1853881=rs1853881_allele
rs1853883=rs1853883_allele
rs1878320=rs1878320_allele
rs1932433=rs1932433_allele
rs1971579=rs1971579_allele
rs2010963=rs2010963_allele
rs2014307=rs2014307_allele
rs2019727=rs2019727_allele
rs203674=rs203674_allele
rs2072633=rs2072633_allele
rs2146323=rs2146323_allele
rs2230199=rs2230199_allele
rs2230204=rs2230204_allele
rs2250804=rs2250804_allele
rs2268356=rs2268356_allele
rs2274700=rs2274700_allele
rs2284396=rs2284396_allele
rs2290465=rs2290465_allele
rs2300431=rs2300431_allele
rs2547438=rs2547438_allele
rs25648=rs25648_allele
rs2672587=rs2672587_allele
rs2672588=rs2672588_allele
rs2672590=rs2672590_allele
rs2672591=rs2672591_allele
rs2734335=rs2734335_allele
rs2736911=rs2736911_allele
rs2736914=rs2736914_allele
rs2736917=rs2736917_allele
rs2736919=rs2736919_allele
rs2856838=rs2856838_allele
rs3020644=rs3020644_allele
rs3024997=rs3024997_allele
rs3025030=rs3025030_allele
rs3025035=rs3025035_allele
rs370789=rs370789_allele
rs3748557=rs3748557_allele
rs3750846=rs3750846_allele
rs3750848=rs3750848_allele
rs3753394=rs3753394_allele
rs3753396=rs3753396_allele
rs3766404=rs3766404_allele
rs3767736=rs3767736_allele
rs3767742=rs3767742_allele
rs3767747=rs3767747_allele
rs3783550=rs3783550_allele
rs3793917=rs3793917_allele
rs3811040=rs3811040_allele
rs3812153=rs3812153_allele
rs385390=rs385390_allele
rs388862=rs388862_allele
rs393955=rs393955_allele
rs4146894=rs4146894_allele
rs4151659=rs4151659_allele
rs4151667=rs4151667_allele
rs419137=rs419137_allele
rs4230=rs4230_allele
rs4237540=rs4237540_allele
rs432823=rs432823_allele
rs438781=rs438781_allele
rs4405249=rs4405249_allele
rs4477532=rs4477532_allele
rs4752699=rs4752699_allele
rs4848298=rs4848298_allele
rs529825=rs529825_allele
rs537160=rs537160_allele
rs547154=rs547154_allele
rs641153=rs641153_allele
rs6428365=rs6428365_allele
rs6428379=rs6428379_allele
rs6667243=rs6667243_allele
rs6669207=rs6669207_allele
rs70620=rs70620_allele
rs7084349=rs7084349_allele
rs7093894=rs7093894_allele
rs7294695=rs7294695_allele
rs7551203=rs7551203_allele
rs760336=rs760336_allele
rs763720=rs763720_allele
rs7746553=rs7746553_allele
rs7918867=rs7918867_allele
rs800292=rs800292_allele
rs833061=rs833061_allele
rs876790=rs876790_allele
rs908551=rs908551_allele
rs9332739=rs9332739_allele
rs9427657=rs9427657_allele
rs9427938=rs9427938_allele
rs10490924=rs10490924_allele
rs11200638=rs11200638_allele
rs2292626=rs2292626_allele
rs436719=rs436719_allele;
quit;
run;
proc sql noprint ;
select NAME into: VarList
separated by " "
from dictionary.columns
where libname eq "WORK"
and memname eq "PAUL_BAIRD_DATA"
and varnum GE 9 /* ID is in col 1 */
order by NAME;
quit;
%let nobs = &sqlobs;
%put &varlist;
%put &nobs;
data paul_baird_data;
informat full_hageman_nbr $50.;
set paul_baird_data;
array varlist_array{*} &varlist;
idno=compress(idno,',');
full_hageman_nbr='pb_' || trim(idno);
do i=1 to dim(varlist_array);
varlist_array=compress(varlist_array[i],' ');
end;
drop i;
if rs1047286_allele = "CC" then rs1047286 ="0";
else if rs1047286_allele ="CT" then rs1047286 ="1";
else if rs1047286_allele ="TC" then rs1047286 ="1";
else if rs1047286_allele ="TT" then rs1047286 ="2";
else rs1047286 = "5";
if rs11085197_allele = "CC" then rs11085197="0";
else if rs11085197_allele ="CG" then rs11085197="1";
else if rs11085197_allele ="GC" then rs11085197="1";
else if rs11085197_allele ="GG" then rs11085197="2";
else rs11085197 = "5";
if rs2230199_allele = "CC" then rs2230199 ="0";
else if rs2230199_allele ="CG" then rs2230199 ="1";
else if rs2230199_allele ="GC" then rs2230199 ="1";
else if rs2230199_allele ="GG" then rs2230199 ="2";
else rs2230199 = "5";
if rs2230204_allele = "CC" then rs2230204 ="0";
else if rs2230204_allele ="CT" then rs2230204 ="1";
else if rs2230204_allele ="TC" then rs2230204 ="1";
else if rs2230204_allele ="TT" then rs2230204 ="2";
else rs2230204 = "5";
if rs2547438_allele = "TT" then rs2547438 ="0";
else if rs2547438_allele ="TG" then rs2547438 ="1";
else if rs2547438_allele ="GT" then rs2547438 ="1";
else if rs2547438_allele ="GG" then rs2547438 ="2";
else rs2547438 = "5";
if rs432823_allele = "GG" then rs432823 ="0";
else if rs432823_allele ="GA" then rs432823 ="1";
else if rs432823_allele ="AG" then rs432823 ="1";
else if rs432823_allele ="AA" then rs432823 ="2";
else rs432823 = "5";
if rs3783550_allele = "TT" then rs3783550 ="0";
else if rs3783550_allele ="TG" then rs3783550 ="1";
else if rs3783550_allele ="GT" then rs3783550 ="1";
else if rs3783550_allele ="GG" then rs3783550 ="2";
else rs3783550 = "5";
if rs2856838_allele = "GG" then rs2856838 ="0";
else if rs2856838_allele ="GA" then rs2856838 ="1";
else if rs2856838_allele ="AG" then rs2856838 ="1";
else if rs2856838_allele ="AA" then rs2856838 ="2";
else rs2856838 = "5";
if rs1878320_allele = "TT" then rs1878320 ="0";
else if rs1878320_allele ="TC" then rs1878320 ="1";
else if rs1878320_allele ="CT" then rs1878320 ="1";
else if rs1878320_allele ="CC" then rs1878320 ="2";
else rs1878320 = "5";
if rs2734335_allele = "GG" then rs2734335 ="0";
else if rs2734335_allele ="GA" then rs2734335 ="1";
else if rs2734335_allele ="AG" then rs2734335 ="1";
else if rs2734335_allele ="AA" then rs2734335 ="2";
else rs2734335 = "5";
if rs3020644_allele = "AA" then rs3020644 ="0";
else if rs3020644_allele ="AG" then rs3020644 ="1";
else if rs3020644_allele ="GA" then rs3020644 ="1";
else if rs3020644_allele ="GG" then rs3020644 ="2";
else rs3020644 = "5";
if rs7746553_allele = "CC" then rs7746553 ="0";
else if rs7746553_allele ="CG" then rs7746553 ="1";
else if rs7746553_allele ="GC" then rs7746553 ="1";
else if rs7746553_allele ="GG" then rs7746553 ="2";
else rs7746553 = "5";
if rs1048709_allele = "GG" then rs1048709 ="0";
else if rs1048709_allele ="GA" then rs1048709 ="1";
else if rs1048709_allele ="AG" then rs1048709 ="1";
else if rs1048709_allele ="AA" then rs1048709 ="2";
else rs1048709 = "5";
if rs537160_allele = "GG" then rs537160 ="0";
else if rs537160_allele ="GA" then rs537160 ="1";
else if rs537160_allele ="AG" then rs537160 ="1";
else if rs537160_allele ="AA" then rs537160 ="2";
else rs537160 = "5";
if rs2072633_allele = "GG" then rs2072633 ="0";
else if rs2072633_allele ="GA" then rs2072633 ="1";
else if rs2072633_allele ="AG" then rs2072633 ="1";
else if rs2072633_allele ="AA" then rs2072633 ="2";
else rs2072633 = "5";
if rs9332739_allele = "GG" then rs9332739 ="0";
else if rs9332739_allele ="GC" then rs9332739 ="1";
else if rs9332739_allele ="CG" then rs9332739 ="1";
else if rs9332739_allele ="CC" then rs9332739 ="2";
else rs9332739 = "5";
if rs547154_allele = "CC" then rs547154 ="0";
else if rs547154_allele ="CA" then rs547154 ="1";
else if rs547154_allele ="AC" then rs547154 ="1";
else if rs547154_allele ="AA" then rs547154 ="2";
else rs547154 = "5";
if rs4151667_allele = "TT" then rs4151667 ="0";
else if rs4151667_allele ="TA" then rs4151667 ="1";
else if rs4151667_allele ="AT" then rs4151667 ="1";
else if rs4151667_allele ="AA" then rs4151667 ="2";
else rs4151667 = "5";
if rs641153_allele = "CC" then rs641153 ="0";
else if rs641153_allele ="CT" then rs641153 ="1";
else if rs641153_allele ="TC" then rs641153 ="1";
else if rs641153_allele ="TT" then rs641153 ="2";
else rs641153 = "5";
if rs4151659_allele = "AA" then rs4151659 ="0";
else if rs4151659_allele ="AG" then rs4151659 ="1";
else if rs4151659_allele ="GA" then rs4151659 ="1";
else if rs4151659_allele ="GG" then rs4151659 ="2";
else rs4151659 = "5";
if rs1061170_allele = "CC" then rs1061170 ="0";
else if rs1061170_allele ="CT" then rs1061170 ="1";
else if rs1061170_allele ="TC" then rs1061170 ="1";
else if rs1061170_allele ="TT" then rs1061170 ="2";
else rs1061170 = "5";
if rs800292_allele = "CC" then rs800292 ="0";
else if rs800292_allele ="CT" then rs800292 ="1";
else if rs800292_allele ="TC" then rs800292 ="1";
else if rs800292_allele ="TT" then rs800292 ="2";
