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I need to select 50 fields from a table. But the 20th field must be divided by 100. If this was not the case, I could simply write select * from table. In this case how could I select without having to write all columns.

It is a good practice to mention all columns explicitly but when I want to have a quick view of the data for a short analysis, I would prefer something like select *(1-19 fields) , 20th field/100 , *(21-50 fields) from table.

Is this possible in oracle?

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If there is any reasonable way you can do the "divide the 20th field by 100" procedure somewhere else, you probably should. –  zebediah49 May 24 '12 at 7:07
Do you care about preserving the order of the columns? –  Bo. May 24 '12 at 7:07
@Bo. No i dont need to preserve the order. –  chemicalkt May 24 '12 at 7:19

5 Answers 5

up vote 1 down vote accepted

You certainly wouldn't want to do this in production code where you would want to explicitly list the column names. And you'd probably want to either put the computation in a function or put the entire query in a view. But if you're just doing a quick bit of analysis, you can easily enough put the computed column at the beginning (or the end) of the column list with something like this

SELECT column20/100 computed_col20, a.*
  FROM table_name a
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One of the best tools you can have in developing SQL is a decent text editor with a column editing mode. There's an enhancement request in for SQL Developer to provide this, but in the meantime Notepad++ is a decent choice.

For a task like this you can get the column names by DESC of a table or view, add aligned commas using a column-based editor, and modify the one column that you need to.

It's also handy should you need to, for example, apply a count on most columns and add a column name.

The example below took about 45 seconds:

          OWNER                                                        ,
          count(TABLE_NAME               ) c_TABLE_NAME                ,
          count(TABLESPACE_NAME          ) c_TABLESPACE_NAME           ,
          count(CLUSTER_NAME             ) c_CLUSTER_NAME              ,
          count(IOT_NAME                 ) c_IOT_NAME                  ,
          count(STATUS                   ) c_STATUS                    ,
          count(PCT_FREE                 ) c_PCT_FREE                  ,
          count(PCT_USED                 ) c_PCT_USED                  ,
          count(INI_TRANS                ) c_INI_TRANS                 ,
          count(MAX_TRANS                ) c_MAX_TRANS                 ,
          count(INITIAL_EXTENT           ) c_INITIAL_EXTENT            ,
          count(NEXT_EXTENT              ) c_NEXT_EXTENT               ,
          count(MIN_EXTENTS              ) c_MIN_EXTENTS               ,
          count(MAX_EXTENTS              ) c_MAX_EXTENTS               ,
          count(PCT_INCREASE             ) c_PCT_INCREASE              ,
          count(FREELISTS                ) c_FREELISTS                 ,
          count(FREELIST_GROUPS          ) c_FREELIST_GROUPS           ,
          count(LOGGING                  ) c_LOGGING                   ,
          count(BACKED_UP                ) c_BACKED_UP                 ,
          count(NUM_ROWS                 ) c_NUM_ROWS                  ,
          count(BLOCKS                   ) c_BLOCKS                    ,
          count(EMPTY_BLOCKS             ) c_EMPTY_BLOCKS              ,
          count(AVG_SPACE                ) c_AVG_SPACE                 ,
          count(CHAIN_CNT                ) c_CHAIN_CNT                 ,
          count(AVG_ROW_LEN              ) c_AVG_ROW_LEN               ,
          count(NUM_FREELIST_BLOCKS      ) c_NUM_FREELIST_BLOCKS       ,
          count(DEGREE                   ) c_DEGREE                    ,
          count(INSTANCES                ) c_INSTANCES                 ,
          count(CACHE                    ) c_CACHE                     ,
          count(TABLE_LOCK               ) c_TABLE_LOCK                ,
          count(SAMPLE_SIZE              ) c_SAMPLE_SIZE               ,
          count(LAST_ANALYZED            ) c_LAST_ANALYZED             ,
          count(PARTITIONED              ) c_PARTITIONED               ,
          count(IOT_TYPE                 ) c_IOT_TYPE                  ,
          count(TEMPORARY                ) c_TEMPORARY                 ,
          count(SECONDARY                ) c_SECONDARY                 ,
          count(NESTED                   ) c_NESTED                    ,
          count(BUFFER_POOL              ) c_BUFFER_POOL               ,
          count(ROW_MOVEMENT             ) c_ROW_MOVEMENT              ,
          count(GLOBAL_STATS             ) c_GLOBAL_STATS              ,
          count(USER_STATS               ) c_USER_STATS                ,
          count(DURATION                 ) c_DURATION                  ,
          count(SKIP_CORRUPT             ) c_SKIP_CORRUPT              ,
          count(MONITORING               ) c_MONITORING                ,
          count(CLUSTER_OWNER            ) c_CLUSTER_OWNER             ,
          count(DEPENDENCIES             ) c_DEPENDENCIES              ,
          count(COMPRESSION              ) c_COMPRESSION               ,
          count(DROPPED                  ) c_DROPPED
from     dba_tables
group by owner
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No, if its too much work to type out all the columns use a tool such as SQLDEVELOPER which will allow you to drag a table into the edit area and will give you the complete select statement.

Also, it's better to explicitly state the column names. If for some reason the table changes and a column is dropped your query will stop working.

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Good point about the need for explicit column names. –  APC May 24 '12 at 8:54

The data dictionary is your friend:

select column_name || ','
from all_tab_columns
where table_name = 'SOME_TABLE'
and owner = 'SOME_OWNER'
order by column_id;

Run that in your IDE and copy/paste results into your code. Modify as needed of course to suit your output needs.

Don't be lazy, I know its tempting to say select *, but its much better to specify the columns explicitly. The code above will make this much less painful than writing out each column by hand.

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You could just write the name of every column and in the 20th column write "column/20". May seem like a lot of work, but I don't see any other way.

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