else rs800292 = "5";
if rs2274700_allele = "CC" then rs2274700 ="0";
else if rs2274700_allele ="CT" then rs2274700 ="1";
else if rs2274700_allele ="TC" then rs2274700 ="1";
else if rs2274700_allele ="TT" then rs2274700 ="2";
else rs2274700 = "5";
if rs393955_allele = "GG" then rs393955 ="0";
else if rs393955_allele ="GT" then rs393955 ="1";
else if rs393955_allele ="TG" then rs393955 ="1";
else if rs393955_allele ="TT" then rs393955 ="2";
else rs393955 = "5";
if rs7084349_allele = "GG" then rs7084349 ="0";
else if rs7084349_allele ="GA" then rs7084349 ="1";
else if rs7084349_allele ="AG" then rs7084349 ="1";
else if rs7084349_allele ="AA" then rs7084349 ="2";
else rs7084349 = "5";
if rs10082476_allele = "AA" then rs10082476="0";
else if rs10082476_allele ="AG" then rs10082476="1";
else if rs10082476_allele ="GA" then rs10082476="1";
else if rs10082476_allele ="GG" then rs10082476="2";
else rs10082476 = "5";
if rs10887148_allele = "CC" then rs10887148="0";
else if rs10887148_allele ="CA" then rs10887148="1";
else if rs10887148_allele ="AC" then rs10887148="1";
else if rs10887148_allele ="AA" then rs10887148="2";
else rs10887148 = "5";
if rs10887149_allele = "GG" then rs10887149="0";
else if rs10887149_allele ="GA" then rs10887149="1";
else if rs10887149_allele ="AG" then rs10887149="1";
else if rs10887149_allele ="AA" then rs10887149="2";
else rs10887149 = "5";
if rs2292626_allele = "TT" then rs2292626 ="0";
else if rs2292626_allele ="TC" then rs2292626 ="1";
else if rs2292626_allele ="CT" then rs2292626 ="1";
else if rs2292626_allele ="CC" then rs2292626 ="2";
else rs2292626 = "5";
if rs7918867_allele = "GG" then rs7918867 ="0";
else if rs7918867_allele ="GA" then rs7918867 ="1";
else if rs7918867_allele ="AG" then rs7918867 ="1";
else if rs7918867_allele ="AA" then rs7918867 ="2";
else rs7918867 = "5";
if rs182907_allele = "TT" then rs182907 ="0";
else if rs182907_allele ="TC" then rs182907 ="1";
else if rs182907_allele ="CT" then rs182907 ="1";
else if rs182907_allele ="CC" then rs182907 ="2";
else rs182907 = "5";
if rs2014307_allele = "GG" then rs2014307 ="0";
else if rs2014307_allele ="GT" then rs2014307 ="1";
else if rs2014307_allele ="TG" then rs2014307 ="1";
else if rs2014307_allele ="TT" then rs2014307 ="2";
else rs2014307 = "5";
if rs3793917_allele = "CC" then rs3793917 ="0";
else if rs3793917_allele ="CG" then rs3793917 ="1";
else if rs3793917_allele ="GC" then rs3793917 ="1";
else if rs3793917_allele ="GG" then rs3793917 ="2";
else rs3793917 = "5";
if rs10490924_allele = "TT" then rs10490924="0";
else if rs10490924_allele ="TG" then rs10490924="1";
else if rs10490924_allele ="GT" then rs10490924="1";
else if rs10490924_allele ="GG" then rs10490924="2";
else rs10490924 = "5";
if rs11200638_allele = "GG" then rs11200638="0";
else if rs11200638_allele ="GA" then rs11200638="1";
else if rs11200638_allele ="AG" then rs11200638="1";
else if rs11200638_allele ="AA" then rs11200638="2";
else rs11200638 = "5";
if rs2736914_allele = "GG" then rs2736914 ="0";
else if rs2736914_allele ="GC" then rs2736914 ="1";
else if rs2736914_allele ="CG" then rs2736914 ="1";
else if rs2736914_allele ="CC" then rs2736914 ="2";
else rs2736914 = "5";
if rs2672591_allele = "TT" then rs2672591 ="0";
else if rs2672591_allele ="TA" then rs2672591 ="1";
else if rs2672591_allele ="AT" then rs2672591 ="1";
else if rs2672591_allele ="AA" then rs2672591 ="2";
else rs2672591 = "5";
if rs7093894_allele = "CC" then rs7093894 ="0";
else if rs7093894_allele ="CA" then rs7093894 ="1";
else if rs7093894_allele ="AC" then rs7093894 ="1";
else if rs7093894_allele ="AA" then rs7093894 ="2";
else rs7093894 = "5";
if rs4752699_allele = "GG" then rs4752699 ="0";
else if rs4752699_allele ="GA" then rs4752699 ="1";
else if rs4752699_allele ="AG" then rs4752699 ="1";
else if rs4752699_allele ="AA" then rs4752699 ="2";
else rs4752699 = "5";
if rs2672590_allele = "AA" then rs2672590 ="0";
else if rs2672590_allele ="AC" then rs2672590 ="1";
else if rs2672590_allele ="CA" then rs2672590 ="1";
else if rs2672590_allele ="CC" then rs2672590 ="2";
else rs2672590 = "5";
if rs2672588_allele = "TT" then rs2672588 ="0";
else if rs2672588_allele ="TC" then rs2672588 ="1";
else if rs2672588_allele ="CT" then rs2672588 ="1";
else if rs2672588_allele ="CC" then rs2672588 ="2";
else rs2672588 = "5";
if rs2672587_allele = "CC" then rs2672587 ="0";
else if rs2672587_allele ="CG" then rs2672587 ="1";
else if rs2672587_allele ="GC" then rs2672587 ="1";
else if rs2672587_allele ="GG" then rs2672587 ="2";
else rs2672587 = "5";
if rs4237540_allele = "AA" then rs4237540 ="0";
else if rs4237540_allele ="AG" then rs4237540 ="1";
else if rs4237540_allele ="GA" then rs4237540 ="1";
else if rs4237540_allele ="GG" then rs4237540 ="2";
else rs4237540 = "5";
if rs2736917_allele = "AA" then rs2736917 ="0";
else if rs2736917_allele ="AG" then rs2736917 ="1";
else if rs2736917_allele ="GA" then rs2736917 ="1";
else if rs2736917_allele ="GG" then rs2736917 ="2";
else rs2736917 = "5";
if rs2300431_allele = "GG" then rs2300431 ="0";
else if rs2300431_allele ="GA" then rs2300431 ="1";
else if rs2300431_allele ="AG" then rs2300431 ="1";
else if rs2300431_allele ="AA" then rs2300431 ="2";
else rs2300431 = "5";
if rs2736919_allele = "AA" then rs2736919 ="0";
else if rs2736919_allele ="AG" then rs2736919 ="1";
else if rs2736919_allele ="GA" then rs2736919 ="1";
else if rs2736919_allele ="GG" then rs2736919 ="2";
else rs2736919 = "5";
if rs11200651_allele = "AA" then rs11200651="0";
else if rs11200651_allele ="AG" then rs11200651="1";
else if rs11200651_allele ="GA" then rs11200651="1";
else if rs11200651_allele ="GG" then rs11200651="2";
else rs11200651 = "5";
if rs763720_allele = "GG" then rs763720 ="0";
else if rs763720_allele ="GA" then rs763720 ="1";
else if rs763720_allele ="AG" then rs763720 ="1";
else if rs763720_allele ="AA" then rs763720 ="2";
else rs763720 = "5";
if rs876790_allele = "TT" then rs876790 ="0";
else if rs876790_allele ="TC" then rs876790 ="1";
else if rs876790_allele ="CT" then rs876790 ="1";
else if rs876790_allele ="CC" then rs876790 ="2";
else rs876790 = "5";
if rs2250804_allele = "TT" then rs2250804 ="0";
else if rs2250804_allele ="TC" then rs2250804 ="1";
else if rs2250804_allele ="CT" then rs2250804 ="1";
else if rs2250804_allele ="CC" then rs2250804 ="2";
else rs2250804 = "5";
if rs2268356_allele = "CC" then rs2268356 ="0";
else if rs2268356_allele ="CT" then rs2268356 ="1";
else if rs2268356_allele ="TC" then rs2268356 ="1";
else if rs2268356_allele ="TT" then rs2268356 ="2";
else rs2268356 = "5";
if rs833061_allele = "TT" then rs833061 ="0";
else if rs833061_allele ="TC" then rs833061 ="1";
else if rs833061_allele ="CT" then rs833061 ="1";
else if rs833061_allele ="CC" then rs833061 ="2";
else rs833061 = "5";
if rs25648_allele = "CC" then rs25648 ="0";
else if rs25648_allele ="CT" then rs25648 ="1";
else if rs25648_allele ="TC" then rs25648 ="1";
else if rs25648_allele ="TT" then rs25648 ="2";
else rs25648 = "5";
if rs3024997_allele = "GG" then rs3024997 ="0";
else if rs3024997_allele ="GA" then rs3024997 ="1";
else if rs3024997_allele ="AG" then rs3024997 ="1";
else if rs3024997_allele ="AA" then rs3024997 ="2";
else rs3024997 = "5";
if rs2146323_allele = "CC" then rs2146323 ="0";
else if rs2146323_allele ="CA" then rs2146323 ="1";
else if rs2146323_allele ="AC" then rs2146323 ="1";
else if rs2146323_allele ="AA" then rs2146323 ="2";
else rs2146323 = "5";
if rs3025030_allele = "GG" then rs3025030 ="0";
else if rs3025030_allele ="GC" then rs3025030 ="1";
else if rs3025030_allele ="CG" then rs3025030 ="1";
else if rs3025030_allele ="CC" then rs3025030 ="2";
else rs3025030 = "5";
if rs3025035_allele = "CC" then rs3025035 ="0";
else if rs3025035_allele ="CT" then rs3025035 ="1";
else if rs3025035_allele ="TC" then rs3025035 ="1";
else if rs3025035_allele ="TT" then rs3025035 ="2";
else rs3025035 = "5";
if rs10434_allele = "GG" then rs10434 ="0";
else if rs10434_allele ="GA" then rs10434 ="1";
else if rs10434_allele ="AG" then rs10434 ="1";
else if rs10434_allele ="AA" then rs10434 ="2";
else rs10434 = "5";
if rs385390_allele = "AA" then rs385390 ="0";
else if rs385390_allele ="AC" then rs385390 ="1";
else if rs385390_allele ="CA" then rs385390 ="1";
else if rs385390_allele ="CC" then rs385390 ="2";
else rs385390 = "5";
if rs370789_allele = "AA" then rs370789 ="0";
else if rs370789_allele ="AG" then rs370789 ="1";
else if rs370789_allele ="GA" then rs370789 ="1";
else if rs370789_allele ="GG" then rs370789 ="2";
else rs370789 = "5";
if rs438781_allele = "TT" then rs438781 ="0";
else if rs438781_allele ="TA" then rs438781 ="1";
else if rs438781_allele ="AT" then rs438781 ="1";
else if rs438781_allele ="AA" then rs438781 ="2";
else rs438781 = "5";
if rs16840639_allele = "TT" then rs16840639="0";
else if rs16840639_allele ="TC" then rs16840639="1";
else if rs16840639_allele ="CT" then rs16840639="1";
else if rs16840639_allele ="CC" then rs16840639="2";
else rs16840639 = "5";
if rs16840658_allele = "GG" then rs16840658="0";
else if rs16840658_allele ="GA" then rs16840658="1";
else if rs16840658_allele ="AG" then rs16840658="1";
else if rs16840658_allele ="AA" then rs16840658="2";
else rs16840658 = "5";
if rs10922146_allele = "CC" then rs10922146="0";
else if rs10922146_allele ="CT" then rs10922146="1";
else if rs10922146_allele ="TC" then rs10922146="1";
else if rs10922146_allele ="TT" then rs10922146="2";
else rs10922146 = "5";
if rs6428365_allele = "CC" then rs6428365 ="0";
else if rs6428365_allele ="CA" then rs6428365 ="1";
else if rs6428365_allele ="AC" then rs6428365 ="1";
else if rs6428365_allele ="AA" then rs6428365 ="2";
else rs6428365 = "5";
if rs12240143_allele = "TT" then rs12240143="0";
else if rs12240143_allele ="TC" then rs12240143="1";
else if rs12240143_allele ="CT" then rs12240143="1";
else if rs12240143_allele ="CC" then rs12240143="2";
else rs12240143 = "5";
if rs11811456_allele = "AA" then rs11811456="0";
else if rs11811456_allele ="AG" then rs11811456="1";
else if rs11811456_allele ="GA" then rs11811456="1";
else if rs11811456_allele ="GG" then rs11811456="2";
else rs11811456 = "5";
if rs1853883_allele = "GG" then rs1853883 ="0";
else if rs1853883_allele ="GC" then rs1853883 ="1";
else if rs1853883_allele ="CG" then rs1853883 ="1";
else if rs1853883_allele ="CC" then rs1853883 ="2";
else rs1853883 = "5";
if rs1971579_allele = "TT" then rs1971579 ="0";
else if rs1971579_allele ="TG" then rs1971579 ="1";
else if rs1971579_allele ="GT" then rs1971579 ="1";
else if rs1971579_allele ="GG" then rs1971579 ="2";
else rs1971579 = "5";
if rs436719_allele = "TT" then rs436719 ="0";
else if rs436719_allele ="TG" then rs436719 ="1";
else if rs436719_allele ="GT" then rs436719 ="1";
else if rs436719_allele ="GG" then rs436719 ="2";
else rs436719 = "5";
if rs1853881_allele = "AA" then rs1853881 ="0";
else if rs1853881_allele ="AC" then rs1853881 ="1";
else if rs1853881_allele ="CA" then rs1853881 ="1";
else if rs1853881_allele ="CC" then rs1853881 ="2";
else rs1853881 = "5";
if rs9427938_allele = "CC" then rs9427938 ="0";
else if rs9427938_allele ="CT" then rs9427938 ="1";
else if rs9427938_allele ="TC" then rs9427938 ="1";
else if rs9427938_allele ="TT" then rs9427938 ="2";
else rs9427938 = "5";
if rs6669207_allele = "GG" then rs6669207 ="0";
else if rs6669207_allele ="GA" then rs6669207 ="1";
else if rs6669207_allele ="AG" then rs6669207 ="1";
else if rs6669207_allele ="AA" then rs6669207 ="2";
else rs6669207 = "5";
if rs6667243_allele = "TT" then rs6667243 ="0";
else if rs6667243_allele ="TC" then rs6667243 ="1";
else if rs6667243_allele ="CT" then rs6667243 ="1";
else if rs6667243_allele ="CC" then rs6667243 ="2";
else rs6667243 = "5";
if rs9427657_allele = "AA" then rs9427657 ="0";
else if rs9427657_allele ="AG" then rs9427657 ="1";
else if rs9427657_allele ="GA" then rs9427657 ="1";
else if rs9427657_allele ="GG" then rs9427657 ="2";
else rs9427657 = "5";
if rs3748557_allele = "TT" then rs3748557 ="0";
else if rs3748557_allele ="TA" then rs3748557 ="1";
else if rs3748557_allele ="AT" then rs3748557 ="1";
else if rs3748557_allele ="AA" then rs3748557 ="2";
else rs3748557 = "5";
if rs12755054_allele = "TT" then rs12755054="0";
else if rs12755054_allele ="TC" then rs12755054="1";
else if rs12755054_allele ="CT" then rs12755054="1";
else if rs12755054_allele ="CC" then rs12755054="2";
else rs12755054 = "5";
if rs12116643_allele = "TT" then rs12116643="0";
else if rs12116643_allele ="TC" then rs12116643="1";
else if rs12116643_allele ="CT" then rs12116643="1";
else if rs12116643_allele ="CC" then rs12116643="2";
else rs12116643 = "5";
if rs10922153_allele = "GG" then rs10922153="0";
else if rs10922153_allele ="GT" then rs10922153="1";
else if rs10922153_allele ="TG" then rs10922153="1";
else if rs10922153_allele ="TT" then rs10922153="2";
else rs10922153 = "5";
if rs17610618_allele = "CC" then rs17610618="0";
else if rs17610618_allele ="CT" then rs17610618="1";
else if rs17610618_allele ="TC" then rs17610618="1";
else if rs17610618_allele ="TT" then rs17610618="2";
else rs17610618 = "5";
if rs1326270_allele = "GG" then rs1326270 ="0";
else if rs1326270_allele ="GA" then rs1326270 ="1";
else if rs1326270_allele ="AG" then rs1326270 ="1";
else if rs1326270_allele ="AA" then rs1326270 ="2";
else rs1326270 = "5";
if rs1326272_allele = "TT" then rs1326272 ="0";
else if rs1326272_allele ="TG" then rs1326272 ="1";
else if rs1326272_allele ="GT" then rs1326272 ="1";
else if rs1326272_allele ="GG" then rs1326272 ="2";
else rs1326272 = "5";
if rs10922468_allele = "TT" then rs10922468="0";
else if rs10922468_allele ="TG" then rs10922468="1";
else if rs10922468_allele ="GT" then rs10922468="1";
else if rs10922468_allele ="GG" then rs10922468="2";
else rs10922468 = "5";
if rs3767736_allele = "TT" then rs3767736 ="0";
else if rs3767736_allele ="TC" then rs3767736 ="1";
else if rs3767736_allele ="CT" then rs3767736 ="1";
else if rs3767736_allele ="CC" then rs3767736 ="2";
else rs3767736 = "5";
if rs1326274_allele = "GG" then rs1326274 ="0";
else if rs1326274_allele ="GC" then rs1326274 ="1";
else if rs1326274_allele ="CG" then rs1326274 ="1";
else if rs1326274_allele ="CC" then rs1326274 ="2";
else rs1326274 = "5";
if rs1052238_allele = "CC" then rs1052238 ="0";
else if rs1052238_allele ="CT" then rs1052238 ="1";
else if rs1052238_allele ="TC" then rs1052238 ="1";
else if rs1052238_allele ="TT" then rs1052238 ="2";
else rs1052238 = "5";
if rs3767742_allele = "CC" then rs3767742 ="0";
else if rs3767742_allele ="CT" then rs3767742 ="1";
else if rs3767742_allele ="TC" then rs3767742 ="1";
else if rs3767742_allele ="TT" then rs3767742 ="2";
else rs3767742 = "5";
if rs3767747_allele = "GG" then rs3767747 ="0";
else if rs3767747_allele ="GA" then rs3767747 ="1";
else if rs3767747_allele ="AG" then rs3767747 ="1";
else if rs3767747_allele ="AA" then rs3767747 ="2";
else rs3767747 = "5";
if rs12406698_allele = "CC" then rs12406698="0";
else if rs12406698_allele ="CA" then rs12406698="1";
else if rs12406698_allele ="AC" then rs12406698="1";
else if rs12406698_allele ="AA" then rs12406698="2";
else rs12406698 = "5";
if rs16843742_allele = "TT" then rs16843742="0";
else if rs16843742_allele ="TC" then rs16843742="1";
else if rs16843742_allele ="CT" then rs16843742="1";
else if rs16843742_allele ="CC" then rs16843742="2";
else rs16843742 = "5";
if rs10800584_allele = "CC" then rs10800584="0";
else if rs10800584_allele ="CT" then rs10800584="1";
else if rs10800584_allele ="TC" then rs10800584="1";
else if rs10800584_allele ="TT" then rs10800584="2";
else rs10800584 = "5";
if rs10919560_allele = "AA" then rs10919560="0";
else if rs10919560_allele ="AG" then rs10919560="1";
else if rs10919560_allele ="GA" then rs10919560="1";
else if rs10919560_allele ="GG" then rs10919560="2";
else rs10919560 = "5";
if rs10919563_allele = "GG" then rs10919563="0";
else if rs10919563_allele ="GA" then rs10919563="1";
else if rs10919563_allele ="AG" then rs10919563="1";
else if rs10919563_allele ="AA" then rs10919563="2";
else rs10919563 = "5";
if rs1932433_allele = "CC" then rs1932433 ="0";
else if rs1932433_allele ="CT" then rs1932433 ="1";
else if rs1932433_allele ="TC" then rs1932433 ="1";
else if rs1932433_allele ="TT" then rs1932433 ="2";
else rs1932433 = "5";
if rs17670373_allele = "AA" then rs17670373="0";
else if rs17670373_allele ="AG" then rs17670373="1";
else if rs17670373_allele ="GA" then rs17670373="1";
else if rs17670373_allele ="GG" then rs17670373="2";
else rs17670373 = "5";
if rs12258692_allele = "GG" then rs12258692="0";
else if rs12258692_allele ="GC" then rs12258692="1";
else if rs12258692_allele ="CG" then rs12258692="1";
else if rs12258692_allele ="CC" then rs12258692="2";
else rs12258692 = "5";
if rs4405249_allele = "CC" then rs4405249 ="0";
else if rs4405249_allele ="CT" then rs4405249 ="1";
else if rs4405249_allele ="TC" then rs4405249 ="1";
else if rs4405249_allele ="TT" then rs4405249 ="2";
else rs4405249 = "5";
if rs1045216_allele = "GG" then rs1045216 ="0";
else if rs1045216_allele ="GA" then rs1045216 ="1";
else if rs1045216_allele ="AG" then rs1045216 ="1";
else if rs1045216_allele ="AA" then rs1045216 ="2";
else rs1045216 = "5";
if rs4146894_allele = "AA" then rs4146894 ="0";
else if rs4146894_allele ="AG" then rs4146894 ="1";
else if rs4146894_allele ="GA" then rs4146894 ="1";
else if rs4146894_allele ="GG" then rs4146894 ="2";
else rs4146894 = "5";
if rs10490923_allele = "GG" then rs10490923="0";
else if rs10490923_allele ="GA" then rs10490923="1";
else if rs10490923_allele ="AG" then rs10490923="1";
else if rs10490923_allele ="AA" then rs10490923="2";
else rs10490923 = "5";
if rs3750848_allele = "AA" then rs3750848 ="0";
else if rs3750848_allele ="AC" then rs3750848 ="1";
else if rs3750848_allele ="CA" then rs3750848 ="1";
else if rs3750848_allele ="CC" then rs3750848 ="2";
else rs3750848 = "5";
if rs2736911_allele = "CC" then rs2736911 ="0";
else if rs2736911_allele ="CT" then rs2736911 ="1";
else if rs2736911_allele ="TC" then rs2736911 ="1";
else if rs2736911_allele ="TT" then rs2736911 ="2";
else rs2736911 = "5";
if rs3750846_allele = "AA" then rs3750846 ="0";
else if rs3750846_allele ="AG" then rs3750846 ="1";
else if rs3750846_allele ="GA" then rs3750846 ="1";
else if rs3750846_allele ="GG" then rs3750846 ="2";
else rs3750846 = "5";
if rs760336_allele = "TT" then rs760336 ="0";
else if rs760336_allele ="TC" then rs760336 ="1";
else if rs760336_allele ="CT" then rs760336 ="1";
else if rs760336_allele ="CC" then rs760336 ="2";
else rs760336 = "5";
if rs1803403_allele = "GG" then rs1803403 ="0";
else if rs1803403_allele ="GT" then rs1803403 ="1";
else if rs1803403_allele ="TG" then rs1803403 ="1";
else if rs1803403_allele ="TT" then rs1803403 ="2";
else rs1803403 = "5";
if rs1061147_allele = "AA" then rs1061147 ="0";
else if rs1061147_allele ="AC" then rs1061147 ="1";
else if rs1061147_allele ="CA" then rs1061147 ="1";
else if rs1061147_allele ="CC" then rs1061147 ="2";
else rs1061147 = "5";
if rs1065489_allele = "GG" then rs1065489 ="0";
else if rs1065489_allele ="GT" then rs1065489 ="1";
else if rs1065489_allele ="TG" then rs1065489 ="1";
else if rs1065489_allele ="TT" then rs1065489 ="2";
else rs1065489 = "5";
if rs10801561_allele = "TT" then rs10801561="0";
else if rs10801561_allele ="TA" then rs10801561="1";
else if rs10801561_allele ="AT" then rs10801561="1";
else if rs10801561_allele ="AA" then rs10801561="2";
else rs10801561 = "5";
if rs10967213_allele = "TT" then rs10967213="0";
else if rs10967213_allele ="TG" then rs10967213="1";
else if rs10967213_allele ="GT" then rs10967213="1";
else if rs10967213_allele ="GG" then rs10967213="2";
else rs10967213 = "5";
if rs12314259_allele = "CC" then rs12314259="0";
else if rs12314259_allele ="CG" then rs12314259="1";
else if rs12314259_allele ="GC" then rs12314259="1";
else if rs12314259_allele ="GG" then rs12314259="2";
else rs12314259 = "5";
if rs1329421_allele = "TT" then rs1329421 ="0";
else if rs1329421_allele ="TA" then rs1329421 ="1";
else if rs1329421_allele ="AT" then rs1329421 ="1";
else if rs1329421_allele ="AA" then rs1329421 ="2";
else rs1329421 = "5";
if rs1329423_allele = "AA" then rs1329423 ="0";
else if rs1329423_allele ="AG" then rs1329423 ="1";
else if rs1329423_allele ="GA" then rs1329423 ="1";
else if rs1329423_allele ="GG" then rs1329423 ="2";
else rs1329423 = "5";
if rs16840419_allele = "AA" then rs16840419="0";
else if rs16840419_allele ="AG" then rs16840419="1";
else if rs16840419_allele ="GA" then rs16840419="1";
else if rs16840419_allele ="GG" then rs16840419="2";
else rs16840419 = "5";
if rs2010963_allele = "GG" then rs2010963 ="0";
else if rs2010963_allele ="GC" then rs2010963 ="1";
else if rs2010963_allele ="CG" then rs2010963 ="1";
else if rs2010963_allele ="CC" then rs2010963 ="2";
else rs2010963 = "5";
if rs2019727_allele = "AA" then rs2019727 ="0";
else if rs2019727_allele ="AT" then rs2019727 ="1";
else if rs2019727_allele ="TA" then rs2019727 ="1";
else if rs2019727_allele ="TT" then rs2019727 ="2";
else rs2019727 = "5";
if rs203674_allele = "CC" then rs203674 ="0";
else if rs203674_allele ="CA" then rs203674 ="1";
else if rs203674_allele ="AC" then rs203674 ="1";
else if rs203674_allele ="AA" then rs203674 ="2";
else rs203674 = "5";
if rs2284396_allele = "TT" then rs2284396 ="0";
else if rs2284396_allele ="TC" then rs2284396 ="1";
else if rs2284396_allele ="CT" then rs2284396 ="1";
else if rs2284396_allele ="CC" then rs2284396 ="2";
else rs2284396 = "5";
if rs2290465_allele = "CC" then rs2290465 ="0";
else if rs2290465_allele ="CG" then rs2290465 ="1";
else if rs2290465_allele ="GC" then rs2290465 ="1";
else if rs2290465_allele ="GG" then rs2290465 ="2";
else rs2290465 = "5";
if rs3753394_allele = "CC" then rs3753394 ="0";
else if rs3753394_allele ="CT" then rs3753394 ="1";
else if rs3753394_allele ="TC" then rs3753394 ="1";
else if rs3753394_allele ="TT" then rs3753394 ="2";
else rs3753394 = "5";
if rs3753396_allele = "AA" then rs3753396 ="0";
else if rs3753396_allele ="AG" then rs3753396 ="1";
else if rs3753396_allele ="GA" then rs3753396 ="1";
else if rs3753396_allele ="GG" then rs3753396 ="2";
else rs3753396 = "5";
if rs3766404_allele = "TT" then rs3766404 ="0";
else if rs3766404_allele ="TC" then rs3766404 ="1";
else if rs3766404_allele ="CT" then rs3766404 ="1";
else if rs3766404_allele ="CC" then rs3766404 ="2";
else rs3766404 = "5";
if rs3811040_allele = "AA" then rs3811040 ="0";
else if rs3811040_allele ="AG" then rs3811040 ="1";
else if rs3811040_allele ="GA" then rs3811040 ="1";
else if rs3811040_allele ="GG" then rs3811040 ="2";
else rs3811040 = "5";
if rs3812153_allele = "AA" then rs3812153 ="0";
else if rs3812153_allele ="AG" then rs3812153 ="1";
else if rs3812153_allele ="GA" then rs3812153 ="1";
else if rs3812153_allele ="GG" then rs3812153 ="2";
else rs3812153 = "5";
if rs419137_allele = "AA" then rs419137 ="0";
else if rs419137_allele ="AC" then rs419137 ="1";
else if rs419137_allele ="CA" then rs419137 ="1";
else if rs419137_allele ="CC" then rs419137 ="2";
else rs419137 = "5";
if rs4230_allele = "GG" then rs4230 ="0";
else if rs4230_allele ="GT" then rs4230 ="1";
else if rs4230_allele ="TG" then rs4230 ="1";
else if rs4230_allele ="TT" then rs4230 ="2";
else rs4230 = "5";
if rs4477532_allele = "GG" then rs4477532 ="0";
else if rs4477532_allele ="GA" then rs4477532 ="1";
else if rs4477532_allele ="AG" then rs4477532 ="1";
else if rs4477532_allele ="AA" then rs4477532 ="2";
else rs4477532 = "5";
if rs4848298_allele = "AA" then rs4848298 ="0";
else if rs4848298_allele ="AG" then rs4848298 ="1";
else if rs4848298_allele ="GA" then rs4848298 ="1";
else if rs4848298_allele ="GG" then rs4848298 ="2";
else rs4848298 = "5";
if rs529825_allele = "CC" then rs529825 ="0";
else if rs529825_allele ="CT" then rs529825 ="1";
else if rs529825_allele ="TC" then rs529825 ="1";
else if rs529825_allele ="TT" then rs529825 ="2";
else rs529825 = "5";
if rs6428379_allele = "CC" then rs6428379 ="0";
else if rs6428379_allele ="CT" then rs6428379 ="1";
else if rs6428379_allele ="TC" then rs6428379 ="1";
else if rs6428379_allele ="TT" then rs6428379 ="2";
else rs6428379 = "5";
if rs70620_allele = "CC" then rs70620 ="0";
else if rs70620_allele ="CT" then rs70620 ="1";
else if rs70620_allele ="TC" then rs70620 ="1";
else if rs70620_allele ="TT" then rs70620 ="2";
else rs70620 = "5";
if rs7294695_allele = "CC" then rs7294695 ="0";
else if rs7294695_allele ="CG" then rs7294695 ="1";
else if rs7294695_allele ="GC" then rs7294695 ="1";
else if rs7294695_allele ="GG" then rs7294695 ="2";
else rs7294695 = "5";
if rs7551203_allele = "CC" then rs7551203 ="0";
else if rs7551203_allele ="CT" then rs7551203 ="1";
else if rs7551203_allele ="TC" then rs7551203 ="1";
else if rs7551203_allele ="TT" then rs7551203 ="2";
else rs7551203 = "5";
if rs908551_allele = " " then rs908551 ="0";
else if rs908551_allele =" " then rs908551 ="1";
else if rs908551_allele =" " then rs908551 ="1";
else if rs908551_allele =" " then rs908551 ="2";
else rs908551 = "5";
if rs1805287_allele = " " then rs1805287 ="0";
else if rs1805287_allele =" " then rs1805287 ="1";
else if rs1805287_allele =" " then rs1805287 ="1";
else if rs1805287_allele =" " then rs1805287 ="2";
else rs1805287 = "5";
if rs388862_allele = " " then rs388862 ="0";
else if rs388862_allele =" " then rs388862 ="1";
else if rs388862_allele =" " then rs388862 ="1";
else if rs388862_allele =" " then rs388862 ="2";
else rs388862 = "5";
year="PB";
run;
libname myoracle odbc
noprompt="uid=HagemanDB;pwd=phas112;dsn=OracleExpress;" preserve_tab_names=yes;;
run;
proc sql;
create table missingids
as select year, full_hageman_nbr, full_hageman_nbr as nbr1,
'' as nbr2, '' as nbr3
from paul_baird_data
where full_hageman_nbr not in
(select mhn_full_hageman_nbr from
myoracle.mhn_master_hageman_numbers);
quit;
proc sql;
INSERT INTO myoracle.mhn_master_hageman_numbers
(mhn_year,
mhn_full_hageman_nbr,
mhn_hageman_nbr1,
mhn_hageman_nbr2,
mhn_hageman_nbr3)
select year, full_hageman_nbr, full_hageman_nbr as nbr1,
'' as nbr2, '' as nbr3
from missingids;
quit;
proc sql;
connect TO ODBC (dsn=OracleExpress user=HagemanDB pw=phas112);
select * from connection to odbc
(drop table "pbd_paul_baird_data" );
disconnect from odbc;
quit;
run;
proc sql;
connect TO ODBC (dsn=OracleExpress user=HagemanDB pw=phas112);
select * from connection to odbc
(CREATE table "pbd_paul_baird_data"
( "pbd_year" VARCHAR2(50),
"pbd_full_hageman_nbr" VARCHAR2(50),
"pbd_diseasesubtype" VARCHAR2(50),
"pbd_gender" VARCHAR2(50),
"pbd_ageofdiagnosis" VARCHAR2(50),
"pbd_smoking" VARCHAR2(50),
"pbd_disbin" VARCHAR2(50),
"pbd_diseas4" VARCHAR2(50),
"pbd_diseas3" VARCHAR2(50),
"pbd_rs1047286_allele" VARCHAR2(50),
"pbd_rs11085197_allele" VARCHAR2(50),
"pbd_rs2230199_allele" VARCHAR2(50),
"pbd_rs2230204_allele" VARCHAR2(50),
"pbd_rs2547438_allele" VARCHAR2(50),
"pbd_rs432823_allele" VARCHAR2(50),
"pbd_rs3783550_allele" VARCHAR2(50),
"pbd_rs2856838_allele" VARCHAR2(50),
"pbd_rs1878320_allele" VARCHAR2(50),
"pbd_rs2734335_allele" VARCHAR2(50),
"pbd_rs3020644_allele" VARCHAR2(50),
"pbd_rs7746553_allele" VARCHAR2(50),
"pbd_rs1048709_allele" VARCHAR2(50),
"pbd_rs537160_allele" VARCHAR2(50),
"pbd_rs2072633_allele" VARCHAR2(50),
"pbd_rs9332739_allele" VARCHAR2(50),
"pbd_rs547154_allele" VARCHAR2(50),
"pbd_rs4151667_allele" VARCHAR2(50),
"pbd_rs641153_allele" VARCHAR2(50),
"pbd_rs4151659_allele" VARCHAR2(50),
"pbd_rs1061170_allele" VARCHAR2(50),
"pbd_rs800292_allele" VARCHAR2(50),
"pbd_rs2274700_allele" VARCHAR2(50),
"pbd_rs393955_allele" VARCHAR2(50),
"pbd_rs7084349_allele" VARCHAR2(50),
"pbd_rs10082476_allele" VARCHAR2(50),
"pbd_rs10887148_allele" VARCHAR2(50),
"pbd_rs10887149_allele" VARCHAR2(50),
"pbd_rs2292626_allele" VARCHAR2(50),
"pbd_rs7918867_allele" VARCHAR2(50),
"pbd_rs182907_allele" VARCHAR2(50),
"pbd_rs2014307_allele" VARCHAR2(50),
"pbd_rs3793917_allele" VARCHAR2(50),
"pbd_rs10490924_allele" VARCHAR2(50),
"pbd_rs11200638_allele" VARCHAR2(50),
"pbd_rs2736914_allele" VARCHAR2(50),
"pbd_rs2672591_allele" VARCHAR2(50),
"pbd_rs7093894_allele" VARCHAR2(50),
"pbd_rs4752699_allele" VARCHAR2(50),
"pbd_rs2672590_allele" VARCHAR2(50),
"pbd_rs2672588_allele" VARCHAR2(50),
"pbd_rs2672587_allele" VARCHAR2(50),
"pbd_rs4237540_allele" VARCHAR2(50),
"pbd_rs2736917_allele" VARCHAR2(50),
"pbd_rs2300431_allele" VARCHAR2(50),
"pbd_rs2736919_allele" VARCHAR2(50),
"pbd_rs11200651_allele" VARCHAR2(50),
"pbd_rs763720_allele" VARCHAR2(50),
"pbd_rs876790_allele" VARCHAR2(50),
"pbd_rs2250804_allele" VARCHAR2(50),
"pbd_rs2268356_allele" VARCHAR2(50),
"pbd_rs833061_allele" VARCHAR2(50),
"pbd_rs25648_allele" VARCHAR2(50),
"pbd_rs3024997_allele" VARCHAR2(50),
"pbd_rs2146323_allele" VARCHAR2(50),
"pbd_rs3025030_allele" VARCHAR2(50),
"pbd_rs3025035_allele" VARCHAR2(50),
"pbd_rs10434_allele" VARCHAR2(50),
"pbd_rs385390_allele" VARCHAR2(50),
"pbd_rs370789_allele" VARCHAR2(50),
"pbd_rs438781_allele" VARCHAR2(50),
"pbd_rs16840639_allele" VARCHAR2(50),
"pbd_rs16840658_allele" VARCHAR2(50),
"pbd_rs10922146_allele" VARCHAR2(50),
"pbd_rs6428365_allele" VARCHAR2(50),
"pbd_rs12240143_allele" VARCHAR2(50),
"pbd_rs11811456_allele" VARCHAR2(50),
"pbd_rs1853883_allele" VARCHAR2(50),
"pbd_rs1971579_allele" VARCHAR2(50),
"pbd_rs436719_allele" VARCHAR2(50),
"pbd_rs1853881_allele" VARCHAR2(50),
"pbd_rs9427938_allele" VARCHAR2(50),
"pbd_rs6669207_allele" VARCHAR2(50),
"pbd_rs6667243_allele" VARCHAR2(50),
"pbd_rs9427657_allele" VARCHAR2(50),
"pbd_rs3748557_allele" VARCHAR2(50),
"pbd_rs12755054_allele" VARCHAR2(50),
"pbd_rs12116643_allele" VARCHAR2(50),
"pbd_rs10922153_allele" VARCHAR2(50),
"pbd_rs17610618_allele" VARCHAR2(50),
"pbd_rs1326270_allele" VARCHAR2(50),
"pbd_rs1326272_allele" VARCHAR2(50),
"pbd_rs10922468_allele" VARCHAR2(50),
"pbd_rs3767736_allele" VARCHAR2(50),
"pbd_rs1326274_allele" VARCHAR2(50),
"pbd_rs1052238_allele" VARCHAR2(50),
"pbd_rs3767742_allele" VARCHAR2(50),
"pbd_rs3767747_allele" VARCHAR2(50),
"pbd_rs12406698_allele" VARCHAR2(50),
"pbd_rs16843742_allele" VARCHAR2(50),
"pbd_rs10800584_allele" VARCHAR2(50),
"pbd_rs10919560_allele" VARCHAR2(50),
"pbd_rs10919563_allele" VARCHAR2(50),
"pbd_rs1932433_allele" VARCHAR2(50),
"pbd_rs17670373_allele" VARCHAR2(50),
"pbd_rs12258692_allele" VARCHAR2(50),
"pbd_rs4405249_allele" VARCHAR2(50),
"pbd_rs1045216_allele" VARCHAR2(50),
"pbd_rs4146894_allele" VARCHAR2(50),
"pbd_rs10490923_allele" VARCHAR2(50),
"pbd_rs3750848_allele" VARCHAR2(50),
"pbd_rs2736911_allele" VARCHAR2(50),
"pbd_rs3750846_allele" VARCHAR2(50),
"pbd_rs760336_allele" VARCHAR2(50),
"pbd_rs1803403_allele" VARCHAR2(50),
"pbd_rs1061147_allele" VARCHAR2(50),
"pbd_rs1065489_allele" VARCHAR2(50),
"pbd_rs10801561_allele" VARCHAR2(50),
"pbd_rs10967213_allele" VARCHAR2(50),
"pbd_rs12314259_allele" VARCHAR2(50),
"pbd_rs1329421_allele" VARCHAR2(50),
"pbd_rs1329423_allele" VARCHAR2(50),
"pbd_rs16840419_allele" VARCHAR2(50),
"pbd_rs2010963_allele" VARCHAR2(50),
"pbd_rs2019727_allele" VARCHAR2(50),
"pbd_rs203674_allele" VARCHAR2(50),
"pbd_rs2284396_allele" VARCHAR2(50),
"pbd_rs2290465_allele" VARCHAR2(50),
"pbd_rs3753394_allele" VARCHAR2(50),
"pbd_rs3753396_allele" VARCHAR2(50),
"pbd_rs3766404_allele" VARCHAR2(50),
"pbd_rs3811040_allele" VARCHAR2(50),
"pbd_rs3812153_allele" VARCHAR2(50),
"pbd_rs419137_allele" VARCHAR2(50),
"pbd_rs4230_allele" VARCHAR2(50),
"pbd_rs4477532_allele" VARCHAR2(50),
"pbd_rs4848298_allele" VARCHAR2(50),
"pbd_rs529825_allele" VARCHAR2(50),
"pbd_rs6428379_allele" VARCHAR2(50),
"pbd_rs70620_allele" VARCHAR2(50),
"pbd_rs7294695_allele" VARCHAR2(50),
"pbd_rs7551203_allele" VARCHAR2(50),
"pbd_rs908551_allele" VARCHAR2(50),
"pbd_rs1805287_allele" VARCHAR2(50),
"pbd_rs388862_allele" VARCHAR2(50),
"pbd_rs1047286" VARCHAR2(50),
"pbd_rs11085197" VARCHAR2(50),
"pbd_rs2230199" VARCHAR2(50),
"pbd_rs2230204" VARCHAR2(50),
"pbd_rs2547438" VARCHAR2(50),
"pbd_rs432823" VARCHAR2(50),
"pbd_rs3783550" VARCHAR2(50),
"pbd_rs2856838" VARCHAR2(50),
"pbd_rs1878320" VARCHAR2(50),
"pbd_rs2734335" VARCHAR2(50),
"pbd_rs3020644" VARCHAR2(50),
"pbd_rs7746553" VARCHAR2(50),
"pbd_rs1048709" VARCHAR2(50),
"pbd_rs537160" VARCHAR2(50),
"pbd_rs2072633" VARCHAR2(50),
"pbd_rs9332739" VARCHAR2(50),
"pbd_rs547154" VARCHAR2(50),
"pbd_rs4151667" VARCHAR2(50),
"pbd_rs641153" VARCHAR2(50),
"pbd_rs4151659" VARCHAR2(50),
"pbd_rs1061170" VARCHAR2(50),
"pbd_rs800292" VARCHAR2(50),
"pbd_rs2274700" VARCHAR2(50),
"pbd_rs393955" VARCHAR2(50),
"pbd_rs7084349" VARCHAR2(50),
"pbd_rs10082476" VARCHAR2(50),
"pbd_rs10887148" VARCHAR2(50),
"pbd_rs10887149" VARCHAR2(50),
"pbd_rs2292626" VARCHAR2(50),
"pbd_rs7918867" VARCHAR2(50),
"pbd_rs182907" VARCHAR2(50),
"pbd_rs2014307" VARCHAR2(50),
"pbd_rs3793917" VARCHAR2(50),
"pbd_rs10490924" VARCHAR2(50),
"pbd_rs11200638" VARCHAR2(50),
"pbd_rs2736914" VARCHAR2(50),
"pbd_rs2672591" VARCHAR2(50),
"pbd_rs7093894" VARCHAR2(50),
"pbd_rs4752699" VARCHAR2(50),
"pbd_rs2672590" VARCHAR2(50),
"pbd_rs2672588" VARCHAR2(50),
"pbd_rs2672587" VARCHAR2(50),
"pbd_rs4237540" VARCHAR2(50),
"pbd_rs2736917" VARCHAR2(50),
"pbd_rs2300431" VARCHAR2(50),
"pbd_rs2736919" VARCHAR2(50),
"pbd_rs11200651" VARCHAR2(50),
"pbd_rs763720" VARCHAR2(50),
"pbd_rs876790" VARCHAR2(50),
"pbd_rs2250804" VARCHAR2(50),
"pbd_rs2268356" VARCHAR2(50),
"pbd_rs833061" VARCHAR2(50),
"pbd_rs25648" VARCHAR2(50),
"pbd_rs3024997" VARCHAR2(50),
"pbd_rs2146323" VARCHAR2(50),
"pbd_rs3025030" VARCHAR2(50),
"pbd_rs3025035" VARCHAR2(50),
"pbd_rs10434" VARCHAR2(50),
"pbd_rs385390" VARCHAR2(50),
"pbd_rs370789" VARCHAR2(50),
"pbd_rs438781" VARCHAR2(50),
"pbd_rs16840639" VARCHAR2(50),
"pbd_rs16840658" VARCHAR2(50),
"pbd_rs10922146" VARCHAR2(50),
"pbd_rs6428365" VARCHAR2(50),
"pbd_rs12240143" VARCHAR2(50),
"pbd_rs11811456" VARCHAR2(50),
"pbd_rs1853883" VARCHAR2(50),
"pbd_rs1971579" VARCHAR2(50),
"pbd_rs436719" VARCHAR2(50),
"pbd_rs1853881" VARCHAR2(50),
"pbd_rs9427938" VARCHAR2(50),
"pbd_rs6669207" VARCHAR2(50),
"pbd_rs6667243" VARCHAR2(50),
"pbd_rs9427657" VARCHAR2(50),
"pbd_rs3748557" VARCHAR2(50),
"pbd_rs12755054" VARCHAR2(50),
"pbd_rs12116643" VARCHAR2(50),
"pbd_rs10922153" VARCHAR2(50),
"pbd_rs17610618" VARCHAR2(50),
"pbd_rs1326270" VARCHAR2(50),
"pbd_rs1326272" VARCHAR2(50),
"pbd_rs10922468" VARCHAR2(50),
"pbd_rs3767736" VARCHAR2(50),
"pbd_rs1326274" VARCHAR2(50),
"pbd_rs1052238" VARCHAR2(50),
"pbd_rs3767742" VARCHAR2(50),
"pbd_rs3767747" VARCHAR2(50),
"pbd_rs12406698" VARCHAR2(50),
"pbd_rs16843742" VARCHAR2(50),
"pbd_rs10800584" VARCHAR2(50),
"pbd_rs10919560" VARCHAR2(50),
"pbd_rs10919563" VARCHAR2(50),
"pbd_rs1932433" VARCHAR2(50),
"pbd_rs17670373" VARCHAR2(50),
"pbd_rs12258692" VARCHAR2(50),
"pbd_rs4405249" VARCHAR2(50),
"pbd_rs1045216" VARCHAR2(50),
"pbd_rs4146894" VARCHAR2(50),
"pbd_rs10490923" VARCHAR2(50),
"pbd_rs3750848" VARCHAR2(50),
"pbd_rs2736911" VARCHAR2(50),
"pbd_rs3750846" VARCHAR2(50),
"pbd_rs760336" VARCHAR2(50),
"pbd_rs1803403" VARCHAR2(50),
"pbd_rs1061147" VARCHAR2(50),
"pbd_rs1065489" VARCHAR2(50),
"pbd_rs10801561" VARCHAR2(50),
"pbd_rs10967213" VARCHAR2(50),
"pbd_rs12314259" VARCHAR2(50),
"pbd_rs1329421" VARCHAR2(50),
"pbd_rs1329423" VARCHAR2(50),
"pbd_rs16840419" VARCHAR2(50),
"pbd_rs2010963" VARCHAR2(50),
"pbd_rs2019727" VARCHAR2(50),
"pbd_rs203674" VARCHAR2(50),
"pbd_rs2284396" VARCHAR2(50),
"pbd_rs2290465" VARCHAR2(50),
"pbd_rs3753394" VARCHAR2(50),
"pbd_rs3753396" VARCHAR2(50),
"pbd_rs3766404" VARCHAR2(50),
"pbd_rs3811040" VARCHAR2(50),
"pbd_rs3812153" VARCHAR2(50),
"pbd_rs419137" VARCHAR2(50),
"pbd_rs4230" VARCHAR2(50),
"pbd_rs4477532" VARCHAR2(50),
"pbd_rs4848298" VARCHAR2(50),
"pbd_rs529825" VARCHAR2(50),
"pbd_rs6428379" VARCHAR2(50),
"pbd_rs70620" VARCHAR2(50),
"pbd_rs7294695" VARCHAR2(50),
"pbd_rs7551203" VARCHAR2(50),
"pbd_rs908551" VARCHAR2(50),
"pbd_rs1805287" VARCHAR2(50),
"pbd_rs388862" VARCHAR2(50)));
disconnect from odbc;
quit;
run;
proc sql;
INSERT INTO myoracle.pbd_paul_baird_data
(pbd_year,
pbd_full_hageman_nbr,
pbd_diseasesubtype,
pbd_gender,
pbd_ageofdiagnosis,
pbd_smoking,
pbd_disbin,
pbd_diseas4,
pbd_diseas3,
pbd_rs1047286_allele,
pbd_rs11085197_allele,
pbd_rs2230199_allele,
pbd_rs2230204_allele,
pbd_rs2547438_allele,
pbd_rs432823_allele,
pbd_rs3783550_allele,
pbd_rs2856838_allele,
pbd_rs1878320_allele,
pbd_rs2734335_allele,
pbd_rs3020644_allele,
pbd_rs7746553_allele,
pbd_rs1048709_allele,
pbd_rs537160_allele,
pbd_rs2072633_allele,
pbd_rs9332739_allele,
pbd_rs547154_allele,
pbd_rs4151667_allele,
pbd_rs641153_allele,
pbd_rs4151659_allele,
pbd_rs1061170_allele,
pbd_rs800292_allele,
pbd_rs2274700_allele,
pbd_rs393955_allele,
pbd_rs7084349_allele,
pbd_rs10082476_allele,
pbd_rs10887148_allele,
pbd_rs10887149_allele,
pbd_rs2292626_allele,
pbd_rs7918867_allele,
pbd_rs182907_allele,
pbd_rs2014307_allele,
pbd_rs3793917_allele,
pbd_rs10490924_allele,
pbd_rs11200638_allele,
pbd_rs2736914_allele,
pbd_rs2672591_allele,
pbd_rs7093894_allele,
pbd_rs4752699_allele,
pbd_rs2672590_allele,
pbd_rs2672588_allele,
pbd_rs2672587_allele,
pbd_rs4237540_allele,
pbd_rs2736917_allele,
pbd_rs2300431_allele,
pbd_rs2736919_allele,
pbd_rs11200651_allele,
pbd_rs763720_allele,
pbd_rs876790_allele,
pbd_rs2250804_allele,
pbd_rs2268356_allele,
pbd_rs833061_allele,
pbd_rs25648_allele,
pbd_rs3024997_allele,
pbd_rs2146323_allele,
pbd_rs3025030_allele,
pbd_rs3025035_allele,
pbd_rs10434_allele,
pbd_rs385390_allele,
pbd_rs370789_allele,
pbd_rs438781_allele,
pbd_rs16840639_allele,
pbd_rs16840658_allele,
pbd_rs10922146_allele,
pbd_rs6428365_allele,
pbd_rs12240143_allele,
pbd_rs11811456_allele,
pbd_rs1853883_allele,
pbd_rs1971579_allele,
pbd_rs436719_allele,
pbd_rs1853881_allele,
pbd_rs9427938_allele,
pbd_rs6669207_allele,
pbd_rs6667243_allele,
pbd_rs9427657_allele,
pbd_rs3748557_allele,
pbd_rs12755054_allele,
pbd_rs12116643_allele,
pbd_rs10922153_allele,
pbd_rs17610618_allele,
pbd_rs1326270_allele,
pbd_rs1326272_allele,
pbd_rs10922468_allele,
pbd_rs3767736_allele,
pbd_rs1326274_allele,
pbd_rs1052238_allele,
pbd_rs3767742_allele,
pbd_rs3767747_allele,
pbd_rs12406698_allele,
pbd_rs16843742_allele,
pbd_rs10800584_allele,
pbd_rs10919560_allele,
pbd_rs10919563_allele,
pbd_rs1932433_allele,
pbd_rs17670373_allele,
pbd_rs12258692_allele,
pbd_rs4405249_allele,
pbd_rs1045216_allele,
pbd_rs4146894_allele,
pbd_rs10490923_allele,
pbd_rs3750848_allele,
pbd_rs2736911_allele,
pbd_rs3750846_allele,
pbd_rs760336_allele,
pbd_rs1803403_allele,
pbd_rs1061147_allele,
pbd_rs1065489_allele,
pbd_rs10801561_allele,
pbd_rs10967213_allele,
pbd_rs12314259_allele,
pbd_rs1329421_allele,
pbd_rs1329423_allele,
pbd_rs16840419_allele,
pbd_rs2010963_allele,
pbd_rs2019727_allele,
pbd_rs203674_allele,
pbd_rs2284396_allele,
pbd_rs2290465_allele,
pbd_rs3753394_allele,
pbd_rs3753396_allele,
pbd_rs3766404_allele,
pbd_rs3811040_allele,
pbd_rs3812153_allele,
pbd_rs419137_allele,
pbd_rs4230_allele,
pbd_rs4477532_allele,
pbd_rs4848298_allele,
pbd_rs529825_allele,
pbd_rs6428379_allele,
pbd_rs70620_allele,
pbd_rs7294695_allele,
pbd_rs7551203_allele,
pbd_rs908551_allele,
pbd_rs1805287_allele,
pbd_rs388862_allele,
pbd_rs1047286,
pbd_rs11085197,
pbd_rs2230199,
pbd_rs2230204,
pbd_rs2547438,
pbd_rs432823,
pbd_rs3783550,
pbd_rs2856838,
pbd_rs1878320,
pbd_rs2734335,
pbd_rs3020644,
pbd_rs7746553, -
At max how many columns is advisable to create in a table/view
Hi All,
I have two transaction table from which i want to create a simple view or materialized view. But the number of columns is about 200. So i want to know at max how many columns is advisable from the performance point of view.
Even though i will create 200 columns in a view , for a perticular client installation i may not use all the columns.
one more thing i will never use 200 columns in the select statement . At a time i will use only 4/5 columns.
It may happen from this four column one column will be the 1st and 2nd column will be the 200th one.
I want to know how it affects the performance and in which scenario . Please help if any body knows or already faced this kind of scenario.
I am using oracle 10g .Annapurna Nayak wrote:
thanks for ur reply .
We are going to use this view in a report , so if i will create it as simple view it will affect report performance. because the view script is too long ...so every time quring to a view will decrease the performance.
Are you asking me if it will? I think it probably won't but of course you have the means to test it to be sure, right?
As u said MV should be done with minimum possible column . what can be the maximum column in MV ..??It would be defined by the limits on:
* The maximum number of columns that a table can contain
* The size of the query needed to define the select statement
* Limitations on queries needed to maintain the data
http://download.oracle.com/docs/cd/B19306_01/server.102/b14237/limits003.htm#i288032 -
Case INSENSITIVE Columns on Oracle
Hello Friends,
Good Monday for everyone....
I would like to ask you guys if there is a way to create a case INSENSITIVE Columns on Oracle. I used on Sqlserver before the COLLATE sintax, and I was able to make a columns (just that one) INSENSITIVE.
I'm using oracle 10gr2 on Windows plataform and herte is my nls_parameters. My ideia is to search on this column without the need of performing a function UPPER and LOWER and etc...
NLS_LANGUAGE BRAZILIAN PORTUGUESE
NLS_TERRITORY BRAZIL
NLS_CURRENCY Cr$
NLS_ISO_CURRENCY BRAZIL
NLS_NUMERIC_CHARACTERS ,.
NLS_CALENDAR GREGORIAN
NLS_DATE_FORMAT DD/MM/RR
NLS_DATE_LANGUAGE BRAZILIAN PORTUGUESE
NLS_CHARACTERSET WE8MSWIN1252
NLS_SORT WEST_EUROPEAN
NLS_TIME_FORMAT HH24:MI:SSXFF
NLS_TIMESTAMP_FORMAT DD/MM/RR HH24:MI:SSXFF
NLS_TIME_TZ_FORMAT HH24:MI:SSXFF TZR
NLS_TIMESTAMP_TZ_FORMAT DD/MM/RR HH24:MI:SSXFF TZR
NLS_DUAL_CURRENCY Cr$
NLS_NCHAR_CHARACTERSET AL16UTF16
NLS_COMP BINARY
NLS_LENGTH_SEMANTICS BYTE
NLS_NCHAR_CONV_EXCP FALSE
tks a lot
KeenAPC wrote:
No, they mean a setting which makes "APC" or "apc" match "Apc".
There is nothing to be done on 10g, other than building a function based index on the column in question, so that any UPPER() searches are optimized.
Well, as Kamran Agayev already noted CI is available in 10g too. It also worth mentioning FBI creates a hidden column. Also, your statement
In 11g we have the option to set the NLS_SORT parameter so that any searches are case-insensitive (or indeed accent insensitive). Find out more.
is incomplete. NLS_SORT affects nothing but sort:
SQL> connect scott
Enter password: *****
Connected.
SQL> select * from v$version
2 /
BANNER
Oracle Database 10g Enterprise Edition Release 10.2.0.4.0 - Prod
PL/SQL Release 10.2.0.4.0 - Production
CORE 10.2.0.4.0 Production
TNS for 32-bit Windows: Version 10.2.0.4.0 - Production
NLSRTL Version 10.2.0.4.0 - Production
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 order by name
12 /
NAM
Joe
Max
Sam
joe
max
sam
6 rows selected.
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 where name = 'max'
12 /
NAM
max
SQL> alter session set nls_sort = binary_ci
2 /
Session altered.
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 order by name
12 /
NAM
Joe
joe
max
Max
Sam
sam
6 rows selected.
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 where name = 'max'
12 /
NAM
max
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 where name like 'm%'
12 /
NAM
max
SQL> select 'Max' name from dual union
2 select 'max' name from dual
3 /
NAM
Max
max
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select distinct name
10 from t
11 /
NAM
sam
Joe
joe
max
Sam
Max
6 rows selected.
SQL> As you can see, NLS_SORT alone works on sort but not on "searches". We also need to set NLS_COMP, which by default is BINARY. Prior to 10g R2 (I am not 100% sure, it could be prior 10g), the only NLS_COMP choice, besides BINARY, was ANSI. However, ANSI does not work with all comparison operators (e.g. does not work for LIKE, UNION, DISTINCT):
SQL> alter session set nls_sort = binary_ci
2 /
Session altered.
SQL> alter session set nls_comp=ansi
2 /
Session altered.
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 order by name
12 /
NAM
Joe
joe
max
Max
Sam
sam
6 rows selected.
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 where name = 'max'
12 /
NAM
Max
max
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 where name like 'm%'
12 /
NAM
max
SQL> select 'Max' name from dual union
2 select 'max' name from dual
3 /
NAM
Max
max
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select distinct name
10 from t
11 /
NAM
sam
Joe
joe
max
Sam
Max
6 rows selected.
SQL> Starting 10g R2 NLS_COMP can be set to LINGUISTIC, which will also work for LIKE and UNION but not for DISTINCT:
SQL> alter session set nls_sort = binary_ci
2 /
Session altered.
SQL> alter session set nls_comp=linguistic
2 /
Session altered.
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 order by name
12 /
NAM
Joe
joe
max
Max
Sam
sam
6 rows selected.
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 where name = 'max'
12 /
NAM
Max
max
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select name
10 from t
11 where name like 'm%'
12 /
NAM
Max
max
SQL> select 'Max' name from dual union
2 select 'max' name from dual
3 /
NAM
Max
SQL> with t as (
2 select 'Max' name from dual union all
3 select 'sam' name from dual union all
4 select 'Joe' name from dual union all
5 select 'max' name from dual union all
6 select 'joe' name from dual union all
7 select 'Sam' name from dual
8 )
9 select distinct name
10 from t
11 /
NAM
sam
Joe
joe
max
Sam
Max
6 rows selected.
SQL> However even LINGUISTIC does not work with:
• CLOB or NCLOB data types
• Object data types
• Table partitions
• Index-organized tables
SY. -
Streaming data to LONG columns in Oracle 7.3.2.3.0
I am trying to stream data to a LONG column. I'm using Oracle
Server 7.3.2.3.0 on AIX and JDBC driver 8.0.4 on Windows NT 4
SP5.
I include sample tables/programs at the end, but here's the
summary of what's happening:
I'm creating a byte array of length 2500. If I use
setAsciiStream I get the following exception when I execute the
prepared statement:
java.sql.SQLException: Data size bigger than max size for this
type
at oracle.jdbc.dbaccess.DBError.check_error(DBError.java)
at oracle.jdbc.ttc7.TTCItem.setArrayData(TTCItem.java)
at oracle.jdbc.driver.OraclePreparedStatement.setItem
(OraclePreparedStat
ement.java)
at
oracle.jdbc.driver.OraclePreparedStatement.setAsciiStream
(OraclePrepa
redStatement.java)
at TestOracle.main(TestOracle.java:26)
If I use setBinaryStream I get this exception:
java.sql.SQLException: ORA-01461: can bind a LONG value only for
insert into a LONG column
at oracle.jdbc.ttc7.TTIoer.processError(TTIoer.java)
at oracle.jdbc.ttc7.Oall7.receive(Oall7.java)
at oracle.jdbc.ttc7.TTC7Protocol.doOall7
(TTC7Protocol.java)
at oracle.jdbc.ttc7.TTC7Protocol.parseExecuteFetch
(TTC7Protocol.java)
at oracle.jdbc.driver.OracleStatement.doExecuteOther
(OracleStatement.jav
a)
at oracle.jdbc.driver.OracleStatement.doExecuteWithBatch
(OracleStatement
.java)
at oracle.jdbc.driver.OracleStatement.doExecute
(OracleStatement.java)
at
oracle.jdbc.driver.OracleStatement.doExecuteWithTimeout
(OracleStateme
nt.java)
at
oracle.jdbc.driver.OraclePreparedStatement.executeUpdate
(OraclePrepar
edStatement.java)
at oracle.jdbc.driver.OraclePreparedStatement.execute
(OraclePreparedStat
ement.java)
at TestOracle.main(TestOracle.java:27)
My Oracle7 manual states that LONG columns can store 2GB of text.
I tried the above with LONG RAW columns and it worked fine.
Can anyone explain why I get this error? I've tried it with
different sizes and when the data is <2000 bytes it works fine
for LONG columns.
My table is simple:
create table TestLongs (key INTEGER PRIMARY KEY, data LONG);
My Java code is also very simple:
public class TestOracle
public static void main(String[] args)
Connection con = null;
PreparedStatement pstmt = null;
try
Class.forName("oracle.jdbc.driver.OracleDriver");
con = DriverManager.getConnection(
"jdbc:oracle:thin:@itchy:1526:test",
"System", "<OMITTED>");
byte[] data = new byte[2500];
for (int i=0; i< 2500; i++)
data[i] = 53;
String sql = "INSERT INTO TestLongs (key, data)
VALUES(1, ?)";
pstmt = con.prepareStatement(sql);
ByteArrayInputStream bis = new ByteArrayInputStream
(data);
pstmt.setAsciiStream(1, bis, data.length);
pstmt.execute();
catch (SQLException e)
System.err.println("An error occurred with the
database: " + e);
e.printStackTrace();
catch (Exception e)
System.err.println("Oracle JDBC driver not found." +
e);
e.printStackTrace();
finally
try
if (pstmt != null)
pstmt.close();
if (con != null)
con.close();
catch (SQLException e)
System.err.println("Unable to close
statement/connection.");
nullRobert Greig (guest) wrote:
: I am trying to stream data to a LONG column. I'm using Oracle
: Server 7.3.2.3.0 on AIX and JDBC driver 8.0.4 on Windows NT 4
: SP5.
I tried it with the old 7.3.x JDBC driver and it works fine. I
also noticed after further testing that it sometimes worked
with the 8.0.4 driver. Looks like a bug in the 8.0.4 driver or
some wacky incompatibility.
null -
Columns in oracle 10g database
How many maximum columns i can create in a table of oracle 10g database?
This is the twice today :
Max.No. of columns a table can have in oracle9i db.10g?
Why everyone ask the same question ?
Nicolas. -
How to make column range based on a column in Oracle BI 11g
Hello everyone!
I want to know, how to make column range from a column in oracle bi 11g.
for example!
I have a column amounts and I want to build on this with other values of quantity, other column range 1-9,10-49,50-99,100-249, 249 o more.
regards!
when I try to make the range I have error.
Syntax error [nQSError: 26012] . (HY000)
SQL Issued: SELECT CASE WHEN "CUBO_DEEE_TAB"."CANTIDAD" BETWEEN 1 AND 9 THEN 1 a 9 ELSE "CUBO_DEEE_TAB"."CANTIDAD" END FROM "DM_DEEE"
Edited by: 964157 on 09-oct-2012 11:50You cannot add columns dynamically. But you can define a maximum number of numbers and then hide unused columns in your form useing SET_ITEM_PROPERTY(..,VISIBLE, PROPERTY_FALSE);
-
Deleting duplicate rows based on three columns in Oracle 8i
Hi all,
The database we use is Oracle 8i.
The query below raises the too_many_rows exception when I launch an application. So I want to delete the duplicated rows :
select polarisation_1, polarisation_2
into v_pol1_tech, v_pol2_tech
from v_cfh_lien_element
where nom_lien = p_nom_lien
AND num_canal_1 = p_num_canal_1
AND freq_emise_1 = p_freq_emise_1;
Notice that with many possible values of the parameters p_nom_lien, p_num_canal_1 and p_freq_emise_1 then the exception is raised.
So how to delete generally the duplicated rows based on the three columns "nom_lien" , "num_canal_1" and "freq_emise_1" ?
Thank you very much indeed.Check the other thread with same question deleting duplicate rows based on three columns in Oracle 8i
-
How to update html file in clob column in oracle
hi,
please help me how to update html file in clob column in oracle
ThanksThis is your main query as i am able to understand and you want to update your html file into terms columns based on conditions :
SELECT b.terms As terms
FROM chklst_item_x_enrlmnt_type a, prvdr_enrlmnt_agreement b
WHERE a.enrlmnt_type_cid = 1
AND a.chklst_item_cid = b.chklst_item_cid
AND a.chklst_item_cid = 79
AND a.oprtnl_flag = 'A'
AND b.oprtnl_flag = 'A'
AND TRUNC (SYSDATE) BETWEEN b.from_date AND b.TO_DATE;So i suggest below one but you need to create a directory where you can store your html file and then you can update .. And remaining consult Experts suggestions too as your
question is improperly posted . . .
DECLARE
vclob CLOB;
v_bfile BFILE := BFILENAME ('YOUR_DIR', 'filename.html');
BEGIN
SELECT b.terms
INTO vclob
FROM chklst_item_x_enrlmnt_type a, prvdr_enrlmnt_agreement b
WHERE a.enrlmnt_type_cid = 1
AND a.chklst_item_cid = b.chklst_item_cid
AND a.chklst_item_cid = 79
AND a.oprtnl_flag = 'A'
AND b.oprtnl_flag = 'A'
AND TRUNC (SYSDATE) BETWEEN b.from_date AND b.TO_DATE
FOR UPDATE;
DBMS_LOB.fileopen (v_bfile);
DBMS_LOB.loadfromfile (vclob, v_bfile, DBMS_LOB.getlength (v_bfile));
DBMS_LOB.fileclose (v_bfile);
END;
/ Regards.. -
Max size of integer in oracle 10g
Hi,
What will be the max size of integer in oracle 10g
Any idea??
ThanksRead exactly what others have written about integer representation in Oracle and read the rest of the documentation in the Oracle manual about data types and numbers. That is the only way you will learn what you need.
Your code does not work, because you have written it wrong! That is why you need to read the manuals properly and understand them. Then you will know what you should have written, and why your code does not work.
Hi,
its said that the maximum precision for a number is 38 but the below code does execute....
declare
a number;
begin
a :=
111111111111111111111111111111111111111111111111111111
111111111111111111111111111111111111111111111111111111
111111111111111111;
end;
The same if i declare a as integer will fail during execution
Any ideas plz
ThanksA number() is a floating point number. An integer is a fixed point number. There is a difference. Try number (38) as your data type.
By my count you have 126 1's in your number. You have already been told that Oracle stores integers with up to 38 digits. No wonder it fails. Lose about 90 of the 1's and it might work.
John -
Max number of columns in a Webi report
In a worst-case scenario test, I requested about 1700 columns in a Webi report, but only a little more than 300 appeared in the SQL; a TOAD request for the same 1700 columns was successful. Is there an upper limit for the number of objects that can appear in a Webi report? Is there a parameter that could increase the limit?
My eyes read the first half and my brian assumed the second half.
I dont think there is a limitaion on the number of objects that a WebI report can pull.
The only limitation I know of is the maximum number of column that you can display in the report panel; the max number is 100,000.
With the limit on the max number of column diplay in a WebI report can be translated into the max number of columns in the query panel.
This setting is in CMC> Applications>Web Intelligence-->Quick Display mode -
Hi,
What is maximum no of column in Oracle 8i.
Thanks,
Kumar.The maximum no. of columns allowed for a table or view is 1000 only in Oracle 8i(8.1.7).
Sunil. -
Max No. of columns returned in Query Template
Hi All,
Is there any limit to the max number of columns that can be returned for a sql query using the Query Template?
Regards,
ArijeetHi Rick,
I am basically querying a database table which has a large number of columns. Of which I need only a few. Unfortunately though some of the columns I need are not in those that are shown by default when I do a SELECT * or in the list of columns that show up in the Query Template. I am using UDS to connect to the other system and when I try to SELECT the columns which are of interest to me the connection is reset and the UDS Instance for that connection stops. I could access all the columns in the BLS so I am presently using a work around by running an xacute query to show me the data.
Regards,
Arijeet -
How to find encrypted columns in oracle 10g database
Hi,
How to find encrypted columns in oracle 10g database? We can see using view dba_encrypted_columns or all_encrypted_columns .
my question is apart from this is there anyother views or tables?
Thanks..user602872 wrote:
Hi,
How to find encrypted columns in oracle 10g database? We can see using view dba_encrypted_columns or all_encrypted_columns .
my question is apart from this is there anyother views or tables?Hmm not which I could find,
SQL> select * from dict where lower(table_name) like '%encrypted%';
TABLE_NAME
COMMENTS
DBA_ENCRYPTED_COLUMNS
Encryption information on columns in the database
ALL_ENCRYPTED_COLUMNS
Encryption information on all accessible columns
USER_ENCRYPTED_COLUMNS
Encryption information on columns of tables owned by the user
SQL>HTH
Aman.... -
How to create an automatically increment column in Oracle DB Table?
Hi To All
Here I am trying to create a table in Oracle that creates an automatically increment column in Oracle DB Table. i searched almost all Forums.(Even in Oracle). They are saying that, that logic u must implement in Java Code.(*Takes Maximum no from table, add +1 to it, and store it back again)*. apart from this, while creating an table in Oracle, is there any facility like MySQL Database? please help me. Thanks in advance.Hi BalusC
Thanks for Your Response and clue. with that, i succeeded in my application. Thank you very much. here i am giving you the details which i did.
1. I Created a table named orders in Oracle like this.
CREATE TABLE ORDERS (ORDER_ID NUMBER, CUSTOMER_ID NUMBER, ISBN NUMBER,
DESCRIPTION NCHAR(5));
2. I created one sequence in Oracle like CREATE SEQUENCE SEQ01 INCREMENT BY 1 START WITH 1000 3. Then i have written jdbc program like this
import java.sql.Connection;
import java.sql.DriverManager;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
public class SequenceTest {
public static void main(String[] args)throws Exception{
try {
Class.forName("oracle.jdbc.driver.OracleDriver");
Connection con=DriverManager.getConnection("jdbc:oracle:thin:@192.168.1.135:1521:orcl","scott","tiger");
String cols[] = {"ORDER_ID", "DESCRIPTION"};
PreparedStatement pstmt = con.prepareStatement("INSERT INTO ORDERS (ORDER_ID, CUSTOMER_ID, ISBN,DESCRIPTION) VALUES (SEQ01.NEXTVAL, 104, 966431505,?)", cols);
pstmt.setString(1,"Desc3");
pstmt.executeUpdate();
ResultSet rs=pstmt.getGeneratedKeys();
System.out.println("---- One Row Inserted ----");
} catch (Exception e) {
System.out.println("---- Failed Due To "+e);
4. When i ran above program 5 times, i got the following Data into my Oracle Table (select * from orders)
ORDER_ID CUSTOMER_ID ISBN DESCR
1000 101 966431502 Desc0
1001 102 966431503 Desc1
1002 103 966431504 Desc2
1003 104 966431505 Desc3
1004 104 966431505 Desc3
1005 105 966431506 Desc4
6 rows selected.
But i dont know how to do this type of program with out using prepared statements. i tried, and i got exception *"Missing Expression"* .
Once again Thank You very much for your clue.
Maybe you are looking for
-
Cannot disable automatic attachment preview in Mavericks Mail?
Hello All, I noticed after upgrading to Mavericks that Apple Mail started automatically previewing attachments again... I had disabled this in previous versions of OS X. I tried to disable this again in the terminal using: defaults write com.apple.m
-
How do I determine what type of Solaris installation I have ?
I'm runnig "SunOS PSP 5.8 Generic_108528-13 sun4u sparc SUNW,Sun-Fire-480R" but I would like to determine the type of Solaris installation I have....do I have a a "development" installation ? Do I have all the SUNW developer packages ? Also what are
-
SEM Allocations - How do you make the Distribution work by Period not ***?
I have configured an SEM BPS Allocation function. The function appears to work as expected except for the distribution values that are being used in the calculation. The distribution values being used are the cumulative total and not the period value
-
Hi, Can anyone give the exact definition of what AOL is? And what all setups comes under AOL? Thanks in Advance.
-
MI IPOD "LITERALLY" FROZE...IS THIS BAD...
MY ROOM IS COLD BECAUSE ITS IN THE BACK OF MY HOUSE AND AT NIGHT MY IPOD FELL OF MY BED AND ONTO THE FLOOR AND WHEN I WOKE UP TO LISTEN TO IT IT WAS JUST A BROKE BATTERY ON IT AND IT WAS REALLY COLD SO I WARMED IT UP AND CHARGED IT AND IT WAS OK BUT